SU1756661A1 - Hydraulic control unit - Google Patents

Abstract

The invention relates to hydraulic engineering, in particular to agricultural hydraulic units, and can be used in devices for controlling the working bodies of the revolving plow. The hydraulic unit includes a housing 1 with a pressure 2 and a drain 3 channels and with the first working channel 4 and with the second working channel 5. The housing 1 also contains check valves 6 and 7. In the central bore 8 of the housing 1 there is a spring-loaded four-spool distribution valve 9 with control chambers 10 and 11. The hydraulic control unit is equipped with a two-position two-line control valve with a spring-loaded spool 12, forming a command end control cavity 13 and a spring end control cavity 14. Distributes The spool 9 is provided with a throttle bore 15, which connects the control end chamber 11 with the working channel 5 through the channel 16 of the housing 1, while the end control chamber 10 communicates with the drain channel 3 through the adjustable throttle 17, as well as with the command cavity the distributor communicated with the drain channel 3, the control cavity 14 communicates with the working channel 4, and the control distributor channel 19 communicates with the end control chamber 11 and via an additional non-return valve 20 with the pressure channel. The check valves 6 and 7 are located in the distribution spool 9 and have valve valve 21 and 22 and valve valve 23 and 24 cavities. 1 il.

Description

The invention relates to hydraulic engineering, namely to agricultural hydraulic units and can be used in devices for controlling the working bodies of the reverse beam.

The purpose of the invention is to increase reliability.

The drawing shows a hydraulic control unit, General view.

The hydraulic control unit contains a housing 10 1 with a pressure channel 2, a drain channel 3 with a first working channel 4, with a second working channel 5 and with two check valves 6 and 7, in the sprout 8 of which a spring-loaded four-pin distributor valve 9 is placed with the formation of the first 10 and second 11 end control chambers, while the working channel 4 is communicated through a check valve 6 with a control chamber 11, and the working channel 5 through a check valve 7 - with a control chamber 10. The hydraulic control unit is equipped with a two-position two-line control distribution a divider with a spring-loaded spool 12 forming the command 13 and spring 14 end control cavities, the distribution spool 9 is equipped with a throttle hole 15 communicating the second control end chamber 11 with the second working channel 5, through the channel 16 of the housing 1, while the first end control chamber 10 communicated with the drain channel 3 through an adjustable throttle 17, with a command cavity 13 and with a channel 18 of the control distributor in communication with the drain channel 3, the spring control cavity 14 is in communication with the first working channel 4, channel Al 19 of the control distributor is in communication with the second end chamber 11 of the control and through an additional check valve 20 with the pressure channel 2, and check valves 6 and 7 are placed in the distribution valve 9 with the formation of sub-valve cavities' 21 and 22, in communication with the corresponding working channels, and super-valves cavities 23 and 24, communicated with the corresponding end control cameras.

The control unit operates as follows.

The working fluid under pressure is supplied to the pressure channel 2 and the subvalvular cavity 21 of the valve 6. and through the bore 8 to the working channel 4, in communication with the cavity of the hydraulic cylinder and the spring end cavity 14 of the control. The piston of the hydraulic cylinder begins to move to the right, displacing the working fluid from the other cavity of the hydraulic cylinder through the working channel 5, the bore 8 into the drain channel 3. After the piston reaches its extreme position, the pressure in the over-valve cavity 21 increases and the check valve 6 opens. The working fluid enters through the over-valve the cavity 23 into the end chamber 11 of the control and the spool 9 switches to the opposite position, displacing the working fluid from the end chamber 10 of the control through an adjustable throttle 17 into the drain channel 3. After switching the spool, the pressure channel 2 communicates through the bore 8, channel 16 with the working channel 5, and the working channel 4, communicated with the corresponding cavity of the hydraulic cylinder and the spring end cavity 14 of the control, communicates through the bore 8 with the drain channel 3. The piston begins to move to the left. The distribution valve 9 is kept in the switched position by supplying the working fluid through the throttle hole 15 to the control chamber 11. After the piston reaches its extreme position, the pressure in the subvalvular cavity 22 increases and the check valve 7 opens. The working fluid enters through the valvular cavity 24 into the control chamber 10. Under the action of pressure in the command control cavity 13, in communication with the control chamber 10, the spool 12 will switch to the lower position, switching channels 18 and 19, and the control chamber 11 is in communication with the drain channel 3. The distribution spool returns to its original position, the command cavity 13 of the control distributor communicates with the drain channel 2, and the spring cavity 14 with the pressure, as a result of which the spool 12 of the control valve returns to its original position.

An additional non-return valve 20, adjusted to a response pressure greater than the response pressure of the non-return valves 7, allows the unit to restart operation if the pressure channel 2 is blocked through the working channel 4 by the spool 9.

In the absence of an additional non-return valve, restarting is ensured by negative overlap of the spool.

Claims (1)

Claim Hydraulic control unit, comprising / a housing with pressure, drain, with first and second working channels and with two check valves, in the bore of which there is a spring-loaded four-gang distribution valve with the formation of the first and second end control chambers, each control chamber communicating with a corresponding working channel through a non-return valve, it is important that, in order to increase reliability, it is equipped with a two-position two-line control valve with a spring-loaded spool, forming the command and spring end control cavities, the distribution valve is equipped with a throttle hole communicating the second control end chamber with the second working channel through the housing channel, while the first control end chamber is in communication with the drain channel through an adjustable choke 1756661 sel, with the command cavity And with one of the channels the control valve in communication with the drain channel, the spring control cavity is in communication with the first working channel, the other channel of the control valve is in communication with the second tsovoy control chamber and via an additional check valve - with a flow channel, and check valves are arranged in the distributor slide valve 10 to form a subvalvular cavities communicated with the respective working channels and supravalvular cavities communicated with the respective end caps chambers up15 systematic way.