SE500828C2 - Device and method for vibrating concrete with the aid of a rod vibrator - Google Patents

Abstract

The present invention relates to an arrangement for vibrating concrete using at least one internal vibrator (1). According to the invention, the arrangement includes a horizontally displaceable carrier (4) for the internal vibrator, which carrier comprises means (3, 4) to displace the internal vibrator in a vertical direction. The invention also relates to a method for automatically controlling the displacement pattern of the internal vibrator (1).

Description

15 20 25 30 35 sno 828 2 out of the concrete so that air pockets do not form during commissioning {It is understood that such work is very time consuming and places great demands on accuracy and precision in execution. Furthermore, the work performed is hard when impossible to control and the consequences of an insufficient vibration are not discovered until the mold is torn or perhaps not until the cast concrete structure is loaded.

The present invention aims to provide an apparatus and method for vibrating concrete by means of a rod vibrator, which eliminates the inconveniences of manual handling and which increases the uniformity in quality of cast concrete products.

According to the invention, this object is achieved by means of a device of the type indicated in the introduction, characterized in that the carriage has guides which run in cooperating guides on the underside of a bridge connected to a concrete mold and that a control unit is arranged to move the rod vibrator and the carriage in a predetermined movement schedule. With such a device, the rod vibrator is moved mechanically and automatically, which gives a greater precision in the control.

The invention also relates to a method for vibrating concrete in a mold by means of a rod vibrator, characterized in that the movement pattern of the rod vibrator is automatically controlled by means of a control unit which operates means for moving the rod vibrator horizontally and vertically in a predetermined pattern.

An embodiment of the invention will now be described with reference to the accompanying drawings, of which; Fig. 1 shows a schematic perspective view of a device according to an embodiment of the invention connected to a mold and Fig. 2 shows the device and the mold in Fig. 1 from the side and partly in section. The device shown in Figure 1 comprises a rod vibrator 1, which is attached to one end of a flexible operating hose 2, which contains wires for supplying power to the rod vibrator. The other end of the hose 2 is attached to a device 3 for rolling up and down the hose, which in figure 1 is symbolized by a circle and which can for instance be constituted by a motor-driven drum or the like. The winding device 3 is supported by a carriage 4, which in turn is supported by a stand 5. This stand is fixedly connected to a wall of a mold 6 and comprises in its upper part a horizontal platform 7, with which the carriage 4 is for tied, slidable along an edge of this. The connection between the carriage 4 and the platform 7 can for instance consist of a guide groove 8 on the underside of the platform 7, in which a profile strip 9 of the carriage 4 fitting in this groove runs, and a similar guide groove or guide rail 10 attached to the frame 5 and a cooperating profile strip on the carriage 4. Furthermore, the device comprises drive means for moving the carriage along the edge of the platform, which may be constituted by a rack-and-pinion gear mechanism or the like. In order for personnel to be able to move on the platform 7, the control hose 2 is guided in a guide tube 11, which extends in an arc above the platform and ends with a vertical part 12. The device also comprises a control unit (not shown) to control the movement of the carriage and immersion and raising of the rod vibrator. Preferably, this control unit is connected to a control panel 13, which is located easily accessible to an operator.

The movement pattern of a rod vibrator for vibrating the concrete mass in a mold for wall elements will now be described with reference to Figure 2.

This figure schematically illustrates a mold 6 for wall elements, in which two casting layers C1 and C2 are laid out.

The arrows P1-P6 symbolize the different phases in a vibration cycle for the casting layer C2 and by 41.42 and 11.1 are meant two 2 different positions for the carriage 4 and 4, respectively. rod vibrator 1. 1011 and 1022 refer to the lowest positions of the rod vibrator 1 in two successive vibration cycles in the casting layer C1.

A vibration cycle for the casting layer C2 will now be described on the basis of the moment when the carriage 4 with fully raised rod vibrator 1 reaches position 411. The first phase P1 of a vibration cycle consists in lowering a rejected rod vibrator into air. During this phase, the rate of lowering is relatively large.

In the second phase P2, a switched-on rod vibrator is lowered in the casting layer C2 at a speed of about 0.1 m / s until the upper end of the rod vibrator is level with the bottom of the casting layer C2.

In phase P3, a vibration occurs with a stationary rod vibrator 11 for a period of time which typically lasts 5-15 seconds.

The position of the rod vibrator 11 has been chosen so that a good vibration of the casting layers C1, C2 is achieved.

Then, during phase P4, the rod vibrator is slowly lifted through the casting layer C2 by approx. 0.05 m / s until it has left the casting layer.

During phase P5, the rod vibrator is lifted in the rejected state into air and then the carriage 4 and thus the rod vibrator is moved during phase P6 from position 41 to position 42. The vibration cycle is thus completed and a new vibration cycle is started. The distance L, with which the carriage 4 is moved, depends on the radius of action of the rod vibrator (typical value 40 cm), reinforcement density and the requirements for blow-freeness of the finished wall element. In the normal case, the distance L is 0.3-0.5 m. The length of a wall element in the x-direction is often a multiple of 2.4 m, so a number of vibration cycles must be performed in each casting layer. In the z-direction, the height is typically 2.5 m, which normally requires three casting layers.

The width of wall elements is normally 16-18 cm, maximum 30 cm.

For the widest walls, double insertions of the rod vibrator are required. In order to enable widthwise separations of the rod vibrator 10 15 20 25 30 35 5 500 828, the connection between the guide tube 11 and the rest of the carriage 4 is advantageously designed to be movable so that the vertical outlet of the guide tube can be placed in a widthwise optional position in the mold 6.

To shorten the time for a vibration cycle, the lifting movement of the rod vibrator can be stopped when it has left the top casting layer and the carriage 4 must be moved to the next position immediately thereafter if there are no obstacles to the horizontal movement of the rod vibrator in the mold.

The vibration of the casting layer C1 takes place in the same way as described above for the casting layer C2, except that in its lowest position l0l1, l1l2 the rod vibrator is located just above the bottom of the mold 6 since the layer C1 is the first casting layer.

In view of the above, it is understood that the additional casting layers, which may be laid on top of the layer C2 to fill the mold, are vibrated in the same way as the casting layer C2.

A vibration program for controlling the rod vibrator thus contains a number of parameters already for a wall element of the simple embodiment shown in the figures. For more complicated elements, such as a wall element with windows and / or door openings and openings for pipe penetrations, the movement pattern of the rod vibrator is also complicated. It is therefore suitable that the control unit for controlling the rod vibrator comprises a computer, which is programmed to generate a path of movement of the rod vibrator in dependence on input parameters, such as concrete quality, radius of action of the rod vibrator, reinforcement density, geometry of the mold, obstacles to movement, casting layer heights, etc.

The trajectory of motion of the rod vibrator theoretically calculated by the computer is suitably tested in an empty mold to determine that the rod vibrator during the actual casting does not collide with the mold or obstacles therein. The test is performed with the rod rod turned off and with higher lowering and lifting speeds of 6,500 szs 6 than during casting.

During the actual casting, the rod vibrator is placed in an advantageous variant of the invention after completing the vibration of a casting layer at a height above the finished vibrated casting layer corresponding to the height of the subsequent casting layer, to give an indication of when the laying of this casting layer is to be stopped. .

Several modifications of the embodiment shown are of course possible within the scope of the invention. For example, the trolley vibrator carrying the rod vibrator can be designed differently, it can e.g. supported on the top of the mold, running in grooves formed in the upper surfaces of the opposite mold parts.

It is also conceivable to control several carriages provided with a rod vibrator by means of the same control unit in order to accelerate the vibration of each casting layer. Furthermore, the device according to the invention can of course be applied when casting objects other than wall elements.

Claims (4)

10 15 20 L fl 23 CD PO FJ CO 7 fi ategtkrav Device for vibrating concrete by means of at least one rod vibrator, comprising on the one hand a horizontally movable carriage (4) carrying the rod vibrator (1), and having means (2,3,12) for moving the rod vibrator in the vertical direction and on the other hand guide means (9 ) for controlling the horizontal movement, guides (9), which run in cooperating guides (8,10) on the underside of a bridge (7) connected to a concrete mold (6), and that a control unit is arranged to move the rod vibrator (1) and the carriage in a predetermined characteristic of the carriage (4), movement diagram. Device according to claim 1, characterized in that the control unit comprises a computer. Method for vibrating concrete in a mold (6) by means of a rod vibrator (1), characterized in that the movement pattern of the rod vibrator is automatically controlled by means of a control unit which operates means (2,3,4) for moving the rod vibrator horizontally and vertically in a predetermined pattern. Method according to claim 3, characterized in that the movement pattern of the rod vibrator (1) is calculated by a computer.