CN201606346U - Integrated-type electro-hydraulic actuator - Google Patents

Abstract

The utility model provides an integrated-type electro-hydraulic actuator, and aims to solve the problems existing in the prior art that a system is large and complicated due to the fact that a plurality of devices are connected through oil pipelines, oil is polluted easily due to the open-style oil tank, and the installation direction of an actuator is fixed. The utility model adopts the technical scheme that two inlets of a hydraulic locking valve group provided with a locking position of a hydraulic cylinder are connected with two oil ports of a two-way hydraulic pump, the two outlets of the hydraulic locking valve group are connected with two cylinder ports of a two-pole hydraulic cylinder, a motor drives the two-way hydraulic pump, and the mentioned devices are integrated into a whole. The utility model has the benefits as follows: the integrated-type electro-hydraulic actuator integrates a plurality of devices into a whole and dispenses with the open-type oil tank and installation direction limit, and outside impurities cannot enter the system.

Description

Integrating electro-hydraulic actuator

Technical field

The utility model relates to also a kind of actuator of operations such as control valve, air door of driving, and said actuator is meant electro-hydraulic actuator, and said operation is meant the open and close or the maintenance of valve or air door.It is widely used in industries such as electric power, metallurgy, petrochemical industry, pipeline.

Background technique

Present electro-hydraulic actuator hydraulic driving system mainly is to be connected to form by oil pipe line by unidirectional oil hydraulic pump, hydrovalve, fuel tank, oil hydraulic cylinder, AC motor drives oil hydraulic pump, and the positioning control of oil hydraulic cylinder is realized by the control loop that electrohydraulic control or electro-hydraulic proportional valve and position transducer etc. are formed.As seen this system is connected to form by oil pipe line by several equipment, the discrete existence of each equipment, and floor space is big, and system is big and complicated, and maintenance work is more; Secondly, fuel tank is an open type, and fuel tank communicates with atmosphere by pneumostome, and fluid is easy to be subjected to outside contamination, makes hydrovalve, servovalve, Proportional valve bite, causes actuator failures; At last, also because fuel tank is an open type, must vertically place, and the space that the installation of final controlling element needs is bigger, and the mounting point of valve or air door is restricted.

Summary of the invention

For solving the problems of the technologies described above, the purpose of this utility model is to provide a kind of integrating electro-hydraulic actuator.

The purpose of this utility model is achieved in that two inlets of the hydraulic locking valve group with locking Position of Hydraulic Cylinder dock with two hydraulic fluid ports of bidirectional hydraulic pump, two outlets of hydraulic locking valve group are docked with two cylinder mouths of dual-rod hydraulic cylinder, two control ends of hydraulic locking valve group are received respectively on the last oil pipeline that can make its reverse opening, motor driving bidirectional hydraulic pump, above-mentioned each equipment integration is an integral body.

Motor just changes, drive the high pressure oil that the bidirectional hydraulic pump produces, through the cylinder mouth of hydraulic locking valve group to oil hydraulic cylinder, the driving hydraulic cylinder piston rod moves, the high pressure oil of going up simultaneously oil pipeline triggers hydraulic locking valve group, hydraulic locking valve group reverse opening is connected oil circuit, and the hydraulic oil of another cylinder mouth of oil hydraulic cylinder is got back to another hydraulic fluid port of bidirectional hydraulic pump through hydraulic locking valve group.When the termination of pumping of external command oil hydraulic pump (such as to the motor outage), the oil pressure of last oil pipeline is lower than setting value, can not trigger hydraulic locking valve group, and hydraulic locking valve group is closed the system oil return pipeline, accurately location is realized in the position of locking oil hydraulic cylinder and piston rod, hydraulic cylinder piston rod; The motor counter-rotating, the working procedure of system and last symmetry.Pressure oil transmits energy in the loop of a sealing.

Compared with prior art, the beneficial effects of the utility model are: it is with several equipment integration one integral body, becomes locking system, and imperforation formula fuel tank is installed not the recipient to restriction, and then provides convenience for the installation of valve or air door; Secondly the impurity of outside can not enter system, does not need oil filter, and has avoided system the bite phenomenon to occur, has improved the reliability of system; Owing to used hydraulic locking valve group, provide the system reverse equilibrant once more, made the system accuracy height; Final system diminishes, take up an area of little, for the assembling and maintenance convenience is provided.

Description of drawings

Further specify the utility model below in conjunction with accompanying drawing.

Underground schematic representation when Fig. 1 is first kind of hydraulic locking valve group of the utility model use.

Fig. 2 is the utility model structural representation.

Underground schematic representation when Fig. 3 is second kind of hydraulic locking valve group of the utility model use.

Embodiment

Referring to Fig. 1, said hydraulic locking valve group with locking Position of Hydraulic Cylinder is made up of two equilibrium valve 8-1 and 8-2, the inlet of these two valves is received the A hydraulic fluid port and the B hydraulic fluid port of bidirectional hydraulic pump 3 respectively, the A cylinder mouth and the B cylinder mouth of dual-rod hydraulic cylinder 10 received in the outlet of these two valves respectively, the control end of these two valves is received respectively on the last oil pipeline that can make its reverse opening, be the B hydraulic fluid port that the control end of equilibrium valve 8-1 is received the bidirectional hydraulic pump, the control end of equilibrium valve 8-2 is received the A hydraulic fluid port of bidirectional hydraulic pump.

When oil hydraulic cylinder (valve) does not need to keep midway, system establishes position limit switch, make oil hydraulic cylinder (valve) on the position of Kai Heguan, realize keeping automatically, said position limit switch is, two electromagnetic induction switch 13-1,13-2 are arranged on the housing 20, these two electromagnetic induction switch are located at the corresponding position, two stroke ends up and down with hydraulic cylinder piston rod respectively, an inductive head 101 is fixed in the end of piston rod, inductive head apart from the distance of induction switch less than the distance of piston rod apart from induction switch, be used to trigger induction switch, to detect the position of piston rod.

This system also is provided with the protection loop; specifically be; the A hydraulic fluid port and the B hydraulic fluid port of bidirectional hydraulic pump received in the outlet of two one-way valve 2-2 and 2-1 respectively; the inlet parallel connection of two one-way valve 2-1 and 2-2; form the oil return pipeline in protection loop; two imports of shuttle valve 7 are connected in the upper and lower oil pipeline of system respectively, and the outlet of shuttle valve is received the oil return pipeline in protection loop by relief valve 5, and solenoid valve 6 is in parallel with relief valve.

Above-mentioned each equipment integration is assembled into one (referring to Fig. 2).

Working procedure is: when motor M is just being changeed, the high pressure oil that bidirectional hydraulic pump 3 produces from the A hydraulic fluid port is through the A cylinder mouth of equilibrium valve 8-1 to oil hydraulic cylinder, simultaneously, this high pressure oil triggers the control end of equilibrium valve 8-2, when the difference of the oil pressure of this control end and oil hydraulic cylinder B cylinder oil pressure reaches setting value, equilibrium valve 8-2 reverse opening, the hydraulic oil of oil hydraulic cylinder B cylinder mouth is got back to bidirectional hydraulic pump B hydraulic fluid port through equilibrium valve 8-2, and this moment, hydraulic locking valve group produced reverse balance pressure.When hydraulic cylinder piston is moved downward to the stroke end, inductive head triggers corresponding induction switch 13-1, this switch sends signal, output to the control circuit of establishing in addition, this control circuit cuts off the power supply to motor M, on this moment on the oil pipeline hydraulic pressure be lower than setting value, can not trigger the control end of equilibrium valve 8-2, equilibrium valve 8-2 closes the system oil return pipeline, the position of locking oil hydraulic cylinder and piston rod, and valve is realized opening or closing reliably; The control circuit that other establishes send electricity to motor M and makes its counter-rotating, the working procedure of system and last symmetry.

When system overload, high pressure oil surpasses setting value, and shuttle valve is opened, and oil is through the oil return pipeline in shuttle valve, relief valve and protection loop; When system was unloaded, high pressure oil was through the oil return pipeline in shuttle valve, solenoid valve and protection loop, and be used at the beginning of the system start-up this moment.

Referring to Fig. 3, said hydraulic locking valve group is, two entrance and exits of valve group are the entrance and exits of two one-way valve 6-1 and 6-2, the inlet of these two one-way valves is received the A hydraulic fluid port and the B hydraulic fluid port of bidirectional hydraulic pump 3 respectively, the A cylinder mouth and the B cylinder mouth of dual-rod hydraulic cylinder 10 received in the outlet of these two valves respectively, two control ends that control end is two sequence valves of valve group, it is the B hydraulic fluid port that the control end of sequence valve 7-1 is received oil hydraulic pump, the control end of sequence valve 7-2 is received the A hydraulic fluid port of oil hydraulic pump, the loop of reverse opening is composed in series by said sequence valve and another one-way valve, after being sequence valve 7-1 and one-way valve 9-1 series connection, 6-1 is in parallel with one-way valve, after sequence valve 7-2 and the one-way valve 9-2 series connection, 6-2 is in parallel with one-way valve.Working procedure is: when speed-adjustable motor M is just changeing, the high pressure oil that bidirectional hydraulic pump 3 produces from the A hydraulic fluid port is through the A cylinder mouth of one-way valve 6-1 to oil hydraulic cylinder, the driving hydraulic cylinder piston moves down, simultaneously, the control end of A branch line high pressure oil trigger sequence valve 7-2, when the difference of the oil pressure of control end and oil hydraulic cylinder B cylinder oil pressure reached predefined value, sequence valve 7-2 opened, and the hydraulic oil of oil hydraulic cylinder B cylinder mouth is got back to bidirectional hydraulic pump B hydraulic fluid port through sequence valve 7-2, one-way valve 9-2.During the motor counter-rotating, the B branch line high pressure oil that bidirectional hydraulic pump 3 produces from the B hydraulic fluid port is through the B cylinder mouth of one-way valve 6-2 to oil hydraulic cylinder, the driving hydraulic cylinder piston moves up, simultaneously, the control end of B branch line high pressure oil trigger sequence valve 7-1, when the difference of the oil pressure of this control end and oil hydraulic cylinder A cylinder oil pressure reached setting value, sequence valve 7-1 opened, and the hydraulic oil of oil hydraulic cylinder A cylinder mouth is got back to bidirectional hydraulic pump A hydraulic fluid port through sequence valve 7-1, one-way valve 9-1.

Present embodiment is provided with position limit switch, and the position of setting is identical with a last embodiment with working procedure.

Present embodiment also is provided with the protection loop, specifically is that solenoid valve 6 is in parallel with oil hydraulic pump 3.When system was unloaded, high pressure oil was got back to oil hydraulic pump through solenoid valve, and be used at the beginning of the system start-up this moment.

Claims (6)

1. integrating electro-hydraulic actuator, it is characterized in that: two inlets with hydraulic locking valve group of locking Position of Hydraulic Cylinder are received two hydraulic fluid ports of bidirectional hydraulic pump, two cylinder mouths of dual-rod hydraulic cylinder are received in two outlets of hydraulic locking valve group, motor driving bidirectional hydraulic pump, above-mentioned each equipment integration is an integral body.

2. according to the described integrating electro-hydraulic actuator of claim 1, it is characterized in that: said hydraulic locking valve group with locking Position of Hydraulic Cylinder is made up of two equilibrium valves, the inlet of these two valves is received the A hydraulic fluid port and the B hydraulic fluid port of bidirectional hydraulic pump respectively, the A cylinder mouth and the B cylinder mouth of dual-rod hydraulic cylinder received in the outlet of these two valves respectively, the control end of these two valves is received respectively on the last oil pipeline that can make its reverse opening, be the B hydraulic fluid port that the control end of equilibrium valve is received the bidirectional hydraulic pump, the control end of another equilibrium valve is received the A hydraulic fluid port of bidirectional hydraulic pump.

3. according to the described integrating electro-hydraulic actuator of claim 1, it is characterized in that: said hydraulic locking valve group is, two entrance and exits of valve group are two one-way valves (6-1) and entrance and exit (6-2), the inlet of these two one-way valves is received the A hydraulic fluid port and the B hydraulic fluid port of bidirectional hydraulic pump (3) respectively, the A cylinder mouth and the B cylinder mouth of dual-rod hydraulic cylinder (10) received in the outlet of these two valves respectively, two control ends that control end is two sequence valves of valve group, it is the B hydraulic fluid port that the control end of sequence valve (7-1) is received oil hydraulic pump, the control end of sequence valve (7-2) is received the A hydraulic fluid port of oil hydraulic pump, the loop of reverse opening is composed in series by said sequence valve and another one-way valve, after being sequence valve (7-1) and one-way valve 9-1 series connection, (6-1) is in parallel with one-way valve, after sequence valve (7-2) and one-way valve (9-2) series connection, (6-2) is in parallel with one-way valve.

4. according to claim 1,2 or 3 described integrating electro-hydraulic actuators, it is characterized in that: two electromagnetic induction switch are arranged on the housing, these two electromagnetic induction switch are located at the corresponding position, two stroke ends up and down with hydraulic cylinder piston rod respectively, an inductive head is fixed in the end of piston rod, inductive head apart from the distance of induction switch less than the distance of piston rod apart from induction switch.

5. according to claim 1 or 2 described integrating electro-hydraulic actuators; it is characterized in that: it also is provided with the protection loop; specifically be; the A hydraulic fluid port and the B hydraulic fluid port of bidirectional hydraulic pump received in the outlet of two one-way valves respectively; the inlet parallel connection of two one-way valves forms the oil return pipeline of protecting the loop, and two imports of shuttle valve are connected in the upper and lower oil pipeline of system respectively; the outlet of shuttle valve is received the oil return pipeline in protection loop by relief valve, and solenoid valve is in parallel with relief valve.

6. according to claim 1 or 3 described integrating electro-hydraulic actuators, it is characterized in that: solenoid valve is in parallel with oil hydraulic pump.

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