RU2583195C1 - Hydraulic drive protection system - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to machine building and can be applied for protection from unauthorised discharge of working fluid from hydraulic systems of road, construction, agricultural, meliorative, forestry, and industrial machines and equipment with hydraulic drive of working members. Hydraulic drive protection system includes hydraulic tank, pump connected via pressure hydraulic line with hydraulic drive through distributor, drain line into hydraulic tank, and locking device, which includes housing with inlet, outlet, and blind cavities, inlet, outlet, and drain nipples with channels, installed in discharge hydraulic line and connected by its inlet cavity to output of pump, and by outlet cavity to distributor, with spring-loaded plunger arranged in inlet cavity with annular groove combined with radial holes, that shuts off outlet nipple channel, and axial channel communicated with outlet cavity, which is shut by spring-loaded plunger conical valve with hydraulic booster of hydraulic pump. Locking device is additionally equipped with relief valve with nipple rigidly mounted in bore of stop on locking device. Relief valve is made in form of hollow cylinder with mounted in it spring-loaded piston equipped with sealing ring made of elastic material. Piston divides cylindrical cavity of unloading valve into two ones: piston cavity communicated with outlet cavity of housing of locking device via channel made in stop on locking device, and spring cavity communicated via nipple channel with drain line.

EFFECT: technical result of disclosed invention is upgraded efficiency of hydraulic drive protection from unauthorised discharge of working fluid from hydraulic system in case of high-pressure hoses destruction.

1 cl, 1 dwg

Description

The invention relates to mechanical engineering and can be used to protect against unauthorized discharge of the working fluid from the hydraulic systems of road-building, agricultural, reclamation, forestry, industrial machinery and equipment with a hydraulic drive of the working bodies.

A known hydraulic drive protection system comprising a pump connected by a pressure line to a hydraulic motor through a distributor with a spring-loaded spool equipped with a hydraulic lock connected to a drain line and a shut-off device installed in the pressure line and connected by its inlet cavity to the pump outlet. The locking device is made in the form of a housing, with a spring-loaded spool placed in it, with an axial channel made from the input cavity side, an opening through a spring cavity with a thrust rod installed in it with an output cavity connected to the distributor inlet, while radial channels are made in the valve body communicating an axial channel with a discharge line [Patent No. 1813937 F15В 20/00 - analogue].

The disadvantage of the analogue is the low reliability of the protection of the hydraulic drive from unauthorized discharge of the working fluid during the destruction of high pressure hoses. The disadvantage of the hydraulic drive protection system is that when the locking device is activated at the end of the stroke of the spring-loaded spool, a closed incompressible volume of the working fluid is formed between the ends of the spool and the base of the thrust rod, which prevents the spool from moving and reliable closure of the outlet cavity of the shut-off device. In this case, the pressure in the inlet cavity drops and the spool moves away from the boundary of the flow blocking, which causes the oscillatory process of the spool and throttling of the liquid into the damaged pipeline. This reduces the efficiency of blocking the flow of the shut-off device, increases the response time of the device and, as a result, increases the amount of unauthorized release of the working fluid into the environment.

The closest, by the greatest number of common essential features and technical result achieved, is a hydraulic drive protection system containing a hydraulic tank, a pump connected by a pressure hydraulic line to a hydraulic motor through a distributor and a locking device. The locking device is equipped with a spring-loaded plunger and valve, the movable rod of which is hydraulically connected to the pressure hydraulic line and freely moves in the stop. The locking device is made in the form of a housing with inlet, outlet, drain and blind cavities, inlet, outlet and drain fittings with channels, installed in the pressure line and connected with its inlet cavity to the pump outlet, and the outlet to the distributor, while the ring is made in the plunger a groove and radial holes communicating an axial channel with a drain line [RF Patent PM PM 15763 - prototype].

The disadvantage of this hydraulic drive protection system is the low efficiency of its shut-off device. This is due to the fact that at the moment of the actuation of the locking device in the outlet cavity at the end of the plunger stroke between the ends of the plunger and the stop, a closed incompressible volume of the working fluid “hydraulic cushion” is formed, which prevents the plunger from moving and the outlet channel is completely blocked, which causes the oscillatory process of the plunger, violation its equilibrium, and, as a result, leads to an increase in the time of shutting down the channel of the outlet fitting, reducing the operational reliability of the device and the effectiveness of the protection system hydraulic drive, helps to increase the amount of unauthorized release of the working fluid into the environment during the destruction of high pressure hoses, reduce the environmental safety of the use of hydraulic machines.

The technical result of the invention is to increase the efficiency of the hydraulic drive protection system from unauthorized discharge of the working fluid from the hydraulic system during the destruction of high pressure hoses.

The claimed invention is aimed at solving a technical problem - increasing the efficiency of the hydraulic drive protection system against unauthorized discharge of the working fluid from the hydraulic system when the high pressure hoses are destroyed by reducing the oscillatory process of the plunger, increasing the operational reliability of the hydraulic drive and the environmental safety of using the hydraulic drive of the machines.

The technical problem is solved in that the protection system of the hydraulic actuator, including a hydraulic tank, a pump connected by a pressure hydraulic line with a hydraulic actuator through a distributor, a drain line to the hydraulic tank and a shut-off device, including a housing with inlet, outlet and blind cavities, inlet, outlet and drain fittings with channels, installed in the pressure line and connected with its inlet cavity to the pump outlet, and the outlet to the distributor, with a spring-loaded plunger located in the inlet cavity having an annular groove combined with radial holes, and an axial channel in communication with the outlet cavity, which is blocked by a spring-loaded plunger valve having a hydraulic backwater from the hydraulic pump; the locking device is additionally equipped with a discharge valve with a fitting and rigidly mounted in the bore of the stop of the locking device, while the discharge valve is made in the form of a hollow cylinder with a spring-loaded piston fitted with an o-ring made of elastic material, and the piston divides the cylindrical cavity of the discharge valve into two: piston a cavity communicating with the output cavity of the locking device body by a channel made in the stop of the locking device, and a spring cavity, with bschayuschuyusya nozzle channel with drain line.

The essence of the invention lies in the fact that the locking device of the hydraulic actuator protection system is additionally equipped with an unloading valve, which includes a housing with a fitting, the valve being made in the form of a hollow cylinder, which is rigidly mounted in the bore of the stop of the locking device, and the cylindrical cavity of the unloading valve communicates with the outlet cavity of the housing locking device through the channel. A spring-loaded piston is placed inside the cylindrical cavity of the unloading valve, equipped with a sealing ring made of elastic material, dividing the internal volume of the cylindrical cavity into the piston E and spring J. Using the unloading valve eliminates the oscillatory process of the plunger during operation of the hydraulic drive, eliminating the occurrence of a “hydraulic cushion” in the form incompressible fluid volume at the end of the plunger stroke. In this case, a given volume of the working fluid flows into the cavity E of the unloading valve, compressing the spring of the unloading valve and moving the piston, which contributes to the unimpeded movement of the plunger by the total stroke (h + t), where h is the passage section of the outlet fitting channel, and t - the distance from the end face to the generatrix of the channel of the outlet fitting. This eliminates the oscillatory process of the plunger and ensures reliable overlap of the passage section h of the channel B of the output fitting. In order to avoid the formation of an "air cushion" in the cavity E, which prevents the piston of the discharge valve from moving, the spring cavity G communicates through the channel of the discharge valve fitting with a drain line (atmosphere).

Thus, the use of an unloading valve in the shut-off device prevents the unauthorized discharge of the working fluid from the hydraulic system when the sleeves break, and, therefore, increases the protection efficiency of the hydraulic drive, as well as the operational reliability and environmental safety of the environment.

The invention is illustrated by graphic material - the drawing schematically shows a General view of the device.

The device of the hydraulic drive protection system includes a hydraulic tank 1, a pump 2, a pressure hydraulic line 3, a drain line 4 to the hydraulic tank, a control valve 5, a hydraulic motor 6, a shut-off device 7, an unloading valve 8 provided with a fitting 9.

The locking device 7 includes a housing 10, equipped with an input 11, output 12, drain 13 fittings with channels B and D, respectively, and a stop 14. Inside the housing 10 of the locking device 7 is placed a spring-loaded plunger 15 with an input cavity A. The plunger 15 is placed in the housing 10 at a distance of its full stroke equal to (h + t), where h is the bore of the outlet fitting 12, and t is the distance from the end of the stop 14 to the generatrix of the outlet fitting 12, with the formation of an outlet cavity between the plunger 15 and the end of the stop 14. B. On the outer surface of the plunger 1 5, an annular groove 16 is made at a distance from the vertical axis of the drain fitting 13 - (h + t) equal to the full stroke of the plunger 15, and radial holes 17 at a distance from the vertical axis of the drain fitting 13 - (h + t) equal to the full stroke of the plunger 15. The inlet cavity A communicates with the outlet cavity B of the housing 10 by means of an axial channel 18, which is blocked by a spring-loaded plunger 19 with the possibility of its free movement in the through hole 20 of the stop 14 to form a cavity D. Both plungers 15 and 19 are spring-loaded with elastic elements 21 and 22. Etc this one of the ends of the plunger 19 is made conical 23 with a shoulder 24, which is the stop of the spring 21. The discharge valve 8 is made in the form of a hollow cylinder with a piston 26 located inside the spring spring 25, equipped with a sealing ring 27 made of an elastic material, such as rubber, and a rigidly mounted, for example, threaded connection in the bore of the stop 14 of the locking device 7. The internal volume of the discharge valve 8 contains two cavities: a piston cavity E and a spring cavity Zh, while the cavity E is unloaded Foot valve 8 communicates with the outlet cavity of the locking device B channel 28 formed in the abutment 14 of the locking device 7.

The protection system of the hydraulic actuator operates as follows.

When the hydraulic drive is idle, the pressure of the working fluid in the cavities A, B and C of the locking device 7 is the same and equal to the nominal. In this case, the plunger 15 of the inlet cavity is supported by the spring 22 and is in the extreme left position. The plunger 19 of the output cavity B is in equilibrium under the action of a pressure force on the plunger 19, created by the pump 2 from the side of the blind cavity D and the output cavity B, while the cavities A and B communicate through the axial channel 18 of the plunger 15.

When the valve 5 is turned on, the working fluid through the channel 18 from the inlet cavity A enters the outlet cavity B and through the channel B of the outlet nipple 12 under the working pressure enters the hydraulic motor 6. In this case, the pressure drop of the working fluid in the cavities A and B is insignificant.

When the power supply sleeve 6 of the hydraulic motor breaks, the pressure in the outlet cavity B instantly drops and, due to the pressure difference of the working fluid in the cavities A and B, the inlet cavity plunger 15, overcoming the resistance of the spring 22, moves to the right to the end face of the stop 14, blocking the passage section of the channel 18 and the cross section h of the outlet channel of the nozzle 12, while the groove 16 and the radial holes 17 of the plunger 15 communicate with the drain channel G of the nozzle 13 and the hydraulic tank 1, and the working fluid from the pump 2, bypassing the damaged high pressure hydraulic line of the hydraulic motor 6, through the porno hydraulic line 3, cavity A, the groove 16 and the radial holes 17 of the plunger 15 are sent to the channel G and then drained into the hydraulic tank 1. At the same time, the working fluid is displaced from the cavity B into the cavity E of the discharge valve 8 and, compressing the spring 25, moves the piston 26. After the troubleshooting (replacing the damaged high-pressure sleeve), the working fluid from the cavity E of the discharge valve 8 is displaced back into the cavity B by the action of the spring 25 and the piston 26 returns to its original position.

Thus, the proposed invention, in comparison with the prototype, increases the efficiency of the hydraulic drive protection system from unauthorized discharge of the working fluid from the hydraulic system, and also significantly increases the operational reliability and environmental safety of the hydraulic drive of the working bodies of the machines.

Claims (1)

A hydraulic drive protection system, including a hydraulic tank, a pump connected by a pressure hydraulic line with a hydraulic drive through a distributor, a drain line to the hydraulic tank and a shut-off device, including a housing with inlet, outlet and blind cavities, inlet, outlet and drain fittings with channels, installed in the discharge hydraulic line and connected with its inlet cavity to the pump outlet, and the outlet cavity to the distributor, with a spring-loaded plunger located in the inlet cavity, having an annular groove combined with radial holes, and an axial shaft al, communicating with the outlet cavity, which overlaps a spring-loaded plunger a conical valve having hydraulic backwater from the hydraulic pump; characterized in that the shut-off device is additionally equipped with a relief valve with a fitting and rigidly mounted in the bore of the stop of the shut-off device, while the discharge valve is made in the form of a hollow cylinder with a spring-loaded piston fitted with an o-ring made of elastic material, the piston divides the cylindrical cavity of the relief valve on two: a piston cavity communicating with the output cavity of the housing of the locking device by a channel made in the stop of the locking device, and a spring cavity communicating with the nozzle channel with a drain line.

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