SU1620634A1 - Assembly joint of metal support - Google Patents

Abstract

The invention relates to the mining industry, in particular to shaft metal fasteners. The purpose of the invention is to increase the bearing capacity of the lining by increasing the mutual slip force of elements 1 and 2. The ends of elements 1 and 2 of the lining are overlapped by locks 3. Between the heads of the lining elements there is a ferromagnetic material (FMM). In the zone of the overlap inside the hydrophilic porous shell 5, pre-impregnated with FMM, there is a CO magnet with

Description

1

4. Ferrofluid is used as the FMM. As the elements 1 and 2 are compressed, the ferrofluid is squeezed out of the hydrophilic coating and fills the air gaps between elements 1 and 2.

magnetic field, ferrofluid increases the cohesive forces between elements 1 and 2 of the lining. Adhesion is increased by a factor of 2-3 against a hard filler. 1 hp f-ly, 2 silt,

The invention relates to the mining industry, namely to the mine metal crepe.

The purpose of the invention is to increase the carrying capacity of the support by increasing the mutual slip force of the elements.

Figure 1 shows the connecting node supports; figure 2 - section aa in figure 1.

The unit includes elements 1 and 2 of the special profile, overlapped with locks 3, between them a magnet 4 is placed in the shell 5 of a hydrophilic porous material, for example, of spongy rubber.

Other materials can also be used in practice: paralon, paper, fabrics, impregnated with a binder, foams, fibers, etc. As magnets, permanent or alternating current, supermagnets, etc. are used, which, when changing the magnetic field, allows one to control the shear strength within specified limits.

When mounting the assembly, the insert is wetted in a ferromagnetic fluid and absorbs it into itself, is installed between elements 1 and 2, the latter are tightened by locks 3.

The node works as follows.

As elements 1 and 2 are compressed, ferrofluid is squeezed out of the hydrophilic coating and fills the air gaps between the elements, being in a magnetic field.

field increases the adhesion forces between the support elements.

The use of ferrofluids allows% to completely eliminate the air gap even in hard-to-reach places, since the particles in the liquid have a diameter of 0.001 microns. Squeezed out of the hydrophilic material, the ferrofluid does not flow, but becomes viscous in a magnetic field, fills all voids. The consequence is an increase in the adhesion force by a factor of 2-3 against the rigid filler, which is very promising as the production of strong magnets.

Claims (2)

1. Connection metal lining assembly containing overlapped ends of lining elements, ferromagnetic material placed between the heads of lining elements, a magnet installed in the overlap zone, characterized in that in order to increase the bearing capacity of the lining by increasing the mutual slippage force elements, the node is equipped with a hydrophilic porous shell, pre-impregnated with ferromagnetic material, while the magnet is installed inside the shell. 2. A unit according to claim 1, characterized in that ferrofluid is used as a ferromagnetic material. 2