RU2018038C1 - Self-excited vibration exciter - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: spool bush 6 spring-loaded relative to a body by springs 7 and 8 is positioned in body 1 with working medium feed and bleed channels 2, 3 and 4, 5 respectively. Piston 9 is mounted inside bush 5, feed and bleed windows 10, 11 and 12, 13 respectively are made in side surfaces. The distance between axes of windows 12, 13 is less than the distance between axes of channels 4, 5 by a value of the working stroke of bush 6. The distance from windows 10 and 11 to the nearest working end is made for overlapping the windows 2 and 3 respectively. EFFECT: improved structure. 1 dwg

Description

 The invention relates to vibration technology and can be used as a drive for various technological machines.

 Known vibration exciter containing a housing with a spring-loaded piston connected to the pressure line, a controlled spool to discharge the working medium from the pressure line, and the spool is connected to the piston by an elastic connection [1].

 The closest to the invention in technical essence and the achieved result is a self-oscillating vibration exciter containing a housing with inlet and outlet pipes, a piston with radial holes from one end and a spring loaded from the other, a spool located coaxially with the piston inside it and fixed through the spring on the housing [2] .

 A disadvantage of the known vibration exciter is the limited technological capabilities.

 The purpose of the invention is the expansion of technological capabilities by stabilizing the operating frequency of the vibration exciter.

 The goal is achieved in that in a self-oscillating vibration exciter containing a housing with channels for supplying and discharging a working medium, with a spool sleeve with inlet and outlet windows installed in the housing with the formation of drive cavities, a piston in the spool sleeve, the distance between the axes of the outlet windows in which is less than the distance between the axes of the channel for the removal of the working medium in the housing by the magnitude of the stroke of the sleeve, the spool sleeve is spring loaded on both sides relative to the housing, and the shortest distance from the supply window to the nearest end is made with the possibility of overlapping the supply window in the housing.

 The drawing shows a self-oscillating vibration exciter, section.

 The self-oscillating vibration exciter contains a housing 1, inlet channels 2, 3 and exhaust channels 4, 5 of the working medium located in the housing. A spool sleeve 6 is placed in the housing 1, spring-loaded relative to the housing by springs 7 and 8. A piston 9 is installed inside the spool sleeve 6, and supply windows 10, 11 and outlet windows 12, 13 are made in the side surfaces.

 The housing 1 in conjunction with the spool sleeve 6 and the piston 9 forms the drive cavity A and B. The distance between the axes of the outlet windows 12 and 13 is less than the distance between the axes of the outlet channel 4 and 5 of the working medium by the magnitude of the stroke of the spool sleeve 6. The distance from the inlet window 10 and 11 to the nearest end of the sleeve 6 is configured to overlap the inlet window 2 and 3, respectively.

 Vibration exciter works as follows.

 The relative position of the elements of the self-oscillating vibration exciter provides the supply of the working medium to the drive cavity A through the lower inlet channel 2 and the lower inlet window 10. The piston 9 moves upward, displacing the working medium from the cavity B through the upper outlet window 12 and the outlet channel 4. Under the influence of the working medium pressure the spring 7 located in the cavity B is compressed. After reaching and subsequent overlapping by the piston 9 of the upper outlet window 12, the pressure in the cavities A and B is equalized. A spring 7 located in the cavity B moves the spool sleeve 6 in the direction of the cavity A. In this case, the upper inlet channel 2 and the upper inlet window 10 are combined, and at the same time, the lower outlet window 13 and the lower outlet channel 5. At the same time, the previously aligned lower inlet channel is undocked 3 with the lower inlet window 11 and the upper outlet window 12 with the outlet channel 14. The piston 9 moves downward to overlap the lower outlet window 13, after which the switching process occurs as described above.

Claims (1)

 A self-oscillating vibration exciter containing a housing with channels for supplying and discharging a working medium, with a spool sleeve with inlet and outlet windows installed in the housing with the formation of drive cavities, a piston in the spool sleeve, the distance between the axes of the outlet windows in which is less than the distance between the axes of the channel of the working medium in the housing by the magnitude of the stroke of the working sleeve, characterized in that, in order to expand technological capabilities by stabilizing the operating frequency of the vibration exciter, the spool sleeve and spring-loaded on both sides relative to the housing, and the shortest distance from the inlet window to the nearest end is made with the possibility of overlapping the inlet window in the housing.