SU1556765A1 - Hydraulic vibrator - Google Patents

Abstract

The invention relates to a vibration technique. The aim of the invention is to increase reliability, reduce environmental pollution, improve operating conditions, and expand the range of operating parameters. The hydraulic vibrator consists of a body / K / 1 and a spring-loaded working body / PO / 3. K 1 contains a spring-loaded exhaust valve / VK / 4, supply channels 6 and outlet 7 of the energy carrier, cup 8, elastic diaphragm / ED / 9 and rod / Ш / 10, and PO 3 contains a cylinder 16 with an upper 17 and lower 18 caps. The working fluid is supplied through the supply channel 6. The pressure force acting on the ED 9 and the edge of the VK 4 raises the W 10 along with the ED 9 and VK 4. After the clearance Δ is selected, the contact between the edge of the VK 4 and ED 9 is depressurized and the liquid goes to the drain. W 10, ED 9 and PO 3 return to their original position and close outlet channel 7. 1 hp f-ly, 1 ill.

Description

The invention relates to vibration technology and can be used in various industries, the technological processes of which require the use of vibratory machines.

The purpose of the invention is to increase reliability, reduce environmental pollution, improve operating conditions and expand the range of operating parameters of a hydraulic vibrator.

The drawing shows a hydraulic vibrator, a section. ''

The hydraulic vibrator consists of a housing 1 and a working body 3 covering it with ball guides 2. An exhaust valve 4 is placed in the axial bore of the housing 1, made in the form of a 1-stage hollow spool, spring-loaded relative to the housing 5. The housing 1 contains an inlet channel 6 and an outlet channel 7 energy carrier, with a glass 8 of elastic diaphragm 9 fixed on it.

The rod 10 through the elastic diaphragm 9 rests on the exhaust valve 4. Between the housing 1 and the diaphragm 9 there is a working cavity 11. The exhaust valve 4 on the diaphragm 9 side has a working edge 12, and from the opposite side rests on the adjusting screw 13 through a damper consisting of gaskets 14 and 15. The working body 3 consists of a cylinder 16 with upper 17 and lower 18 covers. The top cover 17 serves as a working table, and the bottom 18 - a guide relative to the housing 1. The working body 3 is spring loaded relative to the housing 1 by two oppositely springs 19 and 20. The spring 20 is supported by adjusting bolts 21 through the washer 22. Moving the exhaust valve 4 along the axial bore case 1 is limited to Δ.

Hydraulic vibrator operates as follows.

The working fluid flows through the inlet channel 6 into the working cavity 11. The pressure acts on the diaphragm 9 and the working edge i2 of the exhaust valve 4 and presses the latter to the diaphragm 9. With increasing pressure, the diaphragm 9, the associated rod 10 and the exhaust valve 4 rise up, overcoming the force of the spring 20, raise the working body 3 with the table 17. After the gap Δ is selected, the exhaust valve 4 stops, and the diaphragm 9 with the rod 10 continue to move until the contact between the diaphragms is depressurized 9 and the working edge 12 of the exhaust valve 4. At this moment, the working fluid enters through the - axial channel of the exhaust valve 4 to drain, as a result of which the exhaust valve 4 is returned to its original position by the action of the spring 5, while the impact of the exhaust valve 4 softens the gaskets 14 and 15 dampers. The stem 10, the diaphragm 9 and Started ^ϋ Chii table 17 are also returned to the original position by the spring 20, the diaphragm 9 again closes drain hole. Then the cycle repeats. Using the proposed hydraulic vibrator5 significantly expands the range of vibration frequencies (due to the much lower inertia for the deflection of the elastic diaphragm 9) and reduces environmental pollution. Proposed guide _Ί ravlichesky vibrator by arranging the elastic diaphragm 9 between the rod 10 and the exhaust valve 4 has (in comparison with known) extended range of operating parameters.

Claims (2)

Claim 1. A hydraulic vibrator comprising a housing with channels for supplying and removing energy carrier fixed thereto elastic diaphragm and cooperating with its working edge through the exhaust ^{kla-! 0} pan mounted in the axial bore of the body, and a spring-loaded operating element, characterized in that, in order to increase reliability, reduce environmental pollution, improve operating conditions and expand the frequency range of vibration®, the vibrator is equipped with a glass, stem, coaxially mounted in the housing, and interacting with the working body SG and exhaust valve through the orifice, an adjusting screw and dampers ustanovlen.q upon between the exhaust valve and the adjusting screw, and the exhaust valve is designed as a stepped hollow of the spool, the spring-loaded relative to the housing. 2. The vibrator according to π. 1, characterized in that the working body is made in the form of a cylinder covering the body, the springs of the working body are located between the caps and the body, a spring regulator is installed in the lower cover of the cylinder, and ball guides are installed between the cylinder and the body.