SU842121A1 - Vibrated shield for cutting seams in concrete pavings - Google Patents

Description

The invention relates to the construction, in particular to the production of concrete work during the construction of monolithic hydraulic structures, and can be used in road construction. A vibration shield is known, containing a corpus with vibrators, in which it is provided to cut the expansion joints by lowering vibration shields over the entire thickness of the concrete layer and then remove them after the concrete has acquired the minimum strength fl. However, the shutter speed in concrete until it achieves its minimum strength, caused by the need to ensure the safety of the weld walls against melting, leads to a decrease in the turnability of the shields. This leads to the manufacture and installation of a large number of shields or reduced productivity of work. In addition, with this solution, it is not possible to simultaneously install a stitch at the same time as setting the core element — gaskets in the joint cavity. The closest to the present invention is a vibration shield for narseki seams in concrete surfaces, containing a hollow body facing parallel; plates interconnected by a detachable joint, and vibrators 2 mounted on the plates. A disadvantage of the known vibration shield is the low efficiency of cutting seams. The purpose of the invention is to increase the efficiency of cutting seams by simultaneously securing the fixing of the inset element in the joint cavity. This goal is achieved by the fact that in a vibration shield for cutting seams, in concrete surfaces, containing a hollow body formed by parallel plates interconnected by a detachable joint, and vibrators mounted on the plates, one of the body plates is made in the form of a yoke with vertical guides in which another plate is placed, the first of which has an abutment on the inner surface for fixing the fixing element and a bend in the lower part that covers the gap between the plates. FIG. 1 shows the proposed vibration shield immersed in concrete, the section in FIG. 2 - the moment of extraction from the concrete mix after

release from plug-in connection; in fig. 3 - moment of extraction of plate-like strips from fresh concrete; in fig. 4 shows section A-A in FIG. one; in fig. 5 is a section BB in FIG. one.

The shield consists of two parallel plates, one of which 1 is a flat sheet, and the other 2 is designed as a cage with vertical guides 3 in which the plate is placed with the possibility of vertical movement. The plates 1 and 2 form a hollow body and are interconnected in the upper part by means of detachable joining 4 in the form of bolts with nuts. Plate 2 has on its inner surface an emphasis 5 for fixing the inset element 6, in which quality an asphalt mat containing glass fabric with asphalt impregnation can be used. In the lower part of the plate 2 has a limb, closing the gap between it and the plate 1. On the shelves 7 of each plate there is a vibrator 8, Shelves 7 are attached to the plates by ribs 9 of rigidity.

Vibration shields are used to form the formation joints without beams in the following sequence.

After immersion in newly laid concrete (under the influence of vibrators 8), the vibration shield at a predetermined depth (Fig. 1) of the shield plate 1 and 2 is eroded and the plate 1 (using, for example, a crane) is removed with the vibrator 8 turned on (Fig. 2). The vibration of the extracted wall reduces the force required for this, and also contributes to the formation of a gap formed between the surface of the concrete and the embedded element. Displacement following the removable plate of the embedded element is prevented by the stop 5.

Then, plate 2 (FIG. 3) is also removed when subjected to vibration. The embedded element 6 due to the greater coefficient of friction between the concrete and it, than between the last f and plate 2, remains in the concrete. The vibration effect contributes to the tight compression of the embedded element of the compactor with the liquefied concrete. The use of, for example, at the Kurp Sai HPP, the proposed vibration shield for form-free formation of joints, which provide for the installation of keys and asphalt mortgage mat elements, makes it possible to refuse the manufacture, transport and installation of expensive concrete formwork. The expected economic effect for the year is 100-200 thousand rubles.

Claims (2)

1. USSR Author's Certificate No. 383776, cl. E 02 B 1/00, 1970. 2. USSR author's certificate No. 685747, cl. E 02 B 1/00, 1978. S-N (rig. O .. Sh-Sh. Cd ...-.,. (Put. 3 (Riga.W