SU972111A1 - Member of framework support of reinforced polymer-concrete - Google Patents

Description

(54) ELEMENT FRAME FRAME FROM ARMOPOLYMERBETON

one

The invention relates to mining machinery, in particular, to frame structures for securing horizontal underground workings to coal, potash and other mining sites, as well as in mining operations in the presence of media that are highly aggressive to traditional materials.

There are known reinforced concrete and steel-plaster-concrete elements of frame lining in the form of SPLO1PN and circular hollow core racks and the upper section of a variable section height with undercuts at the pores I.

The disadvantages of these elements of frame crepe-enhanced material consumption and weight, as well as the complexity of construction and low-tech of their manufacture.

Closest to the proposed armored frame support element made of reinforced concrete, comprising metal reinforcement and a housing with connection elements 2.

The disadvantages of the known technical solution are the impossibility of unification, i.e. interchangeability with racks, low-tech manufacturing and fastening, and low reliability of work, as well as increased consumption of materials.

The purpose of the invention is to reduce the consumption of armopolimer concrete, increase the manufacturability of installation and dismantling of lining by unifying its elements and reducing it to 0.9-1.1 t / m volume and mass. 5 The goal is achieved by the fact that the frame support element made of reinforced concrete is provided with a wooden core enclosed in a metal frame with steel plates rigidly connected with a pro .Q sleeve at one end and a pliable tweak at the other end of its end.

The wooden core is made in the form of two continuous plank layers, between which the wooden inserts are located, and their thickness corresponds to a diameter of 15 pliable spike.

FIG. 1 shows an element of frame support from armopolimerbeton, general view; in fig. 2 is a section A-A in FIG. one; in fig. 3 - the top joint of the stand and the top of the lightweight elements.

The frame support element of their armopolimer concrete contains a spatial reinforcement cage 1 in the form of a holder on the core of two plank layers 2, united by village inserts 3. in monolithic

the shell of light polymer concrete 4. To the ends of the core are attached fixing steel plates 5, rigidly connected to the eyelet 6 on one end and a pliable sttop 7 on the other.

In this case, the wood liners are located in the core with a step of a multiple step of the transverse rods of the framework. This provides the required tight supple mutual fastening of the core in the spatial frame.

The thickness of the liner is not less than the diameter of the supple spike necessary for its fastening between the plank core layers.

Installation of this design is as follows.

The transverse frames of horizontal underground workings assemble three identical elements. Racks are installed so that one of them has a spike at the top, and the other has an eye.

A similar element, the upper one, mutually fix both racks with their face lugs and a pinch.

The ease and simplicity of the dismantling of the frame support is ensured by the absence of additional gaskets and any fastenings in the junction points of the proposed elements.

Claims (2)

1.Embolite reinforced concrete frame lining element, comprising a housing and metal reinforcement with a spike and eyelet joint element, characterized in that, in order to reduce the consumption of reinforced concrete and to increase the processability of mounting and dismounting lining by unifying its elements, the housing is equipped with a wooden core, a prisoner in a metal frame with steel plates, rigidly connected with an eye on one end and a pliable thorn on the other of its end. 2. An element according to claim 1, characterized in that the wooden core is made in the form of two continuous crown layers, between which wooden inserts are located, and the thickness of the insert corresponds to the diameter of the pre-studded spike. Sources of information taken into account in the examination 1. Geleskul MN and others. Maintenance of mine workings. M., "Nedra, 1973, p. 68 2. Davydov S.S. and others. Ramna lining of underground workings from steelplastic concrete on expanded clay. - “Mine construction, 1969, No. 9, p. 3-6 (prototype). FIG. one A- A 7 6.7 6.7 Fig.Z