UA28512U - Antiphase hydraulic hammer - Google Patents

Abstract

An antiphase hydraulic hammer contains a cylindrical housing, in which internal and female heads are coaxially located, the chamber is filled with working fluid, external surface of the stock of internal head and internal surface of female head form two working chambers divided by protrusion of female head, in which the openings with annular grooves are made, moreover openings are divided by protrusion in pairs in such a way that symmetrical openings relative to protrusion are working openings, and extreme openings are additional controlling openings, moreover in the working mains, which connect the bistable element with the openings of housing of hydraulic hammer the check valves are mounted, and through the hydraulic lock the outlets from these mains are connected with the discharge. In this case hydraulic lock is made from two spring-loaded valves, between which a piston with two pushers is located, mains connect hydraulic hammer to the cavities, which are located from two sides of valve, and the drain line is, in turn, connected to the chamber formed by valve and cavity, which is located beyond the working surface of valve.

Description

Description of the invention

The useful model refers to mining engineering, namely impact devices, which are used for the mechanization of manual labor in the development of rocky and frozen soils and the processing of other materials.

The percussion device (Aust. sv. SSSR Mo 800346, class E 21 C 3/20, 19811) contains a cylinder with discharge and accumulator chambers, a movable striker with a piston, a control body consisting of a spool, which is placed in a housing made of with an annular groove, forming an end control cavity with it and has 70 axial and radial channels that periodically overlap, pressure and drain lines, control of the movement of the striker is carried out by means of a through section, and not by moving the striker. In this case, cavitation is possible on small sections, and the process will be non-linear, and the control will be unstable and unreliable. In addition, in this device, as the speed of movement of the firing pin on impact increases, the pressure in the discharge chamber begins to increase, which prevents the movement of the device. The above-mentioned disadvantages lead to a decrease in the factor of 12 of the useful effect of the device.

The hydraulic impact device (Aust. sv. USSR Mo 922274, class B 25 О 9/04, 19821) contains a housing with a chamber of constant volume, inside the housing there is a coaxially located internal striker with a rod and a covering striker, which form the working chamber , the control spool, which contains a housing with cylindrical pistons located inside it, connected by a rod, and the working chamber through the holes in the housing is connected to the control spool and through it pipelines with discharge and drain lines.

The disadvantages of such a design are the presence of a large number of hydraulic mains, which causes inertia in the control of operating modes, the complexity of the design and the increase in resistance along the length of the pipelines, which reduces the reliability and efficiency of the system.

The hydraulic impact device (Aust. sv. USSR Mo 1733628, class E 21 C 3/20| consists of an impact mechanism | a control unit. The impact mechanism contains a body and a striker, which form a working cavity and a cavity in the return stroke. The cavity of the return stroke with is connected to the pressure line. An additional control channel is made in the body of the impact mechanism with the possibility of exiting into the cavity of the return stroke. The control unit contains a body in which a flow distributor with a closing and regulating element in the form of a ring, a bushing floor and an additional flow distributor with an additional closing valve are installed The cavity of the bushing is permanently connected to the working cavity and periodically through the main and additional locking-regulating elements to the inlet and outlet channels of the control unit.

Its disadvantage is the complexity of the design of the control unit and the presence of a large number of pipelines, which leads to significant losses in them and, as a result, to a decrease in the efficiency of the system. 3o Percussive device | Patent of Ukraine Mo 25480, cl. В 25 О 9/04, 1993), which contains a working body, a housing, in the rear part of which a chamber of constant volume is made, filled with liquid, an internal striker with a rod and a covering striker are installed in the housing coaxially, the rear ends of the strikers are in chamber of constant volume, and the inner surface of the encompassing striker and the outer surface of the inner striker form a working chamber, which is divided by a protrusion, on the inner surface of the encompassing striker into the rear and front chambers, with the control spool, which contains the housing, cylindrical pistons, connected rod, located inside the housing, and the working chamber is connected to the control spool through holes in the housing, and the opposite rear and front chambers through holes and pipelines are connected to the control spool and through it pipelines with discharge and drain lines. On the inner surface of the striker and on the rod of the inner striker, protrusions are made, and the protrusions of the striker form a control and compensation chamber and are a piston, a jet hydraulic distributor is introduced into the device, the control channels of which are connected through holes in the body and on the striker, respectively, to the parts the control and compensation chambers, separated by a piston, and the working chambers of the jet hydraulic amplifier are connected by a pipeline to the opposite ends of the control spool. Holes are made in the protrusions of the striker facing opposite to the piston, which connect the control and compensation chamber with the rear and front chambers of the shock device. -k 70 The disadvantage is the use of a spool control system, namely the high inertia of the moving part, which leads to a delay in switching the operating modes of the impact device, as well as high wear of the moving parts due to hydraulic friction.

As a prototype, a useful model of an anti-phase hydraulic hammer was taken (Authority of St. SHA Mo 18635, class B 25 О 3/20, 20061), which contains a cylindrical body, in which the inner and covering strikers are coaxially located, connected between themselves by a chamber of constant volume in it, the chamber is filled with a working fluid and acts as a hydraulic feedback between the strikers, the outer surface of the rod of the inner striker and the inner surface of the covering form two working chambers, separated by the projection of the covering striker, in which holes with grooves are made, and the holes are separated in pairs by the projection so that the ones symmetrical with respect to the projection are the working ones, the extreme ones are the additional controllers, the body of the impact device has holes that are designed to control the impactor and drain the liquid, 60 control system, which is made on the basis of a bistable element, which is a central distributor of injection working channels, which it is connected to the openings of the housing of the anti-phase hydraulic hammer, which are connected to the drain working channels, which connect forming a drain channel, while nozzle diodes are installed on the inner surface of the injection working channels, and the other openings of the anti-phase water hammer housing are connected to the input of the bistable element through the control channels. because the disadvantage of the prototype is low efficiency, due to the fact that the injection working channels after the nozzle diodes have a branch, along which part of the working fluid falls into the drain, which significantly reduces the efficiency of the device.

The useful model is based on the task of improving the well-known hydraulic hammer, by wrapping non-return valves in a bistable element and installing a hydraulic lock, which ensures an increase in efficiency.

The problem is solved by the fact that an anti-phase hydraulic hammer containing a cylindrical body in which the inner and covering rams are coaxially located, the chamber is filled with a working fluid, the outer surface of the rod of the inner ram and the inner surface of the covering form two working chambers, separated by the protrusion of the covering ram, in which the holes with grooves, and the holes are separated by the protrusion in pairs 7/0 so that symmetrical with respect to the protrusion are working, the extreme ones are additional controls, the body of the impact device has holes that are designed to control the impactor and drain the fluid, the control system is made on the basis of a bistable element , which is the central distributor of the injection working channels, by which it is connected to the openings of the anti-phase water hammer housing, and those, in turn, to the draining working channels that form the drain channel, and the other openings of the anti-phase water hammer housing are connected by control channels to input of the bistable element, into the working lines, which connect the bistable element with the holes of the hydraulic hammer body, non-return valves are installed, and through the hydraulic lock, the branches from these lines are connected to the drain, while the hydraulic lock is made of two spring-loaded valves, between which a piston with two pushers is located, the lines connect the hydraulic hammer to the cavities , which are located on both sides of the valve, and the drain line is in turn connected to the chamber formed by the valve and the cavity located behind the valve's working surface.

According to the useful model, what is new is that check valves are installed in the working lines that connect the bistable element with the holes of the hydraulic hammer body, and the branches from these lines are connected to the drain through the hydraulic lock, while the hydraulic lock is made of two spring-loaded valves, between which there is a piston with two pushers, the lines connect the hydraulic hammer to the cavities located on both sides of the valve, and the drain line, in turn, is connected to the chamber formed by the valve and the cavity located behind the valve's working surface. at,

The proposed anti-phase water hammer is shown in Fig.

The anti-phase hydraulic hammer consists of an internal hammer 1, an external hammer 2 and a body 3. The outer surface of the rod of the internal hammer 1 and the inner surface of the external hammer 2 form working chambers 10 and c 3017, separated by the protrusion of the external hammer, in which four holes are made. The nearest symmetric with respect to the protrusion of the highways 6 and 7 are working; extreme 4 and 5 - additional managers. Discharge lines 6 and -- 7 are connected to the pump unit 16 through check valves 15 and 23 and the bistable element 12, and through the hydraulic lock 13 through lines 20 and 22 to the hydraulic tank 14. The hydraulic lock 13 consists of spring-loaded valves 17, 18 and pusher 8 , which has a piston 9. The ends of the valves 17 are connected to the main line 22, and the ends of the valve 18 are connected to the main line 20. The valves 17, 18 have a diameter of 0, and the diameter of the seat part of the valve is 4, and О » a. with

The impact device works as follows. When the strikers 1 and 2 are in the position, as shown in Fig., the working fluid from the pump 16 enters the bistable element 12 through the line 21, due to the control signal that enters through the line 5, is pressed against the wall 24 under the action of the Coand effect, through the non-return valve 15 enters the working chamber 10 through the line 6. As a result of the pressure created by the incoming working fluid, the separation of the strikers 1 and 2 occurs. At the same time, through the line 20, the liquid under pressure acts on the end face of the valve 18 and due to the difference in the diameters О" 4 , presses the valve against the seat, which blocks the draining of the liquid. Also, the liquid under pressure in the main line 20 acts on the pusher 8, which moves and opens the valve 17, thanks to which the liquid from of the working chamber 11 along the main line 7 and 22 enters the drain. When moving to a distance of the length of the working stroke, which is determined structurally, the working chamber 10 through the holes in the covering striker 2 is connected to the main line 4, as a result of which the fluid under pressure is fed through the control line 4 to the bistable element 12. In turn, the working fluid, which is supplied from the pumping unit 16 through the main line 21, is pressed against the wall 25, and through the non-return valve 23 enters the main line 7, then into the working chamber 11. An impact is made on the body and the tool. After the impact, the fighters diverge in the opposite direction. Then cycle c is repeated.

Claims (1)

The formula of the invention Co.) An anti-phase hydraulic hammer containing a cylindrical body in which the inner and covering strikers are coaxially located, the chamber is filled with a working fluid, the outer surface of the rod of the inner striker and the inner surface of the covering form two working chambers, separated by the protrusion of the covering striker, in which holes with grooves are made, and holes are separated by a protrusion in pairs so that symmetrical relative to the protrusion are working, the outer ones are additional controls, the body of the impact device has holes that are designed to control the impactor and drain the liquid, the control system is made on the basis of a bistable element, which is the central distributor of the injection working channels, by which it is connected to the openings of the anti-phase water hammer housing, and those, in turn, to the draining working channels that form the drain channel, and the other openings of the anti-phase water hammer housing are connected to the input of the bistable element by control channels, which differs in that check valves are installed in the working lines that connect the bistable element with the holes of the hammer body, and through the hydraulic lock, the branches from these lines are connected to de Zpyv, while the hydraulic lock is made of two spring-loaded valves, between which is located a piston with two pushers, the lines connect the hydraulic hammer to the cavities located on both sides of the valve, and the drain line, in turn, is connected to the chamber formed by the valve and the cavity located behind the valve's working surface. 70 - s «- oyu (ge) se - with . a ko (ee) 1 tsu do) s 60 65