SU1613721A1 - Device for for varying the radius of rotating crank under load - Google Patents

Abstract

The invention relates to mechanical engineering and can be used mainly in eccentric pumps for regulating the magnitude of their volumetric flow. The aim of the invention is to provide an automatic adjustment of the crank radius of the pressure developed by the pump. When the pressure developed by the pump increases, it enters the chambers 7, 21 and 20, acting on the piston 6 and the additional piston 17 and creating an axial force which, when the piston 6 moves in the axial direction with the coupling halves 9, 10 and the balls 11 of the screw pair, is transformed into a cool torque, ensuring rotation of the additional eccentric 3 associated with half coupling 9 in the direction of decreasing the total crank eccentricity value and reducing the pump volumetric flow value. When the regulating hydraulic device is triggered, the conical surface 22 of the rod 18 will move away from the piston 14 of the piston 6, which opens, and the drain hole 19 will open and the spring 5 will move the piston 6 to the right, and the screw screw, as shown above, will convert the axial movement into torque, providing rotation additionally, the eccentric 3 in the direction of increasing the total eccentricity of the crank, and the volumetric flow of the pump will again increase. 2 hp f-ly, 2 ill.

Description

/ 1-A

FIG. g

Claims (3)

Claim 1. A device for changing under load a radius of a rotating crank, mainly for driving a plunger g of an eccentric pump, comprising a housing, a main and additional eccentric mounted with relative rotation, to control the total eccentricity of the crank using a servo mechanism, including a control hydraulic cylinder with a piston, installed with the formation of at least one chamber of variable volume, communicated using a regulatory hydraulic unit with a pressure source yn- ^ adjustment or by discharge, moreover, the piston is kinematically connected with the rotation mechanism of one of the eccentrics, including a thrust bearing, a screw pair in the form of two coupling halves, the first of which is connected to one of the eccentrics and mounted with the possibility of their mutual rotation, and the second is connected with the second eccentric and installed with the possibility of mutual axial displacement with the piston of the hydraulic cylinder relative to the eccentric, characterized in that ₂ 5 that, in order to ensure automatic control of the radius of the crank by pressure, we develop of the pump, the piston of the control hydraulic cylinder is spring-loaded and provided with an annular sealing girdle at the end, the control hydraulic unit is made in the form of an additional piston with a rod and an axial bore connected to the drain installed in an additional cylinder, loaded with a spring and installed with the formation of a piston and rod chambers, the rod at the end is equipped with a section of the conical surface for interaction with the sealing girdle of the piston of the control cylinder, the rod chamber is in communication with the chamber the volume of the control hydraulic cylinder, and the piston through the throttle - with a control pressure source. 2. The device according to π. I, characterized in that between the coupling halves and the screw pair installed rolling elements in the form of balls. 3. The device according to paragraphs. 1 and 2, characterized in that the second coupling half is connected to the second eccentric by means of a prismatic connection with a square cross section. L-4 ₅ / FIG. 2