CN219509225U - Auxiliary installation device for inverted conical glass curtain wall - Google Patents

Abstract

The utility model discloses an auxiliary installation device of an inverted cone-shaped glass curtain wall, which comprises a lifting mechanism, a first connecting piece (1), a second connecting piece (2), a first inhaul cable (3), a third connecting piece (4), a fourth connecting piece (5) and a second inhaul cable (6); the glass curtain wall (7) to be installed is hung on the lifting mechanism, so that the glass curtain wall to be installed is positioned at the outer side of the installation position; the first connecting piece is detachably connected with one side of the lower part of the glass curtain wall to be installed, the second connecting piece is detachably connected with one side of the upper part of the installed glass curtain wall (8), and the first inhaul cable is arranged on the first connecting piece and the second connecting piece in a penetrating way; the third connecting piece is detachably connected with the other side of the lower part of the glass curtain wall to be installed, the fourth connecting piece is detachably connected with the other side of the upper part of the glass curtain wall to be installed, and the second inhaul cable is arranged on the third connecting piece and the fourth connecting piece in a penetrating mode. The utility model can solve the problems of time and labor waste and difficult control of the angle adjustment in the installation process of the inverted cone glass curtain wall in the prior art.

Description

Auxiliary installation device for inverted conical glass curtain wall

Technical Field

The utility model relates to auxiliary construction equipment of a glass curtain wall, in particular to an auxiliary installation device of an inverted cone-shaped glass curtain wall.

Background

In the building construction process, the glass curtain wall is widely applied to the outer vertical surfaces of all building structures by the advantages of good light transmittance, good decoration and the like. The outer vertical surface of the traditional building structure is a vertical surface or a conical surface, and the glass curtain wall can be constructed in a hoisting mode. However, for the outer vertical surface of the inverted cone-shaped building structure, a certain included angle exists between the plane of the glass curtain wall and the outer vertical surface of the inverted cone-shaped building structure after the glass curtain wall is lifted to a specified height, and the glass curtain wall can be installed only by manually rotating and adjusting the angle of the glass curtain wall. In the process of manually adjusting the angle of the glass curtain wall, the following problems exist:

1. four constructors are usually required to conduct angle adjustment on one glass curtain wall, and for the glass curtain wall with the ultra-large specification, more constructors are required, and time and labor are wasted.

2. Because glass curtain wall hangs in the eminence, and glass curtain wall's weight is great, is difficult for controlling glass curtain wall's push-and-pull force when high air conditioner festival glass curtain wall angle, leads to glass curtain wall and building structure to collide and damage easily, extravagant material, extension time limit for a project, increase construction cost.

Therefore, the auxiliary installation device for the inverted cone-shaped glass curtain wall is required to be provided, and the problems that time and labor are wasted and the angle of adjustment is not easy to control in the installation process of the inverted cone-shaped glass curtain wall in the prior art can be solved.

Disclosure of Invention

The utility model aims to provide an auxiliary installation device for an inverted cone-shaped glass curtain wall, which can solve the problems of time and labor consumption and difficulty in controlling an adjusting angle in the installation process of the inverted cone-shaped glass curtain wall in the prior art.

The utility model is realized in the following way:

an auxiliary installation device of an inverted cone-shaped glass curtain wall comprises a lifting mechanism, a first connecting piece, a second connecting piece, a first inhaul cable, a third connecting piece, a fourth connecting piece and a second inhaul cable; the glass curtain wall to be installed is hung on the connecting end of the lifting mechanism, so that the glass curtain wall to be installed is positioned at the outer side of the installation position; the first connecting piece is detachably connected to one side of the lower part of the glass curtain wall to be installed, the second connecting piece is detachably connected to one side of the upper part of the installed glass curtain wall, and the first inhaul cable is arranged on the first connecting piece and the second connecting piece in a penetrating manner; the third connecting piece is detachably connected to the other side of the lower part of the glass curtain wall to be installed, the fourth connecting piece is detachably connected to the other side of the upper part of the installed glass curtain wall, and the second inhaul cable is arranged on the third connecting piece and the fourth connecting piece in a penetrating mode.

One end of the first inhaul cable is fixedly connected with the first connecting piece, and the other end of the first inhaul cable movably penetrates through the second connecting piece.

One end of the second inhaul cable is fixedly connected with the third connecting piece, and the other end of the second inhaul cable movably penetrates through the fourth connecting piece.

The first connecting piece and the third connecting piece are sucking discs, the sucking ends of the first connecting piece and the third connecting piece are detachably sucked on two sides of the bottom of the glass curtain wall to be installed respectively, the free end of the first connecting piece is fixedly connected with one end of the first inhaul cable, and the free end of the third connecting piece is fixedly connected with one end of the second inhaul cable.

The second connecting piece and the fourth connecting piece are sucking discs, the sucking ends of the second connecting piece and the fourth connecting piece are detachably sucked on two sides of the upper portion of the installed glass curtain wall respectively, the other end of the first inhaul cable movably penetrates through the free end of the second connecting piece, and the other end of the second inhaul cable movably penetrates through the free end of the fourth connecting piece.

The bottom edge of the glass curtain wall to be installed is provided with a flexible filler strip, so that the first inhaul cable and the second inhaul cable can be propped against the flexible filler strip.

The lifting mechanism comprises an automobile crane and an electric sucking disc, the free ends of the electric sucking discs are connected to slings of the automobile crane, and a plurality of adsorption ends of the electric sucking discs are adsorbed to the middle of the upper portion of the glass curtain wall to be installed, so that the glass curtain wall to be installed is inclined or vertical to be located outside the installation position through the electric sucking discs of the automobile crane.

Compared with the prior art, the utility model has the following beneficial effects:

1. the utility model is provided with the connecting pieces and the inhaul cable, the two connecting pieces are respectively connected with the lower part of the glass curtain wall to be installed and the upper part of the glass curtain wall to be installed, one end of the inhaul cable is fixed on the connecting piece of the glass curtain wall to be installed, the other end of the inhaul cable is movably penetrated on the connecting piece of the glass curtain wall to be installed, the glass curtain wall to be installed is pulled by the flexible inhaul cable to rotate to the installation angle of the inverted cone shape, and the pulling force applied by the glass curtain wall to be installed is controllable, thereby meeting the installation requirement of the inverted cone-shaped glass curtain wall, being beneficial to assisting the rapid and safe construction of the inverted cone-shaped glass curtain wall, greatly reducing the consumption of manpower and working hours and reducing the construction cost.

2. The flexible filler strip and the connecting piece are arranged, so that the flexible filler strip can prevent the inhaul cable from directly contacting the glass curtain wall to be installed, prevent the glass curtain wall to be installed from being worn by the inhaul cable, effectively protect the glass curtain wall to be installed, and simultaneously, the flexible filler strip is used as the connecting piece to be adsorbed on the glass curtain wall to be installed and installed, thereby being convenient for the arrangement of the inhaul cable, avoiding damage to the glass, reducing the waste of materials and effectively controlling the construction cost.

Drawings

FIG. 1 is a schematic side view of an installation apparatus for assisting an inverted cone glass curtain wall according to the present utility model;

fig. 2 is a schematic view of the front view construction of the auxiliary installation device of the inverted cone glass curtain wall.

In the figure, 1 first connecting piece, 2 second connecting piece, 3 first cable, 4 third connecting piece, 5 fourth connecting piece, 6 second cable, 7 to install glass curtain wall, 8 installed glass curtain wall, 9 flexible filler strip, 10 car hanging, 11 electric sucking disc, 12 variable cross section I-steel, 13 stainless steel glass presss from both sides.

Detailed Description

The utility model will be further described with reference to the drawings and the specific examples.

Referring to fig. 1 and 2, an auxiliary installation device of an inverted cone-shaped glass curtain wall comprises a lifting mechanism, a first connecting piece 1, a second connecting piece 2, a first inhaul cable 3, a third connecting piece 4, a fourth connecting piece 5 and a second inhaul cable 6; the glass curtain wall 7 to be installed is hung on the connecting end of the lifting mechanism, so that the glass curtain wall 7 to be installed is positioned at the outer side of the installation position; the first connecting piece 1 is detachably connected to one side of the lower part of the glass curtain wall 7 to be installed, the second connecting piece 2 is detachably connected to one side of the upper part of the installed glass curtain wall 8, and the first inhaul cable 3 is arranged on the first connecting piece 1 and the second connecting piece 2 in a penetrating way; the third connecting piece 4 is detachably connected to the other side of the lower part of the glass curtain wall 7 to be installed, the fourth connecting piece 5 is detachably connected to the other side of the upper part of the installed glass curtain wall 8, and the second inhaul cable 6 is arranged on the third connecting piece 4 and the fourth connecting piece 5 in a penetrating mode.

The glass curtain wall 7 to be installed is lifted to the installation height through the lifting mechanism, and at the moment, the glass curtain wall 7 to be installed is in a positive conical surface state or in a vertical state and is positioned at the outer side of the installation position. The first stay rope 3 is connected between the lower side of the glass curtain wall 7 to be installed and the upper side of the installed glass curtain wall 8 through the first connecting piece 1 and the second connecting piece 2, the second stay rope 6 is connected between the other side of the lower side of the glass curtain wall 7 to be installed and the other side of the upper side of the installed glass curtain wall 8 through the third connecting piece 4 and the fourth connecting piece 5, and the glass curtain wall 7 to be installed is relatively stably placed between the lifting mechanism and the installed glass curtain wall 8 by utilizing the first stay rope 3 and the second stay rope 6.

One or two constructors synchronously pull the first inhaul cable 3 and the second inhaul cable 6 to form a traction force for the glass curtain wall 7 to be installed, the traction force is high in controllability, operation is safe, the lower part of the glass curtain wall 7 to be installed rotates relative to the lifting mechanism and the installed glass curtain wall 8, accordingly the glass curtain wall 7 to be installed rotates to a reverse conical surface state required by installation from a positive conical surface state or a vertical state, the angle of the glass curtain wall 7 to be installed is consistent with the inclination angle of the variable-section I-steel 12 at the installation position, and installation of the glass curtain wall 7 to be installed is further assisted.

The two connecting pieces and the inhaul cable are in a group, and the number of the connecting pieces and the inhaul cable can be increased or decreased according to the size of the glass curtain wall 7 to be installed in an auxiliary mode. The inhaul cable can adopt flexible inhaul cables such as steel wire ropes and the like, and is convenient for traction control.

One end of the first inhaul cable 3 is fixedly connected with the first connecting piece 1, the other end of the first inhaul cable 3 movably penetrates through the second connecting piece 2, and the first inhaul cable 3 is convenient to pull the glass curtain wall 7 to be installed, so that the first inhaul cable 3 rotates relative to the installed glass curtain wall 8, and the angle is adjusted.

One end of the second inhaul cable 6 is fixedly connected with the third connecting piece 4, the other end of the second inhaul cable 6 movably penetrates through the fourth connecting piece 5, and the second inhaul cable 6 is convenient to pull the glass curtain wall 7 to be installed, so that the second inhaul cable 6 rotates relative to the installed glass curtain wall 8, and the angle is adjusted.

The first connecting piece 1 and the third connecting piece 4 are suckers, so that the absorption ends of the first connecting piece 1 and the third connecting piece 4 are respectively detachably absorbed on two sides of the bottom of the glass curtain wall 7 to be installed, the free end of the first connecting piece 1 is fixedly connected with one end of the first inhaul cable 3, and the free end of the third connecting piece 4 is fixedly connected with one end of the second inhaul cable 6.

The first connecting piece 1 and the third connecting piece 4 are suckers, so that the glass curtain wall 7 to be installed can be reliably adsorbed, and the glass curtain wall 7 to be installed can not be damaged due to convenient disassembly and assembly. The hole is reserved at the free ends of the first connecting piece 1 and the third connecting piece 4, so that the ends of the first inhaul cable 3 and the second inhaul cable 6 are conveniently penetrated and fixedly bound on the free ends of the first connecting piece 1 and the third connecting piece 4, the first connecting piece 1 and the third connecting piece 4 are used as fulcrums, the lower part of the glass curtain wall 7 to be installed generates traction force through the pulling of the first inhaul cable 3 and the second inhaul cable 6, the glass curtain wall 7 to be installed is enabled to rotate to an inverted conical surface state from a positive conical surface state or a vertical state around the connecting end of the lifting mechanism, and the angle adjustment of the glass curtain wall 7 to be installed is achieved.

The second connecting piece 2 and the fourth connecting piece 5 are sucking discs, so that the sucking ends of the second connecting piece 2 and the fourth connecting piece 5 are respectively detachably sucked on two sides of the upper part of the installed glass curtain wall 8, the other end of the first inhaul cable 3 movably penetrates through the free end of the second connecting piece 2, and the other end of the second inhaul cable 6 movably penetrates through the free end of the fourth connecting piece 5.

The second connecting piece 2 and the fourth connecting piece 5 are suckers, so that the installed glass curtain wall 8 can be reliably adsorbed, and the installed glass curtain wall 8 can be conveniently and quickly assembled and disassembled without being damaged. The free ends of the second connecting piece 2 and the fourth connecting piece 5 are reserved with holes, so that the first guy rope 3 and the second guy rope 6 can be conveniently penetrated, the diameter of the holes is slightly larger than the diameters of the first guy rope 3 and the second guy rope 6, and the pulling control of the first guy rope 3 and the second guy rope 6 is facilitated.

The bottom edge of the glass curtain wall 7 to be installed is provided with a flexible filler strip 9, so that the first inhaul cable 3 and the second inhaul cable 6 can be propped against the flexible filler strip 9.

The flexible filler strip 9 can prevent the first inhaul cable 3 and the second inhaul cable 6 from rubbing the bottom edge of the glass curtain wall 7 to be installed when being pulled to cause the damage of the glass curtain wall 7 to be installed, effectively protect the glass curtain wall 7 to be installed, reduce the material waste and control the construction cost. Preferably, the flexible filler strip 9 can be made of rubber, plastic or other materials.

The lifting mechanism comprises an automobile crane 10 and an electric sucking disc 11, the free ends of the electric sucking disc 11 are connected to slings of the automobile crane 10, and a plurality of adsorption ends of the electric sucking disc 11 serve as connection ends of the lifting mechanism to be adsorbed on the middle of the upper portion of the glass curtain wall 7 to be installed, so that the glass curtain wall 7 to be installed is located outside an installation position in an inclined or vertical state through the electric sucking disc 11 by the automobile crane 10.

Preferably, the electric sucking disc 11 can adopt a special lifting sucking disc for the glass curtain wall, the adsorption safety value of which is less than or equal to 400kg, and the electric sucking disc is controlled by electric power to ensure that the electric sucking disc 11 reliably adsorbs the glass curtain wall 7 to be installed, thereby ensuring the safe lifting of the glass curtain wall 7 to be installed by the automobile crane 10. The truck crane 10 can also select other lifting devices according to actual needs.

Referring to fig. 1 and 2, the application method of the utility model in the construction process of the inverted cone glass curtain wall is as follows:

the upper middle position of the glass curtain wall 7 to be installed is adsorbed through four adsorption ends of the electric sucking disc 11, and the glass curtain wall 7 to be installed is lifted to the installation height by the cooperation of the automobile crane 10.

At a position of about three quarters of the upper portion of the installed glass curtain wall 8, suction ends of two suction cups, i.e., the second connector 2 and the fourth connector 5, are symmetrically sucked to both side portions of the installed glass curtain wall 8. Two suckers, namely the suction ends of the first connecting piece 1 and the third connecting piece 4, are symmetrically sucked to two side parts of the glass curtain wall 7 to be installed at the position 10cm above the bottom edge of the glass curtain wall 7 to be installed.

The first connecting piece 1 and the second connecting piece 2 are connected through a flexible first stay rope 3, and one end of the first stay rope 3 is fixed on the free end of the first connecting piece 1; the third connecting piece 4 and the fourth connecting piece 5 are connected through a flexible second inhaul cable 6, and one end of the second inhaul cable 6 is fixed on the free end of the third connecting piece 4.

Flexible materials, namely flexible filler strips 9 are paved at the contact positions of the first inhaul cable 3 and the second inhaul cable 6 and the glass curtain wall 7 to be installed, so that the first inhaul cable 3 and the second inhaul cable 6 are prevented from causing loss on the glass curtain wall 7 to be installed when being pulled.

After the first connecting piece 1, the second connecting piece 2, the first inhaul cable 3, the third connecting piece 4, the fourth connecting piece 5 and the second inhaul cable 6 are firmly installed, the lifting mechanism is kept motionless. The first inhaul cable 3 and the second inhaul cable 6 are pulled manually, so that the first connecting piece 1 and the third connecting piece 4 drive the lower part of the glass curtain wall 7 to be installed to be close to the variable cross section I-steel 12 of the installation position, namely, the glass curtain wall 7 to be installed rotates from a conical surface state to an inverted conical surface state, and the inclined direction and the inclined angle of the outer vertical surface of the building structure are consistent.

After the glass curtain wall 7 to be installed is flush with the installed glass curtain wall 8, manually fine-adjusting the glass curtain wall 7 to be installed, and fixedly installing the glass curtain wall 7 to be installed on the variable cross-section I-steel 12 through the stainless steel glass clips 13 to finish the installation of the inverted cone-shaped glass curtain wall.

The above embodiments are merely preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model, therefore, any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present utility model should be included in the scope of the present utility model.

Claims (7)

1. An auxiliary installation device of an inverted cone glass curtain wall is characterized in that: the lifting mechanism comprises a lifting mechanism, a first connecting piece (1), a second connecting piece (2), a first inhaul cable (3), a third connecting piece (4), a fourth connecting piece (5) and a second inhaul cable (6); the glass curtain wall (7) to be installed is hung on the connecting end of the lifting mechanism, so that the glass curtain wall (7) to be installed is positioned at the outer side of the installation position; the first connecting piece (1) is detachably connected to one side of the lower part of the glass curtain wall (7) to be installed, the second connecting piece (2) is detachably connected to one side of the upper part of the installed glass curtain wall (8), and the first inhaul cable (3) is arranged on the first connecting piece (1) and the second connecting piece (2) in a penetrating mode; the third connecting piece (4) is detachably connected to the other side of the lower part of the glass curtain wall (7) to be installed, the fourth connecting piece (5) is detachably connected to the other side of the upper part of the installed glass curtain wall (8), and the second inhaul cable (6) is arranged on the third connecting piece (4) and the fourth connecting piece (5) in a penetrating mode.

2. The auxiliary installation device for the inverted cone-shaped glass curtain wall according to claim 1, wherein the auxiliary installation device comprises: one end of the first inhaul cable (3) is fixedly connected with the first connecting piece (1), and the other end of the first inhaul cable (3) movably penetrates through the second connecting piece (2).

3. The auxiliary installation device for the inverted cone-shaped glass curtain wall according to claim 1, wherein the auxiliary installation device comprises: one end of the second inhaul cable (6) is fixedly connected with the third connecting piece (4), and the other end of the second inhaul cable (6) movably penetrates through the fourth connecting piece (5).

4. The auxiliary installation device for the inverted cone-shaped glass curtain wall according to claim 1, wherein the auxiliary installation device comprises: the first connecting piece (1) and the third connecting piece (4) are sucking discs, so that the sucking ends of the first connecting piece (1) and the third connecting piece (4) are respectively detachably sucked at two sides of the bottom of the glass curtain wall (7) to be installed, the free end of the first connecting piece (1) is fixedly connected with one end of the first inhaul cable (3), and the free end of the third connecting piece (4) is fixedly connected with one end of the second inhaul cable (6).

5. The auxiliary installation device for the inverted cone-shaped glass curtain wall according to claim 1, wherein the auxiliary installation device comprises: the second connecting piece (2) and the fourth connecting piece (5) are suckers, so that the absorption ends of the second connecting piece (2) and the fourth connecting piece (5) are respectively detachably absorbed on two sides of the upper portion of the installed glass curtain wall (8), the other end of the first inhaul cable (3) movably penetrates through the free end of the second connecting piece (2), and the other end of the second inhaul cable (6) movably penetrates through the free end of the fourth connecting piece (5).

6. The auxiliary installation device for the inverted cone glass curtain wall according to claim 1 or 4, wherein the auxiliary installation device is characterized in that: the bottom edge of the glass curtain wall (7) to be installed is provided with a flexible filler strip (9), so that the first inhaul cable (3) and the second inhaul cable (6) can be propped against the flexible filler strip (9).

7. The auxiliary installation device for the inverted cone-shaped glass curtain wall according to claim 1, wherein the auxiliary installation device comprises: the lifting mechanism comprises an automobile crane (10) and an electric sucking disc (11), wherein the free end of the electric sucking disc (11) is connected to a sling of the automobile crane (10), and a plurality of adsorption ends of the electric sucking disc (11) are adsorbed to the middle of the upper part of a glass curtain wall (7) to be installed, so that the glass curtain wall (7) to be installed is located outside the installation position in an inclined or vertical state through the electric sucking disc (11) by the automobile crane (10).