CN108167240A - A kind of hydraulic system of local loading hydraulic press - Google Patents

Abstract

A kind of hydraulic system of local loading hydraulic press, including power output system, the first loading system and the second loading system, the P of power output system and third solenoid directional control valve mouths connect, and the P mouths of the A mouths of third solenoid directional control valve and the first solenoid directional control valve of the first loading system connect；The P mouths connection for the second solenoid directional control valve 11 that the B mouths of third solenoid directional control valve are connected with the second loading system；The present invention can realize multi-pass, the step forming of more local loadings in a fire heating, the continuous transformation loading zone in forming process, and loading zone main hydraulic system and non-loading zone hydraulic system functional mapping are realized simultaneously, so as to expand forming capacity of equipment, the crystallized ability more than hydraulic system installed power is realized.

Description

A kind of hydraulic system of local loading hydraulic press

Technical field

The invention belongs to hydraulic system of hydraulic machine technical fields, and in particular to a kind of hydraulic pressure system of local loading hydraulic press System.

Background technology

Local loading and shaping can effectively reduce shaping load, expand component forming size range, improve equipment crystallized ability, It is the effective way of large-scale component Plastic Forming.However regional area applies load, transformation loading zone in forming process, equipment needs Big shaping load need to be applied to loading zone, and smaller restraint forces are applied to non-loading zone.Double action hydraulic press is general at present By main and auxiliary two hydraulic systems, the load that auxiliary hydraulic system provides is relatively low, is only capable of providing restraint forces to non-loading zone, difficult To meet the shaping load in load deflection area, corresponding shaping load can not be provided after loading zone is converted.

When hydraulic tools are there are two the hydraulic press of more than main hydraulic system, each hydraulic system can provide loading zone Larger shaping load, but after loading zone is converted, non-loading zone hydraulic system still provide loading zone it is an equal amount of into Shape load causes to waste beyond the part of restraint forces, and equipment crystallized ability is suitable with whole loading and shaping, can not realize The superiority of local loading and shaping large-scale component.

At present complex large-scale component local loading and shaping by adjusting mould structure, increase corresponding auxiliary device in common liquid It is realized on press, each local loading step is required for adjustment more mold exchange, needs repeatedly to cool down in isothermal or hot forging forming, add Heat, forming period is long, efficiency is low, the more fiery heat effect structure properties of forging.Therefore mostly using a time, two local loading steps Forming, significantly limits application of the local loading and shaping in figuration manufacture difficult-to-deformation material complex large-scale component.

Invention content

In order to overcome above-mentioned prior art shortcoming, the purpose of the present invention is to provide a kind of hydraulic pressure of local loading hydraulic press System can realize that multi-pass, more local loadings step shape in a fire heating, the continuous transformation loading zone in forming process, and It realizes loading zone main hydraulic system and non-loading zone hydraulic system functional mapping simultaneously, so as to expand forming capacity of equipment, realizes More than the crystallized ability of hydraulic system installed power.

In order to achieve the above object, the technical solution taken of the present invention is：

A kind of hydraulic system of local loading hydraulic press, including power output system, the first loading system and the second loading The P mouths connection of system, power output system and third solenoid directional control valve 9, the A mouths of third solenoid directional control valve 9 and the first loading are The P mouths connection of first solenoid directional control valve 10 of system；The second electricity that the B mouths of third solenoid directional control valve 9 are connected with the second loading system The P mouths connection of magnetic reversal valve 11；

The power output system include high-pressure hydraulic pump 1,1 oil outlet end of high-pressure hydraulic pump respectively with inserted valve 2 into Hydraulic fluid port, pressure control inserted valve 3 oil inlet connection, 2 control chamber of inserted valve connect with 2 oil outlet of inserted valve after with third electromagnetism The P mouths connection of reversal valve 9, pressure control inserted valve 3 oil outlet connection fuel tank 24, while connect with 4 one end of pressure regulator valve, and with the The T mouths connection of four solenoid directional control valves 5；Pressure control 3 control chamber of inserted valve is connect with 4 other end of pressure regulator valve, and accesses the 4th electricity The P mouths of magnetic reversal valve 5, the B mouths of the 4th solenoid directional control valve 5 are connected with the 5th proportional pressure control valve 6；In 4th solenoid directional control valve 5 P mouthfuls of position is connected with T mouthfuls；The T mouths of third solenoid directional control valve 9 are connected with the oil outlet end of overflow valve 7, low-pressure hydraulic pump 8；Third electromagnetism Middle position P mouthfuls of reversal valve 9 are connected with A mouthfuls, B mouthfuls；

First loading system include the first solenoid directional control valve 10, middle position T mouthfuls of the first solenoid directional control valve 10 and A Mouth, B mouthfuls of connections, the T mouths of the first solenoid directional control valve 10 are connected with fuel tank 24, the A mouths and the first ratio of the first solenoid directional control valve 10 Overflow valve 12, the first check valve 13 one end connection, the first proportional pressure control valve 12, the first check valve 13 the other end and the first liquid 20 cavity of resorption of cylinder pressure connects；The B mouths and the second check valve 14 of first solenoid directional control valve 10, one end of the second proportional pressure control valve 15 connect Connect, the second check valve 14, the second proportional pressure control valve 15 the other end connected with 20 epicoele of first hydraulic cylinder, in first hydraulic cylinder 20 Chamber entrance is connected with first pressure sensor 21；

Second loading system include the second solenoid directional control valve 11, middle position T mouthfuls of the second solenoid directional control valve 11 and A Mouth, B mouthfuls of connections, the T mouths of the second solenoid directional control valve 11 are connected with fuel tank 24, the A mouths of the second solenoid directional control valve 11 and third ratio One end connection of overflow valve 16, third check valve 17, third proportional pressure control valve 16, the other end of third check valve 17 and the second liquid 23 cavity of resorption of cylinder pressure connects, and the B mouths and the 4th proportional pressure control valve 19 of the second solenoid directional control valve 11, one end of the 4th check valve 18 connect Connect, the 4th proportional pressure control valve 19, the 4th check valve 18 the other end connected with 23 epicoele of second hydraulic cylinder, in second hydraulic cylinder 23 Chamber entrance goes out to be connected with second pressure sensor 22.

First loading system and the first upper mold 25 corresponds to, and the second loading system and the second upper mold 26 correspond to, and first Upper mold 25, the second upper mold 26 composition combined type upper mold, lower die 28 is an entirety.

Beneficial effects of the present invention are：

The present invention applies load deflection area using multi-pass, the method for more local loadings step forming, continuous transformation loading zone Add larger shaping load, and smaller restraint forces are applied to non-loading zone.The hydraulic system can be directly to different hydraulic pressure The pressure in cylinder different operating stage is regulated and controled, to ensure that different hydraulic cylinders reach the pressure needed for different loading zones, and Hydraulic cylinder keeps to prevent the mutation of hydraulic pressure in-cylinder pressure during confining pressure, can be realized in a fire heating in forming process Repeatedly transformation local loading region obtains being more than the crystallized ability of whole loading and shaping under identical installed power.

Description of the drawings

Fig. 1 is the hydraulic schematic of the embodiment of the present invention.

Fig. 2 is the upper modular constraint gap schematic diagram of the non-loading zone of the embodiment of the present invention.

Specific embodiment

The present invention is described in detail below in conjunction with the accompanying drawings.

With reference to Fig. 1, a kind of hydraulic system of local loading hydraulic press, including power output system, the first loading system and The P mouths connection of second loading system, power output system and third solenoid directional control valve 9, A mouths of third solenoid directional control valve 9 and the The P mouths connection of first solenoid directional control valve 10 of one loading system；The B mouths of third solenoid directional control valve 9 are connected with the second loading system The second solenoid directional control valve 11 P mouths connection；

The power output system include high-pressure hydraulic pump 1,1 oil outlet end of high-pressure hydraulic pump respectively with inserted valve 2 into The oil inlet connection of hydraulic fluid port, pressure control inserted valve 3, after 2 control chamber of inserted valve is connect with 2 oil outlet of inserted valve, with third electricity The P mouths connection of magnetic reversal valve 9, pressure control inserted valve 3 oil outlet connection fuel tank 24, while connect with 4 one end of pressure regulator valve, and and The T mouths connection of 4th solenoid directional control valve 5；Pressure control 3 control chamber of inserted valve is connect with 4 other end of pressure regulator valve, and accesses the 4th The P mouths of solenoid directional control valve 5, the B mouths of the 4th solenoid directional control valve 5 are connected with the 5th proportional pressure control valve 6；4th solenoid directional control valve 5 Middle position P mouthfuls connect with T mouthfuls；The T mouths of third solenoid directional control valve 9 are connected with the oil outlet end of overflow valve 7, low-pressure hydraulic pump 8；Third electricity Middle position P mouthfuls of magnetic reversal valve 9 are connected with A mouthfuls, B mouthfuls；

High-pressure hydraulic pump 1 provides power with low-pressure hydraulic pump 8 for system, and intermediate and high pressure hydraulic pumps 1 provide high pressure for workpiece Deformation load, the restraint forces that low-pressure hydraulic pump 8 provides low pressure for workpiece；Inserted valve 2 prevents hydraulic oil from flowing back to height from system Hydraulic fluid press pump 1, pressure control inserted valve 3 are combined with pressure regulator valve 4, by setting 4 pressure limit system maximum pressure of pressure regulator valve, are pressed Power control inserted valve 3 is combined with the 4th solenoid directional control valve 5 with the 5th proportional pressure control valve 6, is pressed by adjusting the 5th proportional pressure control valve 6 Power adjusts system working pressure；Third solenoid directional control valve 9 controls the flow direction of 1 hydraulic oil of high-pressure hydraulic pump, third solenoid directional control valve 9 To two hydraulic cylinders while fuel feeding during position in access；Only to 20 fuel feeding of first hydraulic cylinder when accessing left position；Only to the when accessing right position Two hydraulic cylinders, 23 fuel feeding.

First loading system include the first solenoid directional control valve 10, middle position T mouthfuls of the first solenoid directional control valve 10 and A Mouth, B mouthfuls of connections, the T mouths of the first solenoid directional control valve 10 are connected with fuel tank 24, the A mouths and the first ratio of the first solenoid directional control valve 10 Overflow valve 12, the first check valve 13 one end connection, the first proportional pressure control valve 12, the first check valve 13 the other end and the first liquid 20 cavity of resorption of cylinder pressure connects；The B mouths and the second check valve 14 of first solenoid directional control valve 10, one end of the second proportional pressure control valve 15 connect Connect, the second check valve 14, the second proportional pressure control valve 15 the other end connected with 20 epicoele of first hydraulic cylinder, in first hydraulic cylinder 20 Chamber entrance is connected with first pressure sensor 21；

Pressing component corresponding local loaded area when first hydraulic cylinder 20 works, in hydraulic press work, the first hydraulic pressure First upper mold 25 needed for installation component shaping on the moved cross beam that cylinder 20 connects, the first solenoid directional control valve 10 control first hydraulic cylinder 20 oil inlet and oil return, 20 upper and lower cavity of first hydraulic cylinder all stops oil inlet during position in access, first hydraulic cylinder 20 when accessing left position Cavity of resorption oil inlet epicoele oil return, 20 epicoele oil inlet cavity of resorption oil return of first hydraulic cylinder when accessing right position, the first check valve 13 control first The unidirectional oil inlet of 20 cavity of resorption of hydraulic cylinder, the second check valve 14 control the unidirectional oil inlet of 20 epicoele of first hydraulic cylinder, and the first ratio is overflow It flows valve 12 and sets up 20 cavity of resorption return pressure of first hydraulic cylinder, the second proportional pressure control valve 15 sets up 20 epicoele oil return pressure of first hydraulic cylinder Power, first pressure sensor 21 measure the pressure of 20 epicoele of first hydraulic cylinder.

Second loading system include the second solenoid directional control valve 11, middle position T mouthfuls of the second solenoid directional control valve 11 and A Mouth, B mouthfuls of connections, the T mouths of the second solenoid directional control valve 11 are connected with fuel tank 24, the A mouths of the second solenoid directional control valve 11 and third ratio One end connection of overflow valve 16, third check valve 17, third proportional pressure control valve 16, the other end of third check valve 17 and the second liquid 23 cavity of resorption of cylinder pressure connects, and the B mouths and the 4th proportional pressure control valve 19 of the second solenoid directional control valve 11, one end of the 4th check valve 18 connect Connect, the 4th proportional pressure control valve 19, the 4th check valve 18 the other end connected with 23 epicoele of second hydraulic cylinder, in second hydraulic cylinder 23 Chamber entrance goes out to be connected with second pressure sensor 22；

Pressing component corresponding local loaded area when second hydraulic cylinder 23 works, in hydraulic press work, the second hydraulic pressure Second upper mold 26 needed for installation component shaping on the moved cross beam that cylinder 23 connects, the second solenoid directional control valve 11 control second hydraulic cylinder 23 oil inlet and oil return, 23 upper and lower cavity of second hydraulic cylinder all stops oil inlet during position in access, second hydraulic cylinder 23 when accessing left position Cavity of resorption oil inlet epicoele oil return, 23 epicoele oil inlet cavity of resorption oil return of second hydraulic cylinder when accessing right position, the control of third check valve 17 second The unidirectional oil inlet of 23 cavity of resorption of hydraulic cylinder, the 4th check valve 18 control the unidirectional oil inlet of 23 epicoele of second hydraulic cylinder, and third ratio is overflow It flows valve 16 and sets up 23 cavity of resorption return pressure of second hydraulic cylinder；4th proportional pressure control valve 19 sets up 23 epicoele oil return pressure of second hydraulic cylinder Power, second pressure sensor 22 measure the pressure of 23 epicoele of second hydraulic cylinder.

Operation principle of the present invention is：

For the present invention using multi-pass, the method for more local loadings step forming, which can be directly to different hydraulic pressure The pressure in cylinder different operating stage is regulated and controled, to ensure that different hydraulic cylinders reach the pressure needed for different loading zones.In a fire Continuous transformation loading zone in heating applies loading zone larger shaping load, and applies smaller constraint to non-loading zone and carry Lotus.

In the present embodiment, setting loading road frequency n is required according to workpiece local loading deflection, each loading passage is set Two local loading steps are put, according to formed features, first hydraulic cylinder 20 is walked as the first loading, and second hydraulic cylinder 23 is as last Loading step together.

In the present embodiment, power output system provides the load of maximum 10000kN, and intermediate and high pressure hydraulic pumps 1 can provide The load of maximum 8000kN, while low-pressure hydraulic pump 8 can provide the load of maximum 2000kN.

(1) fast downlink：

After high-pressure hydraulic pump 1 starts, electromagnet 1YA, 6YA, 8YA are powered, the first solenoid directional control valve 10 and the second electromagnetism 11 right access systems of reversal valve, two hydraulic cylinder epicoele oil inlets, cavity of resorption hydraulic oil flow back to fuel tank；First proportional pressure control valve 12, Two proportional pressure control valves 15, third proportional pressure control valve 16 and 19 pressure of the 4th proportional pressure control valve are turned down, and two hydraulic cylinder epicoeles can be quick Oil inlet, cavity of resorption can rapid oil returns；The next access system of 4th solenoid directional control valve 5, pressure control 3 control chamber of inserted valve and the 5th ratio Example overflow valve 6 is connected, and pressure control inserted valve 3 is opened and cavity pressure is controlled to be determined by 6 set pressure of the 5th proportional pressure control valve, 6 pressure of the 5th proportional pressure control valve of fast downlink stage is turned down, and the hydraulic oil that high-pressure hydraulic pump 1 pumps out is low pressure, and two hydraulic cylinders are lived Stopper rod can simultaneously fast downlink.

(2) downlink at a slow speed：

When two hydraulic cylinder piston rods come downwards to certain altitude, the 5th proportional pressure control valve 6, the first proportional pressure control valve 12 and third 16 pressure rise of proportional pressure control valve, 6 pressure of the 5th proportional pressure control valve are turned up to system working pressure, the pump output of high-pressure hydraulic pump 1 Hydraulic fluid pressure raising, two hydraulic cylinder cavity of resorption pressure rises, piston rod decrease speed slows down, at a slow speed close to workpiece, to certain Highly stop declining.In the present embodiment, when two-piston bar drive two upper mold lower surfaces away from workpiece surface height be c when electromagnetism Iron 1YA is powered off, and position in the access of the 4th solenoid directional control valve 5, pressure control 3 control chamber of inserted valve is directly connected to fuel tank 24, high pressure liquid 1 hydraulic oil of press pump directly flows back to 24 off-load of fuel tank through pressure control inserted valve 3, and hydraulic oil stops entering system, and two hydraulic cylinders stop Hydraulic oil is only passed in and out, two-piston bar stops declining.

(3) First partial loading step：

Implement the first loading step in this loading passage, electromagnet 1YA, 3YA are powered, and third solenoid directional control valve 9 accesses a left side Position, high-pressure hydraulic pump 1 is only to 20 fuel feeding of first hydraulic cylinder, and low-pressure hydraulic pump 8 is only to 23 fuel feeding of second hydraulic cylinder.

20 pressure of first hydraulic cylinder gradually rises and slowly downlink；Second hydraulic cylinder 23 remains stationary as, corresponding upper mold and Workpiece surface forms constraint gap c；19 pressure rise of third proportional pressure control valve 16 and the 4th proportional pressure control valve, second hydraulic cylinder 23 Epicoele continues oil inlet, and cavity of resorption stops disengaging hydraulic oil.

With reference to Fig. 2, the constraint gap c of the hydraulic system, lower die 28 keeps whole, and upper mold by the first upper mold 25 with Second 26 liang of upper mold module forms, and the first upper mold 25 is that the first loading system corresponds to upper mold, and the second upper mold 26 is the second loading system The corresponding upper mold of system.Shown in figure is hydraulic system First partial loading step process signal, the in First partial loading step One upper mold 25 applies shaping load to stand under load workpiece 27, and the second upper mold 26 only applies stand under load workpiece 27 restraint forces, The distance between second upper mold 26 and stand under load workpiece 27 c are to constrain gap c.

23 epicoele of second hydraulic cylinder keeps confining pressure highest can be to 2000kN, can be by adjusting the 4th according to actual demand The confining pressure of 19 pressure change second hydraulic cylinder of proportional pressure control valve, 23 epicoele, is in the present embodiment 2000kN.When the second pressure Force snesor 22 detects 23 upper cavity pressure of second hydraulic cylinder to confining pressure, electromagnet 8YA power-off, the second solenoid directional control valve 11 Position in access, second hydraulic cylinder 23 stop disengaging hydraulic oil, and second hydraulic cylinder 23 keeps confining pressure.

20 piston rod of first hydraulic cylinder continues downlink, and 12 pressure of the first proportional pressure control valve continuously decreases, the second proportional overflow 15 pressure of valve gradually rises, and hydraulic oil goes successively to 20 epicoele of first hydraulic cylinder, and 20 pressure of first hydraulic cylinder gradually rises, at this In embodiment, first hydraulic cylinder 20 keeps forming pressure highest can be to 8000kN, can be by adjusting the second ratio according to actual demand The forming pressure of example 15 pressure change first hydraulic cylinder 20 of overflow valve, is in the present embodiment 8000kN.When first hydraulic cylinder 20 Electromagnet 1YA, 6YA are powered off after reaching the reduction in pass, and position in the access of the first solenoid directional control valve 10, first hydraulic cylinder 20 stops Pass in and out hydraulic oil, 1 hydraulic oil of high-pressure hydraulic pump directly flows back to 24 off-load of fuel tank through pressure control inserted valve 3, hydraulic oil stop into Enter system, 12 pressure rise of the first proportional pressure control valve, 20 pressurize of first hydraulic cylinder.

During if second hydraulic cylinder 23 keeps confining pressure, when second pressure sensor 22 detects second hydraulic cylinder 23 Upper cavity pressure declines, then electromagnet 8YA is powered, and low-pressure hydraulic pump 8 passes through third solenoid directional control valve 9, the second solenoid directional control valve 11 And the 4th check valve 18 to 23 epicoele repairing of second hydraulic cylinder, electromagnet 8YA is powered off after pressure reaches confining pressure again.

(4) First partial loading step is completed：

Electromagnet 4YA, 5YA are powered after first hydraulic cylinder 20 reaches the reduction in pass for a period of time, and third electromagnetism changes Right position is accessed to valve 9, the first solenoid directional control valve 10 access left position, low-pressure hydraulic pump 8 is only to 20 cavity of resorption fuel feeding of first hydraulic cylinder, and the Two proportional pressure control valves, 15 pressure is turned down, and epicoele hydraulic oil directly flows back to fuel tank through the first solenoid directional control valve 10, and piston rod is lifted upwards It rises, moved cross beam is driven to be lifted upwards, after making to generate distance between the first upper mold 25 and workpiece for the constraint gap of c, the second ratio Example 15 pressure rise of overflow valve, piston rod holding position are motionless.

(5) second local loadings walk：

Implement the second loading step in this loading passage, electromagnet 1YA, 4YA, 6YA, 8YA are powered, third solenoid directional control valve The 9 right positions of access, high-pressure hydraulic pump 1 is only to 23 fuel feeding of second hydraulic cylinder, and low-pressure hydraulic pump 8 is only to 20 fuel feeding of first hydraulic cylinder.

23 pressure of second hydraulic cylinder gradually rises and slowly downlink；First proportional pressure control valve, 12 pressure rise, the first liquid 20 epicoele of cylinder pressure continues oil return, and cavity of resorption stops disengaging hydraulic oil, when 20 epicoele of first hydraulic cylinder keeps confining pressure highest can be extremely 2000kN, can be by adjusting the about beam pressure of 15 pressure change first hydraulic cylinder of the second proportional pressure control valve, 20 epicoele according to actual demand Power is in the present embodiment 2000kN.When first pressure sensor 21 detects 20 upper cavity pressure of first hydraulic cylinder to about beam pressure Power, electromagnet 6YA power-off, position in the access of the first solenoid directional control valve 10, first hydraulic cylinder 20 stop disengaging hydraulic oil, the first hydraulic pressure Cylinder 20 keeps confining pressure.

20 piston rod of first hydraulic cylinder continues downlink, and 16 pressure of third proportional pressure control valve continuously decreases, the 4th proportional overflow Valve 19 gradually rises, and hydraulic oil goes successively to 23 epicoele of second hydraulic cylinder, and 23 pressure of second hydraulic cylinder gradually rises, the second hydraulic pressure Cylinder 23 keeps forming pressure highest can be to 8000kN, can be by adjusting 19 pressure change of the 4th proportional pressure control valve according to actual demand The forming pressure of second hydraulic cylinder 23 is in the present embodiment 8000kN.After second hydraulic cylinder 23 reaches the reduction in pass Electromagnet 1YA, 8YA are powered off, and position in the access of the second solenoid directional control valve 11, second hydraulic cylinder 23 stops disengaging hydraulic oil, high pressure liquid 1 hydraulic oil of press pump directly flows back to 24 off-load of fuel tank through pressure control inserted valve 3, and hydraulic oil stops entering system, and third ratio is overflow Flow 16 pressure rise of valve, 23 pressurize of second hydraulic cylinder.

During if first hydraulic cylinder 20 keeps confining pressure, when first pressure sensor 21 detects first hydraulic cylinder 20 Upper cavity pressure declines, then electromagnet 6YA is powered, and low-pressure hydraulic pump 8 passes through third solenoid directional control valve 9, the first solenoid directional control valve 10 And second check valve 14 to 20 epicoele repairing of first hydraulic cylinder, electromagnet 6YA is powered off after pressure reaches confining pressure again.

(6) second local loadings step is completed：

Electromagnet 3YA, 7YA are powered after second hydraulic cylinder 23 reaches the reduction in pass for a period of time, and third electromagnetism changes Left position is accessed to valve 9, low-pressure hydraulic pump 8 is only to 23 fuel feeding of second hydraulic cylinder, the second solenoid directional control valve 11 access left position, the 4th ratio Example 19 pressure of overflow valve is turned down, and 23 cavity of resorption oil inlet of second hydraulic cylinder, epicoele hydraulic oil is directly flowed back to through the second solenoid directional control valve 11 Fuel tank, piston rod are lifted upwards, and moved cross beam is driven to be lifted upwards, makes to generate distance between the second upper mold 26 and stand under load workpiece 27 Behind the constraint gap of c, 19 pressure rise of the 4th proportional pressure control valve, piston rod holding position is motionless, at this time second hydraulic cylinder 23 The first upper mold 25 that the second upper mold 26 driven drives with first hydraulic cylinder 20 is in same level height.

(7) loading passage transformation：

Step (8) is directly carried out if loading passage has reached n times.

Step (3) to (6) is repeated if loading passage is not up to n times until loading passage is n times.

(8) pressurize finishing：

Step (9) is directly carried out if pressurize finishing is not needed to after loading passage is completed.

If loading passage needs pressurize finishing after completing, step (9) is carried out after carrying out pressurize finishing.

In the present embodiment, according to processing request, stand under load workpiece 27 needs pressurize.Electromagnet 1YA, 6YA, 8YA are powered, electricity Magnet 3YA, 7YA are powered off, and simultaneously to two hydraulic cylinder epicoele fuel feeding, two hydraulic cylinder piston cylinders synchronize to be declined high-pressure hydraulic pump 1, works as work When stopper rod encounters stand under load workpiece 27, hydraulic oil goes successively to two hydraulic cylinder epicoeles, after two hydraulic cylinder piston rod dropping distance d, Second proportional pressure control valve 15 gradually rises with 19 pressure of the 4th proportional pressure control valve, and dwell pressure highest can be to 8000kN, according to reality Border demand can be by adjusting 19 pressure change dwell pressure of the second proportional pressure control valve 15 and the 4th proportional pressure control valve, in the present embodiment In be 8000kN.When two hydraulic cylinder epicoeles reach dwell pressure, 16 pressure of the first proportional pressure control valve 12 and third proportional pressure control valve Raising, electromagnet 1YA, 6YA power-off, two hydraulic cylinders stop disengaging hydraulic oil, and 1 hydraulic oil of high-pressure hydraulic pump is controlled through pressure and inserted Valve 3 directly flows back to 24 off-load of fuel tank, and hydraulic oil stops entering system, two hydraulic cylinder pressurizes.

(9) it is quick to return：

In the present embodiment, when quick return, electromagnet 2YA, 5YA, 7YA are powered, electromagnet 3YA power-off, the 4th electricity Magnetic reversal valve 5 accesses upper, and pressure control inserted valve 3 is closed, and the hydraulic oil of high-pressure hydraulic pump 1 fully enters system, third electricity Position during magnetic reversal valve 9 accesses, high-pressure hydraulic pump 1 simultaneously to two hydraulic pressure oil supply cylinders, hydraulic oil through high-pressure hydraulic pump 1, inserted valve 2, Third solenoid directional control valve 9, the first solenoid directional control valve 10 and the second solenoid directional control valve 11 enter 20 and second hydraulic pressure of first hydraulic cylinder 23 cavity of resorption of cylinder；First proportional pressure control valve 12, the second proportional pressure control valve 15,16 and the 4th proportional pressure control valve 19 of third proportional pressure control valve Pressure is turned down, two hydraulic cylinder cavity of resorptions can quick oil feeding, epicoele can rapid oil return；First hydraulic cylinder 20 and 23 epicoele of second hydraulic cylinder Hydraulic oil flows back to fuel tank 24 by the first solenoid directional control valve 10 and the second solenoid directional control valve 11, and two hydraulic cylinder piston rods quickly return It returns.

Claims (2)

1. a kind of hydraulic system of local loading hydraulic press, including power output system, the first loading system and the second loading system System, it is characterised in that：The P mouths of power output system and third solenoid directional control valve (9) connect, the A mouths of third solenoid directional control valve (9) It is connected with the P mouths of the first solenoid directional control valve (10) of the first loading system；The B mouths of third solenoid directional control valve (9) and the second loading The P mouths connection of second solenoid directional control valve 11 (11) of system connection；

The power output system include high-pressure hydraulic pump (1), high-pressure hydraulic pump (1) oil outlet end respectively with inserted valve (2) The oil inlet connection of oil inlet, pressure control inserted valve (3), the oil revolving end of high-pressure hydraulic pump (1) are connected with fuel tank (24), are inserted It after valve (2) control chamber is connect with inserted valve (2) oil outlet, and is connected with the P mouths of third solenoid directional control valve (9), pressure control is inserted Fill valve (3) oil outlet connection fuel tank (24), while connect with pressure regulator valve (4) one end, and with the T mouths of the 4th solenoid directional control valve (5) Connection；Pressure control inserted valve (3) control chamber is connect with pressure regulator valve (4) other end, and accesses the P of the 4th solenoid directional control valve (5) Mouthful, the B mouths of the 4th solenoid directional control valve (5) are connected with the 5th proportional pressure control valve (6)；Middle position P mouthfuls of 4th solenoid directional control valve (5) with T mouthfuls of connections；The T mouths of third solenoid directional control valve (9) are connected with the oil outlet end of overflow valve (7), low-pressure hydraulic pump (8), overflow valve (7), the oil revolving end of low-pressure hydraulic pump (8) is connected with fuel tank (24)；Middle position P mouthfuls of third solenoid directional control valve (9) connect with A mouthfuls, B mouthfuls It is logical；

First loading system include the first solenoid directional control valve (10), middle position T mouthfuls of the first solenoid directional control valve (10) and A Mouthful, B mouthful connections, the T mouths of the first solenoid directional control valve (10) connect with fuel tank (24), the A mouths of the first solenoid directional control valve (10) and the One end connection of one proportional pressure control valve (12), the first check valve (13), the first proportional pressure control valve (12), the first check valve (13) The other end is connected with first hydraulic cylinder (20) cavity of resorption；Firstth B mouthfuls of solenoid directional control valve (10) and the second check valve (14), the second ratio Example overflow valve (15) one end connection, the second check valve (14), the second proportional pressure control valve (15) the other end and first hydraulic cylinder (20) epicoele connects, and first hydraulic cylinder (20) epicoele entrance is connected with first pressure sensor (21)；

Second loading system include the second solenoid directional control valve (11), middle position T mouthfuls of the second solenoid directional control valve (11) and A Mouthful, B mouthful connections, the T mouths of the second solenoid directional control valve (11) connect with fuel tank (24), the A mouths of the second solenoid directional control valve (11) and the One end connection of three proportional pressure control valves (16), third check valve (17), third proportional pressure control valve (16), third check valve (17) The other end is connected with second hydraulic cylinder (23) cavity of resorption, the B mouths of the second solenoid directional control valve (11) and the 4th proportional pressure control valve (19), the Four check valves (18) one end connection, the 4th proportional pressure control valve (19), the 4th check valve (18) the other end and second hydraulic cylinder (23) epicoele connects, and second hydraulic cylinder (23) epicoele entrance goes out to be connected with second pressure sensor (22).

2. a kind of hydraulic system of local loading hydraulic press according to claim 1, it is characterised in that：Described first adds Loading system and the first upper mold (25) are corresponding, and the second loading system and the second upper mold (26) are corresponding, the first upper mold (25), the second upper mold (26) combined type upper mold is formed, lower die (28) is an entirety.