SU1407969A1 - Arrangement for hardening low-rigidity shafts - Google Patents

Abstract

The invention relates to the field of mechanical engineering and can be used for deformation-free quenching of non-rigid shaft-type parts (axles, rods, tons, needles, etc.). The purpose of the invention is to reduce the number of products. The device contains a pipe with evenly spaced sp ari on its surface with holes, which is made of a material that does not undergo martensitic transformation and has a thermal expansion coefficient, a magnitude of the thermal expansion coefficient of the material of the product. The ratio of the length and the outer diameter of the pipe is not less than 8. At the ends of the pipe, clamps are installed, while one of the claws is made in the form of a split threaded sleeve with a nut, the end of which is in contact with the end of the pipe. 1 hp f-ly, 3 ill. 5 (L

Description

The invention relates to mechanical engineering and can be used for the deformation-free quenching of non-rigid Tiftia shaft parts (axles, rods, tg, knitting needles, etc.).

The purpose of the invention is to reduce the distortion of products.

Figure 1 shows the proposed device, a General view; n & figure 2 - section aa in figure 1; on fig.Z - type B on fi gI.

The device contains a building block I, made in the form of a pipe with through holes evenly spaced on its surface. The fixed grip 2 of the part 3, in the form of a split washer in contact with the end face of the I-piece, and the grip 4 of the part 3, made in the form of a split bushing with an external thread, are installed at the ends of the pipe. The pins 5 are used to attach the halves of the grip 4 and are installed between them. The pin 6 is rigidly fixed on the end of the stocks 1 and enters the groove of the upper grip 4. The working nut 7 of the grip 4 is mounted on it so that it contacts the end of the stocks 1. The device works as follows.

Part 3 is installed inside the stocks 1 with the help of clamps 2 and 4. The grippers are made cut to allow installation of part 3. Working nut 7 is loosened, and part 3 is empty in the free state. After heating for quenching the entire device with part 3 using a working nut 7 in contact with the end of the stocks 1, the gripper 4 is moved along the axis of the stocks 1 before fixing the details 3 the pin 6 prevents the component 3 from twisting, and then the device with part 3 is immersed in a cooling medium, where it simultaneously cools the slipper 1 and part 3 by passing cooling medium through evenly spaced holes in the Tupelo 1. In the cooling process is generated, and then is maintained until complete cooling axial voltage parts 3 due to the difference in the coefficients of thermal Rasschirennaya slipway I material and part 3 and the absence of the martensitic transformation in the material slipway. This reduces the distortion of the part.

The use of the proposed device allows to increase labor productivity, by eliminating the dressing operation, reducing machining by tightening tolerances, taking into account distortion, increasing metal savings by reducing the tolerance on machining, as well as creating additional hardening of the material of the part due to the hardening effect of the load , applied at the time of the martensitic transformation of the material of the part.

Claims (2)

1. A device for hardening shafts of low rigidity containing a slipway with grippers at the ends, characterized in that, in order to reduce the distortion of products, the building berth is made in the form of a pipe with a ratio of at least eight length to external diameter, with holes evenly spaced along its surface, while the pipe is made of metal or alloy, not undergoing martensitic transformation and having a thermal expansion coefficient lower than the thermal expansion coefficient of the product. 2. The device according to claim 1, about t l and one that the one of the grips is made in the form of a split sleeve with a nut located on it, the end of which is in contact with the end of the pipe. Accpuz2 bidb cpi / g