KR100914692B1 - Apparatus for preventing shaking of construction member using damper - Google Patents

Abstract

The present invention relates to an apparatus for minimizing the shaking caused by wind or other external factors when lifting a building member such as a steel member or various equipment by using a crane during construction. . More particularly, the present invention relates to an anti-shake device for building materials using a damper so as to control shaking during lifting of building members or various equipments in a simpler and safer manner.

The device for preventing shaking of building materials using the damper according to the present invention controls the shaking of building members by on-site personnel, thereby removing the unstable work from the existing construction method including the unstable aerial work. It is effective to prevent possible safety accidents by freeing them from the exposure to accident risks, and the controlled shaking of building members can improve the productivity of steel-bonded works and create a more stable working environment. have.

Description

Anti-shake device for building materials using damper {APPARATUS FOR PREVENTING SHAKING OF CONSTRUCTION MEMBER USING DAMPER}

The present invention relates to an apparatus for minimizing the shaking caused by wind or other external factors when lifting a building member such as a steel member or various equipment by using a crane during construction. . More particularly, the present invention relates to an anti-shake device for building materials using a damper so as to control shaking during lifting of building members or various equipments in a simpler and safer manner.

In general, the steel frame member, one of the main structural members of the building in the construction of the steel frame construction of the construction work is lifted by a crane is moved to the correct position for the work. Since these steel members are moved while hanging on the rope, when the desired speed is reached or stopped after deceleration, the shaking due to the movement of the steel member hanging on the rope, the vibration of the crane itself, the wind, or other causes is caused. Occurs.

The swinging problem of the steel member suspended from the crane rope as described above acts as a barrier to the construction of a safe construction environment, and may also be a problem for the safety of the building itself due to improper assembly when the steel member is assembled.

Generally, currently used dampers include a mechanical damper and a liquid damper. In the case of a mechanical damper, problems such as frequent failures may occur, and thus the utility of the liquid damper is increasing. However, the conventional vibration control method using a damper or the like has a limitation that most of the control from earthquake or wind and the like is autonomous with respect to the building itself rather than a heavy building member.

In order to solve this problem, the existing construction method does not have a special device for controlling the shake of the lifted heavy material, and requires manual operation of a site worker to remove the shake when the building member suspended on the rope is moved. Since this phenomenon inevitably results in the height of the field worker, there is a problem of significantly increasing the probability of occurrence of a safety accident such as a fall. Furthermore, there is a fundamental problem that the shaking of the steel member acts as a barrier for construction automation, which is a recent trend in construction sites.

In order to solve this problem, various attempts have been made according to the prior art. Patent application No. 2005-36379, filed April 29, 2005, discloses a trolley crane movement prevention device that can increase the working speed of the crane and the stability of the crane itself by using a mass damper used for earthquake resistance in high-rise buildings. Doing. However, as shown in Figure 1, the conventional movement preventing device of the trolley crane according to the vibration of the member suspended on the crane in a manner to suppress the vibration caused by the movement of the trolley by adding a damper to the rear of the crane boom. Since the weight of the vibration suppressing device is suppressed, the crane is rather burdened, and furthermore, there is a problem of causing damage to the suppressing device in the event of a gust.

In addition, Patent Application No. 2000-44976, filed on August 3, 2000, is provided with a support for supporting an antenna-type multi-stage cylinder installed between a trolley installed on a crane and a spreader, and the support is fastened to an arm to shake the spreader. An anti-shake device for preventing spreads is disclosed. However, as shown in FIG. 2, the shake preventing device absorbs the shaking and the impact of the spreader attached to the member to be transported by installing a damper on the support, thereby preventing the shaking occurring during the transportation of the member. This is a burden on capacity, expensive and complicated in configuration.

The present invention has been created to solve the problems of the conventional techniques as described above, to reduce the burden of the lifting capacity to the crane itself in a cheaper and simpler way to control the vibration, sudden shaking or / and rotation of the heavy lifting The damper is attached to the building materials that are lifted by using a damper to control the shaking of the heavy lifting material to prevent the safety accident of the construction site caused by the construction site and to place the lifted heavy material in the proper position. It is an object of the present invention to provide an anti-shake device for used building materials.

In order to achieve the above object, the present invention consists of a body portion and four leg portions, the body portion and the four leg portions are connected to each other, the body portion of the hollow configuration, and flows in the body portion building materials Construction using a damper, characterized in that consisting of a liquid receiving portion containing a liquid for controlling the inertia against shaking, and a binding means including a fastening screw portion and a hinge fastening portion which is respectively installed at four corners of the liquid receiving portion Anti-shake of the material is provided.

According to a preferred embodiment of the present invention, the body portion and the four leg portions made up of the body portion and the four leg portions connected to each other and the hollow body configuration, and the flow in the body portion of the building material Construction using a damper, characterized in that consisting of a liquid receiving portion containing a liquid for controlling the inertia against shaking, and a magnetic binding means that is installed on the liquid receiving portion and can be magnetically attached to the lower surface of the flange of the steel member Anti-shake of the material is provided.

According to another embodiment of the present invention, the body portion and the four leg portions made up of the body portion and the four leg portions connected to each other and the hollow body configuration, and the flow of the building material in the body portion shake of building materials A large sized anti-shake device provided in a building includes a liquid container including a liquid to control the inertia of the container, and a magnetic binding unit installed on the liquid container and magnetically attached to a lower surface of the flange of the steel member. It can also be used for shaking control of equipment.

According to another embodiment of the present invention, the fastening means is composed of two fastening screw portion and the hinge fastening portion formed integrally to the part fastened to the flange portion of the steel frame member, to control the inertia of the shaking of building materials The liquid may be made of a fluid.

The device for preventing shaking of building materials using dampers according to the present invention is a safety accident of workers by removing unsafe work from the existing construction method that includes unstable aerial work by controlling the shaking of building members by field workers. It is effective to prevent possible safety accidents by freeing them from exposure to risks, and the controlled shaking of the building members can improve the productivity of steel-bonded works and create a more stable working environment. .

In addition, the current construction automation-related robots may be damaged by the robot due to the minute and sudden movement of the assembly member, the rapid shaking of the building member has a problem that makes it difficult to precise control by the robot, using a damper according to the present invention Anti-shake of building materials has the advantage that can accelerate the commercialization of such construction automation technology.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Figure 3 is a view showing a state in which the anti-shake device of the building material is installed using a damper according to the present invention, Figure 4 shows a detailed installation of the anti-shake device.

3 and 4, the anti-shake device 100 of the building material using the damper according to the present invention is attached to the lower flange to the steel frame member 200 is lifted using the rope 300 of the crane To relieve the heavy lifting of the crane itself. In addition, the anti-shake device 100 according to the present invention is detachably attached to both ends of the steel frame member to be lifted to control the shaking, and is attached from the ground before the steel frame member is lifted, the steel member is in place After being installed, it is detached from the member.

Figure 5 shows a specific configuration of the anti-shake device 100 according to the present invention, Figure 6 shows a cutting surface 100 of the anti-shake device according to the present invention, Figure 7 is a cross-sectional view taken in accordance with Figure 6 Shows a liquid flow state of the anti-shake device according to the invention.

As shown in FIGS. 5 to 7, the apparatus 100 for preventing shaking of building materials using a damper according to a preferred embodiment of the present invention includes a liquid container 110 and a binding unit 120.

Looking in more detail with respect to the main configuration of the anti-shake device 100 of the building material using the damper according to the present invention, the liquid receiving portion 110 is the body portion 111 (parts conventionally expressed as a hollow portion) and the liquid ( 112). The main body 111 is composed of a body portion 111A and four leg portions 111B again, and as shown in FIG. 7, the body portion 111A and four leg portions 111B are connected to each other. It is made up of a hollow configuration. In addition, the main body portion 111 is a U-shaped cross-section in the horizontal direction and the longitudinal cross-sectional view is arranged in four directions so as to control the four-way shaking of the building member is lifted in the four directions, the main body disposed in the four directions The liquid 112 that can control the inertia of the shaking of the building member is accommodated in the empty interior of the 111. According to another preferred embodiment of the present invention, the liquid may consist of a fluid that controls the inertia of the shaking of the building material.

In addition, the binding means 120 is composed of a fixing screw portion 121 and the hinge portion 122, the fixing screw portion 121 is installed at each of the four corners of the liquid receiving portion 110 and is formed of a rotational fastening type. The hinge portion 122 is configured such that the fixing screw portion 121 is integrally connected to the anti-shake device 100. Therefore, the anti-shake device 100 according to the present invention is first coupled to the steel member by opening the binding means and coupled to the lower flange of the steel member and then rotate the fixing screw 121 in a clockwise direction, the steel member is After being installed in the correct position, the fixing screw 121 is detached from the steel member by rotating the counterclockwise direction.

According to another preferred embodiment of the present invention, the fastening means 120 is composed of two fastening screw portion 121 and the hinge portion 122 is formed integrally fastened to the flange portion of the steel frame member. It may also be configured more simply. In addition, when the amount of the heavy lifting by the crane is large, the binding means 120 is a magnetic type provided with a magnetic element such as a magnet so that the shake prevention device 100 according to the present invention more easily and easily detachable It may be made of a binding means. The magnetic element such as the magnet is to allow the anti-shake device according to the present invention to be easily attached and detached in consideration of the material properties, eliminating the use of known materials such as electromagnets or permanent magnets that can achieve this purpose. It is not.

The present invention having the configurations and effects described above can be modified in various ways, and the above description is not intended to limit the scope of the present invention. Accordingly, various modifications and variations are possible without departing from the spirit and scope of the invention, and modifications apparent to those skilled in the art to which the invention pertains are included within the scope of the following claims. That is, the shake prevention device of the building material using the damper according to the present invention may be used to shake control of large equipment used in the building.

1 is a block diagram showing a crane equipped with a mass damper according to the prior art

Figure 2 is a view showing a shake preventing device of the spread according to the prior art

Figure 3 shows a state in which the anti-shake device according to the invention is installed

Figure 4 is a detailed view of the installation of the anti-shake device according to the invention

5 is a view showing a specific configuration of the anti-shake device according to the invention

Figure 6 is a view showing a cut surface of the anti-shake device according to the invention

7 is a view showing a liquid flow state of the anti-shake device according to the invention in a cross-sectional view taken in accordance with FIG.

<Description of the symbols for the main parts of the drawings>

100: anti-shake device 110: liquid container

111: main body 112: liquid

120: binding means 121: fixing screw part

122: hinge portion 200: steel member

300: rope for crane

Claims (5)

In the device for preventing shaking during lifting of building materials used in the construction site, the shake prevention device 100 of the building materials A body part 111 formed of a body part 111A and four leg parts 111B, wherein the body part and four leg parts are connected to each other and have a hollow structure; A liquid accommodating part 110 which flows in the main body part 111 and includes a liquid 112 for controlling the inertia of shaking of building materials; Shaking of the building material using a damper, characterized in that consisting of a coupling means 120 including a rotary fastening type screw 121 and a hinge portion 122 which are respectively installed at four corners of the liquid receiving portion 110. Prevention device The damper of claim 1, wherein the fastening means (120) comprises two fastening screw parts (121) and a hinge portion (122) formed integrally with a portion fastened to the flange portion of the steel member. Anti-shake of building materials using In the device for preventing shaking during lifting of building materials used in the construction site, the shake prevention device 100 of the building materials A body part 111 formed of a body part 111A and four leg parts 111B, wherein the body part and four leg parts are connected to each other and have a hollow structure; A liquid accommodating part 110 which flows in the main body part 111 and includes a liquid 112 for controlling the inertia of shaking of building materials; Anti-shake device for building materials using a damper, characterized in that formed in the upper portion of the liquid receiving portion 110 is formed of a magnetic binding means that can be magnetically attached to the lower surface of the flange of the steel frame member 4. The anti-shake device according to any one of claims 1 to 3, wherein the liquid (112) for controlling the inertia with respect to the shaking of the building material is made of a fluid. A body part 111 formed of a body part 111A and four leg parts 111B, wherein the body part and four leg parts are connected to each other and have a hollow structure; A liquid accommodating part 110 which flows in the main body part 111 and includes a liquid 112 for controlling the inertia of shaking of building materials; The shake preventing device, which is installed on the upper portion of the liquid container 110 and is formed of a magnetic binding means that can be magnetically attached to the lower surface of the flange of the steel member, is used for shaking control of a large facility provided in a building. Anti-shake device using damper

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