SU1283059A1 - Vibration working apparatus - Google Patents

Abstract

The invention relates to the field of separation, cleaning and hardening processing. The aim of the invention is to improve the operational properties of the device by providing smooth control of the oscillation amplitude of the working chamber. The device contains a vertical working chamber 8, equipped with a vibration exciter, ensuring its complex spatial oscillatory displacements. The chamber 8 is mounted on the base of 1 11 by means of two hydraulic cylinders 6, I1-hingedly connected to the turntable 4, installed by its trunnions; 3 in the base supports 1. In this case, the chamber 8 is connected to the vibration exciter with the aid of a carrier 10. The increase in reliability of vcrpoi icTBa is achieved by smoothly adjusting the amplitude of oscillations using a live transmission system consisting of two spacing screws ensuring simultaneous} The opposite opposite displacement of the ends is 10 and the N-body weight 20, which is compact, with: 5Li; sa account size; prices drove 10 in the sleeve 9 mounted inside the working chamber 8. 2 3. p. f-ly. 5 and. 1. L- / (L

Description

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The invention relates to machine building and instrumentation engineering and can be used for finishing, cleaning and strengthening processing of parts in preparing them for coatings and for relieving internal stresses.

The aim of the invention is to improve the operational properties of the device by providing smooth control of the oscillation amplitude of the working chamber.

FIG. 1 shows the device, a general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 is a view B in FIG. 2; in fig. 4 - base support, longitudinal section; in fig. 5 is a sectional view BB in FIG. four.

The device consists of a base 1, in the vibration dampers 2 of which, with the help of trunnions 3, a ring 4 is installed with the possibility of angular rotation, having trunnions 5 (Fig. 1), which enter with a gap in the mounting holes of the hydraulic cylinders 6 rods 6. The latter are rigidly attached to the brackets 7 of the working chamber 8, the inner surface of which is made with an elastic coating. A slotted sleeve 9 (Fig. 2) is rigidly attached to the bottom of the chamber 8, which mates with the slotted surface of the carrier 10, which is insulated from the working medium by a housing 11.

The carrier 10 is connected by means of a spherical bearing 12 to a device drive consisting (FIG. 3) of the bearing housing 13 with pins 14, which are movably coupled to the right-hand running nut 15 and the left-running nut 16. Nuts 15 and 16, connected by a cross-beam 17 , are included in the connection with the lead screws 18 and 19, each of which has sections with right and left screw cuts. This is necessary to install the counterweight 20, which moves simultaneously with the nuts 15 and 1-6, the crosshead 17 and the bearing housing 13 assembled, but in the opposite direction.

The counterweight 20 is provided with removable weights 21. To synchronously move the body 13 in order to smoothly change the angular amplitude of the chamber 8 and the counterweight 20, the screws 18 and 19 are interconnected by gear wheels 22 and 23 having the same number of teeth.

The supports 24 and 25 of the spindle screws are rigidly connected to the drive housing 26 (Fig. 2), mounted with the help of rolling bearings on the rack 27 and driven through a belt drive 28 (Fig. 1) in rotation from the electric motor 29.

The imbalance from the gear wheels 22 and 23 is balanced by the corresponding tides on the housing 26. The vibrating support 2 of the base 1 is made in the form of the housing 30 (FIG. 4) and the lid 31, in a common cavity of which elastic rings 32 are placed, covering the trunnion 3 (rotary ring 4), fixed from axial displacement through the elastic flange 33 and the thrust washer 34 by wiyt 35, screwed into nut 36, located

in the bores of the housing 30 and the cover 31, interconnected by bolts 37, which regulate the damping reactions of elastic rings.

The device works as follows. In the working chamber 8 load the parts to be processed and the granules of the processing environment. By rotating any of the screws 18 or 19, the required amplitude of the angular oscillations of the working chamber 8 is set. For example, when the screw 18 is turned counterclockwise, the screw 19, due to the presence of a gear train 22-23, rotates clockwise simultaneously, and the nuts 15 and 16 with the crossmember 17, body 13 bearing

Since they move progressively away from the axis of the drive housing 26, the amplitude of the angular oscillations of the working chamber increases. In synchronization with the nuts 15 and 16, the crosspiece 17 and the housing 13 of the support, but the counterweight 20 moves in the opposite direction.

After setting the required amplitude of angular oscillations of the working chamber, the rotational drive of the housing 26 is activated. The rotation of the housing by means of hinges 14-15 and 14-16, a spherical bearing 12

 and the spline carrier 10 is transformed into complex volumetric angular oscillations of the working chamber 8.

In the process of work with the aim of changing the intensity of the flow of technological

The Q process of the rods of the hydraulic cylinders 6 is gradually advanced, and the position of the center of oscillation changes along the height of chamber 8, which changes the dynamics of the process.

The movable spline connection drove 10 with the sleeve 9 is inseparable

5 kinematic chain with all adjustments, including in the process. Due to the fact that the carrier 10 enters inside the chamber, the compactness of the whole structure is high.

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Claims (3)

1. A device for vibratory processing, comprising a vertical working chamber mounted on the base by means of two hydraulic cylinders pivotally connected to a rotating frame mounted with its trunnions in the base supports, the chamber being connected to a vibratory exciter by means of a carrier different from that, in order to increase the reliability of the device, it is equipped with a slotted sleeve with a casing placed in the central part of the working chamber, while the carrier is placed in the sleeve with the possibility of axial movement by means of a spline connection, and the vibration exciter is made in the form of a rotationally provided housing with a spherical bearing, while the carrier has a lower end fixed in a spherical bearing with the possibility of angular movements, and the bearing is installed in the housing with the possibility of changing its position by means of a screw gear inserted into the device. 2. The device according to claim 1, characterized in that the screw transmission is made in the form of two parallel spindle screws with two successively located threaded sections with different thread directions, while the spindle screws are kinematically connected to each other by means of two gears inserted into the device gear ratio of 1: 1, and the thread The coaxial spindle sections with the same thread direction are mounted on one side of the spherical bearing cage, and on the other side, the counterweight, additionally inserted into the device. 3. The device according to claim 1, characterized in that each of the base supports is colored in the form of a cylindrical body with a lid, wherein each axle of the frame is placed in the cavity of the cylinder and provided with elastic rings mounted on it with the possibility of fixation from axial displacement and degree adjustment squeeze. 14 w AeVm nineteen 5 30 yes jfi k fieA / 7 15 No 18 / leSa in- in rfue.5