CN110950087A

CN110950087A - Method and device for conveying glass of small high-rise building

Info

Publication number: CN110950087A
Application number: CN201911401211.5A
Authority: CN
Inventors: 马红漫; 惠刚; 苏建阳; 王峤枫; 李京涛; 郭晓龙; 王彤; 李泽丹; 任晓旗; 钱昱赫; 贾洪飞; 张青
Original assignee: Hebei Construction Engineering Group Decoration Engineering Co ltd; Hebei Construction Group Corp Ltd
Current assignee: Hebei Construction Engineering Group Building Decoration Engineering Co., Ltd; Hebei Construction Group Corp Ltd
Priority date: 2019-12-31
Filing date: 2019-12-31
Publication date: 2020-04-03
Anticipated expiration: 2039-12-31
Also published as: CN110950087B

Abstract

The invention provides a method and a device for conveying small high-rise building glass, wherein the method for conveying the building glass comprises the following steps of a, selecting a position for lifting the building glass in a region near a small high-rise building to be provided with the building glass, and then installing a conveying device at the selected position; b. placing a piece of building glass to be lifted on a conveying plane formed by a conveying chain, and fixing the building glass on the conveying chain through a buckle assembly; c. starting a motor, driving a chain wheel to rotate by the motor, driving a conveying chain to lift and convey the building glass to a required position by the chain wheel, and stopping the motor; d. and opening the buckle assembly for locking the architectural glass, and unloading the architectural glass from the conveying chain and carrying the architectural glass to an architectural glass mounting position by constructors to carry out architectural glass mounting work. The method avoids the problem of hoisting the building glass by adopting the pulleys, improves the safety level and reduces the construction cost.

Description

Method and device for conveying glass of small high-rise building

Technical Field

The invention relates to the field of building construction, in particular to a method and a device for conveying glass of a small high-rise building.

Background

After the building is initially built, in order to accelerate the construction efficiency, the glass installation work of the building is often carried out synchronously with other follow-up construction works, a construction site generally only sets up a construction elevator, the elevator is often occupied during glass conveying, and workers can only wait for the elevator to be idle and malfunction when wrong, thereby influencing the construction efficiency of the glass installation work. And sometimes, the work of building glass is not finished, and the construction elevator needs to be dismantled, so that great inconvenience is brought to the conveying and installation of the residual glass. The existing residual glass conveying modes comprise two modes: one is to manually use a pulley block to hoist and convey the glass, and the other is to hoist and convey the glass by using a truck crane; when the glass is conveyed by manual hoisting through the pulley block, the glass is directly fixed by the binding band in the hoisting process, so that the labor consumption and the efficiency are low, the shaking range of the glass in the lifting process is large, and potential safety hazards exist; and the construction cost of glass installation can be increased by using a truck crane to hoist and convey glass.

Disclosure of Invention

The invention aims to provide a method for conveying glass of a small high-rise building, which aims to solve the problems of low efficiency, high cost and potential safety hazard when the glass is conveyed by adopting the prior art.

The second purpose of the invention is to provide a glass conveying device for small high-rise buildings, which is convenient for conveying and installing glass, thereby improving the construction efficiency.

One of the objects of the invention is achieved by: a method for conveying glass of a small high-rise building comprises the following steps:

a. selecting a position for lifting the architectural glass in the vicinity of a small high-rise building to which the architectural glass is to be installed, and then installing the conveying device at the selected position;

the conveying device comprises an upper bracket fixed at the upper part of the building, a lower bracket fixed on the ground near the building and a conveying mechanism arranged between the upper bracket and the lower bracket, wherein the conveying mechanism comprises at least two groups of chain wheel sets and a motor for driving the chain wheel sets to synchronously convey; the chain wheel group comprises a first chain wheel arranged on the upper support, a second chain wheel arranged on the lower support and a conveying chain sleeved on the first chain wheel and the second chain wheel in a sleeved mode, planes formed by the conveying chains on the chain wheel group in a surrounding mode are vertical planes and are parallel to each other in the conveying direction of the building glass, the conveying chains on the chain wheel group are spliced into a conveying plane for placing the building glass in the conveying direction of the building glass, the distance between the two conveying chains located on the outermost side is not more than the length of the building glass to be conveyed, and a buckle assembly for locking and clamping the building glass is further arranged on each conveying chain;

b. placing a piece of building glass to be lifted on a conveying plane formed by a conveying chain, and fixing the building glass on the conveying chain through a buckle assembly;

c. starting a motor, driving a chain wheel to rotate by the motor, driving a conveying chain to lift and convey the building glass to a required position by the chain wheel, and stopping the motor;

d. and opening the buckle assembly for locking the architectural glass, and unloading the architectural glass from the conveying chain and carrying the architectural glass to the architectural glass mounting position by constructors.

The clamping components on two adjacent conveying chains are symmetrically arranged, each clamping component comprises a U-shaped piece and a clamping plate, one end of each clamping plate is hinged to the bottom of the U-shaped piece, one side wall of each U-shaped piece is fixedly connected with one side of the conveying chain for conveying the architectural glass, and the side wall of each U-shaped piece is used for supporting the lower edge of the architectural glass to be conveyed; the axial lead of a hinged shaft between the U-shaped part and the clamping plate is vertical to the conveying plane of the architectural glass; the cardboard is used for hindering the card and is located the last border of waiting to carry architectural glass of bearing on the adjacent buckle subassembly of this buckle subassembly below.

The other side edge of the U-shaped part of the buckle component inclines outwards.

The conveying plane is a vertical plane.

The second purpose of the invention is realized by the following steps: a glass conveying device for a small high-rise building comprises an upper bracket fixed at the upper part of the building, a lower bracket fixed on the ground near the building and a conveying mechanism arranged between the upper bracket and the lower bracket, wherein the conveying mechanism comprises at least two groups of chain wheel sets and motors for driving the chain wheel sets to synchronously convey; the chain wheel set comprises a first chain wheel arranged on the upper support, a second chain wheel arranged on the lower support and a conveying chain sleeved on the first chain wheel and the second chain wheel in a sleeved mode, planes formed by the conveying chains on the chain wheel set in a surrounding mode are vertical planes and are parallel to each other in the conveying direction of the building glass, the conveying chains on the chain wheel set are spliced into a conveying plane for placing the building glass in the conveying direction of the building glass, the distance between the two conveying chains located on the outermost side is not more than the length of the building glass to be conveyed, and a buckle assembly for locking and clamping the building glass is further arranged on each conveying chain.

The conveying plane is a vertical plane.

The invention has simple structure and convenient operation, adopts the conveying mode of fixing the architectural glass on the conveying chain to convey the architectural glass, not only simplifies the conveying of the architectural glass, but also solves the problem that the construction elevator occupies to delay the installation and construction of the architectural glass, lightens the labor intensity of workers and also improves the construction efficiency. The U-shaped piece on the buckle component is matched with the clamping plate on the adjacent buckle component, so that the building glass can be prevented from shaking or falling off in the lifting and conveying process. The invention avoids the problem of hoisting the building glass by adopting the pulley, improves the safety level and reduces the construction cost.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the upper half of the transfer mechanism.

Fig. 3 is a schematic structural view of the buckle assembly mounted on the conveying chain.

In the figure: 1. a building; 2. a conveying chain; 3. an upper bracket; 4. a lower bracket; 5. a buckle assembly; 6. a first sprocket; 7. a U-shaped member; 8. and (4) clamping the board.

Detailed Description

Example 1: a method for conveying glass of small high-rise buildings.

As shown in fig. 1, 2 and 3, the method for conveying the glass of the small high-rise building comprises the following steps:

a. selecting a position for lifting the architectural glass in the vicinity of the small high-rise building 1 to which the architectural glass is to be installed, and then installing the conveyor at the selected position;

the conveying apparatus of the present invention includes an upper frame 3 for fixing at a temporary construction opening provided at an upper portion of a building 1, a lower frame 4 for fixing on the ground near the building 1, and a conveying mechanism installed between the upper frame 3 and the lower frame 4.

The transmission mechanism comprises a plurality of groups of chain wheel groups and a motor (not shown in the figure) for driving the chain wheel groups to transmit, wherein each chain wheel group comprises a first chain wheel 6 arranged on the upper bracket 3, a second chain wheel arranged on the lower bracket 4 and a conveying chain 2 sleeved on the first chain wheel 6 and the second chain wheel in a ring mode. The transmission device in this implementation is provided with two sets, and each set of chain wheel set is provided with a first chain wheel 6, two second chain wheels and a conveying chain 2 sleeved on the first chain wheel 6 and the second chain wheels in a ring manner. The central lines of the first chain wheel 6 and the second chain wheel are parallel and horizontally arranged, the central lines of the two second chain wheels are positioned on the same horizontal plane, and the plane enclosed by the conveying chain 2 sleeved on the first chain wheel 6 and the second chain wheel in a ring mode is a vertical plane. The vertical planes enclosed by the conveying chains 2 on the two sets of chain wheel sets are parallel to each other, and the conveying chains 2 are spliced to form a conveying plane for conveying the building glass, and the conveying plane is a vertical plane and is close to the building 1, so that the conveying and the installation of the building glass are facilitated. The distance between two conveying chains 2 at the outermost side of the conveying device is not more than the length of the architectural glass to be conveyed, and a buckle assembly 5 for locking the architectural glass is further arranged on the conveying chains 2.

A plurality of buckle components 5 are uniformly distributed on each conveying chain 2, and the buckle components 5 on two adjacent conveying chains 2 are symmetrically arranged. The buckle assembly 5 comprises a U-shaped part 7 and a clamping plate 8 with one end hinged to the bottom of the U-shaped part 7, wherein one side wall of the U-shaped part is fixedly connected with one side of the conveying architectural glass of the conveying chain 2. The U-shaped grooves of the U-shaped parts on the conveying chain 2 are positioned on the same horizontal plane, and are matched with each other when the glass is conveyed to jointly support the lower edge of the architectural glass to be conveyed; the axial lead of a hinged shaft between the U-shaped part 7 and the clamping plate 8 is vertical to the conveying plane of the architectural glass; cardboard 8 is used for hindering the card and is located the last border of waiting to carry architectural glass of bearing on the adjacent buckle subassembly of this buckle subassembly below. In order to facilitate the placing of the architectural glass to be conveyed on the U-shaped element 7 by the staff, the outer side edges of the U-shaped element 7 of the inventive catch assembly 5 are inclined outwards.

b. A piece of architectural glass to be lifted is placed on a conveying plane formed on the conveying chain 2, and the architectural glass is fixed on the conveying chain 2 through the buckle assembly 5.

c. And starting the motor, driving the chain wheel to rotate by the motor, driving the conveying chain 2 to lift and convey the building glass to a required position by the chain wheel, and closing the motor.

d. And (5) opening the buckle assembly 5 for locking the architectural glass, and detaching the architectural glass from the conveying chain 2 and conveying the architectural glass to an architectural glass mounting position by constructors to carry out architectural glass mounting work.

Example 2: a glass conveying device for small high-rise buildings.

As shown in fig. 1, 2 and 3, the transport apparatus of the present invention includes an upper frame 3 for fixing at a temporary construction opening provided at an upper portion of a building 1, a lower frame 4 for fixing on the ground near the building 1, and a transfer mechanism installed between the upper frame 3 and the lower frame 4.

The transmission mechanism comprises a plurality of groups of chain wheel groups and a motor (not shown in the figure) for driving the chain wheel groups to transmit, wherein the chain wheel groups comprise a first chain wheel 6 arranged on the upper bracket 3, a second chain wheel arranged on the lower bracket 4 and a conveying chain 2 sleeved on the first chain wheel 6 and the second chain wheel in a ring mode. The transmission device in this implementation is provided with two sets, and each set of chain wheel set is provided with a first chain wheel 6, two second chain wheels and a conveying chain 2 sleeved on the first chain wheel 6 and the second chain wheels in a ring manner. The central lines of the first chain wheel 6 and the second chain wheel are parallel and horizontally arranged, the central lines of the two second chain wheels are positioned on the same horizontal plane, and the plane enclosed by the conveying chain 2 sleeved on the first chain wheel 6 and the second chain wheel in a ring mode is a vertical plane. The vertical planes enclosed by the conveying chains 2 on the two sets of chain wheel sets are parallel to each other, and the conveying chains 2 are spliced to form a conveying plane for conveying the building glass, and the conveying plane is a vertical plane and is close to the building 1, so that the conveying and the installation of the building glass are facilitated. The distance between two conveying chains 2 at the outermost side of the conveying device is not more than the length of the architectural glass to be conveyed, and a buckle assembly 5 for locking the architectural glass is further arranged on the conveying chains 2.

Claims

1. A method for conveying glass of a small high-rise building is characterized by comprising the following steps:

the conveying device comprises an upper bracket fixed on the upper part of the building, a lower bracket fixed on the ground near the building and a conveying mechanism arranged between the upper bracket and the lower bracket, wherein the conveying mechanism comprises at least two groups of chain wheel sets and a motor for driving the chain wheel sets to synchronously convey; the chain wheel group comprises a first chain wheel arranged on the upper support, a second chain wheel arranged on the lower support and a conveying chain sleeved on the first chain wheel and the second chain wheel in a sleeved mode, planes formed by the conveying chains on the chain wheel group in a surrounding mode are vertical planes and are parallel to each other in the conveying direction of the building glass, the conveying chains on the chain wheel group are spliced into a conveying plane for placing the building glass in the conveying direction of the building glass, the distance between the two conveying chains located on the outermost side is not more than the length of the building glass to be conveyed, and a buckle assembly for locking and clamping the building glass is further arranged on each conveying chain;

b. putting a piece of building glass to be lifted on a conveying plane formed by splicing conveying chains, and fixing the building glass on the conveying chains through buckle assemblies;

d. and opening the buckle assembly for locking the architectural glass, and unloading the architectural glass from the conveying chain and carrying the architectural glass to an architectural glass mounting position by constructors to carry out architectural glass mounting work.

2. The method for conveying the small high-rise building glass according to claim 1, wherein a plurality of buckle assemblies are uniformly distributed on each conveying chain, the buckle assemblies on two adjacent conveying chains are symmetrically arranged, each buckle assembly comprises a U-shaped member and a clamping plate, one end of each clamping plate is hinged to the bottom of the U-shaped member, one side wall of each U-shaped member is fixedly connected with one side of the conveying chain, which is used for supporting the lower edge of the building glass to be conveyed; the axial lead of a hinged shaft between the U-shaped part and the clamping plate is vertical to the conveying plane of the architectural glass; the cardboard is used for hindering the card and is located the last border of waiting to carry architectural glass of bearing on the adjacent buckle subassembly of this buckle subassembly below.

3. The method for conveying small high-rise building glass according to claim 2, wherein the other side edge of the U-shaped member of the snap assembly is inclined outward.

4. The method for conveying small high-rise building glass according to claim 1, wherein the conveying plane is a vertical plane.

5. A glass conveying device for a small high-rise building is characterized by comprising an upper bracket, a lower bracket and a conveying mechanism, wherein the upper bracket is used for being fixed at the upper part of the building, the lower bracket is used for being fixed on the ground near the building, the conveying mechanism is arranged between the upper bracket and the lower bracket, and the conveying mechanism comprises at least two groups of chain wheel sets and a motor for driving the chain wheel sets to synchronously convey; the chain wheel set comprises a first chain wheel arranged on the upper support, a second chain wheel arranged on the lower support and a conveying chain sleeved on the first chain wheel and the second chain wheel in a sleeved mode, planes formed by the conveying chains on the chain wheel set in a surrounding mode are vertical planes and are parallel to each other in the conveying direction of the building glass, the conveying chains on the chain wheel set are spliced into a conveying plane for placing the building glass in the conveying direction of the building glass, the distance between the two conveying chains located on the outermost side is not more than the length of the building glass to be conveyed, and a buckle assembly for locking and clamping the building glass is further arranged on each conveying chain.

6. The glass conveying device for the small high-rise buildings according to claim 5, wherein a plurality of buckle assemblies are uniformly distributed on each conveying chain, the buckle assemblies on two adjacent conveying chains are symmetrically arranged, each buckle assembly comprises a U-shaped part and a clamping plate with one end hinged to the bottom of the U-shaped part, one side wall of the U-shaped part is fixedly connected with one side of the conveying chain for conveying the building glass, and the U-shaped part is used for supporting the lower edge of the building glass to be conveyed; the axial lead of a hinged shaft between the U-shaped part and the clamping plate is vertical to the conveying plane of the architectural glass; the cardboard is used for hindering the card and is located the last border of waiting to carry architectural glass of bearing on the adjacent buckle subassembly of this buckle subassembly below.

7. The glass transporting device for small high-rise buildings according to claim 6, wherein the other side edge of the U-shaped member of the locking assembly is inclined outward.

8. The glass conveying device for small high-rise buildings according to claim 5, wherein the conveying plane is a vertical plane.