CN110131225A - A kind of hydraulic control circuit and method of bender lower die locking cylinder - Google Patents

Abstract

The invention discloses the hydraulic control circuits and method of a kind of bender lower die locking cylinder, this method comprises: reversal valve enters the second operating conditions, pressure oil enters the first hydraulic fluid port by pressure reducing valve, enter in rodless cavity from the outflow of the 4th hydraulic fluid port, first check valve is opened, and the hydraulic oil in rod chamber enters third hydraulic fluid port by the first check valve, is flowed out from the second hydraulic fluid port, the piston of bender lower die locking cylinder stretches out, into opening state.Reversal valve power-off, the cut-off of the first hydraulic fluid port, the cut-off of the first check valve, pressure oil stop flowing, bender lower die locking cylinder stopping movement.Reversal valve enters the first operating conditions, and pressure oil enters the first hydraulic fluid port by pressure reducing valve, flows out from third hydraulic fluid port, and rod chamber is entered after booster, and the piston of bender lower die locking cylinder, which retracts, is in locking state.The hydraulic control circuit and method of bender lower die locking cylinder of the invention, no setting is required, and hydraulic station is pressurized, and cost is relatively low, and installation maintenance is simpler, and response speed is faster.

Description

A kind of hydraulic control circuit and method of bender lower die locking cylinder

Technical field

The present invention relates to technical field of hydraulic more particularly to a kind of hydraulic control circuits of bender lower die locking cylinder And method.

Background technique

Hydraulic drive refers to a kind of kind of drive that energy transmission and control are carried out using liquid as working media, is widely applied In Mechanical course field.For example, bender lower die locking cylinder realizes the operations such as opening, stopping and locking under hydraulic control.

The hydraulic control circuit for the bender lower die locking cylinder that the prior art provides includes: hydraulic station, pressure regulation valve group, safety Valve, reversal valve and pressure switch.When bender lower die locking cylinder starts, hydraulic station pressure oil output, pressure regulation valve group is for setting Determine system demand pressure, pressure oil enters reversal valve by P mouthfuls and enters rodless cavity from B mouthfuls of outflows, and hydraulic oil passes through A in rod chamber Mouth enters reversal valve from T mouthfuls of outflow oil returns.When P, T, A, B oil of reversal valve disconnect, the movement of bender lower die locking cylinder stops. When locking, start hydraulic station, pressure oil output, pressure regulation valve group sets system demand pressure, and pressure oil enters by reversal valve The rod chamber of bender lower die locking cylinder, the hydraulic oil in rodless cavity flow back to fuel tank, pressure switch locking pressure by reversal valve Force sender, hydraulic station stop working, and complete locking.

The inventor finds that the existing technology has at least the following problems: pressure needed for providing hydraulic oil by setting hydraulic station Power keeps system cost higher, and volume is larger, increases site layout project difficulty.

Summary of the invention

To solve above-mentioned the technical problems existing in the prior art, the present invention provides a kind of bender lower die locking cylinders Hydraulic control circuit and method.Specific technical solution is as follows:

In a first aspect, providing a kind of hydraulic control circuit of bender lower die locking cylinder, comprising: reversal valve, booster, Pressure reducing valve and pressure switch；First hydraulic fluid port oil inlet of the reversal valve, the second hydraulic fluid port is fuel-displaced, the 4th hydraulic fluid port and bender lower die The rodless cavity of locking cylinder is connected to, and third hydraulic fluid port is connected to by the booster with the rod chamber of bender lower die locking cylinder, bending The rod chamber of machine lower die locking cylinder is connected to by the first check valve with the third hydraulic fluid port, when first check valve is opened, institute Stating the hydraulic oil in rod chamber can circulate to the third hydraulic fluid port, when the reversal valve is under the first operating conditions, first oil Mouth is connected to the third hydraulic fluid port, and second hydraulic fluid port is connected to the 4th hydraulic fluid port, and the reversal valve is under the second operating conditions When, first hydraulic fluid port is connected to the 4th hydraulic fluid port, and second hydraulic fluid port is connected to the third hydraulic fluid port；The pressure reducing valve connects It connects on the oil inlet pipe of first hydraulic fluid port, for adjusting the input pressure of the reversal valve, the booster is used for pressure Power oil is pressurized；The pressure switch is used to detect the locking pressure of the bender lower die locking cylinder, and according to described It locks pressure and controls the commutation valve events.

In a kind of possible design, the booster includes piston and piston control valve, the piston control valve control The reciprocating motion of the pistons is until pressure oil reaches preset pressure.

In a kind of possible design, the circuit further includes safety valve, one end of the safety valve and the rodless cavity Piping connection between the 4th hydraulic fluid port, the other end are connect with the oil outlet pipe of second hydraulic fluid port.

In a kind of possible design, the pressure switch includes the first contact and the second contact, first contact When closure, the reversal valve obtain it is electric enter the first operating conditions, when second contact closure, the reversal valve power-off；The lock When compaction forces reach default locking pressure spot, second contact closure, when the locking pressure is less than default locking pressure spot, First contact closure.

In a kind of possible design, first check valve is the hydraulic control one-way valve inside the booster, described to change When obtaining the second state of electric entrance to valve, first check valve is opened.

Second aspect provides a kind of hydraulic control method of bender lower die locking cylinder, which comprises

Reversal valve obtains the second operating conditions of electric entrance, and pressure oil enters the first hydraulic fluid port by pressure reducing valve, flows out from the 4th hydraulic fluid port Into in the rodless cavity of bender lower die locking cylinder, the first check valve is opened, the liquid in the rod chamber of bender lower die locking cylinder Pressure oil enters third hydraulic fluid port by the first check valve, flows out from the second hydraulic fluid port, and the piston of bender lower die locking cylinder stretches out, bending Machine lower die locking cylinder enters opening state；

Reversal valve power-off, the first hydraulic fluid port cut-off, the first check valve cut-off, pressure oil stop flowing, the folding Bender lower die locking cylinder stopping movement；

Reversal valve obtains the first operating conditions of electric entrance, and pressure oil enters first hydraulic fluid port by pressure reducing valve, from the third Hydraulic fluid port outflow, enters the rod chamber after the charger boost, and the piston retraction of the bender lower die locking cylinder is in Locking state, the pressure switch control the reversal valve and obtain electric or power loss, and the bender lower die locking cylinder is made to keep lock Tight state.

In a kind of possible design, the pressure switch controls the reversal valve and obtains electric or power loss, makes the bending Machine lower die locking cylinder maintains the lock status, comprising: the locking pressure of the bender lower die locking cylinder reaches default locking pressure When point, second contact closure, the reversal valve power-off, the locking pressure of the bender lower die locking cylinder, which is less than, presets lock When pressing force, first contact closure, the reversal valve obtains electric into the first operating conditions.

The major advantage of technical solution of the present invention is as follows:

The hydraulic control circuit and method of bender lower die locking cylinder of the invention, by booster and pressure reducing valve to hydraulic The pressure of oil is controlled, and no setting is required compared with prior art, and independent high-pressure and hydraulic station is pressurized, easy to operate effective, Cost is relatively low, and installation maintenance is simpler, and is not necessarily to frequent starting hydraulic station, and response speed is faster.

Detailed description of the invention

Attached drawing described herein is used to provide to further understand the embodiment of the present invention, constitutes of the invention one Point, the illustrative embodiments of the present invention and their descriptions are used to explain the present invention, does not constitute improper limitations of the present invention.Attached In figure:

Fig. 1 is the hydraulic control circuit structural schematic diagram of bender lower die locking cylinder provided by one embodiment of the present invention.

Specific embodiment

To make the object, technical solutions and advantages of the present invention clearer, below in conjunction with the specific embodiment of the invention and Technical solution of the present invention is clearly and completely described in corresponding attached drawing.Obviously, described embodiment is only of the invention A part of the embodiment, instead of all the embodiments.Based on the embodiment of the present invention, those of ordinary skill in the art are not doing Every other embodiment obtained under the premise of creative work out, shall fall within the protection scope of the present invention.

Below in conjunction with attached drawing, the technical solution of embodiment that the present invention will be described in detail offer.

In a first aspect, the embodiment of the invention provides a kind of hydraulic control circuits of bender lower die locking cylinder, such as attached drawing 1 Shown, the hydraulic control circuit of the bender lower die locking cylinder includes: reversal valve 1, booster 2, pressure reducing valve 3 and pressure switch 4.First hydraulic fluid port P oil inlet of reversal valve 1, the second hydraulic fluid port T is fuel-displaced, and the rodless cavity of the 4th hydraulic fluid port B and bender lower die locking cylinder connects Logical, third hydraulic fluid port A is connected to by booster 2 with the rod chamber of bender lower die locking cylinder, and bender lower die locking cylinder has bar Chamber is connected to by the first check valve POV with third hydraulic fluid port A, and when the first check valve POV opening, hydraulic oil in rod chamber can be to the Three hydraulic fluid port A circulation, when reversal valve 1 is under the first operating conditions, the first hydraulic fluid port P is connected to third hydraulic fluid port A, the second hydraulic fluid port T and the 4th Hydraulic fluid port B connection, when reversal valve 1 is under the second operating conditions, the first hydraulic fluid port P is connected to the 4th hydraulic fluid port B, the second hydraulic fluid port T and third oil Mouth A connection.Pressure reducing valve 3 is connected on the oil inlet pipe of the first hydraulic fluid port P, for the input pressure of adjustable change valve 1, booster 2 For being pressurized to pressure oil.Pressure switch 4 is used to detect the locking pressure of bender lower die locking cylinder, and according to locking Pressure controls reversal valve 1 and acts.

The working principle of the hydraulic control circuit of bender lower die locking cylinder provided in an embodiment of the present invention is carried out below Illustrate:

In use, can be made under bending machine by the working condition of real-time adjustable change valve 1 and the first check valve POV Mould locking cylinder enters opening, stopping or locking state.When need to open bender lower die locking cylinder, the Yb of reversal valve 1 obtains electric, changes Enter the second operating conditions to valve 1, the first hydraulic fluid port P is connected to the 4th hydraulic fluid port B, and the second hydraulic fluid port T is connected to third hydraulic fluid port A.Pressure oil Enter the first hydraulic fluid port P by pressure reducing valve 3, enter in the rodless cavity of bender lower die locking cylinder from the 4th hydraulic fluid port B outflow, first is single It is opened to valve POV, the hydraulic oil in the rod chamber of bender lower die locking cylinder enters third hydraulic fluid port A by the first check valve POV, It is flowed out from the second hydraulic fluid port T, the piston of bender lower die locking cylinder stretches out, and bender lower die locking cylinder enters opening state.It need to stop Only when the piston action of bender lower die locking cylinder, reversal valve 1 is powered off, and the first hydraulic fluid port P cut-off, hydraulic oil can not flow into rodless cavity Interior, the first check valve POV ends, and the hydraulic oil in rod chamber can not flow out, and hydraulic oil stops flowing, bender lower die locking cylinder Stopping movement.When need to lock bender lower die locking cylinder, the Ya of reversal valve 1 obtain it is electric, reversal valve 1 enter the first operating conditions, first Hydraulic fluid port P is connected to third hydraulic fluid port A, and the second hydraulic fluid port T is connected to the 4th hydraulic fluid port B, and pressure oil enters the first hydraulic fluid port P by pressure reducing valve 3, It is flowed out from third hydraulic fluid port A, the rod chamber of bender lower die locking cylinder, bender lower die locking cylinder is entered after the pressurization of booster 2 Piston retract be in locking state, pressure switch 4 control reversal valve 1 electric or power loss, make bender lower die locking cylinder protect Hold locking state.

As it can be seen that the hydraulic control circuit of bender lower die locking cylinder provided in an embodiment of the present invention, by booster 2 with subtract Pressure valve 3 controls the pressure of hydraulic oil, and no setting is required compared with prior art, and independent high-pressure and hydraulic station is pressurized, behaviour Make simple and effective, cost is relatively low, and installation maintenance is simpler, and is not necessarily to frequent starting hydraulic station, and response speed is faster.

Wherein, how booster 2 is pressurized hydraulic oil, is illustrated below: booster 2 includes piston PSV and piston control valve PCV, piston control valve PCV control piston PSV are moved back and forth until pressure oil reaches preset pressure.Increase When the piston PSV movement of depressor 2, hydraulic oil is pressurized, a round trip of piston PSV is pressurized default pressure to hydraulic oil Power.Piston control valve PCV controls the number that piston PSV is moved back and forth, and then hydraulic oil is made to be pressurized to preset pressure.

Specifically, when piston PSV moves to end every time, an arriving signal S, piston are sent to piston control valve PCV After control valve PCV receives arriving signal S, determine whether the pressure of hydraulic oil reaches preset pressure, if so, piston PSV stops Movement, if it is not, piston control valve PCV control piston PSV continues to move to end after resetting.

Further, in order to improve security performance, the hydraulic control of bender lower die locking cylinder provided in an embodiment of the present invention Circuit processed further includes safety valve 5, between one end of safety valve 5 and the rodless cavity of bender lower die locking cylinder and the 4th hydraulic fluid port B Piping connection, the other end are connect with the oil outlet pipe of the second hydraulic fluid port T.

Optionally, pressure switch 4 includes the first contact FD1 and the second contact FD2, when the first contact FD1 is closed, commutation Valve 1 electric must enter the first operating conditions, and when the second contact FD2 is closed, reversal valve 1 is powered off.Locking pressure reaches default locking pressure When point, the second contact FD2 closure, when locking pressure is less than default locking pressure spot, the first contact FD1 closure.So set, energy Remain at bender lower die locking cylinder at default locking pressure spot, locking property is preferable.

In the embodiment of the present invention, the first check valve POV is the hydraulic control one-way valve inside booster 2, and reversal valve 1 obtains electric entrance When the second state, the first check valve POV is opened.So set, the first check valve POV is beaten when reversal valve 1 enters the second operating conditions It opens, the hydraulic oil in rod chamber can smoothly flow back.

Specifically, when reversal valve 1 is in the second operating conditions, the control oil PL for picking up from the 4th hydraulic fluid port B opens first list To valve POV.

Optionally, as shown in Fig. 1, the hydraulic control circuit of bender lower die locking cylinder provided in an embodiment of the present invention is also Hydraulic oil is not being hindered just including second one-way valve CV1 and third check valve CV2, second one-way valve CV1 and third check valve CV2 Often flowing can be avoided hydraulic oil adverse current, improve safety in utilization and stability.Wherein, second one-way valve CV1 and third are unidirectional Valve CV2 is 2 internal one-way valve of booster.

Second aspect, the embodiment of the invention provides a kind of hydraulic control method of bender lower die locking cylinder, this method Include:

Reversal valve 1 electric must enter the second operating conditions, and pressure oil enters the first hydraulic fluid port P by pressure reducing valve 3, from the 4th hydraulic fluid port B Outflow enters in the rodless cavity of bender lower die locking cylinder, and the first check valve POV is opened, the rod chamber of bender lower die locking cylinder Interior hydraulic oil enters third hydraulic fluid port A by the first check valve POV, flows out from the second hydraulic fluid port T, the work of bender lower die locking cylinder Plug stretches out, and bender lower die locking cylinder enters opening state.

Reversal valve 1 powers off, the first hydraulic fluid port P cut-off, the first check valve POV cut-off, and hydraulic oil stops flowing, bender lower die Locking cylinder stopping movement.

Reversal valve 1 electric must enter the first operating conditions, and pressure oil enters the first hydraulic fluid port P by pressure reducing valve 3, from third hydraulic fluid port A Outflow enters the rod chamber of bender lower die locking cylinder, at the piston retraction of bender lower die locking cylinder after the pressurization of booster 2 In locking state, pressure switch 4 controls reversal valve 1 and obtains electric or power loss, and bender lower die locking cylinder is made to maintain the lock status.

In use, can be made under bending machine by the working condition of real-time adjustable change valve 1 and the first check valve POV Mould locking cylinder enters opening, stopping or locking state.When need to open bender lower die locking cylinder, the Yb of reversal valve 1 obtains electric, changes Enter the second operating conditions to valve 1, the first hydraulic fluid port P is connected to the 4th hydraulic fluid port B, and the second hydraulic fluid port T is connected to third hydraulic fluid port A.Pressure oil Enter the first hydraulic fluid port P by pressure reducing valve 3, enter in the rodless cavity of bender lower die locking cylinder from the 4th hydraulic fluid port B outflow, first is single It is opened to valve POV, the hydraulic oil in the rod chamber of bender lower die locking cylinder enters third hydraulic fluid port A by the first check valve POV, It is flowed out from the second hydraulic fluid port T, the piston of bender lower die locking cylinder stretches out, and bender lower die locking cylinder enters opening state.It need to stop Only when the piston action of bender lower die locking cylinder, reversal valve 1 is powered off, and the first hydraulic fluid port P cut-off, hydraulic oil can not flow into rodless cavity Interior, the first check valve POV ends, and the hydraulic oil in rod chamber can not flow out, and hydraulic oil stops flowing, bender lower die locking cylinder Stopping movement.When need to lock bender lower die locking cylinder, the Ya of reversal valve 1 obtain it is electric, reversal valve 1 enter the first operating conditions, first Hydraulic fluid port P is connected to third hydraulic fluid port A, and the second hydraulic fluid port T is connected to the 4th hydraulic fluid port B, and pressure oil enters the first hydraulic fluid port P by pressure reducing valve 3, It is flowed out from third hydraulic fluid port A, the rod chamber of bender lower die locking cylinder, bender lower die locking cylinder is entered after the pressurization of booster 2 Piston retract be in locking state, pressure switch 4 control reversal valve 1 electric or power loss, make bender lower die locking cylinder protect Hold locking state.

As it can be seen that the hydraulic control method of bender lower die locking cylinder provided in an embodiment of the present invention, by booster 2 with subtract Pressure valve 3 controls the pressure of hydraulic oil, and no setting is required compared with prior art, and hydraulic station is pressurized, easy to operate to have Effect, cost is relatively low, and installation maintenance is simpler, and is not necessarily to frequent starting hydraulic station, and response speed is faster.

Wherein, pressure switch 4 controls reversal valve 1 and obtains electric or power loss, and bender lower die locking cylinder is made to maintain the lock status, When including: that the locking pressure of bender lower die locking cylinder reaches default locking pressure spot, the second contact FD2 closure, reversal valve 1 is disconnected Electricity, when the locking pressure of bender lower die locking cylinder is less than default locking pressure spot, the first contact FD1 closure, reversal valve 1 obtains electric Into the first operating conditions.In this way, controlling the working condition of reversal valve 1 by pressure switch 4, bender lower die locking cylinder is made to begin It maintains the lock status eventually.

Below with reference to attached drawing 1 to the work of the hydraulic control circuit of bender lower die locking cylinder provided in an embodiment of the present invention It is illustrated as principle:

Bender lower die locking cylinder opening procedure: the Yb of reversal valve 1 obtains electric, the first hydraulic fluid port P of reversal valve 1 the logical 4th at this time Hydraulic fluid port B, third hydraulic fluid port A lead to the second hydraulic fluid port T, and pressure oil P1 enters from the first hydraulic fluid port P after pressure reducing valve 3, the 4th hydraulic fluid port B outflow, warp It crosses pipe B1 and enters the rodless cavity of bender lower die locking cylinder, while controlling oily PL and opening the first check valve POV, bender lower die lock The rod chamber hydraulic oil of tight cylinder passes through pipe A1, the first check valve POV, third hydraulic fluid port A, the second hydraulic fluid port T oil return, bender lower die lock Tight the cylinder piston, which is stretched out, unclamps.

Bender lower die locking cylinder stops: the power-off of reversal valve 1 returns to middle position, and reversal valve the first hydraulic fluid port P ends at this time, third Hydraulic fluid port A, the 4th hydraulic fluid port B, the second hydraulic fluid port T are logical, the first check valve POV locking, and oil-free liquid stream is dynamic, and bender lower die locking cylinder stops Movement.

The locking of bender lower die locking cylinder: for setting 1 inlet pressure P1 of reversal valve, the Ya of reversal valve 1 is obtained pressure reducing valve 3 Electricity, the first hydraulic fluid port P of reversal valve 1 leads to third hydraulic fluid port A at this time, and the 4th hydraulic fluid port B leads to the second hydraulic fluid port TT, and pressure oil P1 passes through booster 2 function of increasing pressure realize pressure rise, and the pressure oil P2 after boosting enters the rod chamber of bender lower die locking cylinder by pipe A1, roll over Bender lower die is locked the cylinder piston and is retracted in locking state, the second contact FD2 sender of pressure switch 4, and the Ya of reversal valve 1 is disconnected Electricity, reversal valve 1 return to middle position pressure maintaining；When the first contact FD1 sender of pressure switch 4, the Ya of reversal valve 1 again it is electric, It locks, so recycles again, the Ya that reversal valve 1 is controlled by pressure switch 4 obtains power off and realizes locking.

It should be noted that, in this document, the relational terms of such as " first " and " second " or the like are used merely to one A entity or operation with another entity or operate distinguish, without necessarily requiring or implying these entities or operation it Between there are any actual relationship or orders.Moreover, the terms "include", "comprise" or its any other variant are intended to Cover non-exclusive inclusion, so that the process, method, article or equipment for including a series of elements not only includes those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or setting Standby intrinsic element.In addition, placement shape of "front", "rear", "left", "right", "upper", the "lower" herein to be indicated in attached drawing State is reference.

Finally, it should be noted that the above examples are only used to illustrate the technical scheme of the present invention, rather than its limitations；Although Present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should understand that: it still may be used To modify the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features； And these are modified or replaceed, technical solution of various embodiments of the present invention that it does not separate the essence of the corresponding technical solution spirit and Range.

Claims (7)

1. a kind of hydraulic control circuit of bender lower die locking cylinder characterized by comprising reversal valve, booster, pressure reducing valve And pressure switch；

First hydraulic fluid port oil inlet of the reversal valve, the second hydraulic fluid port is fuel-displaced, the rodless cavity of the 4th hydraulic fluid port and bender lower die locking cylinder Connection, third hydraulic fluid port are connected to by the booster with the rod chamber of bender lower die locking cylinder, bender lower die locking cylinder Rod chamber is connected to by the first check valve with the third hydraulic fluid port, liquid when first check valve is opened, in the rod chamber Pressure oil can circulate to the third hydraulic fluid port, when the reversal valve is under the first operating conditions, first hydraulic fluid port and third oil Mouth connection, second hydraulic fluid port is connected to the 4th hydraulic fluid port, when the reversal valve is under the second operating conditions, first hydraulic fluid port It is connected to the 4th hydraulic fluid port, second hydraulic fluid port is connected to the third hydraulic fluid port；

The pressure reducing valve is connected on the oil inlet pipe of first hydraulic fluid port, for adjusting the input pressure of the reversal valve, institute Booster is stated for being pressurized to pressure oil；

The pressure switch is used to detect the locking pressure of the bender lower die locking cylinder, and according to the locking pressure control Make the commutation valve events.

2. the hydraulic control circuit of bender lower die locking cylinder according to claim 1, which is characterized in that the booster Including piston and piston control valve, the piston control valve controls the reciprocating motion of the pistons until pressure oil reaches default pressure Power.

3. the hydraulic control circuit of bender lower die locking cylinder according to claim 1, which is characterized in that the circuit is also Including safety valve, piping connection between one end of the safety valve and the rodless cavity and the 4th hydraulic fluid port, the other end with The oil outlet pipe of second hydraulic fluid port connects.

4. according to the hydraulic control circuit of bender lower die locking cylinder described in right 1, which is characterized in that the pressure switch Including the first contact and the second contact, when first contact closure, the reversal valve obtain it is electric enter the first operating conditions, described the When two contact closures, the reversal valve power-off；

When the locking pressure reaches default locking pressure spot, second contact closure, the locking pressure is less than default lock When pressing force, first contact closure.

5. the hydraulic control circuit of bender lower die locking cylinder according to claim 1, which is characterized in that described first is single To the hydraulic control one-way valve that valve is inside the booster, when the reversal valve obtains the second state of electric entrance, first check valve It opens.

6. a kind of hydraulic control method of bender lower die locking cylinder, which is characterized in that the described method includes:

Reversal valve obtain it is electric enter the second operating conditions, pressure oil by pressure reducing valve enter the first hydraulic fluid port, from the 4th hydraulic fluid port flow out enter In the rodless cavity of bender lower die locking cylinder, the first check valve is opened, the hydraulic oil in the rod chamber of bender lower die locking cylinder Enter third hydraulic fluid port by the first check valve, flowed out from the second hydraulic fluid port, the piston of bender lower die locking cylinder stretches out, under bending machine Mould locking cylinder enters opening state；

Reversal valve power-off, the first hydraulic fluid port cut-off, the first check valve cut-off, pressure oil stop flowing, the bending machine Lower die locking cylinder stopping movement；

Reversal valve obtains the first operating conditions of electric entrance, and pressure oil enters first hydraulic fluid port by pressure reducing valve, from the third hydraulic fluid port Outflow, enters the rod chamber after the charger boost, and the piston of the bender lower die locking cylinder is retracted in locking State, the pressure switch control the reversal valve and obtain electric or power loss, and the bender lower die locking cylinder is made to keep locking shape State.

7. the hydraulic control method of bender lower die locking cylinder according to claim 6, which is characterized in that the pressure after Reversal valve described in electrical equipment control obtains electric or power loss, and the bender lower die locking cylinder is made to maintain the lock status, comprising:

When the locking pressure of the bender lower die locking cylinder reaches default locking pressure spot, second contact closure is described Reversal valve power-off, when the locking pressure of the bender lower die locking cylinder is less than default locking pressure spot, first contact is closed It closes, the reversal valve obtains electric into the first operating conditions.