RU99527U1 - WATERPROOF DEVICE - Google Patents

Abstract

 A hydropercussion device, comprising a housing, a hammer having a piston and a rod, a pneumatic accumulator, a cocking and overflow chamber, a pressure and drain hydraulic line, a distribution unit with a control cavity and an elastic locking and regulating element, characterized in that the elastic locking and regulating element is located outside the piston of the hammer between the cocking and overflow chambers with the formation of an annular cross-section between the elastic locking-regulating element and the housing, and the control cavity of the distribution unit is made in with the help of channels the striker piston can be connected to the cocking, overflow chambers, pressure and drain hydraulic lines.

Description

The utility model relates to construction, mining, road engineering, in particular, to hydraulic percussion devices used as replaceable attachments of active action to the basic machines for the development of soils (demolition, ramming) by impulse loads.

A percussion device is known (USSR Author's Certificate No. 1661399 A1, class E.21C 3/20, 1991), including a housing with channels, a striker, cocking and overflow chambers, accumulators, a spool switchgear, drain and pressure lines communicating with cocking and overflow chambers of the device and spool valve.

The disadvantage of this device is the complexity of the design of the percussion device caused by the presence of a slide valve to ensure the operation of the hammer.

Also known is a hydraulic percussion device (USSR Author's Certificate No. 685819, class E.21C 3/20, E02F 9/22, 1979), including a housing, a hammer, a distribution unit with an elastic locking and regulating element, cocking and overflow chambers.

The disadvantage of this device is the limited possibility of its application, due to the fact that the stroke size of the striker depends on the longitudinal dimensions of the cylindrical elastic locking-regulating element.

The closest solution known from the technical essence is a hydropercussion device (USSR Author's Certificate No. 1229329, class Е21С 3/20, 1986), which includes a body, hammer, pistons and rod, a pneumatic accumulator, cocking and overflow chambers, a distribution unit with control cavity and elastic locking and regulating element, pressure and drain hydraulic lines.

The disadvantage of this device is the design complexity of the hydropercussion device, the presence of additional seals on the pistons of the hydropercussion device, which leads to a decrease in efficiency during the working stroke of the striker.

The technical task of this utility model is to simplify the design, increase the efficiency of the hydropercussion device, and its efficiency.

To solve this problem, in a hydraulic shock device containing a housing, a striker with a piston and a rod, a pneumatic accumulator, a cocking and overflow chambers, a pressure and drain hydraulic line, an elastic locking and regulating element with a control cavity, an elastic locking and regulating element is located outside the piston of the striker between the cocking and overflow chambers with the formation of an annular bore between the elastic locking and regulating element and the housing.

Moreover, the control cavity of the distribution unit is made in the piston of the striker and with the help of channels it has the ability to connect with cocking, overflow chambers, pressure and drain hydraulic line. And the elastic locking-regulating element itself also performs the functions of compaction during the platoon (idling) of the striker.

The essence of the utility model is illustrated in the figure, which shows the proposed hydropercussion device.

The hydropercussion device includes a housing (1), a hammer (2) with a piston (3) and a rod (4), a pneumatic accumulator (5), a cocking (6) and overflow (7) chambers, a pressure (8) and drain (9) hydraulic lines. In the housing (1), a radial channel (10) with an annular groove (11) is made, connected to a drain hydraulic line (9).

An elastic locking-regulating element (12) is installed on the piston (3), which is located with a radial clearance in the housing (1), and a control cavity (13) is made, which is connected to the cocking chamber (6) using the channel (14), and channels (15), (16) and (17) has the ability to connect with an overflow chamber (7) and a drain hydroline (9). An annular cross-section (18) between the cocking (6) and overflow (7) chambers is formed by the inner surface of the housing (1) and the outer surface of the elastic locking-regulating element (12).

The operation of the hydropercussion device is as follows (see. Fig.). From the pressure hydraulic line (8) from the pump of the base machine (for example, an excavator), the working fluid is supplied to the cocking chamber (6) and through the channels (14), (15) it enters the control cavity (13), while the elastic shut-off the regulating element (12) is deformed (expanded) and the annular passage section (18) is overlapped. There is a platoon of the percussion device (idle striker (2)) and gas compression in the pneumatic accumulator (5).

At the end of the platoon, the piston (4) reaches the annular groove (11) and through the radial channel (10), channels (15), (16), (17) the control cavity (13) is connected to the drain hydraulic line (9). The pressure under the elastic locking-regulating element (12) drops, it deforms (contracts), forming an annular cross-section (18). Under the action of the compressed gas energy of the pneumatic accumulator (6), the striker (2) makes a working stroke, displacing the liquid from the cocking chamber (6) into the overflow chamber (7) and the drain line

(9).

At the end of the stroke, the hammer (2) strikes a tool (not shown) and stops. At the same time, the pressure in the fluid located in the axial channel (16) rises sharply (water shock occurs), which contributes to additional radial deformation (expansion) of the elastic locking-regulating element (12) and the annular cross-section (18) is overlapped. Next, the work cycle is repeated.

The proposed device allows to simplify the design of the hammer, to reduce friction during the working stroke of the hammer, to increase the efficiency of the hammer, the efficiency of its work. In addition, the manufacturability of the hydropercussion device is increased, its assembly and repair is simplified.

Claims (1)

A hydropercussion device, comprising a housing, a hammer having a piston and a rod, a pneumatic accumulator, a cocking and overflow chamber, a pressure and drain hydraulic line, a distribution unit with a control cavity and an elastic locking and regulating element, characterized in that the elastic locking and regulating element is located outside the piston of the hammer between the cocking and overflow chambers with the formation of an annular cross-section between the elastic locking-regulating element and the housing, and the control cavity of the distribution unit is made in with the help of channels the striker piston can be connected to the cocking, overflow chambers, pressure and drain hydraulic lines.