SU870084A1 - Hand-operated vibration-protected rotary machine - Google Patents

Description

(54) MANUAL VIBRATION PROTECTION MACHINE OF ROTATING ACTION The invention relates to mechanical engineering, in particular, to manual vibration machines of rotary action, such as grinding, drilling, and can be used in the construction of mechanized and manual tools. The known manual vibroexplosion machine of vibrating action, comprising a housing and an engine and a spindle placed in it, connected to the output shaft of the engine through an elastic element in the form of a helical spring 1. The disadvantages of such a machine are: increased vibrations at idle caused by spindle oscillations in the elastic element from the action of unbalanced centrifugal forces, increased vibrations in all modes of the machine operation due to the transverse elasticity of the elastic element and the beatings arising from it, difficulty in processing the lengths th spindle. The aim of the invention is to reduce the vibrations of the machine and improve the manufacturability of the spindle. This goal is achieved by the fact that the output shaft of the engine and the spindle are provided with helical grooves with a pitch equal to the step of winding the spring, while the machine is equipped with a support installed between the motor shaft and the spindle and made in the form of a rod having a thickening, the diameter of which is equal to the internal diameter of the spring . FIG. 1 shows a general view of the maschina; in fig. 2 and 3 design variants of the output shaft of the engine and springs. A manual vibration-proof rotary action mask, for example, grinding, consists of a housing 1, inside which is placed a motor 2 with an output shaft 3, which is mounted in a bearing 4 of an engine 2. On the output shaft 3 of an engine, a screw groove 5 is made with a pitch equal to the step of winding helical spring 6 The opposite end of the spring 6 is screwed onto the helical groove 5 of the spindle 7 mounted in the bearings 8 of the spindle assembly. An end axial bore 9 is also made on the output shaft 3 of the engine, into which the support is tightly mounted, made in the form of a rod 10 having a quenching 11, the diameter of which is equal to the internal diameter of the spring. Grinding wheel 12 is placed on spindle 7.

Structurally, the output shaft 3 of the engine can be made integral with the rod 10 and the thickening centering the spring 6, as shown in FIG. 2. A second embodiment is shown in FIG. 3. At the same time, the coil spring 6 has cylindrical end sections, and the middle section is made in the form of two converging cones forming a narrowing in the center, x) x, which rolls in the rod 10.

When turning on the machine, the torque of the engine 2 is transmitted from the output shaft 3 to the spring 6 and the spindle 7. During the transmission of the torque, the spring, twisting, damps torsional vibrations arising during grinding and creates an axial force acting on the shaft 3 motor 2 and spindle 7; in this case, a radial clearance is selected in the ball bearings 4 and 8 of the motor and the spindle assembly, thereby reducing the machine vibration.

During the rotation of the spring 6, it is possible to beat its average along the length of the section and a corresponding increase in machine vibrations.

In order to eliminate these beats, a rod 10 with a centering bulge 11, mounted inside the spring with a minimum clearance, is provided. If there is a torque on the spring 6, the spring, twisting, will reduce its internal

diameter, tightly covering the centering bulge 11.

The use of the proposed manual vibration-proof rotary machine allows the operator to increase productivity by reducing vibrations and a corresponding increase in the coefficient of intra-machine operation.

In addition, the use of a shortened spindle in the construction makes it possible to simplify the technology of its manufacture.

Claims (1)

Invention Formula A manual vibration-proof rotary machine, comprising a housing and an engine and a spindle placed in it, connected to the output shaft of the engine through an elastic element in the form of a helical spring, which in order to reduce machine vibration and improve the spindle processability, the engine shaft and spindle are equipped screw grooves with a pitch equal to the spring coiling pitch, while the machine is provided with a support installed between the motor shaft and the spindle and made in the form of a rod having a thickening, the diameter of which is n the inner diameter of the spring. Sources of information taken into account during the examination 1. USSR author's certificate No. 570479, cl. B 24 B 23/00, 1977. -5 2 L