CN211778314U - Vertical and horizontal static floating type guiding hydraulic actuator and centrifuge vibration table - Google Patents

Abstract

The utility model discloses a vertical and horizontal quiet floating direction hydraulic actuator, centrifuge shaking table belongs to vibration control system's technical field. The vertical static floating type guiding hydraulic actuator comprises a cylinder body and a first incomplete balance static pressure supporting disc component; the cylinder body is connected with a servo control valve; the first extending end on one side of the cylinder body is connected with a first plunger through a first cylinder sleeve, the inner side end of the first plunger is connected with a displacement sensor, and the outer side end of the first plunger is rotatably connected with a first incomplete balance static pressure supporting disc assembly. The problem of adopt the laminated rubber bearing of rubber and steel sheet stack, can produce horizontal additional force during the use, influence the control error of horizontal additional force, life is short is solved. The utility model discloses a first plunger rotates with first incomplete balance static pressure supporting disk subassembly to be connected, when vibration platform is rotatory, can laminate completely between the slip plane on incomplete balance static pressure supporting disk and the shaking table, has less transverse friction power, has improved the life of shaking table.

Description

Vertical and horizontal static floating type guiding hydraulic actuator and centrifuge vibration table

Technical Field

The utility model relates to a vibration control system's technical field, specificly relate to a vertical and horizontal quiet floating direction hydraulic actuator, centrifuge shaking table.

Background

With the continuous development and progress of the technology, the requirements on various compact vibration tables are more and more, and the requirements on the corresponding vibration frequency are higher and higher. Therefore, the function and performance requirements of the vibration table for the guiding system are also increasing.

At present, most of compact vibration tables adopt a laminated rubber bearing guide system between a hydraulic actuator and a vibration platform. The laminated rubber bearing is realized by overlapping rubber and steel plates, and has the characteristics of large axial rigidity and small transverse rigidity. When the shaking platform vibrates along hydraulic actuator axial, stromatolite rubber bearing can transmit hydraulic actuator's power to the shaking platform, when the shaking platform vibrates along perpendicular to hydraulic actuator axis, stromatolite rubber bearing can carry out the lateral shifting of little displacement.

However, the above method may generate a control error that the lateral additional force affects the lateral loading force, and when the vibration platform rotates, the laminated rubber shaft bears a bending moment, one side is stressed, and the other side is stressed, so that the service life is reduced, and further the laminated rubber bearing is damaged. And also affects the use effect of the vibration table.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a vertical quiet floating direction hydraulic actuator to solve and exist among the prior art, adopt rubber and steel sheet superimposed stromatolite rubber bearing, can produce horizontal additional force during the use, influence the control error of horizontal additional force, the short technical problem of life.

An object of the utility model is to provide a horizontal quiet floating direction hydraulic actuator to solve and exist among the prior art, adopt rubber and steel sheet superimposed stromatolite rubber bearing, can produce horizontal additional force during the use, influence the control error of horizontal additional force, the short technical problem of life.

An object of the utility model is to provide a centrifuge shaking table to solve and exist among the prior art, adopt rubber and steel sheet superimposed stromatolite rubber bearing, life is short, influences the technical problem of the result of use of shaking table.

The utility model provides a vertical static floating type guiding hydraulic actuator, which comprises a cylinder body and a first incomplete balance static pressure supporting disc component;

the cylinder body is connected with a servo control valve;

the first extending end on one side of the cylinder body is connected with a first plunger through a first cylinder sleeve, the inner side end of the first plunger is connected with a displacement sensor, and the outer side end of the first plunger is rotatably connected with a first incomplete balance static pressure supporting disc assembly.

Further, an actuator oil supply pipe and an actuator oil outlet pipe which are connected with the servo control valve are arranged in the cylinder body;

the first oil supply port of the first plunger is communicated with the first support plate oil supply port of the first incomplete balance static pressure support plate component;

one side of the cylinder body is connected with a first oil return pipe, and the first oil return pipe is communicated with a first supporting disc oil return groove of the first incomplete balance static pressure supporting disc assembly; the oil outlet pipe of the actuator is communicated with the oil supply port of the first supporting disc.

Furthermore, displacement sensor connects on the elastic component of first plunger, and the displacement sensor expansion end fixing base butt of displacement sensor one end is in the one end of elastic component, and the displacement sensor coil fixing base butt of the displacement sensor other end is at the other end of elastic component.

Furthermore, a first arc-shaped groove is formed in the first plunger, the first incomplete balance static pressure supporting disc component is connected with a first spherical hinge ball head, and the first spherical hinge ball head is connected into the first arc-shaped groove through a first spherical hinge pressing cover.

The utility model provides a horizontal static floating type guiding hydraulic actuator, which comprises a vertical static floating type guiding hydraulic actuator and a second incomplete balance static pressure supporting disk component;

the second extending end on the other side of the cylinder body is symmetrically arranged with the first extending end on one side of the cylinder body;

the second of cylinder body stretches out the end and is connected with the second plunger through the second cylinder jacket, and the outside end and the incomplete balanced static pressure supporting disk subassembly of second plunger rotate to be connected.

Further, an actuator oil supply pipe and an actuator oil outlet pipe which are connected with the servo control valve are arranged in the cylinder body;

the first oil supply port of the first plunger is communicated with the first support plate oil supply port of the first incomplete balance static pressure support plate component; one side of the cylinder body is connected with a first oil return pipe, and the first oil return pipe is communicated with a first supporting disc oil return groove of the first incomplete balance static pressure supporting disc assembly;

the oil outlet pipe of the actuator is communicated with a second plunger oil cavity of the second plunger, and a second oil supply port of the second plunger is communicated with a second support plate oil supply port of the second incomplete balance static pressure support plate assembly; and a second extending end of the cylinder body is connected with a second oil return pipe, and the second oil return pipe is communicated with a second supporting disk oil return groove of the second incomplete balance static pressure supporting disk assembly.

Furthermore, a second arc-shaped groove is formed in the second plunger, the second incomplete balance static pressure supporting disc assembly is connected with a second spherical hinge ball head, and the second spherical hinge ball head is connected into the second arc-shaped groove through a second spherical hinge pressing cover.

The utility model provides a centrifuge shaking table, which comprises a vertical static floating type guiding hydraulic actuator, a transverse static floating type guiding hydraulic actuator and a shaking table;

two relative lateral walls of shaking table are equipped with first spread groove and second spread groove respectively, all are connected with horizontal quiet floating direction hydraulic actuator in first spread groove, the second spread groove, and the bottom of shaking table is connected with the vertical quiet floating direction hydraulic actuator of a plurality of equipartitions.

Furthermore, the end face of a first incomplete balance static pressure support disc component and the end face of a second incomplete balance static pressure support disc component of the transverse static floating type guiding hydraulic actuator are both connected with DLC films.

Compared with the prior art, the utility model discloses a vertical quiet floating direction hydraulic actuator has following advantage:

the cylinder body of the utility model is connected with the servo control valve, and the servo control valve is used for controlling the opening and closing of the first plunger piston in the cylinder body; the first cylinder sleeve is connected with a first plunger, and the inner side end of the first plunger is connected with a displacement sensor to detect the moving position of the first plunger; the outer side end of the first plunger is rotatably connected with the first incomplete balance static pressure supporting disc assembly, when the vibration platform rotates, the incomplete balance static pressure supporting disc and the sliding surface on the vibration platform can be completely attached, transverse friction force is small, control errors of transverse additional force are reduced, and the service life of the vibration platform is prolonged.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a vertical static floating type pilot hydraulic actuator according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a vertical static floating type guiding hydraulic actuator according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a transverse static floating type guiding hydraulic actuator according to an embodiment of the present invention;

fig. 4 is a perspective view of a transverse static floating type guiding hydraulic actuator according to an embodiment of the present invention;

FIG. 5 is a front view of FIG. 4;

FIG. 6 is a left side view of FIG. 4;

FIG. 7 is a right side view of FIG. 4;

fig. 8 is a schematic diagram of a transverse static floating type pilot hydraulic actuator according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of an upper position of a centrifuge vibration table according to an embodiment of the present invention;

fig. 10 is a schematic structural diagram of a lower position of a centrifuge vibration table according to an embodiment of the present invention;

fig. 11 is a schematic structural view of a connecting device of an incomplete balancing static pressure support disk according to an embodiment of the present invention;

fig. 12 is a schematic structural view of an outer side surface of an incompletely balanced static pressure support disk according to an embodiment of the present invention;

fig. 13 is a top view of an incompletely balanced hydrostatic support disk according to an embodiment of the present invention;

fig. 14 is a front cross-sectional view of an incompletely balanced hydrostatic support disk according to an embodiment of the present invention;

fig. 15 is a schematic structural view of an inner side surface of an incompletely balanced static pressure support disk according to an embodiment of the present invention.

Description of reference numerals:

100-cylinder body; 200-a first incompletely balanced hydrostatic bearing disk assembly;

300-a second incompletely balanced hydrostatic support disk assembly; 400-vertical static floating type guiding hydraulic actuator;

500-transverse static floating type guiding hydraulic actuator; 600-a vibration table;

101-a servo control valve; 102-a first cylinder liner;

103-a first plunger; 104-a displacement sensor;

105-actuator oil supply line; 106-actuator oil outlet pipe;

107-first plunger oil chamber; 108-a first oil supply port;

109-a first oil return pipe; 110-an elastic member;

111-displacement sensor movable end fixing base; 112-displacement sensor coil fixing base;

113-a first arc-shaped slot; 114-a second cylinder liner;

115-a second plunger; 116-a second plunger oil chamber;

117-second oil supply port; 118-a second oil return pipe;

119-a second arc-shaped slot; 201-first support disc oil supply port;

202-first support pan scavenge groove; 203-a first ball joint head;

204-a first spherical hinge gland; 205-incompletely balanced hydrostatic support disk;

206-mounting grooves; 207-first connection hole;

208-second connection hole; 209-locking member;

210-a first seal; 211-external high pressure oil port;

212-high pressure oil line; 213-orifice;

214-high pressure flow path; 215-high pressure oil port;

216-a support block; 217-a second seal;

301-second support disk oil feed port; 302-second support disk scavenge groove;

303-a second ball joint head; 304-a second spherical hinge gland;

601-a first connecting slot; 602-second connecting groove.

Detailed Description

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

As shown in fig. 1, in one embodiment of the present invention, a vertical static floating type guided hydraulic actuator includes a cylinder body 100 and a first incompletely balanced hydrostatic support disc assembly 200;

the cylinder body 100 is connected with a servo control valve 101;

the first extending end on one side of the cylinder body 100 is connected with a first plunger 103 through a first cylinder sleeve 102, the inner side end of the first plunger 103 is connected with a displacement sensor 104, the outer side end of the first plunger 103 is rotatably connected with a first incomplete balance static pressure supporting disc assembly 200, so that a supporting disc of the first incomplete balance static pressure supporting disc assembly 200 can rotate around the outer side end of the first plunger 103, and the end face of the supporting disc is in contact with a sliding surface on a vibration platform to play a supporting and guiding role.

The servo control valve 101 includes a secondary servo valve, a tertiary valve spool, and a tertiary valve sleeve. The displacement sensor 104 is capable of measuring the movement position of the first plunger 103.

Further, an actuator oil supply pipe 105 and an actuator oil outlet pipe 106 connected to the servo control valve 101 are provided in the cylinder block 100;

the actuator oil supply tube 105 is in communication with the first plunger oil chamber 107 of the first plunger 103, and the first oil supply port 108 of the first plunger 103 is in communication with the first support disc oil supply port 201 of the first partial static pressure support disc assembly 200;

a first oil return pipe 109 is connected to one side of the cylinder body 100, and the first oil return pipe 109 is communicated with a first supporting disc oil return groove 202 of the first incomplete balance static pressure supporting disc assembly 200; the actuator oil outlet pipe 106 communicates with the first support pan oil supply port 201.

Further, the displacement sensor 104 is connected to the elastic member 110 of the first plunger 103, the movable end fixing base 111 of the displacement sensor 104 at one end abuts against one end of the elastic member 110, and the displacement sensor coil fixing base 112 of the other end of the displacement sensor 104 abuts against the other end of the elastic member 110.

The elastic member 110 is a spring, and in fig. 1, a displacement sensor movable end fixing base 111 at the upper end of the displacement sensor 104 abuts against the upper end of the elastic member 110, and a displacement sensor coil fixing base 112 at the lower end of the displacement sensor 104 abuts against the lower end of the elastic member 110.

Further, a first arc-shaped groove 113 is formed in the first plunger 103, the first incomplete balance static pressure support disc assembly 200 is connected with a first spherical hinge ball 203, and the first spherical hinge ball 203 is connected in the first arc-shaped groove 113 through a first spherical hinge pressing cover 204. The first spherical hinge ball head 203 is connected to the middle position of the inner side end of the supporting plate through a screw, and then is fixed in the first arc-shaped groove 113 through the first spherical hinge gland 204 and a bolt.

When the vertical static floating type guide hydraulic actuator is used, the vertical static floating type guide hydraulic actuator is arranged on the bottom surface of a vibration platform, an incomplete balance static pressure supporting disc is attached to the vibration platform through a sliding surface, when the actuator does not work, a first plunger 103 retracts under the action force of the vibration platform and a load, and the lower surface of the first plunger 103 is in contact with a cylinder body 100; when the actuator works, the three-stage servo valve is reversed, system oil supply is communicated with a first plunger oil cavity 107 of the actuator, and is also communicated with support plate oil supply to supply oil to a support plate, the actuator is lifted to a middle position to enter a test state under the control of the three-stage servo valve and the displacement sensor 104, and then various posture motions of the platform are controlled through the vertical actuator; when the first plunger 103 needs to retract, the three-stage servo valve is reversed, the system return oil is communicated with the first plunger oil chamber 107 of the actuator, and the first plunger 103 retracts under the action of the vibration platform and the load.

The vertical actuator enters a test state, and when the closed loop of the three-stage servo valve and the displacement sensor 104 is at the current position, the vibration platform can perform single horizontal movement, and the incompletely balanced static pressure support plate plays a guiding role at the moment.

As shown in fig. 2 to 6 and 9, in an embodiment of the present invention, a horizontal static floating type guiding hydraulic actuator includes a vertical static floating type guiding hydraulic actuator and a second incomplete balancing static pressure supporting disk assembly 300;

the vertical static floating type guiding hydraulic actuator comprises a cylinder body 100 and a first incomplete balance static pressure supporting disc assembly 200;

the cylinder body 100 is connected with a servo control valve 101;

the first extending end on the left side of the cylinder body 100 is connected with a first plunger 103 through a first cylinder sleeve 102, the inner end of the first plunger 103 is connected with a displacement sensor 104, and the outer end of the first plunger 103 is rotatably connected with a first incomplete balance static pressure supporting disc assembly 200.

The second protruding end on the right side of the cylinder body 100 is symmetrically arranged with the first protruding end on the left side of the cylinder body 100;

the second extending end on the right side of the cylinder body 100 is connected with a second plunger 115 through a second cylinder sleeve 114, and the outer end of the second plunger 115 is rotatably connected with a second incomplete balance static pressure support disc assembly 300.

The second semi-fully balanced hydrostatic support disk assembly 300 is identical in construction to the first semi-fully balanced hydrostatic support disk assembly 200 except that the second semi-fully balanced hydrostatic support disk assembly 300 is not fitted with a displacement sensor 104.

The utility model discloses left and right both sides and the vibration platform of horizontal static floating direction hydraulic actuator slide through incomplete balance static pressure supporting disk subassembly and support and direction, only be 1% of actuator power with the frictional force between the slip plane, be connected through the ball pivot between incomplete balance static pressure supporting disk subassembly and the hydraulic actuator piston rod, when vibration platform is rotatory, incomplete balance static pressure supporting disk and platform go up the slide face and laminate completely, adopt this kind of structure not only to reduce transverse friction but also to improve the life of shaking table.

Further, an actuator oil supply pipe 105 and an actuator oil outlet pipe 106 connected to the servo control valve 101 are provided in the cylinder block 100;

the actuator oil supply tube 105 is in communication with the first plunger oil chamber 107 of the first plunger 103, and the first oil supply port 108 of the first plunger 103 is in communication with the first support disc oil supply port 201 of the first partial static pressure support disc assembly 200; a first oil return pipe 109 is connected to one side of the cylinder body 100, and the first oil return pipe 109 is communicated with a first supporting disc oil return groove 202 of the first incomplete balance static pressure supporting disc assembly 200;

the actuator oil outlet pipe 106 is communicated with a second plunger oil chamber 116 of a second plunger 115, and a second oil supply port 117 of the second plunger 115 is communicated with a second support plate oil supply port 301 of a second incomplete balance static pressure support plate assembly 300; the second protruding end of the cylinder body 100 is connected with a second oil return pipe 118, and the second oil return pipe 118 is communicated with a second supporting plate oil return groove 302 of the second incomplete balance static pressure supporting plate assembly 300.

Further, a second arc-shaped groove 119 is formed in the second plunger 115, the second incomplete balance static pressure support plate assembly 300 is connected with a second spherical hinge ball head 303, and the second spherical hinge ball head 303 is connected in the second arc-shaped groove 119 through a second spherical hinge gland 304.

The incomplete balance static pressure supporting disc of the incomplete balance static pressure supporting disc component is connected with a plunger piston of a hydraulic actuator through a spherical hinge, and the end face of the supporting disc is always attached to the sliding surface in the movement process.

The ball head and the ball socket of the ball joint adopt self-lubricating coatings, so that friction force is reduced in the movement process.

The hydraulic actuator of the embodiment is a double-acting actuator, and can also adopt a single-acting structure when being applied to other guiding fields.

The transverse static floating type guiding hydraulic actuator and the vibration platform are supported by adopting an incomplete balance static pressure bearing disc, the incomplete balance static pressure bearing disc plays a guiding role with the vibration platform, and the guiding mode can also be applied to other fields.

The oil supply of the incomplete balance static pressure bearing disc is communicated with an actuator oil supply pipe 105 of the hydraulic actuator, and the supporting force of the incomplete balance static pressure bearing disc changes along with the output force of the hydraulic actuator.

The utility model provides a quiet floating direction hydraulic actuator is applied to vibration system and loading system, can adjust the size of static pressure supporting disk bearing capacity according to exerting oneself of actuator, when reducing the transverse force, can satisfy the direction function again.

As shown in fig. 7 to 8, the utility model provides a centrifuge shaking table, which comprises a vertical static floating type guiding hydraulic actuator 400, a horizontal static floating type guiding hydraulic actuator 500 and a shaking table 600;

two opposite side walls of the vibration table 600 are respectively provided with a first connecting groove 601 and a second connecting groove 602, the first connecting groove 601 and the second connecting groove 602 are both connected with the transverse static floating type guiding hydraulic actuators 500, the first connecting groove 601 and the second connecting groove 602 are inwards recessed square grooves, and the two transverse static floating type guiding hydraulic actuators 500 are respectively embedded into the two square grooves, so that the installation space is saved; the bottom of the vibration table 600 is connected with a plurality of evenly distributed vertical static floating type guiding hydraulic actuators 400.

The utility model discloses a slide through incomplete balance static pressure supporting disk subassembly between the static floating direction hydraulic actuator left and right both sides and the vibration platform and support and the direction, adopt 90% fluid to support between incomplete balance static pressure supporting disk subassembly and the slip plane, 10% metal support, so, only 1% that the actuator exerted oneself with the frictional force between the slip plane; the oil supply of the incomplete balance static pressure bearing disc is communicated with the oil supply cavity of the hydraulic actuator, and the supporting force of the incomplete balance static pressure bearing disc changes along with the output force of the hydraulic actuator.

The incomplete balance static pressure supporting disc assembly is connected with a hydraulic actuator piston rod through a spherical hinge, when the vibration platform rotates, the incomplete balance static pressure supporting disc is completely attached to a sliding surface on the platform, and a ball head and a ball socket of the spherical hinge are provided with self-lubricating coatings, so that friction is reduced in the movement process.

In an embodiment of the present invention, as shown in fig. 2, the static floating type guiding hydraulic actuator is installed between two sliding surfaces of the vibration platform, when the actuator does not work, the first plunger 103 on the left side and the second plunger 115 on the right side respectively extend outwards under the action of the elastic component 110, and the two incompletely balanced static pressure supporting disks are respectively attached to the two sliding surfaces of the vibration platform; when the actuator moves leftwards, the secondary servo valve controls the valve core of the three-stage valve to move, an actuator oil supply pipe 105 is communicated with a first plunger oil cavity 107 on the left side and is communicated with a first support plate oil supply port 201 on the left side through a first oil supply port 108 on the left side to supply oil for a support plate, an actuator oil outlet pipe 106 is communicated with a second plunger oil cavity 116 on the right side and is communicated with a second support plate oil supply port 301 on the right side through a second oil supply port 117 on the right side to supply oil for the support plate, otherwise, the actuator moves rightwards, the vibration platform moves horizontally only, and incompletely balanced static pressure support plates on two sides play a supporting role; when the vibration platform moves vertically, moves horizontally and vertically in both directions or twists around the vertical direction, the incompletely balanced static pressure supporting disk has both supporting and guiding functions.

Furthermore, the end surfaces of the first incomplete balance static pressure support disc assembly 200 and the second incomplete balance static pressure support disc assembly 300 of the transverse static floating type guiding hydraulic actuator are connected with DLC films.

The end face of the incomplete balance static pressure supporting disc is provided with the DLC film, the DLC film has great wear resistance and friction reduction effects, and meanwhile, under the working condition of intermittent motion, the DLC film is corrosion resistant and can prevent adhesion, has good lipophilicity and good effect, and has good application experience on the sealing ring.

The utility model can also be applied to a driving and guiding vibration control system, which comprises a static floating type guiding hydraulic actuator, a bearing platform, a vertical hydraulic actuator, a hydraulic oil source and a control system; the system can perform high-frequency vibration with two degrees of freedom, namely horizontal and vertical.

Compared with the prior art, the vibration control system of foretell drive and direction has: has the characteristics of low friction, high frequency, long service life and the like.

In addition, in the embodiment of the present invention, as shown in fig. 11 to 15, the left end is the incomplete balance static pressure supporting plate 205, and the right end is the first plunger 103; the right side surface of the incomplete balance static pressure supporting disc 205 is connected with a first spherical hinge ball head 203 by a screw, and the left side surface of the first plunger 103 is provided with an inwards sunken first arc-shaped groove 113, namely a ball socket; an arc-shaped end at the right end of the first spherical hinge ball head 203 is clamped in a ball socket, and then a first spherical hinge gland 204 is adopted to clamp and lock the installation position of the first spherical hinge ball head 203; the first spherical hinge ball 203 is detachably connected with the right side face of the incomplete balance static pressure supporting disc 205, the first spherical hinge ball 203 is detachably connected with the first plunger 103, once the first spherical hinge ball 203 is damaged, the first spherical hinge ball 203 can be directly replaced with a new one, and waste caused by overall replacement of the incomplete balance static pressure supporting disc 205 is avoided.

An installation groove 206 is arranged on the inner side surface of the incomplete balance static pressure support disc 205, and the installation groove 206 is an inwards-concave circular groove; the cylindrical end of the left end of the first ball joint ball head 203 is clamped and fixed in the mounting groove 206 to fix the position of the cylindrical end of the first ball joint ball head 203.

The first connection hole 207 is a through hole formed in the mounting groove 206, and the second connection hole 208 is a blind hole formed at the cylindrical end of the first ball-and-socket joint head 203; the locking member 209 employs a screw that is locked in the second coupling hole 208 through the first coupling hole 207 to couple the cylindrical end of the first ball-and-socket head 203 in the mounting groove 206.

Set up inside sunken ring channel on first ball pivot bulb 203's left end face, the fixed first sealing member 210 of joint in the ring channel, first sealing member 210 adopts the rubber circle to utilize the rubber circle to increase the frictional force between the groove face of first ball pivot bulb 203 and mounting groove 206, make the hookup location of first ball pivot bulb 203 firm, can also play dustproof and sealed effect.

The high-pressure oil in the incompletely balanced static pressure support disc 205 is connected with the incompletely balanced static pressure support disc 205 through a high-pressure oil pipeline 212, and an orifice 213 is arranged at the interface of the high-pressure oil pipeline 212 of the incompletely balanced static pressure support disc 205, so that when a small gap exists between the contact surfaces, a large amount of oil does not leak.

Compared with the prior art, the high-pressure oil port is directly communicated with the oil supply of the actuator at the middle position of the complete balance static pressure supporting disc, and when a small gap exists on the contact surface, the problem of leakage of a large amount of oil liquid can occur.

A plurality of throttling holes 213 are formed at the interface of the high-pressure oil pipeline 212, so that the problem of large-amount oil leakage can be solved when a small gap exists between the contact surfaces.

Three high-pressure oil ports 215 are arranged in the high-pressure flow passage 214, so that better oil feeding is ensured, and high-pressure oil is ensured not to flow. The problem of among the prior art, the high-pressure oil in the high-pressure runner flows is solved.

The plurality of supporting blocks 216 are arranged in the high-pressure flow passage 214, and are arranged in the high-pressure flow passage 214 in an arc structure, so that the high-pressure flow passage can be machined on a lathe conveniently, and the machining efficiency is high. The sealing surface outside the support block 216 serves as an auxiliary support, and mainly prevents the bearing stress of the support surface from being too large, so that a structure for incompletely balancing the static pressure support disc 205 is formed. In the prior art, the hydraulic counter force of the fully balanced hydrostatic support disk only offsets a part of the load force, while the remaining load force of the fully balanced hydrostatic support disk of the present application is carried by the metal wall contact of the support block 216 to form an incompletely balanced hydrostatic support disk.

The outer side surface of the incomplete balance static pressure supporting disk 205 is provided with an inward concave annular groove, a second sealing element 217 is clamped and fixed in the annular groove, the second sealing element 217 is a rubber ring, the friction force between the outer side surface of the incomplete balance static pressure supporting disk 205 and the mounting surface is increased by the rubber ring, and the dustproof and sealing effects are achieved.

The incomplete balance static pressure supporting disk 205 of this application adopts DLC film supporting disk, and the material can adopt the steel, and wear-resisting antifriction effect is good, and DLC film's wear-resisting antifriction effect is better. The problem of among the prior art, the terminal surface material of balanced static pressure supporting disk adopts the copper alloy completely, has wearing and tearing is solved.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A vertical static floating type guiding hydraulic actuator is characterized by comprising a cylinder body (100) and a first incomplete balance static pressure supporting disc component (200);

the cylinder body (100) is connected with a servo control valve (101);

the first extending end on one side of the cylinder body (100) is connected with a first plunger (103) through a first cylinder sleeve (102), the inner side end of the first plunger (103) is connected with a displacement sensor (104), and the outer side end of the first plunger (103) is rotatably connected with the first incomplete balance static pressure supporting disc assembly (200).

2. The vertical static floating pilot hydraulic actuator according to claim 1, characterized in that an actuator oil supply pipe (105) and an actuator oil outlet pipe (106) connected to the servo control valve (101) are provided in the cylinder body (100);

the actuator oil supply pipe (105) is communicated with a first plunger oil chamber (107) of the first plunger (103), and a first oil supply port (108) of the first plunger (103) is communicated with a first support plate oil supply port (201) of the first incomplete balance hydrostatic support plate assembly (200);

one side of the cylinder body (100) is connected with a first oil return pipe (109), and the first oil return pipe (109) is communicated with a first supporting disc oil return groove (202) of the first incomplete balance static pressure supporting disc assembly (200); the actuator oil outlet pipe (106) is communicated with the first support disc oil supply port (201).

3. The vertical static floating type guided hydraulic actuator according to claim 2, wherein the displacement sensor (104) is connected to the elastic member (110) of the first plunger (103), the movable end fixing seat (111) of the displacement sensor (104) at one end abuts against one end of the elastic member (110), and the displacement sensor coil fixing seat (112) at the other end of the displacement sensor (104) abuts against the other end of the elastic member (110).

4. The vertical static floating guided hydraulic actuator according to claim 3, wherein a first arc-shaped groove (113) is formed in the first plunger (103), a first spherical hinge ball (203) is connected to the first incomplete balance static pressure support disc assembly (200), and the first spherical hinge ball (203) is connected to the first arc-shaped groove (113) through a first spherical hinge cover (204).

5. A lateral static floating pilot hydraulic actuator, comprising a vertical static floating pilot hydraulic actuator according to claim 1 and a second incompletely balanced hydrostatic head assembly (300);

the second extending end on the other side of the cylinder body (100) is symmetrically arranged with the first extending end on one side of the cylinder body (100);

the second extending end of the cylinder body (100) is connected with a second plunger (115) through a second cylinder sleeve (114), and the outer end of the second plunger (115) is rotatably connected with the second incomplete balance static pressure supporting disc assembly (300).

6. The transverse static floating type guiding hydraulic actuator as claimed in claim 5, wherein an actuator oil supply pipe (105) and an actuator oil outlet pipe (106) connected with the servo control valve (101) are arranged in the cylinder body (100);

the actuator oil supply pipe (105) is communicated with a first plunger oil chamber (107) of the first plunger (103), and a first oil supply port (108) of the first plunger (103) is communicated with a first support plate oil supply port (201) of the first incomplete balance hydrostatic support plate assembly (200); one side of the cylinder body (100) is connected with a first oil return pipe (109), and the first oil return pipe (109) is communicated with a first supporting disc oil return groove (202) of the first incomplete balance static pressure supporting disc assembly (200);

the actuator oil outlet pipe (106) is communicated with a second plunger oil chamber (116) of the second plunger (115), and a second oil supply port (117) of the second plunger (115) is communicated with a second support plate oil supply port (301) of the second incomplete balance static pressure support plate component (300); and a second extending end of the cylinder body (100) is connected with a second oil return pipe (118), and the second oil return pipe (118) is communicated with a second supporting disc oil return groove (302) of the second incomplete balance static pressure supporting disc assembly (300).

7. The transverse static floating type guiding hydraulic actuator as claimed in claim 6, characterized in that a second arc-shaped groove (119) is arranged on the second plunger (115), a second spherical hinge ball head (303) is connected to the second incomplete balance static pressure support disc component (300), and the second spherical hinge ball head (303) is connected to the second arc-shaped groove (119) through a second spherical hinge cover (304).

8. A centrifuge shaker table, comprising a vertical static floating pilot hydraulic actuator (400) according to claim 1, a lateral static floating pilot hydraulic actuator (500) according to claim 5, and a shaker table (600);

two relative lateral walls of shaking table (600) are equipped with first spread groove (601) and second spread groove (602) respectively, all be connected with horizontal quiet floating direction hydraulic actuator (500) in first spread groove (601) in second spread groove (602), the bottom of shaking table (600) is connected with the vertical quiet floating direction hydraulic actuator (400) of a plurality of equipartitions.

9. The centrifuge vibration table of claim 8, wherein the first incompletely balanced hydrostatic support disk assembly (200) end face and the second incompletely balanced hydrostatic support disk assembly (300) end face of the transverse static floating type guiding hydraulic actuator are connected with DLC films.

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