CN209294157U - Hydraulic synchronization control device - Google Patents
Hydraulic synchronization control device Download PDFInfo
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- CN209294157U CN209294157U CN201822205509.6U CN201822205509U CN209294157U CN 209294157 U CN209294157 U CN 209294157U CN 201822205509 U CN201822205509 U CN 201822205509U CN 209294157 U CN209294157 U CN 209294157U
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Abstract
The utility model discloses a kind of hydraulic synchronization control devices, it is related to technical field of hydraulic, it include: three position four-way electromagnetic valve, hydraulic control one-way valve, two-position four-way solenoid valve, synchronized cylinder, first valve, the second valve, electromagnetic relief valve, first port, second port, third port for being connected with hydraulic power source, the 4th port, fifth port, the 6th port for being connected with the first driving hydraulic cylinder, the second driving hydraulic cylinder;Synchronized cylinder includes the first cylinder body, the second cylinder body, is threaded through between the first cylinder body and the second cylinder body and can be carried out the mobile body of rod, the first piston and second piston being connected on the body of rod, first cylinder body is separated into first chamber and second chamber by first piston, and the second cylinder body is separated into third chamber and the 4th chamber by second piston.The application can use conventional hydraulic element, realize that multi-cylinder synchronous acts using simple electrical control.
Description
Technical field
The utility model relates to technical field of hydraulic, in particular to a kind of hydraulic synchronization control device.
Background technique
Existing hydraulic synchronization technology generally mostly uses syncmotor or closed-loop control.Syncmotor is each stream motor rotary speed
Rigid water hammer, due to the machine error of objective reality and the inhomogeneities of load, with the lengthening for using the time, syncmotor
Error can be built up, such error can not be by its own automatic elimination.In addition, being synchronized with the increase of motor wear amount
Performance can also decrease, but can not carry out manual intervention, therefore will cause its control device during production and application
Or the production of system cannot be carried out continuously.
Although closed-loop control may be implemented higher synchronization accuracy, but it is to the response of valve, the precision of valve and oil liquid
Precision have higher requirement, thus cause its cost higher.Meanwhile closed-loop control will necessarily use position sensor, and
The protection of position sensor and its also have higher requirement to use environment, high temperature, moist operating condition will receive very big system
About.In addition, component most crucial in closed-loop control is electrical PLC, but most fatal component is also electrical PLC, therefore its
Once power-off or electrical PLC failure, whole equipment then will be unable to work.
Utility model content
In order to overcome the drawbacks described above of the prior art, the technical problem to be solved is that provide for the utility model embodiment
A kind of hydraulic synchronization control device can use conventional hydraulic element, realize that multi-cylinder synchronous is dynamic using simple electrical control
Make, avoids the requirement for height to oil liquid, to valve and the height to electrical control relies on.
The specific technical solution of the utility model embodiment is:
A kind of hydraulic synchronization control device, the hydraulic synchronization control device include:
Three position four-way electromagnetic valve, hydraulic control one-way valve, two-position four-way solenoid valve, synchronized cylinder, the first valve, the second valve, electricity
Magnetic overflow valve, first port, second port, third port for being connected with hydraulic power source, for and the first driving hydraulic cylinder, the
4th port of two driving hydraulic cylinders connection, fifth port, the 6th port;
The synchronized cylinder includes the first cylinder body, the second cylinder body, the energy being threaded through between first cylinder body and the second cylinder body
The mobile body of rod is carried out, the first piston and second piston being connected on the body of rod, the first piston is by first cylinder
Body is separated into first chamber and second chamber, and second cylinder body is separated into third chamber and the 4th chamber by the second piston
Room;The second chamber is connected with first valve, and the 4th chamber is connected with second valve, and described second
Chamber can with the electromagnetic relief valve unilaterally connected, the 4th chamber can with the electromagnetic relief valve unilaterally connected, described
It three ports can be with the second chamber, the 4th chamber unilaterally connected;
The electromagnetic relief valve is connected with the second port;Described in the port the A connection of the two-position four-way solenoid valve
Hydraulic control one-way valve, the hydraulic control one-way valve and the first chamber, the third chamber;The two-position four-way solenoid valve
T-port is connected to the second port;The port B of the two-position four-way solenoid valve is connected to the control port of the hydraulic control one-way valve,
The port B of the two-position four-way solenoid valve is connected with the second chamber or the 4th chamber;
The port P of the three position four-way electromagnetic valve is connected to first port, the T-port connection of the three position four-way electromagnetic valve the
Two-port netwerk, the control port of the port B the 6th port and the hydraulic control one-way valve of connection of the three position four-way electromagnetic valve, described three
The port A of position four-way solenoid valve is connected to the port P of the two-position four-way solenoid valve.
Preferably, the hydraulic synchronization control device further include: be connected to the port P and the institute of the two-position four-way solenoid valve
State pressure reducing valve between the port A of three position four-way electromagnetic valve.
Preferably, it is connected between the second chamber and the electromagnetic relief valve from the second chamber to the electromagnetism
The third check valve of overflow valve conducting.
Preferably, it is connected between the 4th chamber and the electromagnetic relief valve from the 4th chamber to the electromagnetism
4th check valve of overflow valve conducting.
Preferably, it is connected between the second chamber and the third port from the third port to second chamber
First check valve of room conducting.
Preferably, it is connected between the 4th chamber and the third port from the third port to the 4th chamber
The second one-way valve of room conducting.
Preferably, first valve is bi-bit bi-pass shut-off valve, and second valve is bi-bit bi-pass shut-off valve.
Preferably, when the hydraulic synchronization control device is rinsed the synchronized cylinder, the 3-position 4-way electromagnetism
The port A of valve is connected to the port P, and the port B of the three position four-way electromagnetic valve is connected to T-port;The two-position four-way solenoid valve
The port P be connected to the port B, the port A of the two-position four-way solenoid valve is connected to T-port.
Preferably, when the hydraulic synchronization control device refuels to the synchronized cylinder, the 3-position 4-way electromagnetism
The port A of valve is connected to the port P, and the port B of the three position four-way electromagnetic valve is connected to T-port;The two-position four-way solenoid valve
The port P be connected to the port A, the port B of the two-position four-way solenoid valve is connected to T-port.
Preferably, when the hydraulic synchronization control device externally exports high-pressure medium so that the piston rod of driving hydraulic cylinder is stretched
When out, first valve and second valve opening;The port A of the three position four-way electromagnetic valve is connected to the port P, described
The port B of three position four-way electromagnetic valve is connected to T-port;The port P of the two-position four-way solenoid valve is connected to the port A, and described two
The port B of position four-way solenoid valve is connected to T-port;The setting pressure of the electromagnetic relief valve is higher than the work pressure of external hydraulic power source
Power;When the hydraulic synchronization control device is without external output, when the piston rod of driving hydraulic cylinder rests on extended position, described the
One valve and second valve are closed;The port A, the port B of the three position four-way electromagnetic valve are connected to T-port;When the liquid
When pressure sync control device externally exports high-pressure medium so that the piston rod of driving hydraulic cylinder is shunk, the three position four-way electromagnetic valve
The port B be connected to the port P, the port A of the three position four-way electromagnetic valve is connected to T-port, the check of the hydraulic control one-way valve
Function is closed, and first valve and second valve opening, the port B of the two-position four-way solenoid valve are connected to the port P,
The port A of the two-position four-way solenoid valve is connected to T-port.
The technical solution of the utility model have it is following significant the utility model has the advantages that
The hydraulic synchronization control device is easy to operate, safe and reliable to operation, using conventional hydraulic element, uses simple electricity
Gas control system just realizes multi-cylinder synchronous movement, and synchronous error is can be controlled within 0.5%, especially dislikes in conditions such as high temperature, humidities
More aobvious advantage under bad operating condition, can height to avoid the requirement for height to oil liquid, to valve and to electrical control rely on;Work as addition
After limit switch is to realize monitoring position, the hydraulic synchronization control device can automatic running, automatic Calibration, realize " key " behaviour
Make, to reduce manual intervention, reduces failure rate, ensure that the continuity of production, and then improve operating efficiency and life
Yield.Hydraulic synchronization control device investment is low, low energy consumption, and maintenance rate is low, is suitble to the multi-field popularization and use of conglomerate.
Referring to following description and accompanying drawings, the particular implementation of the utility model is disclosed in detail, specifies practical
Novel principle can be in a manner of adopted.It should be understood that the embodiments of the present invention in range not thus by
Limitation.In the range of the spirit and terms of appended claims, the embodiments of the present invention includes many changes, modifications
With it is equivalent.The feature for describing and/or showing for a kind of embodiment can be in a manner of same or similar one or more
It uses in a other embodiment, is combined with the feature in other embodiment, or the feature in substitution other embodiment.
Detailed description of the invention
Attached drawing described here is only used for task of explanation, and is not intended to limit in any way disclosed by the utility model
Range.In addition, shape and proportional sizes of each component in figure etc. are only schematically, to be used to help the reason to the utility model
Solution is not the specific shape and proportional sizes for limiting each component of the utility model.Those skilled in the art is practical new at this
Under the introduction of type, various possible shapes and proportional sizes can be selected to implement the utility model as the case may be.
Fig. 1 is that hydraulic synchronization control device is connected with the hydraulic cylinder in external executive component in the utility model embodiment
System diagram.
The appended drawing reference of the figures above:
1, three position four-way electromagnetic valve;2, synchronized cylinder;21, the body of rod;22, first piston;23, second piston;24, the first chamber
Room;25, second chamber;26, third chamber;27, the 4th chamber;3, pressure reducing valve;4, two-position four-way solenoid valve;5, fluid-control one-way
Valve;6, hydraulic power source;7, the first check valve;8, second one-way valve;9, third check valve;11, the 4th check valve;12, the first valve;
13, the second valve;14, electromagnetic relief valve;15, shuttle valve;16, the first driving hydraulic cylinder;17, the second driving hydraulic cylinder;10, first
Port;20, second port;30, third port;40, the 4th port;50, fifth port;60, the 6th port;70, electric interfaces.
Specific embodiment
In conjunction with the description of attached drawing and specific embodiment of the present invention, the utility model can be clearly understood
Details.But specific embodiment of the present utility model described herein, it is only used for explaining the purpose of this utility model, without
It can be understood as being limitations of the present invention in any way.Under the introduction of the utility model, technical staff is contemplated that
Any possible deformation based on the utility model, these are regarded as belonging to the scope of the utility model.It needs to illustrate
It is that when element is referred to as " being set to " another element, it can directly on the other element or there may also be placed in the middle
Element.When an element is considered as " connection " another element, it can be directly to another element or can
Centering elements can be existed simultaneously.Term " installation ", " connected ", " connection " shall be understood in a broad sense, for example, it may be mechanical connection or
Electrical connection, the connection being also possible to inside two elements can be directly connected, can also indirectly connected through an intermediary,
For the ordinary skill in the art, the concrete meaning of above-mentioned term can be understood as the case may be.Made herein
Term " vertical ", " horizontal ", "upper", "lower", "left", "right" and similar statement simply to illustrate that mesh
, it is not meant to be the only embodiment.
Unless otherwise defined, all technical and scientific terms used herein and the technical field for belonging to the application
The normally understood meaning of technical staff is identical.The term used in the description of the present application is intended merely to description tool herein
The purpose of the embodiment of body, it is not intended that in limitation the application.Term as used herein "and/or" includes one or more
Any and all combinations of relevant listed item.
The utility model people of the application relies on practice engaged in relevant industries for many years and experience, proposes a kind of hydraulic synchronization control
Device processed, the hydraulic synchronization control device use conventional hydraulic element, realize that multi-cylinder synchronous acts using simple electrical control,
It has the characteristics that low cost, controllability are strong, while which obviate to oil liquid, the requirement for height to valve and the height to electrical control
Degree relies on, and reduces the requirement to operating condition and space.
Fig. 1 is that hydraulic synchronization control device is connected with the hydraulic cylinder in external executive component in the utility model embodiment
System diagram, as shown in Figure 1, the hydraulic synchronization control device in the embodiment of the present application may include: three position four-way electromagnetic valve 1,
Hydraulic control one-way valve 5, two-position four-way solenoid valve 4, synchronized cylinder 2, the first valve 12, the second valve 13, electromagnetic relief valve 14, for and
First port 10, the second port 20, third port 30 of the connection of hydraulic power source 6, for being driven with the first driving hydraulic cylinder 16, second
4th port 40 of the connection of hydraulic cylinder 17, fifth port 50, the 6th port 60;Synchronized cylinder 2 include the first cylinder body, the second cylinder body,
Being threaded through between the first cylinder body and the second cylinder body can be carried out the mobile body of rod 21,22 He of first piston being connected on the body of rod 21
First cylinder body is separated into first chamber 24 and second chamber 25 by second piston 23, first piston 22, and second piston 23 is by second
Cylinder body is separated into third chamber 26 and the 4th chamber 27;Second chamber 25 is connected with the first valve 12, the 4th chamber 27 and
Two valves 13 are connected, and second chamber 25 can be with electromagnetic relief valve 14 with 14 unilaterally connected of electromagnetic relief valve, the 4th chamber 27
Unilaterally connected, third port 30 can be with second chambers 25,27 unilaterally connected of the 4th chamber;Electromagnetic relief valve 14 and second port 20
It is connected;The port A of two-position four-way solenoid valve 4 connects hydraulic control one-way valve 5, hydraulic control one-way valve 5 and first chamber 24, third chamber
26 connections;The T-port of two-position four-way solenoid valve 4 is connected to second port 20;The port B of two-position four-way solenoid valve 4 is connected to hydraulic control list
To the control port of valve 5, the port B of two-position four-way solenoid valve 4 is connected with second chamber 25 or the 4th chamber 27;3-position 4-way
The port P of solenoid valve 1 is connected to first port 10, and the T-port of three position four-way electromagnetic valve 1 is connected to second port 20,3-position 4-way electricity
The port B of magnet valve 1 is connected to the control port of the 6th port 60 and hydraulic control one-way valve 5, the port the A connection of three position four-way electromagnetic valve 1
The port P of two-position four-way solenoid valve 4.
As shown in Figure 1, the first port 10 of hydraulic synchronization control device, second port 20, third port 30 is used for and liquid
Potential source 6 connects, wherein hydraulic power source 6 inputs high-pressure medium, the second port 20 of hydraulic synchronization control device by first port 10
For hydraulic medium to be discharged to hydraulic power source 6, the fuel tank of hydraulic power source 6 inputs liquid to hydraulic synchronization control device by third port 30
Press medium.4th port 40 of hydraulic synchronization control device, fifth port 50 are respectively used to first into external mechanical setting
Driving hydraulic cylinder 16,17 output hydraulic pressure medium of the second driving hydraulic cylinder, the 6th port 60 of hydraulic synchronization control device is used for back
Receive the first driving hydraulic cylinder 16, hydraulic medium in the second driving hydraulic cylinder 17.
As shown in Figure 1, there are three types of location status for the tool of three position four-way electromagnetic valve 1, when the side a electromagnetism of three position four-way electromagnetic valve 1
When Tie Tong electricity, the port A of three position four-way electromagnetic valve 1 is connected to T-port, and the port B is connected to the port P;When three position four-way electromagnetic valve 1
The side b electromagnet be powered when, the port A of three position four-way electromagnetic valve 1 is connected to the port P, and the port B is connected to T-port;When three four
When 1 power loss of three-way electromagnetic valve, spool restores to normal position, at this point, the port A of three position four-way electromagnetic valve 1, the port B are connected with T-port
It is logical.The port P of three position four-way electromagnetic valve 1 is connected to first port 10, and the T-port of three position four-way electromagnetic valve 1 is connected to second port 20,
The port B of three position four-way electromagnetic valve 1 is connected to the control port of the 6th port 60 and hydraulic control one-way valve 5, three position four-way electromagnetic valve 1
The port P of the port A connection two-position four-way solenoid valve 4.Wherein, in the port P of two-position four-way solenoid valve 4 and three position four-way electromagnetic valve
Pressure reducing valve 3 is can connect between 1 port A.In the port B of three position four-way electromagnetic valve 1 and the control port of hydraulic control one-way valve 5
Between be connected with shuttle valve 15, the port B of second mouthful of connection three position four-way electromagnetic valve 1 of shuttle valve 15, the third mouth connection of shuttle valve 15
The control port of hydraulic control one-way valve 5, the port B of the first connection two-position four-way solenoid valve 4 of shuttle valve 15.The shuttle in the shuttle valve 15
Second mouthful of valve 15, third mouth cannot be connected to first.
As shown in Figure 1, there are two types of location status for the tool of two-position four-way solenoid valve 4, when the electricity of the side b of two-position four-way solenoid valve 4
When magnet is powered, the port two-position four-way solenoid valve 4A is connected to the port P, and the port B is connected to T-port.When two-position four-way solenoid valve 4
When power loss, spool restores to normal position, at this point, the port two-position four-way solenoid valve 4A is connected to T-port, the port B is connected to the port P.
The port A of two-position four-way solenoid valve 4 connects hydraulic control one-way valve 5, and the T-port of two-position four-way solenoid valve 4 is connected to second port 20;Two
The control port of the port the B connection hydraulic control one-way valve 5 of position four-way solenoid valve 4, i.e., connect, two-position four-way with the first of shuttle valve 15
The port B of solenoid valve 4 is also connected with second chamber 25 or the 4th chamber 27.
As shown in Figure 1, synchronized cylinder 2 may include the first cylinder body, the second cylinder body, be threaded through the first cylinder body and the second cylinder body it
Between can be carried out the mobile body of rod 21, the first piston 22 and second piston 23 being connected on the body of rod 21, first piston 22 is by
One cylinder body is separated into first chamber 24 and second chamber 25, and the second cylinder body is separated into third chamber 26 and the 4th by second piston 23
Chamber 27.The function of synchronization action may be implemented by the drive between first piston 22 and second piston 23 by the body of rod 21.
The synchronized cylinder 2 is also possible to the synchronized cylinder 2 with function of increasing pressure, has both been able to achieve the function of synchronization action, is also able to achieve with small
Executive component drive the purposes of big load.
As shown in Figure 1, hydraulic control one-way valve 5 is connected to first chamber 24, third chamber 26.Second chamber 25 and the first valve
12 are connected, and the 4th chamber 27 is connected with the second valve 13, and the first valve 12 can be bi-bit bi-pass shut-off valve, the second valve
13 can be bi-bit bi-pass shut-off valve, can be at connection and off-state by automatically controlled.
As shown in Figure 1, second chamber 25 can be with 14 unilaterally connected of electromagnetic relief valve, 27 energy of the 4th chamber and electromagnetic relief valve
14 unilaterally connecteds.Specifically, being connected between second chamber 25 and electromagnetic relief valve 14 from second chamber 25 to electromagnetism overflow
The third check valve 9 that valve 14 is connected.It is connected between 4th chamber 27 and electromagnetic relief valve 14 from the 4th chamber 27 and overflows to electromagnetism
Flow the 4th check valve 11 that valve 14 is connected.
As shown in Figure 1, third port 30 can be with second chamber 25,27 unilaterally connected of the 4th chamber.Specifically, the second chamber
The first check valve 7 be connected from third port 30 to second chamber 25 is connected between room 25 and third port 30.4th chamber
The second one-way valve 8 be connected from third port 30 to the 4th chamber 27 is connected between 27 and third port 30.
Shown in Fig. 1, hydraulic control one-way valve 5 under normal conditions can only be from the port A of two-position four-way solenoid valve 4 to synchronized cylinder 2
First chamber 24 or third chamber 26 be connected.After the control port of hydraulic control one-way valve 5 inputs high-pressure medium, hydraulic control one-way valve
5 return-stopping function, which fails, closes, and the first chamber 24 or third chamber 26 of synchronized cylinder 2 can be to the ports A of two-position four-way solenoid valve 4
Conducting.
Three position four-way electromagnetic valve 1, two-position four-way solenoid valve 4, the first valve 12, the second valve in hydraulic synchronization control device
Door 13, electromagnetic relief valve 14 can be electrically connected to electric control system, thus realize remote auto control, it also can be on the spot
Operation.Hydraulic synchronization control device also has the electric interfaces 70 for input service electric current, for example, the input of electric interfaces 70
It is required that can be the voltage of AC380V/50Hz.
In this application, start external hydraulic power source 6 and power supply and operating hydraulic synchronization control device can push machinery to set
It is standby to complete synchronization lifting function, while lock function can also be completed, it rinses and repairing function, decompression function.
Flushing in hydraulic synchronization control device in the application and the operating process of repairing function are as follows: 3-position 4-way electricity
The electromagnet of the side b of magnet valve 1 is powered, and the port A of three position four-way electromagnetic valve 1 is connected to the port P, the end B of three position four-way electromagnetic valve 1
Mouthful be connected to T-port, the high-pressure medium of hydraulic power source 6 pass through first port 10, the port A of three position four-way electromagnetic valve 1, the port P and
Pressure reducing valve 3 enters the port P of two-position four-way solenoid valve 4.4 no power of two-position four-way solenoid valve, the P of two-position four-way solenoid valve 4
Port is connected to the port B, and the port A of two-position four-way solenoid valve 4 is connected to T-port, high-pressure medium and two-position four-way solenoid valve 4
The port B is connected, and the port B of two-position four-way solenoid valve 4 and the B mouth of synchronized cylinder 2 (are equivalent to the 4th chamber 27 or second chamber
25) it connects, after high-pressure medium enters synchronized cylinder 2 and sets up pressure, enters the first of shuttle valve 15, the of shuttle valve 15
It is connected to simultaneously with third mouth flatly, high-pressure medium third mouth enters the control port of hydraulic control one-way valve 5, thus by fluid-control one-way
The return-stopping function of valve 5 is closed, and the low-pressure medium in synchronized cylinder 2 in first chamber 24 and third chamber 26 is through hydraulic control one-way valve at this time
Enter the port A of two-position four-way solenoid valve 4 after 5, and is back to the fuel tank of hydraulic power source 6 from the T-port of two-position four-way solenoid valve 4.
The second chamber 25 of synchronized cylinder 2 and the 4th chamber 27 are due to the mobile volume increase of the body of rod 21, and internal pressure reduces, when lower than liquid
When the internal pressure of the fuel tank of potential source 6, hydraulic medium will pass through the first check valve 7 and second one-way valve 8 enters synchronized cylinder 2
Second chamber 25 and the 4th chamber 27, until hydraulic medium is full of second chamber 25 and the 4th chamber 27.At this point, in synchronized cylinder 2
The body of rod 21 also experienced a movement in one direction from right to left.Flushing operation is completed through the above steps.
Then, the side the b electromagnet of three position four-way electromagnetic valve 1 is powered, and high-pressure medium passes through three position four-way electromagnetic valve 1 and decompression
Valve 3 enters in two-position four-way solenoid valve 4, and the side the b electromagnet of two-position four-way solenoid valve 4 is powered, the P of two-position four-way solenoid valve 4
Port is connected to the port A, and the port B of two-position four-way solenoid valve 4 is connected to T-port.High-pressure medium and two-position four-way solenoid valve 4
The port A is connected, and the port A of two-position four-way solenoid valve 4 passes through the first chamber 24 and third of hydraulic control one-way valve 5 and synchronized cylinder 2
Chamber 26 is connected, and is entered the first chamber 24 and third chamber 26 and after setting up pressure of synchronized cylinder 2 after high-pressure medium, is pushed
2 body of rod 21 of synchronized cylinder moves from left to right, and the hydraulic medium of second chamber 25 and the 4th chamber 27 is through 9 He of third check valve at this time
To electromagnetic relief valve 14 after 4th check valve 11.Pilot valve electromagnet obtains electric on electromagnetic relief valve 14,14 pressure release of electromagnetic relief valve.
Hydraulic medium is after electromagnetic relief valve 14 to the fuel tank of hydraulic power source 6.The body of rod 21 of synchronized cylinder 2 completes from left to right again at this time
Movement.Refueling operation is completed by the above process.Later, all solenoid valve power loss, spool restore to normal position, and so on,
Just the flushing and oiling of synchronized cylinder 2 are realized.
It is as follows that hydraulic synchronization control device in the application pushes mechanical equipment to complete the synchronous operating process for rising function: first
The first driving hydraulic cylinder 16, the playback of the second driving hydraulic cylinder 17 in first mechanical equipment, the piston rod of the two are fully retracted.It is synchronous
The second chamber 25 of cylinder 2 and the 4th chamber 27 are full of oil liquid, and the body of rod 21 is in left position.Then, the first valve 12 and the second valve
13 it is electric, in open connected state, at this point, the A mouth of the first driving hydraulic cylinder 16, the second driving hydraulic cylinder 17 respectively with it is synchronous
The second chamber 25 of cylinder 2 is connected to completely with the 4th chamber 27.The side the b electromagnet of three position four-way electromagnetic valve 1 is powered, and high-pressure medium is logical
It crosses three position four-way electromagnetic valve 1 and pressure reducing valve 3 enters in two-position four-way solenoid valve 4, the side the b electromagnet of two-position four-way solenoid valve 4
It is powered, the port A of high-pressure medium and two-position four-way solenoid valve 4 is connected, and the first chamber 24 of synchronized cylinder 2 is entered to high-pressure medium
With third chamber 26 and after setting up pressure, the body of rod 21 of synchronized cylinder 2 is pushed to move from left to right, at this time second chamber 25 and the
The hydraulic medium of four chambers 27 by after third check valve 9 and the 4th check valve 11 to electromagnetic relief valve 14.At this point, electromagnetism overflows
The setting pressure for flowing valve 14 is higher than the operating pressure of external hydraulic power source 6, so can not pressure release.Second chamber 25 and the 4th chamber 27
Hydraulic medium can only flow to the first driving hydraulic cylinder 16 and the second driving hydraulic cylinder 17 by the first valve 12, the second valve 13
A mouth.The piston rod of first driving hydraulic cylinder 16 and the second driving hydraulic cylinder 17 stretches out simultaneously, drives mechanical equipment is synchronous to rise
It rises.First driving hydraulic cylinder 16 is connected to the B mouth of the second driving hydraulic cylinder 17, and the first driving hydraulic cylinder 16 and the second driving are hydraulic
Hydraulic medium in cylinder 17 is back to the port B of three position four-way electromagnetic valve 1, returns to after flowing through the T-port of three position four-way electromagnetic valve 1
The fuel tank of hydraulic power source 6.
(i.e. the piston rod of driving hydraulic cylinder rests on stretches out position to the lock function of hydraulic synchronization control device in the application
Set) operation is as follows: after the stretching of the piston rod of the first driving hydraulic cylinder 16 and the second driving hydraulic cylinder 17, the first valve 12 and the
Two valves 13 close be in disconnected state, in this way, by the A mouth of the first driving hydraulic cylinder 16 and the second driving hydraulic cylinder 17 with it is synchronous
The second chamber 25 of cylinder 2 and the 4th chamber 27 are fully disconnected.The side the b electromagnet power loss of three position four-way electromagnetic valve 1, spool return to often
Position, P are shut, and the port A, the port B of three position four-way electromagnetic valve 1 are connected to T-port, and high-pressure medium is disconnected.First driving is hydraulic
Cylinder 16 and the piston rod of the second driving hydraulic cylinder 17 rest on extended position, and synchronized cylinder 2 does not reach right limit position at this time.
Hydraulic synchronization control device in the application pushes mechanical equipment to complete synchronous drop function (the i.e. work of driving hydraulic cylinder
Stopper rod is shunk) operating process it is as follows: the side a electromagnet of three position four-way electromagnetic valve 1 is powered, the port B of three position four-way electromagnetic valve 1
It is connected to the port P, the port A of three position four-way electromagnetic valve 1 is connected to T-port, and high-pressure medium passes through the B of three position four-way electromagnetic valve 1
Port enters the B mouth of the first driving hydraulic cylinder 16, the second driving hydraulic cylinder 17, meanwhile, the oil circuit of branch all the way of high-pressure medium into
Enter second mouthful to shuttle valve 15, then finally enter the control port of hydraulic control one-way valve 5 by third mouth, by the inverse of hydraulic control one-way valve 5
Only function is closed.At this point, the first valve 12 and the second valve 13 opening are connected to, high-pressure medium is by the first driving hydraulic cylinder 16, the
The A mouth of two driving hydraulic cylinders 17 returns to the second chamber 25 and the of synchronized cylinder 2 by the first valve 12 and the second valve 13 respectively
Four chambers 27.The first chamber 24 of synchronized cylinder 2 is connected to two four by the hydraulic control one-way valve 5 that return-stopping function fails with third chamber 26
The port A of three-way electromagnetic valve 4, at this point, the port B of two-position four-way solenoid valve 4 is connected to the port P, the end A of two-position four-way solenoid valve 4
Mouth is connected to T-port.So high-pressure medium directly returns the fuel tank of hydraulic power source 6 through two-position four-way solenoid valve 4, pressure also disappears therewith
It loses.And enter synchronized cylinder 2 second chamber 25 and the 4th chamber 27 pressure medium be greater than synchronized cylinder 2 24 He of first chamber
The pressure medium that third chamber 26 flows out, the body of rod 21 of synchronized cylinder 2 move from right to left, and the first driving hydraulic cylinder 16 and second is driven
The piston rod of hydrodynamic cylinder pressure 17 is begun to decline, after falling into place, the work of the first driving hydraulic cylinder 16 and the second driving hydraulic cylinder 17
Stopper rod is fully retracted.Finally, the side a electromagnet power loss of three position four-way electromagnetic valve 1, spool return to normal position, P is shut, high-pressure medium
It is disconnected, the first valve 12 and the second valve 13 are closed and disconnected, thus by the first driving hydraulic cylinder 16 and the second driving hydraulic cylinder
17 A mouth is fully disconnected with the second chamber 25 of synchronized cylinder 2 and the 4th chamber 27, and the body of rod 21 of synchronized cylinder 2 also completely arrives at a left side
Side pole limit.
After after many tests, the Derivative limit on the left or on the right position of synchronized cylinder 2 and the first driving hydraulic cylinder 16 and the second driving hydraulic cylinder
17 high and low position is corresponding, and forms fixed matching relationship.Consider the problems such as letting out in pipeline oil leak or driving hydraulic cylinder
Cause positional relationship disorder, the difference of necessarily the first driving hydraulic cylinder 16 and the second driving hydraulic cylinder 17 that rear extended meeting occurs
Step.For this purpose, carrying out location position automatically when the first driving hydraulic cylinder 16 and the second driving hydraulic cylinder 17 are in low level, guarantee
The synchronism of first driving hydraulic cylinder 16 and the second driving hydraulic cylinder 17.The same flushing process of calibration process, only first by synchronized cylinder 2
The body of rod 21 limit on the left position is pushed by a left side, then be back to limit on the right-right-hand limit position from limit on the left position.
For example, the utility model hydraulic synchronization control device can be used for controlling the lifting of intermediate tundish carriage, hydraulic synchronization control
After device manufacturing processed, pressure test and performance test need to be carried out, is installed on intermediate tundish carriage after test passes, simultaneously
First driving hydraulic cylinder 16 and the second driving hydraulic cylinder 17 will be installed as requested, and carry out external hydraulic power source 6 and hydraulic synchronization
Control device and hydraulic synchronization control device to the pipeline between the first driving hydraulic cylinder 16, the second driving hydraulic cylinder 17 connect
It connects.The flushing and pressure testing that progress pipeline is needed before use, need to debug power, the output pressure etc. for confirming external hydraulic power source 6.It is synchronous
The Derivative limit on the left or on the right position of cylinder 2 is corresponding with the upper level position of the first driving hydraulic cylinder 16, the second driving hydraulic cylinder 17, and in synchronization
Limit switch is installed in the Derivative limit on the left or on the right position of cylinder 2, and to monitor the first driving hydraulic cylinder 16, whether the second driving hydraulic cylinder 17 arrives
Position.Initial position is set to driving hydraulic cylinder and is in low level (hydraulic cylinder piston rod fully retracted state).Operate electrical control
Panel, presses " rising " button, the side the b electromagnet of three position four-way electromagnetic valve 1 and the side the b electromagnet of two-position four-way solenoid valve 4 obtain it is electric,
First valve 12, the second valve 13 open connection after being delayed 2 seconds.High-pressure medium passes through three position four-way electromagnetic valve 1,3 He of pressure reducing valve
Two-position four-way solenoid valve 4 and hydraulic control one-way valve 5 enter the first chamber 24 and third chamber 26 of synchronized cylinder 2, push and synchronize
2 piston of cylinder moves from left to right, at this point, the oil liquid in second chamber 25 and the 4th chamber 27 is due to first chamber 24 and third
The extruding of chamber 26 produces the pressure of same load matched, opens to the A mouth of the first driving hydraulic cylinder 16, the second driving hydraulic cylinder 17
Beginning fuel feeding, two driving hydraulic cylinders start synchronous rising, and when rising to nominal position, corresponding synchronized cylinder 2 also runs to one
Position can mark as A, at this time limit switch sender, three position four-way electromagnetic valve 1,4 power loss of two-position four-way solenoid valve,
One valve 12, the second valve 13, which are closed, to be disconnected, the locking of driving hydraulic cylinder position.Electrical control panel is operated, " decline " button is pressed,
First valve 12 is connected to the second valve 13 opening, and the side a electromagnet of three position four-way electromagnetic valve 1 is delayed 2 seconds electric.High-pressure medium
The B mouth that driving hydraulic cylinder is entered by three position four-way electromagnetic valve 1, sets up corresponding pressure quickly, at the same time, divides all the way
Branch enters second mouthful of shuttle valve 15, and is delivered to third mouth by the second oral instructions, finally reaches the control port of hydraulic control one-way valve 5,
The return-stopping function of hydraulic control one-way valve 5 is closed, the medium of the first driving hydraulic cylinder 16 and the second driving hydraulic cylinder 17 is through the first valve
The 12, second valve 13 of door enters the second chamber 25 and the 4th chamber 27 of synchronized cylinder 2, pushes the body of rod 21 of synchronized cylinder 2 by the right side
It moves downward, the first chamber 24 of synchronized cylinder 2 and the medium of third chamber 26 are through hydraulic control one-way valve 5 and two-position four-way solenoid valve 4
The fuel tank of hydraulic power source 6 is flowed into afterwards, and the first driving hydraulic cylinder 16 starts synchronous decline with the second driving hydraulic cylinder 17, falls into place
Afterwards, synchronized cylinder 2 also runs to the extreme position in left side, is labeled as position B, at this time limit switch sender, three position four-way electromagnetic valve 1
Power loss, the first valve 12 and the second valve 13, which are closed, to be disconnected, the first driving hydraulic cylinder 16 and 17 position of the second driving hydraulic cylinder lock
It is fixed.
Hydraulic synchronization control device in the application has the beneficial effect that: the hydraulic synchronization control device is easy to operate,
It is safe and reliable to operation, conventional hydraulic element is used, multi-cylinder synchronous is just realized using simple electrical control and acts, it is synchronous to miss
Difference is can be controlled within 0.5%, the more aobvious advantage especially under the operating condition of the inclement conditions such as high temperature, humidity, can to avoid to oil liquid,
Requirement for height to valve and the height dependence to electrical control;After limit switch is added to realize monitoring position, this is hydraulic same
Walk control device can automatic running, automatic Calibration, realize " key " operation, to reduce manual intervention, reduce failure
Rate, ensure that the continuity of production, and then improve operating efficiency and productivity.The hydraulic synchronization control device invests low, energy
Consume low, maintenance rate is low, is suitble to the multi-field popularization and use of conglomerate.
All articles and reference disclosed, including patent application and publication, for various purposes by quoting knot
Together in this.Describing combined term " substantially by ... constitute " should include identified element, ingredient, component or step and reality
Other elements, ingredient, component or the step of the basic novel feature of the combination are not influenced in matter.Using term "comprising" or
" comprising " describes the combination of element here, ingredient, component or step it is also contemplated that substantially by these elements, ingredient, component
Or the embodiment that step is constituted.Here by using term " can with ", it is intended to illustrate that " can with " includes described any
Attribute is all optional.Multiple element, ingredient, component or step can be mentioned by single integrated component, ingredient, component or step
For.Alternatively, single integrated component, ingredient, component or step can be divided into multiple element, ingredient, component or the step of separation
Suddenly.For describe the open "a" or "an" of element, ingredient, component or step do not say in order to exclude other elements, at
Point, component or step.
All the embodiments in this specification are described in a progressive manner, the highlights of each of the examples are with
The difference of other embodiments, the same or similar parts between the embodiments can be referred to each other.Above-described embodiment is only
Illustrate the technical ideas and features of the present invention, it is practical new its object is to allow person skilled in the art that can understand this
The content of type is simultaneously implemented accordingly, does not limit the protection scope of the present invention.It is all real according to the spirit of the present invention
Equivalent change or modification made by matter, should be covered within the scope of the utility model.
Claims (10)
1. a kind of hydraulic synchronization control device, which is characterized in that the hydraulic synchronization control device includes:
Three position four-way electromagnetic valve, hydraulic control one-way valve, two-position four-way solenoid valve, synchronized cylinder, the first valve, the second valve, electromagnetism overflow
Flow valve, first port, second port, third port for connecting with hydraulic power source, for driving with the first driving hydraulic cylinder, second
4th port of hydrodynamic cylinder pressure connection, fifth port, the 6th port;
The synchronized cylinder includes the first cylinder body, the second cylinder body, is threaded through can be carried out between first cylinder body and the second cylinder body
The mobile body of rod, the first piston being connected on the body of rod and second piston, the first piston divide first cylinder body
It is divided into first chamber and second chamber, second cylinder body is separated into third chamber and the 4th chamber by the second piston;Institute
It states second chamber to be connected with first valve, the 4th chamber is connected with second valve, the second chamber
It can be with the electromagnetic relief valve unilaterally connected, the third end with the electromagnetic relief valve unilaterally connected, the 4th chamber
Mouth can be with the second chamber, the 4th chamber unilaterally connected;
The electromagnetic relief valve is connected with the second port, and the port A of the two-position four-way solenoid valve connects the hydraulic control
Check valve, the hydraulic control one-way valve and the first chamber, the third chamber;The end T of the two-position four-way solenoid valve
Mouth is connected to the second port, and the port B of the two-position four-way solenoid valve is connected to the control port of the hydraulic control one-way valve, described
The port B of two-position four-way solenoid valve is connected with the second chamber or the 4th chamber;
The port P of the three position four-way electromagnetic valve is connected to first port, and the T-port of the three position four-way electromagnetic valve is connected to second end
Mouthful, the control port of the port B the 6th port and the hydraulic control one-way valve of connection of the three position four-way electromagnetic valve, described three four
The port A of three-way electromagnetic valve is connected to the port P of the two-position four-way solenoid valve.
2. hydraulic synchronization control device according to claim 1, which is characterized in that the hydraulic synchronization control device also wraps
It includes: the pressure reducing valve being connected between the port P of the two-position four-way solenoid valve and the port A of the three position four-way electromagnetic valve.
3. hydraulic synchronization control device according to claim 1, which is characterized in that the second chamber and the electromagnetism overflow
The third check valve be connected from the second chamber to the electromagnetic relief valve is connected between stream valve.
4. hydraulic synchronization control device according to claim 1, which is characterized in that the 4th chamber and the electromagnetism overflow
The 4th check valve be connected from the 4th chamber to the electromagnetic relief valve is connected between stream valve.
5. hydraulic synchronization control device according to claim 1, which is characterized in that the second chamber and the third end
The first check valve be connected from the third port to the second chamber is connected between mouthful.
6. hydraulic synchronization control device according to claim 1, which is characterized in that the 4th chamber and the third end
The second one-way valve be connected from the third port to the 4th chamber is connected between mouthful.
7. hydraulic synchronization control device according to claim 1, which is characterized in that first valve cuts for bi-bit bi-pass
Only valve, second valve are bi-bit bi-pass shut-off valve.
8. hydraulic synchronization control device according to claim 1, which is characterized in that when the hydraulic synchronization control device pair
When the synchronized cylinder is rinsed, the port A of the three position four-way electromagnetic valve is connected to the port P, the three position four-way electromagnetic valve
The port B be connected to T-port;The port P of the two-position four-way solenoid valve is connected to the port B, the A of the two-position four-way solenoid valve
Port is connected to T-port.
9. hydraulic synchronization control device according to claim 1, which is characterized in that when the hydraulic synchronization control device pair
When the synchronized cylinder is refueled, the port A of the three position four-way electromagnetic valve is connected to the port P, the three position four-way electromagnetic valve
The port B be connected to T-port;The port P of the two-position four-way solenoid valve is connected to the port A, the B of the two-position four-way solenoid valve
Port is connected to T-port.
10. hydraulic synchronization control device according to claim 1, which is characterized in that when the hydraulic synchronization control device
When externally output high-pressure medium is so that the piston rod of driving hydraulic cylinder stretches out, first valve and second valve opening;
The port A of the three position four-way electromagnetic valve is connected to the port P, and the port B of the three position four-way electromagnetic valve is connected to T-port;Institute
The port P for stating two-position four-way solenoid valve is connected to the port A, and the port B of the two-position four-way solenoid valve is connected to T-port;It is described
The setting pressure of electromagnetic relief valve is higher than the operating pressure of external hydraulic power source;When the hydraulic synchronization control device is without externally defeated
Out, when the piston rod of driving hydraulic cylinder rests on extended position, first valve and second valve are closed;Described three
The port A, the port B of four way solenoid valve are connected to T-port;Externally export high-pressure medium when the hydraulic synchronization control device so that
When the piston rod of driving hydraulic cylinder is shunk, the port B of the three position four-way electromagnetic valve is connected to the port P, the 3-position 4-way electricity
The port A of magnet valve is connected to T-port, and the return-stopping function of the hydraulic control one-way valve is closed, first valve and second valve
Door is opened, and the port B of the two-position four-way solenoid valve is connected to the port P, the port A of the two-position four-way solenoid valve and T-port
Connection.
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Cited By (1)
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CN109505813A (en) * | 2018-12-26 | 2019-03-22 | 中冶京诚工程技术有限公司 | Hydraulic synchronization control device |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN109505813A (en) * | 2018-12-26 | 2019-03-22 | 中冶京诚工程技术有限公司 | Hydraulic synchronization control device |
CN109505813B (en) * | 2018-12-26 | 2024-02-06 | 中冶京诚工程技术有限公司 | Hydraulic synchronous control device |
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