SU1633012A1 - Method of hardening the outer surface of cylindrical part - Google Patents

Abstract

The invention relates to mechanical engineering and m. used in drilling equipment. The goal is to increase hardening efficiency by lengthening the hardened surface and increasing its resistance to shock loads. An annular groove is made on the outer surface of the cylindrical part. On the basis of the cylindrical part, circular or screw protrusions are cut. Wear-resistant material is applied by spraying into the groove and along the contour of the screw protrusions with a thickness equal to the difference between the amount of permissible radial wear of the part and the depth of the protrusions. In this case, the angle at the apex of the triangular profile of the grooves is equal to 60e. The wear rate of the reinforcement layer, distributed over the entire permissible radial wear depth of the part, decreases as the outer diameter of the part decreases. 1 hp f-ly, 1 ill. with Ј

Description

The invention relates to mechanical engineering and can be used to strengthen cylindrical parts, in particular, to strengthen the outer surface of drill pipe elements.

The purpose of the invention is to increase the efficiency of hardening the outer surface of a cylindrical part by increasing the length of the hardened surface and its resistance to shock loads.

The drawing shows a cylindrical part with a layer deposited on its outer surface with a VIIPOMHHIOIUHM layer.

The method is implemented as follows.

On the outer surface of the cylindrical part, for example, the CABLE lock 1, an annular burn-through 2 is performed with a depth of h ' Then, on OCHOFJHJIH about points 2, circular or lingan grooves are made, having projections 1 and valleys 4 of a triangular profile with vi shm at the apex of OL 60 and depth h Hh, where H is the perpetual wear of the part.

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Then a wear-resistant material is applied along the contour of the screw protrusions and valleys. The thickness of the coating is equal to the difference between the amount of permissible radial wear of the part (for example, the drill lock) and the depth of the projections.

Example. On the outer surface of the part, for example, a boring lock fb5 mm, having a permissible amount of radial wear, 0 mm, a series of grooves with a length Lflpoj-AO mm and a depth equal to the optimum thickness of the applied flame coating layer h 0.7 mm are made. use ceramic material OHN-2).

Based on the grooves depth

h. circular grooves of a triangular profile with a depth of 3 mm are cut, i.e. equal to the difference, 3 mm and with an apex angle of about 60, which is optimal for this method of coating: with a smaller angle, the uniform thickness of the layer along the profile of the grooves will not be ensured. The total length of the hardened surface LnoB along the groove at an angle of 60 about twice the length of the groove itself

 turn

 . 80 MMl, sin In this case, the wear rate of the reinforcement layer distributed over the entire permissible radial wear depth of the part decreases as dd

Q 5

0

five

five

d

reducing the outer diameter of the part, i.e. bring it to the maximum allowable. This is due to the fact that boring locks and couplings have a larger initial diameter than the pipe they connect and therefore play the role of not only connecting elements, but also protectors. Wearing wear, they approach in diameter to the diameter of the pipe, as a result of which the specific load on their surface decreases and, accordingly, the wear intensity decreases and the effect of hardening increases.

Claims (2)

Invention Formula one . A method of hardening the outer surface of a cylindrical part, including making an annular groove on its outer surface, cutting circular or screw protrusions on its base and applying wear-resistant material to the groove by spraying, characterized in that in order to increase the efficiency of hardening by increasing the length of the hardened surface and resistance her to shock loads, wear-resistant material is applied along the contour of the screw protrusions with a thickness equal to the difference between the value of permissible radial wear Details and depth of the protrusions. 2. The method according to claim 1, which differs by the fact that the angle at the apex of the triangular profile of the grooves is 60 °.