SU1488603A1 - Hydraulic drive - Google Patents

Description

Invention m. used in the hydraulic systems of mobile machines. The purpose of the invention is to increase the reliability of the hydraulic drive. The axial channel 3 is made in the spool 4, times · placed in the housing 5 unloading

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valve 2 with the formation of spring and springless end cavities (II) 6 and 7. Workers P 10 and 11 of the power cylinder 9 are connected by hydraulic lines 12 and 13 through the distributor 1 to the pressure source and drain 14 and through the valve 2 to each other. The spool 4 is equipped with the logic element OR 15, the inputs 16 and 19 of which are connected with P 10 o and 11, the output through channel 3 - with P 7 connected via the outlet of valve 2 with drain 14. The spool 23 is installed

coaxially with the spool 4 in its bore 24 from the side of its springless end 25 and fixed to the housing 5. The free end of the spool 23 communicates with the channel 3. Between the spool 23, the end 25 and the housing 5 there is formed the front П 26, which is connected to the drain 14 The radial channel 21 of the spool 4 is formed by an annular groove 22 connected with 11 and 19 of the element 15. 1 sludge.

The invention relates to mechanical hydraulic drive and can be used in hydraulic systems of mobile machines.

The purpose of the invention is to raise it. Reliability of work.

The drawing shows a diagram of the hydraulic drive.

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The hydraulic actuator contains a distributor 1, a discharge valve 2 with an axial channel 3, made in the spool 4 placed in the body 5 of the valve 2 with the formation of springless and spring end cavities 6. and 7, spring 8, power cylinder 9, working cavities 10 and 11 which are connected by hydrolines 12 and 13 through the distributor 1 with a pressure source (not shown) and a drain 14. The spool 4 of the valve 2 is equipped with an OR 15 logic element, the inlet 16 of which by channel 17 communicates through an annular groove 18 made in the housing 5 of the valve 2 with a cavity 10 power 'cylinder 9, and others Corner inlet 19 is connected by a channel 20 through the radial channel 21, made in the form of an annular cavity in the spool 4, with a cavity 11

'of the power cylinder 9 through the annular groove 22 in the housing 5' of the valve 2. An additional spool 23 is installed in the additional bore 24 of the spool 4 coaxially and fixed to the body 5 of the valve 2. The free end of the additional spool 23 communicates with the axial channel 3 of the spool 4, and between an additional spool 23, springless end 25 of spool 4 and valve 5 body 5 defines an additional end cavity 26, which communicates directly with drain 14 through outlet 27 of valve 2, and through spool 4 with annular groove 22.

The hydraulic drive works as follows.

When the distributor 1 is turned on in one of the working positions, the pressure source is connected to one of the working cavities 10 or 11 of the power

25 cylinder 9, and the other cavity of this cylinder is connected at this moment to the drain 14, which ensures the necessary movement of the power cylinder 9.

30 when a higher pressure occurs in the cavity 10 of the power cylinder 9 than the setting of the unloading valve 2 (the pressure in the springless cavity 6 will have more force

35 setting the spring 8), the spool 4, moving up, provides for the connection of the cavities 10 and 11 of the power cylinder 9 among themselves and the discharge of excess fluid into the drain 14,

40 In the event that the pressure in the cavity 11 of the power cylinder 9 is greater than the setting of the discharge valve 2, the spool 4 also moves upwards, providing a connection between the lanes of the power cylinder 11 and its cavity 10 and with the drain 14.

Installing an additional spool reduces the effort to control the discharge valve of the valve and reduce the size of the valve spring, which leads to a reduction in the size of the device, lower inertia and increase the reliability of the valve and the system as a whole.

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Claim

The hydraulic actuator containing the valve, the discharge valve with axial

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and radial channels made in the spool placed in the valve body with the formation of spring and springless end cavities, si ~ | The left cylinder, the working cavities of which are connected by hydrolines through the distributor with a pressure source and a drain, and through the unloading valve, interconnects, and the spool of the unloading valve is equipped with an OR orbit, whose inputs are connected to one of the cavities of the power cylinder, and the outlet through the axial channel - with springless end cavity of the spool connected through the outlet of the unloading valve with a drain, characterized in that, in order to increase reliability, the unloading valve is equipped with an additional spool, ory mounted coaxially of the valve spool in its bore more springless from its end face and fixed to the valve body, the free end of the additional valve in communication with the axial channel of the valve spool, and between the additional

10 spool, springless end of the valve valve and its body formed an additional end cavity, which communicates directly with the drain through the valve outlet,

15 and the radial channel of the valve is formed by an annular groove associated with one of the cavities of the power cylinder and one of the inputs of the logical element OR,

Claims (1)

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