RU58560U1 - EXPANSION JOINT - Google Patents

Abstract

The utility model relates to the field of hydraulic engineering and can be used to create monolithic cladding of the upper slopes of dams and reservoirs.

The expansion joint, mainly monolithic facing of the upper slopes of dams and ponds, includes a joint cavity filler formed of three layers, the lower and inner layers made of elastic materials, and a plastic film placed between the lower and inner layers with the formation of a compensation sag.

The utility model will increase the tightness and operational reliability of expansion joints sealed with polymer films, as well as provide more efficient use of monolithic claddings as reliable protection of the upper slopes of dams and reservoirs.

Description

The utility model relates to the field of hydraulic engineering and can be used to create monolithic cladding of the upper slopes of dams and reservoirs for various purposes.

Known deformation seam of a monolithic lining of the upper slope of an earthen dam, including a filler of the weld cavity in the form of tarred boards (Shabanov AD Ponds in agriculture. - M .: Kolos, 1977. - p. 55).

The disadvantage of this seam is its low operational reliability and low antifiltration efficiency due to leakage in areas of variable water level and wave action.

Closest to the utility model is the expansion joint of a monolithic cladding, including a filler of the joint cavity and an anti-filter element in the form of a polyethylene film (Elshin I.M. Polymer materials in irrigation construction. - M .: Kolos, 1974. - p. 81, figure 19, a, b).

In this technical solution, the filler of the seam cavity is made of inelastic and non-deformable material, contributing to the rigid jamming of the polyethylene film in the seam cavity. In case of deformations of the facing cladding plates (from shrinkage, temperature and humidity changes or uneven subsidence of the base soil), the plastic film is damaged, which leads to a violation of the tightness and loss of reliability of the seam.

The technical result achieved by this utility model is to ensure the tightness and reliability of the weld during deformation of the plates of the facing of the upper slopes of dams and reservoirs.

This technical result is achieved in that the filler of the weld cavity is formed of three layers, with the lower and inner layers

made of elastic materials, and a plastic film is placed between the lower and inner layer with the formation of a compensation sag.

Figure 1 shows the expansion joint; figure 2 is the same after the manifestation of deformations.

The expansion joint of the mating panels 1 of the facing includes a filler of the cavity 2 of the seam formed of three layers 3, 4, 5, the lower 3 and inner 4 layers being made of elastic materials, and a plastic film 6 is placed between the lower 3 and the inner layer 4 with the formation compensation sag 7. The top 5 layer is protective and made of cement mortar.

The expansion joint works as follows. With deformation of the joined plates 1 of the cladding, the dimensions of the cavity 2 of the expansion joint change. So, with the expansion of the cavity 2, the polyethylene film 6, having a compensation sag 7, is straightened in the cavity of the seam, continuing to impede the penetration of water through the expansion joint, while maintaining its tightness. The integrity of the film 6 also contributes to the placement (pinching) of it between the elastic-elastic layers 3, 4 of the filler, made not of rigid, but from pliable materials. The lower 3 layer, for example, can be made of poroisol or neoprene, the inner 4 - of technical felt or mineral wool. Possessing flexibility, the lower 3 and inner 4 layers do not impede the free movement of the polyethylene film 6 in the cavity 2 of the seam, but, having antifiltration properties, contribute to increased tightness and reliability of the expansion joint.

The application of the utility model will increase the operational reliability of expansion joints sealed with polymer films, as well as provide even more efficient use of monolithic claddings as reliable protection of the upper slopes of dams and reservoirs.

Claims (1)

The expansion joint, mainly monolithic facing of the upper slopes of dams and ponds, including a filler of the weld cavity and an anti-filter element in the form of a polyethylene film, characterized in that the filler of the weld cavity is formed of three layers, the lower and inner layers are made of elastic materials, and polyethylene the film is placed between them with the formation of a compensation sag.