UA155196U - ULTRASONIC EQUIPMENT FOR IMPACT PROCESSING OF INTERNAL SURFACES OF LONG HOLE PARTS - Google Patents

Abstract

Ultrasonic equipment for shock treatment of internal surfaces of long holes of parts consists of a source of vibration excitation in the form of an ultrasonic vibration drive of reciprocating movements, containing a housing with an ultrasonic transducer, which contains an ultrasonic oscillating speed transformer with an end working surface, and a forced cooling system placed with by a gap in the housing, as well as shock elements, which are placed with the possibility of contact interaction with the end working surface of the oscillating speed transformer. The ultrasonic transformer of the oscillating speed is made step-by-step. The length of the stage of a small area with an end working surface is made with a length that is a multiple of an odd number of quarters of the length of the resonance wave of deformation, which is set along the length of the ultrasonic transducer. Additionally, it contains a similar ultrasonic vibration drive of reciprocating movements with an ultrasonic transducer. Ultrasonic transducers are placed coaxially and oppositely, in such a way that the steps of a small area with the end working surfaces of the ultrasonic transformers of the oscillating speed of the vibration drives are placed inside the long hole of the part with the formation of a radial gap relative to the inner surface of the hole, which is subject to impact treatment, with the formation between this surface and the end the working surfaces of the vibration drives of the working chamber, in which ball impact elements made of high-strength material are freely placed.

Description

The useful model belongs to the field of technological use of the energy of ultrasonic vibrations and can be applied in mechanical engineering, aircraft construction, shipbuilding, as well as in other industries in which structures with long holes are used, the inner surfaces of which wear out quickly due to intense friction. The well-known surface impact treatment of metal products and welds, as the final technological operation, significantly increases the performance and service life of structures. To date, methods of surface treatment with the help of plastic deformation, such as processing with balls, rollers, shot peening, vibro-rolling, and others, have gained considerable popularity. There has been a significant increase in interest in high-energy types of surface treatment, which includes surface strengthening with the help of intense ultrasonic vibrations. This method makes it possible to significantly increase the fatigue strength and wear resistance of structures. In turn, the effectiveness and productivity of the ultrasonic shock treatment process largely depends on the design of the ultrasonic equipment used.

Known ultrasonic equipment for shock treatment of internal surfaces of parts

Ipatent of Ukraine Mo 99303, IPC 8248 39/00, VO6B 1/06, 10/08/2012, Byul. Mo 15), which contains a housing, a source of vibration excitation in the form of an ultrasonic vibration drive of reciprocating movements with an ultrasonic transducer, which contains an ultrasonic oscillating speed transformer with an end working surface, and a forced cooling system placed with a gap in the housing, as well as shock elements , which are placed with the possibility of contact interaction with the end working surface of the oscillating speed transformer.

In the known device, due to the location of the strikers normal to the end working surface of the vibration drive, it is possible to process only easily accessible surfaces of the parts, usually external, which are located normal to the end work surface of the ultrasonic transformer of the oscillating speed of the ultrasonic vibration drive. But there are many cases when the location of the surface of the part or its slope does not allow to install ultrasonic equipment to them normally and to carry out high-quality impact treatment with impact elements. These surfaces remain untreated, which does not allow to increase the overall reliability and operability of the part or the mechanism as a whole. Thus, equipment that

Zo is considered, has limited functional capabilities.

Well-known ultrasonic equipment for impact processing of parts (patent of Ukraine Mo 105364,

IPC 8248 39/00, VO6B 1/06, 12.05.2007, Bull. Mo 9|, containing a housing, a source of vibration excitation in the form of an ultrasonic vibration drive of reciprocating movements with an ultrasonic transducer, which contains an ultrasonic oscillating speed transformer with an end working surface, and a forced cooling system placed with a gap in the housing, as well as shock elements , which are placed with the possibility of contact interaction with the end working surface of the oscillating speed transformer.

Known equipment due to the use of a lever system provides the possibility of movement of impact elements normally to the surface of the part processing, provided that the impact elements are inclined relative to the end working surface of the ultrasonic transformer of the oscillating speed of the ultrasonic vibration drive. The presence of a lever system made of high-strength material between the working end of the vibration drive and the ends of the impact elements allows you to tilt the impact elements at an angle of up to 45 degrees. Of course, such a solution reduces the reliability and durability of ultrasonic equipment for impact treatment of parts surfaces. As for the impact treatment of the inner surface of the holes, this solution allows processing only holes of sufficiently large diameter and short length, which is connected with the large dimensions of the lever system.

Dust, contamination elements and metal shavings covering the treated surface during impact treatment, falling into the small gaps between the moving impact elements and the moving lever system, reduce the reliability of ultrasonic equipment.

That is, this ultrasonic equipment has limited functionality.

The closest analogue of the useful model in terms of the set of features and technical result is ultrasonic equipment for shock treatment of the internal surfaces of long holes of parts

Ipatent of Ukraine Mo 99365, IPC 8248 39/00, VOEV 1/06, B24B 1/04, 10.08.2012, Byul. Mo 15), containing a housing, a source of vibration excitation in the form of an ultrasonic vibration drive of reciprocating movements with an ultrasonic transducer, which contains an ultrasonic oscillating speed transformer with an end working surface, and a forced cooling system placed with a gap in the housing, as well as shock elements , which are placed with the possibility of contact interaction with the end working surface of the oscillating speed transformer.

Ball shock elements made of high-strength material are used in the given design of ultrasonic equipment. Impact balls are collected in a special head, which is attached to the body of the equipment and prevents the balls from scattering.

Such a constructive solution allows you to effectively and quickly process sufficiently large flat surfaces. However, it is inconvenient and inefficient to treat the inner surfaces of long cylindrical holes with such ultrasonic equipment.

Thus, this ultrasound equipment also has limited functionality and little efficiency.

The useful model is based on the task of expanding the functionality and increasing the efficiency of known ultrasonic equipment for shock treatment of the internal surfaces of long holes of parts.

The task is solved by the fact that in the ultrasonic equipment for shock treatment of the internal surfaces of long holes of parts, which consists of a source of excitation of oscillations in the form of an ultrasonic vibration drive of reciprocating movements, containing a case with an ultrasonic transducer, which contains an ultrasonic oscillating speed transformer with an end working surface, and a system of forced cooling placed with a gap in the housing, as well as shock elements that are placed with the possibility of contact interaction with the end working surface of the oscillating speed transformer, according to a useful model, the ultrasonic oscillating speed transformer is made step-wise, and the length of the step of a small area with the end working surface has a length that is a multiple of an odd number of quarters of the length of the resonant deformation wave, which is set along the length of the ultrasonic transducer; additionally contains a similar ultrasonic vibration drive of reciprocating movements with an ultrasonic transducer, and the ultrasonic transducers are placed coaxially and oppositely, in such a way that the stages of a small area with the end working surfaces of the ultrasonic transformers of the oscillating speed of the vibration actuators are placed inside the long hole of the part with the formation of a radial gap relative to the internal of the surface of the hole, which is subject to shock treatment, with the formation between this surface and the end working surfaces of the vibration actuators of the working chamber, in which the ball bearings are freely placed

Impact elements made of high-strength material. Additionally, as an option, the end working surfaces of the ultrasonic transformers of the oscillating speed of the vibration drives can be made with a taper.

Expanding the functionality and increasing the efficiency of the known ultrasonic equipment for shock treatment of the internal surfaces of long holes of parts is achieved due to the formation of a working chamber in which shock balls are freely placed and which can move along the hole due to the movement of the product with a hole, or vibration drives with end working shock surfaces .

The essence of the useful model is explained by graphic images, where in fig. 1 shows a diagram of an ultrasonic vibration drive of reciprocating movements, in fig. 2 shows a diagram of ultrasonic equipment for shock treatment of the internal surfaces of long holes of parts, and in fig. C - enlarged view of the working chamber with shock balls.

The ultrasonic vibration drive of reciprocating movements (Fig. 1) is a housing 1 in which an ultrasonic transducer is placed, consisting of a stepped ultrasonic transformer of oscillating speed 2, a damping pad 3, a package of piezoceramic ring elements 4 and a tightening pin 5. Longitudinal the oscillations of the ultrasonic transducer are excited using an electric oscillation generator (not shown in the diagram). The ultrasonic oscillating speed transformer at the end of the small-area stage has a working surface b, which, as an option, can be made with a taper. The ultrasonic step transformer of the oscillating speed 2 is fixed in the housing 1 with the help of a flange, which is made at the point of zero oscillations of the resonant wave of elastic oscillations excited along the length of the ultrasonic transducer. The small-area stage of the oscillating velocity transformer with an end working surface has a length multiple of an odd number of quarters of the length of the resonant deformation wave, which is set along the length of the ultrasonic transducer. The mounting flange of the ultrasonic oscillating speed transformer has holes for the passage of compressed air of the forced cooling system. The supply of compressed air is carried out through the fitting in the end cap 7.

The ultrasonic transducers are placed coaxially and oppositely (Fig. 2, Fig. 3), so that the stages of a small area with the end working surfaces of the ultrasonic transformers because of the oscillating speed of the vibration drives are placed inside the long hole of the part 8 with the formation of a radial gap relative to the inner surface of the hole, which subject to shock treatment, with the formation between this surface and the end working surfaces of the vibration actuators of the working chamber, in which the ball shock elements 9, made of high-strength material, are freely placed.

A useful model works as follows. With the help of an electric oscillation generator, the longitudinal oscillations of the ultrasonic transducers are excited. Due to the use of step transformers of the oscillating speed 2 and the placement of the working end surfaces 6 in the antagonism of the oscillations of the resonant deformation wave, which is set along the length of the ultrasonic transducer, the amplitude of the oscillations of the working surfaces reaches 20...30 μm at an oscillation frequency of 20...30 kHz. Impact balls 9 from interaction with the working surfaces begin to intensively jump and hit the surface of the long hole, implementing the technology of plastic deformation of the surface of the hole. The execution of the working end surface b with a taper allows to increase the intensity of impacts on the surface of the hole.

By carrying out the axial movement of the part 8 or vibration drives, it is possible to process (strengthen) the inner surface of the long holes of the parts.

Ultrasonic equipment makes it possible to carry out strengthening plastic deformation of the inner surfaces of long holes of parts.

Claims (2)

USEFUL MODEL FORMULA 1. Ultrasonic equipment for shock treatment of internal surfaces of long holes of parts, consisting of a source of vibration excitation in the form of an ultrasonic vibration drive of reciprocating movements, containing a housing with an ultrasonic transducer, which contains an ultrasonic oscillatory speed transformer with an end working surface, and a system of forced cooling, placed with a gap in the housing, as well as shock elements, which are placed with the possibility of contact interaction with the end working surface of the oscillating speed transformer, which is characterized by the fact that the ultrasonic oscillating speed transformer is made of steps, and the length of the step of a small area with the end working surface is made with a length , a multiple of Zo an odd number of quarters of the length of the resonance wave of deformation, which is set along the length of the ultrasonic transducer; additionally contains a similar ultrasonic vibration drive of reciprocating movements with an ultrasonic transducer, and the ultrasonic transducers are placed coaxially and oppositely, in such a way that the stages of a small area with the end working surfaces of the ultrasonic transformers of the oscillating speed of the vibration drives are placed inside the long hole of the part with the formation of a radial gap relative to the internal the surface of the hole, which is subject to shock treatment, with the formation between this surface and the end working surfaces of the vibration actuators of the working chamber, in which ball shock elements made of high-strength material are freely placed. 2. Ultrasonic equipment according to claim 1, which is characterized by the fact that the end working surfaces of the ultrasonic transformers of the oscillating speed of the vibration drives are made with a taper. you sho p pa KA sht i YOU ShMD otit titi i i MKK Shenrtitrit it ti i i tt MO it dit u tu Podolu i HE NESTI u A m ap epi i i KK ti, puttya lay nn Aims titi pe Drink t tic I You y nu y p o kE Zk ki them ru it drink TSOititiVyam WE went 0 and Tsote s ih e MO SHE TO OVU im V - SCHOBY MUKM paj M . SHOCMMIMROA: MYKITYN AND 4 COMPLETE CAST MILLS FOR MMA M I TSO EEM M OKU KK. MOTO vo Von KI nya a posti plate M SHO unia Y In her her and her h her h and relatives MY nii I By Mao tJ El KY Ko nnmh mat HL KO Ne SIK tyny, Khdychyuniyuum Kt ZU t 1 that Taynninnyavnni BIT of the day EDPYTSOY y Fight it! р: : и Ko: у : Ko: tseniny K:4 и 1 Ох 4 ше еогнд мох ше dika uma Vyp Kesh OH oh mo I with 9 OVO! revealed 3: WHAT DOI NN Fig. 2 Track EBYHM KU in the city of "horn. WITH