JPH0452324B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a roughening device for concrete floor surfaces.

When constructing a large concrete structure such as a dam, a method is adopted in which concrete is poured sequentially from the bottom to the top, and the concrete is successively poured. When implementing the above method, it is recommended to roughen the surface of the concrete that has already been poured in order to increase the bonding strength between the concrete that has already been poured and the concrete that will be poured on top of it and prevent water leakage. preferable.

By the way, as mentioned above, when roughening the surface of concrete that has already been placed, conventionally,
A wire cup brush rotated by the driving force of a motor or the like is moved by input to remove and polish weak parts of the concrete surface.

However, as described above, the method of moving a roughening machine such as a wire cup brush based on input has the drawbacks of poor work efficiency, increased labor costs due to rising labor costs, and a longer construction period. .

The present invention has been made in view of the above circumstances, and is capable of reducing construction costs and shortening the construction period of concrete by mechanizing roughening by attaching a roughening machine to a frame so as to be movable in the horizontal direction. The purpose of this invention is to provide a roughening device for a floor surface.

Hereinafter, an embodiment of the roughening device according to the present invention will be described with reference to FIGS. 1 to 5.

Figure 1 is a front view of the roughening device, Figure 2 is a bottom view,
FIG. 3 is a side view. In the figure, reference numeral 1 denotes a frame made of a combination of shaped steel, and this frame 1 consists of an outer frame 2 assembled in a square shape and a reinforcing member 3 stretched between the outer frames 2. A running wheel 5 is attached to the lower side of each corner via a bracket 4.

In addition, 6 and 7 in FIG. 2 are a pair of outer frame constituent members 2a and 2b arranged in parallel with a space between each other.
These are a pair of movable bodies that are slidably attached to the movable bodies 6 and 7, and guide rods 8 and 8 are spanned between these movable bodies 6 and 7 so as to be parallel to each other. The movable bodies 6, 7 and the guide rods 8, 8 are moved integrally with each other in the left-right direction in FIG. 2 by the traverse mechanism 9. The traverse mechanism 9 includes a main moving mechanism 10 that moves the movable body 6 in the left-right direction in FIG.
and a moving mechanism 11 that moves the same distance in the same direction. The main moving mechanism 10 includes a moving body 6
and a rack 14 fixedly attached to the frame 1 so as to mesh with a pinion 13 attached to the output shaft of the motor 12. 2, a wire 16 is fixed to the right end of the moving body 6 in FIG. ,
A pulley 17a with one end fixed to the left end of the moving body 6 and the other end attached to a corner of the frame,
The wire 18 is fixed to the right end of the movable body 7 after being wound around the wires 17b and 17c.

A roughening machine mount 19 is slidably disposed between the guide rods 8, 8, and a roughening machine 2 is mounted on this mount 19.
0 is attached. Further, the mounting base 19 is moved on the guide rod 8 by the longitudinal mechanism 21.
The longitudinal mechanism 21 extends approximately once around the moving bodies 6 and 7 so as to be parallel to the guide rod 8, and has one end fixed to the upper end of the mounting base 19 in FIG. Two chains 22, 22 whose ends are fixed to the lower end of the mounting base 19, a sprocket 24 that is supported by a shaft 23 and meshes with the chains 22, 22, and a hydraulic pressure that rotates the shaft 23 via gears 25, 26. It is composed of a monitor 27.

The roughening machine 20 has a plurality of roughening chisels 29 that are moved up and down by compressed air built into a cylindrical frame 28, and a nozzle 30 for jetting high-pressure water. . In addition, 3
Reference numeral 1 denotes a tension applying mechanism for constantly applying a required tension to the chains 22, 22.

Next, while using the roughening device with the above configuration,
A method for roughening the surface of concrete C using the automatic control means built into the device will be explained.

() As shown in Fig. 4, the roughening device is moved to a predetermined position while being towed by a towing person Z or the like.

() Next, switch to "manual" on the roughening machine movement control panel (not shown), and manually operate the roughening machine 2.
0 to the upper left corner indicated by A in FIG.

() Next, switch to "auto" on the roughening machine movement operation panel, and supply compressed air to the roughening machine 20 to perform the roughening operation. Normally, roughening is performed by moving the roughening machine 20 continuously at a constant speed, but another method is to move the roughening machine movement operation circuit It is also possible to consider a method in which the roughening machine 20 is moved intermittently, such as by operating the longitudinal mechanism 21 and moving the roughening machine 20 to position B using a built-in timer.

In addition, as described in () above, the roughening machine 2
0 manually, cut off the supply of compressed air, bring the roughening chisel 29 to the upper movement limit position using a pre-installed spring, and then move the chisel 29
to prevent damage to the equipment.

() Thereafter, when the roughening machine 20 reaches the lower left corner shown by _C in FIG. to position D. Thereafter, the grain roughening machine ₂₀ is moved upward in FIG. 9 to bring the roughening machine 20 to the F position.

() Thereafter, the same operations as above are repeated, and the roughening machine 20 is sequentially moved as shown by the arrows in FIG. 5 until it reaches the final position shown by H. Then,
Limit switch L ₃ attached to frame 1
detects this and stops the roughening machine 20,
A buzzer (not shown) notifies the end.

() When the end buzzer sounds, the operator immediately switches the operation from "automatic" to "manual" and
The air supply to the roughening machine 20 is stopped.

() Next, the device is moved to the next work area by the towing vehicle Z.

Thereafter, the operations shown in () to () above are repeated to finally roughen the entire area of the concrete C.

In the above embodiment, the device is moved by being pulled by the towing person Z, but the device may be provided with a self-propelled mechanism so that it can move by itself.

Furthermore, the configurations of the transverse mechanism and the longitudinal mechanism are not limited to the above embodiments, and can be modified in various ways.

Further, the roughening machine 20 may be provided with a high-pressure air jetting nozzle instead of the high-pressure water jetting nozzle.

As explained above, according to the present invention, the trolley frame is fixed in place by moving the movable body along the pair of support bars and moving the roughening machine mounting base along the guide bar. The roughening machine can be moved and adjusted in the X and Y directions orthogonal to each other in the same state. Therefore, the roughening machine can be moved for fine adjustment, and as a result, it is possible to prevent problems such as leaving a chip and digging deep into the lap part.

In addition to the above configuration, if a position detector is provided to detect the position of the roughening machine, and the roughening is performed while moving the roughening machine based on the signal emitted from this detector, the roughening can be performed. This has the effect of automating processes and further reducing construction costs.

[Brief explanation of drawings]

1 to 4 show the roughening device according to the present invention, FIG. 1 is a front view, FIG. 2 is a bottom view, FIG. 3 is a side view, and FIG. 4 is a roughening device of the present invention. FIG. 5 is a diagram showing a roughening method using the roughening device. 1...Frame, 2...Outer frame, 2a, 2b...
Outer frame constituent member (supporting member), 5... traveling wheels,
6, 7...Moving body, 8...Guide rod, 9...Transverse mechanism, 20...Roughing machine, 21...Vertical mechanism, C...
Concrete members, _L1 to _L3 ...Limit switch, Z...Tow vehicle.

Claims (1)

[Scope of Claims] 1. A truck frame having running wheels, and a pair of support rods arranged parallel to each other at intervals on the truck frame, each of which is movable in the length direction of the support rods. a pair of movable bodies provided; and a mesh provided movably in the length direction of the parallel guide rods along a parallel guide rod passed perpendicularly to the support bar between the movable bodies. a roughening machine mount, a roughening machine fixed to the roughening machine mount, a traversing mechanism that moves the pair of movable bodies in the length direction of the support bar in synchronization with each other, and the roughening machine A device for roughening a concrete floor surface, comprising a hoisting mechanism for moving a machine mount in the length direction of the parallel guide rod. 2. The concrete floor roughening device according to claim 1, wherein the roughening device is equipped with a high-pressure water injection nozzle or a high-pressure air injection nozzle. 3. A bogie frame having running wheels, and a pair of movable wheels provided on a pair of support bars disposed parallel to each other at intervals on the bogie frame so as to be movable in the length direction of the support bars. a roughening machine mount provided movably in the length direction of the parallel guide rod along a parallel guide rod passed between the movable body and perpendicular to the support bar; A roughening machine fixed to a roughening machine mounting base, a traversing mechanism for moving the pair of movable bodies in the length direction of the support bar in synchronization with each other, and detecting the position of the roughening machine. A concrete floor texture comprising: a position detector; and a control means for controlling the movement of the roughening machine via a traversing mechanism and a hoisting mechanism based on a signal emitted from the position detector. Rough equipment. 4. The concrete floor roughening device according to claim 3, wherein the roughening device is provided with a high-pressure water jetting nozzle or a high-pressure air jetting nozzle.