RU147317U1 - VIBRATION DRILLING DEVICE - Google Patents

Abstract

A device for vibrational drilling, comprising a housing, inside which input and output shafts are installed, characterized in that the housing is made with a cover, and the input and output shafts are connected by flexible connection, while the housing and the cover are located in magnetic housings fixed to them by thread, movable magnets are located in the output shaft, and stationary magnets are installed in the housing and the lid, established from the condition of observing the reverse polarity with respect to the movable magnets to create a vibration whose frequency within the number of said movable and stationary magnets, and the amplitude is limited by means of an adjusting nut with a bearing mounted for axial movement, being provided between the adjusting nut and the output shaft mounted thrust bearings, between which springs are arranged for damping shocks between the output shaft and the adjusting nut.

Description

The utility model relates to the processing of metals by cutting, and in particular, to devices for metal-cutting machines belonging to a boring-boring and milling group with a vertical spindle arrangement for increasing productivity and improving the quality of hole formation.

A device for vibrational drilling is known, comprising a housing inside which a shaft, spindle shaft, gear, elastic holders and electrodynamic vibration exciter are installed, characterized in that the electrodynamic vibration exciter consists of two inductance coils with a W-shaped core made of electrical steel (patent No. 129030, 06.20.2013, IPC B23B 47/00).

The disadvantage of this device is the design of the electrodynamic vibration exciter, namely the complex electrical circuit for connecting coils. Another disadvantage of this device is the transmission of vibrations to the spindle of the machine, which leads to a reduction in the resource of the machine equipment.

The technical task of this utility model is to increase the adaptability of the device for vibration drilling and reduce the vibrations transmitted to the machine spindle.

The technical problem of the utility model is provided due to the fact that the device for vibration drilling, comprising a housing, inside of which an input shaft is installed and an output shaft contains a housing cover, the input shaft is connected to the output shaft by means of flexible coupling, and movable magnets are located in the output shaft, and in the case The fixed magnets are located in the magnetic housings and the lid in such a way that the opposite polarity with respect to the movable magnets is observed and vibration is thus generated, the magnetic housings are closed They are insulated by threading on the housing of the device for vibration drilling and the housing cover, and there is also an adjusting nut in which the bearing is located with axial displacement, and thrust bearings are located between the adjusting nut and the output shaft, between which there are springs to absorb shock between the output shaft and the adjusting with a nut.

The essence of the utility model is illustrated by drawings, where in FIG. 1 shows a device for vibratory drilling in section.

The problem is solved in that the device for vibration drilling comprises a housing 1 and a housing cover 2, in which the input shaft 5 is fixed by means of bearings 3, 4 by means of a flexible coupling 6 connected to the output shaft 7, moreover, movable magnets 8 are located in the output shaft 7, which, when the output shaft rotates, interact with the stationary magnets 11, 12 located in the magnetic housings 9, 10 and installed in such a way that the opposite polarity is observed with respect to the movable magnets 8 located in the output 7, and thus, vibrations are created whose frequency is determined by the number of movable magnets 8 in the output shaft 7 and the fixed magnets 11, 12 in the magnetic housings 9, 10. The vibration force is controlled by the distance between the movable magnets 8 of the output shaft 7 and the fixed magnets 11, 12 located in the magnets 9, 10 adjustable by thread on the housing 1 and the housing cover 2 device for vibrational drilling, and the magnetic housings 9, 10. The vibration amplitude is limited by the adjusting nut 13, in which there is dshipnik 14 with the possibility of axial movement between the adjusting nut 13 and the output shaft 7 are thrust bearings 15, 16, 17, 18 between which there are springs 19, 20 for damping impacts between the output shaft 7 and an adjusting nut 13.

The device operates as follows in the machine spindle, the input shaft 5 of the vibro-drilling device is fixed, then the housing 1 of the vibro-drilling device is fixed. The number of magnets 8, 11, 12 is selected based on the desired vibration frequency. Magnetic housings 9, 10, with magnets are twisted in the housing 1 and the cover of the housing 2 device for vibrational drilling, thereby establishing the axial force of vibration. After adjustment, spindle rotation is turned on and machining is performed.

The utility model will improve the manufacturability of the device for vibration drilling and reduce the vibrations transmitted to the machine spindle.

Sidorova Victoria Viktorovna, 305047 Kursk, st. Komarova d. 1/31, apt. 33

Razumov Mikhail Sergeevich, Kursk region, Shchigry, st. New Kurskaya d.24D, apt. 7, index 306530.

Ponkratov Pavel Aleksandrovich, Kursk, st. K. Vorobyova d. 5, apt. 3, index 305038

Claims (1)

A device for vibrational drilling, comprising a housing, inside of which input and output shafts are installed, characterized in that the housing is made with a cover, and the input and output shafts are connected by flexible coupling, while the housing and the cover are located in magnetic housings fixed to them by thread, movable magnets are located in the output shaft, and stationary magnets are installed in the housing and the cover, established from the condition of observing the reverse polarity with respect to the movable magnets to create a vibration whose frequency is is determined by the number of said movable and fixed magnets, and the amplitude is limited by means of an adjusting nut with an axially mounted bearing, and thrust bearings are installed between the adjusting nut and the output shaft, between which springs are located to absorb shock between the output shaft and the adjusting nut.

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