RU2643401C1 - Device for heat and pressure treatment - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: device contains stocks made with an expansion ratio greater than that of the shaft, at both ends of which the supports and the external heating element are located. The upper support has two flats on the guide part, the lower support has the through groove. The upper support rests on the upper end of the stocks through two bevelled profile washers, in the upper support perpendicular to its axis there is an axis on which the cylindrical rod with thread is supported through a demountable spherical shell, the stocks along the perimeter has short grooves performed on spiral lines, repeated with equal pitch along the perimeter, a heat-insulating pipe is installed inside the stocks, with an internal heating element inside it, which is executed with a possibility of installation around the treated shaft.

EFFECT: improving the quality of heat and pressure treatment of the shaft.

5 dwg

Description

The invention relates to mechanical engineering technology, and more particularly to a device for thermo-power processing of low-rigidity axisymmetric parts of the “shaft” type.

A device for thermal power treatment is known, comprising a multilayer prefabricated sectional slipway made in the form of a pipe made of a material with a linear expansion coefficient greater than that of the product, the inner space of which is filled with sand filler with cast iron chips, radiators with radial grooves mounted on the outer surface of the product along its entire length, thrust bearing covers and spherical heels for rigid fixation of the product on both sides relative to the ends of the slipway [USSR Application No. 4689434, C21D 9/06, 1985].

The disadvantage of this device is the design complexity due to the presence in the design of a prefabricated multilayer slipway, and a large number of radiators, as well as harmful working conditions, because when the device is cooled in oil, the filler of the slipway is impregnated with oil, and its cooling rate is very low, so the oil burns out and, as a result, smokes the production area.

A device for thermoset processing of shafts of low stiffness, including a slip, which is made in the form of a pipe made of metal with a coefficient of linear expansion greater than that of the product [USSR Author's Certificate No. 1407969, class. C21D 1/62, 1/63, 1988].

The disadvantage of this device is the limited technological capabilities, because the shaft experiences only tensile deformations, while during the processing, the manifestation of residual deformation non-uniform along the length of the shaft is possible, which leads to instability of the part geometry during the operational period and loss of accuracy.

A device is known for thermo-power treatment of shafts, including a slipway, which is made in the form of a metal pipe with a linear expansion coefficient greater than that of the product, by a threaded mechanism for fixing the part from both ends in the form of two covers with a central hole passing into the hole with an internal spherical surface, two washers - spheres and two nuts for power circuit and rods with thread on the inner and outer surfaces [RF Patent No. 2260628, cl. C21D 9/06, 2003].

The disadvantage of this device is the limited technological capabilities, because the shaft undergoes only tensile deformations, while during processing a non-uniform residual deformation is possible along the shaft length, which leads to instability of the part geometry during the operational period and loss of accuracy.

The closest device of the same purpose to the claimed invention, selected as a prototype, is a device for thermo-power treatment of shafts, including a vertically mounted slipway made of a material with a linear expansion coefficient greater than that of the part, a threaded locking mechanism in the form of two support covers made with the possibility of one-piece connection with the slipway using cylindrical rods installed in the holes of the covers with threads on the inner and outer surfaces, m, the part is fixed on the internal thread, and on the external - a nut for power closure, the slipway is made in the form of a cylindrical pipe with flanges at both ends, which serve to place support covers on them, the upper of which is made with the possibility of rotation relative to the slipway in the torsion direction, and the lower one is rigidly fixed, the rods are made with the possibility of limiting their rotation in the torsional direction by means of axes installed in the holes of the rods, while the upper flange of the slipway is made with profile flanging, and projecting the protrusions placed diametrically opposite each other, and in the body of the upper support cover radially and symmetrically mounted axis, the protruding outward ends of which are made with the possibility of contact interaction with the profile surface of the upper flange of the slipway, the lower link is made with the possibility of force closure using a spherical washer a nut and a lower support cover located in a spherical socket, as well as with the possibility of force opening of the thrust axis by making a diametrical hole in the form a native groove mating with the same groove in the body of the lower support cover, and the upper link is configured to prevent the nut from twisting relative to the upper support cover using pins distributed in the longitudinal direction in the half-cylindrical recesses of the nut faces and the cylindrical openings of the upper support cover body [RF Patent No. 2361281, cl. C21D 8/00, 2010].

The disadvantage of this device is the limited technological capabilities, because the shaft experiences only deformations equal to the difference in temperature elongations, a lack of manufacturability of spherical washers, difficulty in disassembling, for power elements the load is limited due to the pin fasteners working in bending under friction conditions and their limited design parameters compensating for misalignment and distortions the workpiece, according to the angle of rotation of the workpiece, uneven heating of the workpiece due to different heat removal at the edges and in the center of the workpiece, due to uneven heat removal from the slipway.

The problem to which the invention is directed is to improve the design of the device for thermal power treatment, providing improved quality of thermal power treatment by expanding technological capabilities in terms of deformation, uniform heating of the workpiece, increasing the rigidity of the structure while simplifying its manufacture.

The problem is solved in that the device for thermal processing of axisymmetric parts contains a vertically mounted slipway of material with a linear expansion coefficient greater than that of a shaft with thread at both ends, a threaded shaft fixing mechanism in the slipway at both ends in the form of cylindrical rods with thread on the inner surface on which the shaft is fixed, supports are placed at both ends of the slipway, an external heating element, the bearings are made with flange and guide parts, there is a protrusion on the upper end of the slipway of a rectangular profile located radially, the upper support has two parallel flats on the upper part at the top, the through groove in the lower one, rests on the upper end of the slipway through two slotted bevel washers, which have a rectangular groove wide, the same as the width of the flats in the upper part supports, an axis is installed in it perpendicular to the axis, on which a cylindrical threaded rod is supported through a collapsible spherical shape, the slipway along the perimeter has short grooves made along a helical line, repeated With equal pitch along the perimeter, a heat-insulating pipe is installed inside the slipway, and inside it an internal heating element around the shaft, the beveled washers are covered by an elastic ring, the lower support is fixed with the pins relative to the slipway, the beveled washers lean against each other, the lower washer clings adjacent to the slipway the protrusion on the upper end of the slipway and flats on the guide part of the upper support, and the upper washer adjacent to the upper support has flanges that mate with flats on the flange hand side of the upper support and also cover the flats on the guide portion of the upper support.

Supports made with flange and guide parts provide reliable fixation of the shaft in the slipway with the possibility of its self-installation due to the separation of support and installation functions between structural elements.

The protrusion of the rectangular profile, located radially at the upper end of the slipway, provides reliable closure in this section between the supports and the slipway in the torsional direction.

Two parallel flats at the top on the guide part of the upper support create a power circuit in the torsional direction with a uniform load and minimal stresses in the support.

The through groove in the lower part of the upper support provides a compact layout of the shaft self-alignment device.

The implementation of the upper support with the installation on the upper end of the slipway through two slotted beveled washers that have a rectangular groove, the same width as the width of the flats in the guide part of the upper support, provides reliable power closure in both longitudinal and torsional directions with ease of disassembly of this connections.

The installation of the upper support with an axis perpendicular to its axis, on which a cylindrical rod with a thread is supported through a collapsible spherical shape insert, provides free movement and rotation of the threaded shaft mounting mechanism and due to this, shaft self-installation and compensation of misalignment of grips, skew of the bearing surfaces of the slipway and supports.

Running along the helix of short grooves, repeating with an equal pitch along the perimeter, in the slipway provides for twisting of the support ends of the slipway and twisting of the workpiece, this creates complex stresses in the shaft, which reduces the necessary axial loads in order to enter the yield zone.

The installation inside the slipway of the heat-insulating pipe and inside the inner heating element around the shaft provides an independent temperature regime for processing the shaft due to the separate heating of the shaft and the slipway, which expands technological capabilities and improves the quality of processing, as well as the uniformity and speed of heating of the shaft blank.

The coverage of the beveled washers with an elastic ring ensures that these washers continuously press the upper support relative to the slip when the shaft is thermally deformed when it lengthens faster than the slip, which eliminates the temperature gap.

The fixation of the lower support relative to the slipway with pins ensures reliable fixation in the torsion direction at the lower end of the slipway.

The implementation of the beveled slotted washers with inclined sections resting on each other provides a change in the distance between the supporting planes of the washers with their parallel position when the distance between the end of the slipway and the support changes during temperature deformation.

The execution of the lower washer adjacent to the slipway with the protrusion covering the upper end of the slipway and flats on the guide part of the upper support creates a power closure of the slipway and support.

The execution of the washer adjacent to the upper support with collars that mate with the flats on the flange part of the upper support, as well as the flats on the guide part of the upper support, the washer distributes the forces when they are fixed evenly between different surfaces of the support, increasing its bearing capacity.

The device for thermal power processing is illustrated by the drawings presented: in FIG. 1, where a general view is given; in FIG. 2 is a view A in FIG. one; in FIG. 3 is a section BB in FIG. one; in FIG. 4 is a section bb in FIG. one; in FIG. 5 is a section GG in FIG. four.

The thermal power treatment device comprises a slipway 1, in which a shaft blank 2 is mounted along the threaded sections 3. Cylindrical rods 4 are screwed onto these threaded sections from two sides of the workpiece 2, which are connected to the axis 6 along spherical collapsible inserts 5. 6 is installed in the guide part 7 of the upper support 8, which passes into the hole in the end of the slipway 1 and rests on two beveled slotted washers - the lower 9 and the upper 10. They pass along the flats 11 in the upper guide part 7 of the upper support 8. In The slipway 1 is wound with an external heater 12, inside the slipway 1 around the workpiece 2, an internal heater 13 is wound inside the heat-insulating pipe 14. The slipway 1 has a perimeter system of holes 15 and through screw grooves 16 with equal pitch running along the entire perimeter of the slipway 1. At the upper end slipway 1 made protrusion 17 of a rectangular shape. The width corresponds to the width of the flats 11 of the guide part 7 and the grooves in the beveled slotted washers 9 and 10, which are covered by an elastic ring 18. The washers 9 and 10 in the direction of the protrusion 17 are slightly smaller than the diameter of the hole of the elastic ring 18. The lower support 19 in the guide part 20 also has an axis 6 with collapsible inserts 5, on which cylindrical rods 4 are supported with fixation of the shaft workpiece 2 along the threaded section 3. The lower support 19 with the flange part 21 with pins 22 is fixed on the lower end of the stock 1. The upper beveled slotted washer 10 has flanges 23, which cover the flats 24 on the flange portion 25 of the upper support 8.

Device for thermal processing works as follows. Inside the slipway 1, an internal heater 12 is installed with a heat-insulating pipe 14. From above, the workpiece 2 is screwed into the lower cylindrical rod 4 installed in the lower support 19, fixed with pins. A cylindrical rod 4 is screwed on top of the threaded section 3 of the workpiece 2 until it stops against the ends of the workpiece 2 into the ends of the threaded holes in the cylindrical rods 4, which along the axes 6 are already connected to collapsible inserts 5 and supports. After fixing the workpiece in the torsion direction along the flats 11 of the guide 7 of the upper support 8, slotted washers 9 and 10 are installed and are covered by an elastic ring 18. The lower slotted washer covers the protrusion 17, and the flanges 23 of the upper slotted washer 10 grab the flats 24 of the flange part. Due to the bevel of the slotted washers 9 and 10 and the elastic ring 18, they are wedged in the gap between the end face of the slipway 1 and the flange portion 25. The internal heater 12 is turned on. The workpiece 2 lengthens due to the temperature extension relative to the slipway 1. The slipway 1 due to the greater heat capacity and better heat dissipation into the environment heats up more slowly and lengthens less than the workpiece 1. The temperature extension of the workpiece 2 is selected by sliding the lower and upper slotted washers 9 and 10, respectively, relative to each other. The bevel angle provides self-braking. After a given elongation of the workpiece 2, an external heater 12 is turned on. A predetermined elongation of the slipway 1 occurs, which leads to axial deformation of the workpiece 2.

Claims (1)

A device for thermal processing of a shaft, comprising a vertically mounted slipway made of a material with a linear expansion coefficient greater than that of a shaft made with thread at both ends, a threaded shaft fixing mechanism in the slipway at both ends in the form of cylindrical rods with thread on the inner surface, on which the shaft is fixed, while at both ends of the slip the supports and an external heating element are placed, characterized in that the supports are made with flange and guide parts, at the upper end of the slip a projection of a rectangular profile is made radially located, the upper support at the top of the guide part has two parallel flats, and the lower support is made with a through groove, while the upper support is mounted on the upper end of the slipway through the lower and upper slotted bevel washers with a force closure by means of flats, and both slotted tapered washers have rectangular grooves, the same width as the flats in the guide part of the upper support, in which an axis is mounted perpendicular to its axis, on which through a collapsible a spherical shell with support is provided with a cylindrical threaded threaded rod, and the slipway around the perimeter has short grooves made along the helix, repeating with the same pitch along the perimeter, a heat-insulating pipe is installed inside the slipway with an internal heating element installed inside it that can be placed around the shaft to be processed, both beveled washers are made covered by an elastic ring, the lower support is fixed relative to the slipway with pins, both beveled washers with inclined sections mounted on one another, and the lower washer adjacent to the slipway is mounted with a protrusion on the upper end of the slipway and flats on the guide part of the upper support, while the upper washer adjacent to the upper support has flanges mating with flats on the flange of the upper support and covering flats on the guide part of the upper support.

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