KR200175154Y1 - Guide apparatus for vibrator of concrete vibrating compaction - Google Patents

Abstract

This paper is used for compaction work in concrete construction or civil construction. The purpose of this paper is to provide concrete vibration guide to easily insert the vibration bar of the vibration compactor into the concrete that is placed in the dense and complexly reinforced parts. To provide a vibrating rod induction device of the compactor, the present invention for achieving the above object is formed to be inclined lower end and bend freely flexible corrugated pipe, the bottom of the corrugated pipe is rotatably bound to open and close the lower portion of the corrugated pipe It is characterized by consisting of a stopper plate, which is installed between the complex reinforcing reinforcement, when the uncured concrete is placed by inserting the vibration bar of the concrete vibration compactor into the inside of the corrugated pipe and pulled out of the poured concrete, Vibration of Vibration Compactor into Unhardened Concrete By inducing them to be inserted easily, the compaction work can be performed faithfully. By resolving the compaction defects generated at the place where many rebars are densely and intricately reinforced when concrete is being reinforced, This is a very useful design.

Description

Guiding Apparatus for Vibration Bar of Concrete Vibration Compactor {Guide Apparatus for Vibrator of Concrete Vibrating Compaction}

This study relates to the auxiliary device of the vibration compactor used for compaction work in the concrete or construction of concrete structures, and particularly to guide the vibration bar of the concrete vibration compactor to be easily inserted into the concrete placed in the complex The present invention relates to a vibrating rod induction device of a concrete vibrating compactor capable of faithfully compacting concrete.

In the case of reinforced concrete structures of construction or civil structures, if there are gaps between the reinforcement and internal sections of the reinforcement, if there are voids and there are voids, the structural strength is not secured and serious defects occur in the reinforced concrete structures such as material separation. . Therefore, in order to fill the unhardened concrete tightly between the reinforcing bar and the bottom corner of the formwork when pouring concrete, an artificial compaction work is essential. Conventionally, in performing the compaction work during concrete pouring, the vibration rod of the vibration compactor is generally pushed into the interior of the poured concrete, vibrated and pulled out to induce the concrete to be filled tightly. In the compaction operation using the vibration bar of the vibration compactor, the smooth place where the reinforcing bars were reinforced at a wide interval was hard to push the vibration rod into the concrete, so there was no big problem. However, it is difficult to insert the vibration bar of the vibration compactor to the required depth because the complex entangled bar acts as an obstacle in the partition structure of the upper part of the bridge or the upper part of the bridge in which the reinforcing bar is complicated. Accordingly, in the past, these parts were picked by workers by long rebars or steel bars, instead of compacting. However, manpower-dependent compaction work was insufficient for compacting work, which resulted in poorly filled concrete where the greatest structural strength is required in reinforced concrete structures, which has become a major cause of poor construction. Recently, in order to solve such a problem, there has been proposed a method of reaching the required depth for the compaction operation of the vibration rod of the vibration compactor using a steel pipe. The method using this steel pipe is to install a steel pipe with a diameter slightly larger than the vibration rod of the vibration compactor between the bars when assembling the reinforcing bars, insert the vibration bar of the vibration compactor into the inside of the steel pipe embedded after concrete pouring, and then pull out the steel pipe. When it is removed, the vibration bar is buried inside the non-hardened concrete where it is placed, causing vibration and using the principle of compacting. However, this method is undesired because it is inevitable to deform the reinforcing bars when the steel pipes are to be arranged between densely arranged rebars, which causes rebars not to be constructed as designed. In addition, since the lower part of the steel pipe is opened, the unhardened concrete being poured is pushed into the steel pipe and fills the inside of the steel pipe, so that the vibration rod of the vibration compactor cannot reach the required depth required for the compacting operation, thereby failing to achieve the desired purpose. It is true.

Accordingly, the present proposal was made to solve the compaction defects generated in the dense and intricately reinforced parts of many reinforcement concrete when placing concrete, the purpose of this paper is to By providing a vibrating rod induction device of the concrete vibrating compactor to guide the vibration rod of the vibration compactor to be easily inserted into the concrete compaction to faithfully perform the compaction work, to implement a higher quality reinforced concrete structure.

1 is an exploded perspective view of a vibration induction device according to an embodiment of the present invention

Figure 2 is a perspective view of the closure plate used as one component in an embodiment of the present invention

Figure 3 is an assembled state cross-sectional view of the vibration bar induction apparatus according to an embodiment of the present invention

Figure 4 is a state of use of the vibration rod induction apparatus according to an embodiment of the present invention

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

10: wrinkle tube 20: stopper 21: hinge

22: binding piece 30: pull string 31: string lock

32: string guide ring 33: string through hole s: bolt

v: vibration rod

The vibration bar induction device of the concrete vibration compactor of the present invention to achieve the above object is formed to be inclined at the lower end and bend freely flexible corrugated pipe, and the bottom of the corrugated pipe can be pivotally bound to open and close the lower part of the corrugated pipe as necessary. Note is composed of a stopper plate as a basic feature of the technical configuration.

This proposal is installed between the reinforcing bars which are intricately reinforced with the lower entrance of the corrugated pipe blocked by a stopper plate, and when the unhardened concrete is placed, the vibration bar of the concrete vibrating compactor is inserted into the inside of the corrugated pipe. Rotating the open plate to open the lower part of the corrugated pipe, and then pulled out of the non-hardened concrete to be poured, faithfully plays a role of inducing the vibration rod of the vibration compactor to be easily inserted into the non-hardened concrete to be poured.

Hereinafter, the technical configuration of the present invention will be described in detail with reference to the accompanying drawings in accordance with a preferred embodiment.

Vibration rod guide device of the concrete vibration compactor according to a preferred embodiment of the present invention has a certain length longer than the thickness of the concrete cross-section to be poured, the bottom portion is formed to be inclined and bend freely, as shown in Figures 1 to 4 The corrugated tube 10 is detachably fitted to the lower end of the corrugated tube 10 to shield the inclined lower inlet of the corrugated tube 10, and one end thereof is fixed to the lower end of the tube wall of the corrugated tube 10. When a physical force is applied to the lower direction of the corrugated pipe 10, the part fitted to the corrugated pipe 10 is detached and rotates around a fixed point with the corrugated pipe 10 to open the lower inlet of the corrugated pipe 10. Characterized by the configuration consisting of a stopper plate 20 to implement the technical idea of the present proposal.

Wherein the corrugated pipe 10 can be applied to both metal corrugated pipe or synthetic resin corrugated pipe as long as it can exhibit the strength that can correspond to the side pressure of the uncured concrete to be poured freely. The stopper plate 20 preferably uses a thin tin plate, and has a plate body that is shaped into an oval shape that matches the lower inlet of the corrugated pipe 10. The stopper plate 20 is provided with a hinge piece 21 extending upwardly at a long axis vertex of the elliptical plate body. The hinge piece 21 is penetrated with a bolt s together with the pipe wall of the corrugated pipe 10, and is fixed to the bolt coupling portion, and becomes a center of rotation of the stopper plate 20 when the bolt inlet opens the lower inlet of the corrugated pipe 10. . In addition, the outer peripheral edge of the stopper plate 20 is provided with a binding piece 22 which is arranged at a predetermined interval and erected upward. The binding piece 22 is used to fasten the stopper plate 20 to the corrugated pipe 10 by alternately fitting the lower end of the corrugated pipe 10 in and out, and a physical force is applied to the lower side of the stopper plate 20. It is detached from the ground corrugated pipe 10. On the other hand, the stopper plate can be opened by pushing the vibrating rod of the vibration compactor in the state bound to the corrugated pipe 10, in the embodiment of the present disclosure is provided with a separate opening and closing means to facilitate its opening. That is, in a preferred embodiment of the present disclosure, as the opening and closing means of the stopper plate 20, a string fixing ring 31 is installed on the lower side opposite the fixing point of the stopper plate 20, and the string guide ring 32 near the fixing point. In the pipe wall of the corrugated pipe (10) located directly above the fixing point to form a through hole 33, while holding the one end of the pull strap 30 to the strap fixing ring (31) The other end of the pull string 30 is continuously passed through the string guide ring 32 and the string through hole 33 to pass through the inside of the corrugated pipe 10, and then pulled toward the upper inlet side of the corrugated pipe 10. It has a technical configuration. Hereinafter, the operation and use state of the present vibration bar guide device according to the embodiment. First, the device according to the present invention is installed between the reinforcing bars in the lower inlet of the corrugated pipe 10 in a state blocked by the stopper plate 20. At this time, by inserting the binding piece 22 formed on the outer periphery of the stopper plate 20 to the lower portion of the corrugated pipe 10 to maintain the stopper plate 20 is fixed. In this work, since the vibration bar guide device according to this paper is composed of a corrugated pipe 10 freely bent, the rebar is flexibly flexed according to the position of the reinforcing bar without the need to bend the reinforcing bar against the design. It can be placed. In addition, since the lower end of the corrugated pipe 10 is inclined and pointed, the present invention can work more easily than when placed and placed between reinforcing bars. Next, when the uncured concrete is poured in the place where the present design is installed, as shown in Figure 4, the vibration rod (v) of the concrete vibration compactor is inserted into the corrugated pipe (10). When the vibrating rod (v) is inserted, by pulling the pull string 30 located on the upper portion of the corrugated pipe 10 to rotate the stopper plate 20, the binding piece 22 and the corrugated pipe 10 of the stopper plate 20 Opening the lower inlet of the corrugated pipe 10 while separating the lower end of the. At this time, the device according to the present disclosure is minimized by the rotation angle required for the opening operation of the stopper plate 20 because the lower end of the corrugated pipe 10 is inclined, it is easily opened by a small force. As such, after opening the lower inlet of the corrugated pipe 10, the corrugated pipe 10 is slowly lifted upward and drawn out of the poured concrete. When the corrugated pipe 10 is pulled out of the unhardened concrete, the concrete is pushed to the vibrating rod side of the vibrating compactor so that the vibrating rod v is buried in the unhardened concrete. Through the above process, the vibration bar guide device according to the present invention guides the vibration bar of the vibration compactor to be easily inserted into the uncured concrete to be poured. Thus, after the vibrating rod (v) is buried in the concrete, applying a vibration force to the concrete for a predetermined time to carry out the compaction work and then slowly pulling up the vibrating rod to complete the compaction of the position. As described above, the present proposal is arranged at predetermined positions that are densely and intricately arranged so as to repeat the above compaction operation, thereby realizing a higher quality reinforced concrete structure filled with concrete. On the other hand, what is important in this paper is the use of flexible corrugated pipes, which are easy to place between intricately reinforcing bars, and the bottom of the corrugated pipes is prevented from being poured by blocking the inflow of the concrete. As a technical idea that the vibration rod insert of the vibration compactor can be easily induced in the present invention, the present invention can be easily carried out by changing the shape of the corrugated pipe or the binding and opening / closing method of the corrugated pipe according to the preferred embodiment described above. As is possible, the description of the other embodiments will be omitted since it can be easily implemented according to the technical idea of the present invention.

According to the vibration bar induction device of the concrete vibration compactor of the present disclosure as described above, the vibration rod of the vibration compactor guides easily to the interior of the concrete to be placed in the complex reinforcement. In addition, the vibration bar induction apparatus according to the present invention is provided with a stopper plate at the bottom of the corrugated pipe, thereby preventing the inflow of unhardened concrete to be poured, so that the vibration rod can be reliably reached to the required depth for compaction work. In addition, according to this proposal, since a corrugated pipe that is free to bend is used, it is possible to flexibly arrange the reinforcing bar according to the position of the reinforcing bar without having to bend it against the design, and to arrange it between the bars. In addition, since the lower end of the corrugated pipe is inclined and pointed, this paper can be more easily worked when installed by placing it between reinforcement bars and at the same time, and the rotation angle of the stopper plate is minimized to facilitate the opening operation. . As described above, the present proposal solves the compaction defects generated in the dense and complexly reinforced parts of the concrete when placing the concrete of the conventional reinforced concrete structure, so that the compacting work of the unhardened concrete to be poured can be faithfully performed. It is a very useful design to realize higher quality reinforced concrete structures.

Claims (2)

A flexible corrugated pipe 10 having a predetermined length longer than the concrete cross section thickness to be poured and formed at an inclined bottom and inclined freely to be bent and detachably fitted to the lower end of the corrugated pipe 10 is inclined of the corrugated pipe 10. It shields the lower inlet and one side end is fixed to the lower end of the pipe wall of the corrugated pipe 10, and when the physical force is applied to the plate body in the downward direction of the corrugated pipe 10, the portion fitted to the corrugated pipe 10 is detached and the corrugated pipe ( As a configuration consisting of a stopper plate 20 that rotates around the fixed point with 10) to open the lower inlet of the corrugated pipe 10, It is installed between the reinforcing bars that are intricately reinforcement with the lower inlet blocked, inserting the vibration bar of the concrete vibration compactor into the inside of the corrugated pipe 10 when uncured concrete is poured, and then rotating the stopper plate 20 to corrugate the pipe. Opening the lower inlet of (10), and then pulled out of the non-hardened concrete to be poured, so that the vibration bar of the vibration compactor to be easily inserted into the interior of the non-hardened concrete to be poured Enclosed Induction Device. According to claim 1, The strap fixing ring 31 is installed on the lower side opposite the fixing point of the stopper plate 20, and the strap guide ring 32 is installed near the fixing point, and located directly above the fixing point The tube wall of the corrugated pipe 10 is formed with a string through-hole 33, while holding one end of the pull string 30 on the string fixing ring 31, the other end of the pull string 30 is held. After passing through the inside of the corrugated pipe 10 by continuously passing through the string guide ring 32 and the string through hole 33, and pulled out to the upper inlet side of the corrugated pipe 10, pull the pull string 30 Rotating rod guide device of the concrete vibration compactor, characterized in that the lower inlet of the corrugated pipe 10 is opened by rotating the stopper plate (20).