KR100778247B1 - Concrete vibrator capable of work slopes and the depths in wide range - Google Patents

Abstract

A concrete vibrator is provided to couple a pipe, in which an extension tube is detachably inserted into the end portion of a flexible cable coupled to a vibration rod, and to draw the extension tube from the pipe to adjust the length of the pipe. A concrete vibrator includes a vibration rod(10) coupled to the end portion of a flexible cable(2) connected to a power supplying part(1). The lower end portion of a pipe(20) surrounding the flexible cable(2) is fixed to the front end of the vibration rod(10). An extension tube(21) receiving the flexible cable(2) is inserted into the pipe(20). A magnetic member is fixed to the end portion of the vibration rod(10). A vibration delivering table is horizontally provided in the end portion of the vibration rood(10).

Description

Concrete vibrator capable of work slopes and the depths in wide range}

1 is an overall perspective view of a vibrator according to the present invention

2 is an enlarged cross-sectional view of main parts of the vibrator according to the present invention;

3 is a working tube operation cross-sectional view of the vibrator according to the present invention

Figure 4 is a detailed view of the vibrating rod end of the vibrator according to the present invention

Figure 5 is another embodiment showing the vibrating rod end of the vibrator according to the present invention

6 is a working embodiment using a vibrator according to the present invention

Figure 7 is another embodiment showing the vibrating end portion of the vibrator according to the present invention

Explanation of symbols on the main parts of the drawings

1: power supply 2: flexible cable

10: vibration rod 11: magnet member

12: Vibration transmission band 13,13 ': Expansion pipe

20: working tube 21: extension tube

22: male thread 23,23 ': vertical incision groove

24: insertion prevention part 25: locking jaw

30: connection cap 31: female thread

The present invention relates to a concrete vibrator used in the process of constructing a concrete structure, and more particularly, to form an extension of the work tube that allows the vibration part of the vibrator to penetrate deeply into the desired location deep inside the cast concrete, and the vibration By forming the transverse magnet body at the end of the part, the vibrating rod can be inserted into the desired position by the pipe work tube while the work tube can be extended to increase the work efficiency. It provides a wide range of concrete vibrators that can provide vibration dispersion and compaction of form surfaces in a wide range, so that uniform compaction of concrete structures as well as rational mixing of materials and smoothness of surfaces can be obtained.

Concrete vibrators are essential for the construction of concrete structures on construction sites.

In other words, the concrete structure is transported to the site using ready-mixed concrete at the factory to pour the hardened concrete and to cure for a certain period to remove the formwork to build the finished structure. In order to ensure the strength, durability and watertightness of the concrete structure as well as the beauty of the concrete surface, concrete compaction using concrete vibrators should be carried out when concrete is poured.

However, a conventional concrete vibrator used for uniform compaction, material separation prevention, and surface defect prevention has many problems because it consists of a vibration rod, a flexible cable part, and a power supply part.

That is, the conventional concrete vibrator is composed of a vibrating rod and a flexible cable part, so the operator cannot insert and adjust the vibrating rod at the desired position according to the shape of the concrete structure, so that the compaction work is poor and the insertion speed is adjusted as well as the insertion position. It is very difficult to do.

In particular, because the vibrator falls vertically, the inclined formwork surface is further spaced apart from the form side, so surface defects such as blisters, bubbles, material separation, and color difference of the inclined formwork inevitably occur, resulting in poor construction. .

In addition, there is a problem that the vibration is concentrated in the vibrating rod, so that only the vibrating portion is vibrated around, but the material separation phenomenon of the concrete is intensified.

The present invention has been made to improve the problems as described above, the coupling formed by the extension of the extension tube is inserted into the end of the flexible cable coupled to the vibrating rod, the extension tube is configured to be pulled out of the work tube to adjust the length, By forming the transverse magnet member to the end of the vibration rod,

The vibration tube can be positioned at a desired position and depth by the working tube, so that more efficient workability can be expected, and the magnet member at the end can be moved in an attached state along the surface of the formwork made of metal. It is very suitable for the structure, it is to improve the mixing ratio of materials as well as uniform compaction of the concrete pouring part, and to provide a wide concrete vibrator for slope and depth work that prevents surface defects to obtain a smooth and high quality surface. It is an object of the invention.

Hereinafter, preferred embodiments of the present invention will be described.

1 is an overall perspective view of a vibrator according to the present invention, Figure 2 is an enlarged cross-sectional view of the main portion of the vibrator according to the present invention, Figure 3 is a working tube operation cross-sectional view of the vibrator according to the present invention.

In the concrete vibrator coupled to the vibration rod 10 at the end of the flexible cable (2) connected to the power supply (1),

An extension pipe for accommodating the lower end of the work pipe 20 inserted into the outside of the flexible cable 2 at the distal end of the vibrating rod 10 and accommodating the flexible cable 2 in the work pipe 20. Insert 21, the magnet member 11 is fixed to the end of the vibrating rod 10 separately,

The male screw portion 22 formed at the tip of the working pipe 20 causes the male screw portion 22 to be bent inwardly inclined by the vertical cutouts 23 and 23 '.

It is provided with a separate connection cap 30 is fastened to the male screw portion 22, the inner peripheral surface to form a female screw portion 31 having a gradient matching the inclination angle of the male screw portion 22,

An insertion prevention portion 24 having an outer diameter larger than the outer diameter of the extension tube 21 is formed at the tip of the extension tube 21, and is located on the upper surface of the connection cap 30, and at the lower end of the extension tube 21. The locking jaw 25 having an outer diameter larger than the outer diameter of the extension tube 21 is formed so as not to be separated through the tip of the working tube 20.

In addition, the end of the vibrating rod 10 is formed by connecting a separate vibration carrier 12 in the horizontal direction, the magnet member 11 may be attached to each end of the vibration carrier (12). It is.

In addition, the both ends of the vibration transmitting table 12 may be configured to expand the operating range of the vibration rod 10 by coupling the expansion pipe 13, 13 'screwed to it.

When the concrete slope of the present invention by the configuration as described above and the deep concrete work vibrator can be described in more detail by the accompanying drawings as follows.

As shown, the concrete vibrator according to the present invention is a vibration is transmitted from the power supply unit 1 to the vibration rod 10 of the end through the flexible cable (2).

When the vibrating rod 10 is operated as described above, bubbles or blisters in the concrete pouring portion are discharged by the vibration, and the concrete pouring portion is provided in a rough state to improve its physical strength.

At this time, by forming a separate working pipe 20 to accommodate the flexible cable (2) is accommodated at the tip of the vibration rod 10, so that it can be used in the state of holding the working pipe (20) In the case of the work tube 20 does not cause bending or deformation, in the case of the general working method using the conventional flexible cable 2, there was a considerable difficulty in putting the vibrating rod 10 into a slope or a deep part. In the state in which the working pipe 20 is gripped, the vibrating rod 10 at the lower end may be properly introduced into a slope or a deep portion.

In particular, the working tube 20 is a separate extension tube 21 is built to enable efficient portability and easy extension of the length, if you want to do the vibrator work of the deeper part from the above-mentioned working tube 20 If the extension pipe 21 is used to pull out the fixed state will be able to perform a deeper vibration work.

The extension tube 21 is to be fixed in the state drawn out to the desired length from the working tube 20 can be adjusted to have the required length, the male screw portion 22 at the tip of the working tube 20 The male screw portion 22 is formed with a plurality of vertical cutouts 23 and 23 'to be bent inwardly inclined.

The male screw portion 22 is fastened to the connection cap 30 having an inclined female screw portion 31 therein, when the connecting cap 30 is fastened to the male screw portion 22, the internal inclined female screw As the part 31 and the inclined male screw portion 22 are screwed together, the male screw portion 22 is tightened inwardly by the inclination angle, so that the outer peripheral surface of the extension tube 21 in the drawn state is strong. Since tightening it can be firmly fixed to the extension pipe (21) of the drawn state.

Therefore, in the state in which the extension pipe 21 is drawn out to a predetermined length, the connection cap 30 is tightened to perform the work in a state where the extension pipe 21 is fixed. Loosen the 30 and push the extension tube 21 to the inner side of the working tube 20 to arrange and have a minimum length to carry and store.

In particular, the insertion prevention portion 24 having an outer diameter larger than the outer diameter of the extension tube 21 is formed at the tip of the extension tube 21, the insertion prevention portion 24 is formed on the upper portion of the connection cap 30 Since the front end of the extension tube 21 is always in an exposed state by the insertion prevention part 24 even when the extension tube 21 is pushed into the working tube 20, the extension tube 21 is always extended and used. To improve efficiency.

In addition, the lower end of the extension tube 21 is formed in the inner diameter range of the working tube 20 has a locking jaw 25 having an outer diameter larger than the outer diameter of the extension tube 21, to work the extension tube 21 In the case of withdrawal from the pipe 20, the locking jaw 25 at the lower end thereof is very ideal because it is prevented from being separated from each other by being caught by the inclined male screw part 22 of the tip of the working pipe 20.

Reasonable vibration work is performed by using the working pipe 20 and the extension pipe 21. As the magnet member 11 is formed on the vibration rod 10, the metal is attracted by the attraction force of the magnet member 11. When the formwork, in particular, the formwork is installed with an inclined surface, moving the vibration rod 10 in a state in which the magnet member 11 is attached to the form of the inclined surface becomes possible to vibrate operation that was impossible in the prior art.

That is, the conventional vibration operation was forced to vertically insert the vibration rod, as shown in Figure 4 can be moved by the magnetic member 11, the vibration rod 10 along the inclined plane, It is possible to reasonably solve the work period, so that a higher quality construction surface can be obtained.

In particular, in the case of forming a transverse vibration transmission table 12 at the end of the vibration rod 10 as shown in Figure 5 can be affected by a wider range of vibration through the vibration transmission table 12. The reason why the vibration can be obtained even with a relatively short working time can be obtained. In the conventional vibration bar, the vibration is concentrated around the vibration bar, but the phenomenon of separation of concrete material due to the over-vibration phenomenon occurs, but the vibration By distributing the vibration by the transmission table 12 to overcome the problems caused by over-vibration, a wider area can be worked at once, and the corners or corners can be reasonably processed as shown in FIG. The condition is better and there are few surface defects.

In particular, the present invention, as shown in Figure 7 by screwing the separate expansion pipe 13, 13 'to both ends of the vibration transmission table 12 described above to rotate the expansion pipe (13, 13'). By varying the width of both sides of the vibration carrier 12 through, varying the extension width of the vibration carrier 12 transmitted through the vibration rod 10 to apply it reasonably according to the depth of the concrete placing surface It is possible to make a more easy operation through the vibration carrier 12 having an expansion width that matches the inner surface of the die by adjusting the width of the vibration carrier 12 to match the cross-sectional shape of the die. Would have

The wide-surface concrete vibrator capable of inclining and deepening the present invention as described above can position the vibrating rod at a desired position and depth by a working tube, so that more efficient workability can be expected, and the magnet member at the end is made of metal. Since it can move along the surface of the formed formwork in the attached state, it is very suitable for the structure of the inclined surface, and it is possible to improve the mixing ratio of materials as well as uniform compaction of the concrete pouring part, and to prevent surface defects and to produce a smooth and high quality surface. will be.

Claims (5)

In the concrete vibrator coupled to the vibration rod 10 at the end of the flexible cable (2) connected to the power supply (1), The lower end of the work tube 20 inserted into the outer side of the flexible cable 2 is fixed to the tip of the vibrating rod 10, and the flexible cable 2 is accommodated inside the work tube 20. A wide range of concrete vibrators capable of slope and depth work, characterized in that the insertion tube 21 is inserted into the insertion and insertion, and the magnet member 11 is fixed to the end of the vibrating rod (10). The method of claim 1. The male screw portion 22 is formed at the tip of the working pipe 20, and the male screw portion 22 is bent inwardly inclined by the vertical cut grooves 23 and 23 '. , It is provided with a separate connection cap 30 is fastened to the male screw portion 22, the inner peripheral surface to form a female screw portion 31 having a gradient matching the inclination angle of the male screw portion 22, An insertion prevention portion 24 having an outer diameter larger than the outer diameter of the extension tube 21 is formed at the tip of the extension tube 21, and is located on the upper surface of the connection cap 30, and at the lower end of the extension tube 21. A wide concrete vibrator capable of slope and depth work is characterized in that the locking step (25) having an outer diameter larger than the outer diameter of the extension tube 21 is formed so as not to be separated through the tip of the working tube (20). The method of claim 1, Wide concrete vibrator capable of four-sided and in-depth operation, characterized by forming a transverse vibration transmission table 12 at the end of the vibration rod (10). The method of claim 3, wherein Wide concrete vibrator capable of slope and depth work characterized in that the magnet member 11 is fixedly formed on both ends of the vibration transmission table 12 coupled to the vibration rod (10). The method of claim 3, wherein The both sides of the vibration transmission table 12 is coupled to the expansion pipe 13, 13 'coupled to the screw by which the operating range of the vibration rod 10 is configured to extend the slope and deep work possible Wide concrete vibrator.

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