RU2015873C1 - Tool with electrohydraulic drive - Google Patents

Abstract

FIELD: power tools. SUBSTANCE: additional electrode 16 moves at self-sustained oscillations duty, thus periodically increasing pressure in chamber 2. At pressure rise cup 17 moves from chamber 2 together with tool installed in collet chuck 18. At each travel sealer 11 is extended by spring 9 and at time between discharges spring 9 returns cup 17 in initial position. EFFECT: enhanced reliability and enlarged operating capabilities. 2 cl, 1 dwg

Description

 The invention relates to a mechanized tool, can be used in various industries.

 A hydraulic percussion device is known, comprising a housing with coaxial chambers for working and idling, a piston-hammer, a tool holder and a valve that controls the fluid flow moving in them, a recess is made at the end of the idle chamber, opposite the working chamber, and on the piston rod the drummer in the area of the idle chamber is made an annular collar corresponding to the recess, the idle chamber is in communication with the recess channel, the valve that regulates the fluid flow is located in this channel [1].

 The closest in technical essence to the claimed is a tool with an electro-hydraulic drive containing a housing and a chamber with water, a working body and a movable element [2].

 The disadvantage of this tool is the low reliability.

 The aim of the invention is to increase reliability and expand operational capabilities.

 For this, a tool with an electro-hydraulic drive, comprising a housing, a chamber with water, a working body and a movable element, is equipped with a support, a shell, two electrodes mounted oppositely on the inner surface of the chamber, a leaf spring and a spring-loaded sealant, the inner surface of the chamber has an insulating a coating, a leaf spring is placed in the chamber along its axis and fixed at one end to a support, a shell is mounted on a leaf spring with the possibility of axial movement, the movable element is made in the form of an additional electrode and is placed opposite the main one at the other end of the leaf spring, the working body is made in the form of a cup installed coaxially with the leaf spring inside the cup seal with a collet on the open end and the insulator at the bottom, and the end face of the insulator facing the additional electrode has a bevel , equipped with a cooling radiator and a pistol grip fixed to the housing, in which the cooling radiator is located.

 The drawing shows a longitudinal section of a tool with electro-hydraulic drive.

 The tool with an electro-hydraulic drive comprises a housing 1, a chamber 2 with water 3, a support 4 mounted on the housing 1, a shell 5, two electrodes 6 and 7, mounted opposite to the inner surface of the chamber 2, a leaf spring 8, a spring 11, spring-loaded sealant 11 along the axis 10, the sealant 11 , a cooling radiator 12, a pistol-type handle 13 mounted on the housing 1, a movable element and a working body. The inner surface of the chamber 2 has an insulating coating 14. The leaf spring 8 is placed in the chamber 2 along the axis 10 and is fixed at one end 15 to the support 4, the shell 5 is mounted on the leaf spring 8 with the possibility of axial movement. The movable element is made in the form of an additional electrode 16 and is placed opposite the main 6 and 7 at the other end (not indicated) of the leaf spring 8. The working body is made in the form of a coaxial leaf spring 8 installed inside the sealant 11 of the cup 17 with a collet 18 on the open end (shown) and an insulator 19 at the bottom (not shown), and the end face of the insulator 19, facing the additional electrode 16, has a bevel 20. The cooling radiator 12 is located in the pistol grip 13. Water 3 filling the chamber 2 is salted.

 Work tool with electro-hydraulic drive as follows.

 The circuit breaker 21 connects a circuit having spark gaps between the electrodes 6, 16 and 16, 7. These gaps are not the same, therefore, between the additional electrode 16 and one of the main electrodes, for example 6, with a potential difference corresponding to the breakdown voltage, a spark jumps, the evaporating part of water 3. The pressure wave arising from evaporation acts on the surface of the leaf spring 8 and deflects it towards the main electrode 7. When the additional electrode 16 reaches the breakdown zone, the spark jumps between the bases and the additional electrodes 7 and 16 and deflects the additional electrode 16 towards the main electrode 6. Thus, the additional electrode 16 moves in self-oscillating mode, periodically causing an increase in pressure in the chamber 2. At each increase in pressure, the cup 17 moves from the chamber 2 together with the installed in collet 18 with a tool (cutter, punch, saw, etc., not shown in the drawing). With each movement, the sealant 11 is stretched by the spring 9, and during the time between the discharges, the spring 9 returns the cup 17 to its original position. The end face of the insulator 19, having a bevel 20, provides a continuous rotation of the glass 17 around the axis 10, and if the rotation is not needed, then one of the grooves (not indicated) of the collet 18 is used as a keyway. The frequency of the pulses can be changed both due to the current source, and by changing the stiffness of the leaf spring 8, moving along the shell 5.

 The additional electrode 16 can be located closer to one of the main electrodes 6 or 7, while to compensate for the breakdown distance, the shell 5 can be made with a step at the end located in the chamber 2, so that the leaf spring 8 has unequal stiffness in the sides of the main electrodes 6 and 7.

Claims (2)

 1. TOOL WITH ELECTRIC HYDRAULIC ACTUATOR, comprising a housing, a chamber with water, a working body and a movable element, characterized in that, in order to increase reliability and expand operational capabilities, it is equipped with a support fixed to the housing, a shell, two mounted oppositely on the inner surface of the chamber electrodes, a leaf spring and a spring-loaded sealant, the inner surface of the chamber has an insulating coating, the leaf spring is placed in the chamber along its axis and is fixed at one end on the support, the shell is mounted on a leaf spring with the possibility of axial movement, the movable element is made in the form of an additional electrode and placed opposite the main one on the other end of the leaf spring, the working body is made in the form of a cup coaxially mounted with a leaf spring with a collet on the open end and the insulator at the bottom, and the end face of the insulator facing the additional electrode has a bevel.  2. The tool according to claim 1, characterized in that it is equipped with a cooling radiator and a pistol grip fixed to the housing, in which the cooling radiator is located.