CS216865B1 - Wall panel shaft - Google Patents

Abstract

The all-wall panel shaft is structural an object intended for underground grounding and divorces. The essence of the all-panel panel the shaft is that it is made of foundation thatch in which they are laid side wall panels, joined by frontal screws and bolts. The shaft is covered by a ceiling panel in which the inlet for the inlet chimney is stored on the side walls.

Description

The invention relates to an all-wall panel shaft for underground networks and distribution systems.

Previously used shafts of underground networks and distribution of square or rectangular cross-section, located partially or completely below ground level, are made of reinforced concrete as monolithic structures. The construction of such objects is reluctant and requires a large amount of timber for their formwork. When relocating pipelines, the flood shafts remain unused and must not be demolished to prevent further construction intentions.

The above-mentioned drawbacks are remedied by the whole-wall panel shaft according to the invention, which consists in a foundation that has grooves in which the side wall panels are mounted, connected by frontal projections and by coal-tightened screws, the shaft covering the ceiling panel in which inlet chimney, placed on the side walls.

The invention of an all-wall panel manhole that replaces monolithic manholes substantially shortens their construction time and reduces costs because no formwork is required. Due to the exclusion of wet processes, in addition to the base that can also be panel and small amount of grouts, the shafts can be assembled and dismantled at any time of the year and weather and, depending on the need to remove the shafts, used elsewhere.

An example of a shaft according to the invention is shown in the attached figures. In FIG. 1 is a vertical section of the base plate 4 along a line

I - Γ with a side view of the shaft, in FIG. 2 shows a horizontal section through the shaft along line V - V ', FIG. 3 shows a vertical section through a shaft along a line

II-ΙΓ and FIG. 4 shows a side view of the wall panel 1 from the inside of the shaft. In FIG. 5 is a vertical cross-sectional view of the wall panel 1 along line IV - IV '; FIG. 6 shows a horizontal section through the wall panel 1 along line III-III '.

The full-wall panel shaft is rectangular in cross-section. The panels 1 and 1 'are positioned so that their back faces intersect vertically at right angles and the projections of the panel 1 are inserted into the gaps between the projections 12 of the panel 1' and vice versa. The two connecting angles 5 are tightened by screws 7 so that the outer wall of one of the angles of the angles touches the outer wall of the shaft coinciding with the face of one of the panels over its entire height and the outer wall of the other angle arm rests on the reverse walls of the projections panel. On the side walls of the shaft there is a ceiling plate 2 with an opening for the outlet chimney 3. The wall panels 1 and 1 'have the same depth, their vertical whole, perpendicular to the face and the back surface of the panels have uniformly distributed projections. The face and back of the protrusions lie in planes folded by the face and back of the panels. The intersections of the other walls of the protrusions, which lie in perpendicular planes on the face and back surfaces of the panels, form a rectangular and smoothly connected trapezoid in the planes of these surfaces immediately after the connection point with the panels. The longer trapezoidal base overlaps with the long side of the rectangular v / 4, where v equals the external height of the shaft and the opposite walls of the panel from which the projections 11 and 12 protrude. The width of the rectangular projection is approximately half the panel thickness; its length is the same as the gaps between the protrusions. One of the walls of the lowest protrusion protruding from one of the faces is flush with the lower base of the panel and one of the walls of the highest protrusion protruding from the opposite face is flush with the upper base of the panel. - All-wall panel shafts can be used for distribution of fuels (gas, oil), energy (electricity, hot water), telecommunications, barbecue engineering networks, distribution in industrial plants and construction.

Claims (2)

An all-wall panel shaft characterized in that it consists of a base thatch (4), in which the grooves accommodate the side wall panels (1 and 1 ') connected by the front projections (11 and 12j) and the coals [5] tightened by screws (7). it covers the ceiling panel (2) in which the opening for the inlet chimney (3) is mounted on the side walls. 2 drawings