RU58615U1 - HYDRAULIC DISTRIBUTOR - Google Patents

Abstract

The utility model is aimed at expanding the technical capabilities of the valve. The specified technical result is achieved by the fact that in the directional valve containing the housing, with cavities with three spools, channels, a supply from the pump, bends to the hydraulic cylinders, spring mechanisms for returning the spools to the neutral position, a bypass valve and a safety valve, a special spool with a spring a mechanism for returning the spool to the neutral position, an additional hole in the housing for supplying the working fluid from the second pump, a safety valve is installed instead of the overflow valve.

Description

The utility model relates to the field of mechanical engineering, in particular, it is used in hydraulic drives of construction vehicles.

The closest technical solution adopted for the prototype is a hydrodistributor (see Berkman I.L., Raneev A.V., Reish A.K. Single-bucket construction excavators. - M.: Higher school, 1986, p. 126, Fig. 125) containing a housing in which cavities with three spools are made, channels, a supply from the pump, bends to hydraulic cylinders, spring mechanisms for returning the spools to the neutral position, bypass and safety valves.

The disadvantage of the valve is the limited technical capabilities, that is, the inability to control the four working bodies of the construction machine, as well as the operation of the valve from one pump.

The task is to expand the technical capabilities of the valve.

The essence of the utility model lies in the fact that in the valve, which contains a housing with three spools, channels, a pump inlet, bends to the hydraulic cylinders, spring mechanisms to return the spools to the neutral position, an overflow and safety valve is proposed to introduce an additional hole in housing for supplying working fluid from the second pump, a special spool with a spring mechanism to return the spool to a neutral position, instead of a bypass safety valve n

Figure 1 shows the valve; figure 2 section aa figure 1; figure 3 diagram of the valve with the neutral position of the spools.

The valve consists of the following main components and parts: housing 1, bucket spool 2, handle spool 3, swing spool 4, special boom spool 5, four spring mechanisms 6, two built-in safety valves 7, 8 (Fig. 1). Overflow pockets 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22 are made in the case (Fig. 3). Each of the safety valves consists of: valve seat 23; valve 24; spring 25; cork 26; nuts 27, 28; rings 29, 30; adjusting screw 31 (figure 2).

The hydrodistributor gives the chance to combine work of an arrow with any

by another body: a bucket, handle or turn, as well as combine the work of rotation with a bucket or handle.

The working fluid to the valve is supplied from two sides. The first stream is supplied to the channel H1 from the pump mounted on the gearbox, the second stream H2 from the pump mounted on the tractor.

The distribution of the working fluid in the valve occurs as follows.

When the spools are in the neutral position, the control valve has two independent drains (Fig. 3). The first discharge C1 is discharged from the control valve to the drain tank of the excavator hydraulic system, the second discharge C2 is discharged to the tractor distribution unit, and from there to the oil tank. The working fluid from the gear pump passes through the discharge channel H1, a pair of overflow pockets 9 and 10 on the spool of the bucket, through a similar pair of pockets on the spool of the handle 3, pockets 17, 21, 22 on the spool of the boom, enters the drain C1 and into the tank. The working fluid from the tractor pump passes through channel H2, a pair of overflow pockets on the turn valve, pockets 15, 16 on the boom valve, and through discharge C2 it enters the discharge of the tractor distribution unit.

When turning up or down only one spool of boom 5, the working fluid of two pumps H1 and H2 is directed into the hydraulic cylinder of the boom and its accelerated rise or lowering occurs.

The principle of operation of the spools of the bucket, the handle and the rotation is the same, therefore, the distribution of the working fluid is considered only when moving the spool of the bucket.

When the bucket spool is lowered down, overflow pockets 9 and 10 are disconnected from each other, pocket 11 is connected to pocket 12, pocket 13 is connected to pocket 14. The working fluid passes through channel H1, pocket 12, pocket 11 and from there to the bucket cylinder cavity. From another cavity of this cylinder, the working fluid enters the pocket 13, then into the pocket 14 and from there into the discharge channel C1.

When lifting the bucket spool up, overflow pockets 9 and 10 are also disconnected from each other, pocket 11 is connected to channel C1, pocket 12 is connected to pocket 13.

The working fluid through the pockets 12, 13 enters the cavity of the bucket cylinder, and from the other cavity of this cylinder through the pocket 11 enters the drain C1.

The distribution of the working fluid is different from the jib spool.

the distribution of the working fluid by three other spools, so its work is considered separately.

When the spool of the boom is lowered down and the bucket, handle and swing spools are in neutral, pocket 16 is disconnected from pocket 15 and connected to pockets 17 and 18, pocket 19 is connected to pocket 20, a pair of overflow pockets 21 and 22 are disconnected from each other. In this case, the working fluid from the gear pump through the discharge channel H1, overflow pockets of the spools of the bucket and the handle, pockets 17 and 18 enters the cavity of the boom cylinder. The same fluid (pocket 18) receives the working fluid from the tractor pump. It passes through the discharge channel H2, overflow pockets of the turn valve, pockets 16, 17 and 18. At this time, the working fluid from the other cavity of the boom cylinder enters the pocket 20, then into the pocket 19 and from there into the discharge channels C1 and C2.

When lifting the spool of the boom up and the neutral position of the other spools, the pocket 16 is disconnected from the pocket 15 and connected to the pocket 17, pocket 21 is connected to the pocket 20 and disconnected from the pocket 22. Moreover, the working fluid from the gear pump through the channel H1, overflow pairs of pockets of bucket spools and the handle, pockets 17, 21 and 20 enters the cavity of the boom cylinder. The same fluid (pocket 18) receives the working fluid from the tractor pump. It passes through the discharge channel H2, overflow pockets of the spool of rotation, pockets 16, 17, 21 and 22 of the spool of the arrow. At this moment, the working fluid on the opposite cavity of the boom cylinder through the pockets 18 and 19 goes into the drain channel C1.

If the bucket or stick spool is turned on, then the working fluid does not flow from the H1 pump to the boom spool. If the turn is turned on, then the working fluid does not flow from the injection of H2 to the spool of the boom.

Spools 2, 3, 4, 5 are fixed in neutral position by spring mechanisms 8.

From the injection pumps H1 and H2, the working fluid is discharged to valves 7 and 8, each of which includes: valve seat 23; valve 24; spring 25; cork 26; nuts 27, 28; rings 29, 30; adjusting screw 31.

Valve 8 is designed to prevent excessive system pressure on line H1, i.e. in the hydraulic cylinders of the bucket, arm and boom. Valve 7 - to protect the system on the H2 line, i.e. in hydraulic cylinders of turn and arrow.

Thus, the proposed design allows to expand the technical capabilities of the valve by introducing a special spool,

an additional hole in the housing for supplying the working fluid from the second pump, replacing the bypass valve with a safety valve.

Claims (1)

A control valve for hydraulic drives of construction vehicles, comprising a housing in which cavities with three spools are made, channels, a supply from the pump, outlets to hydraulic cylinders, spring mechanisms for returning the spools to the neutral position, two valves, one of which is safety, characterized in that the working supply the fluid is carried out through two openings in the housing, the control valve has an additional spool with a spring mechanism to return the spool to the neutral position, and as another valve The user is also a safety valve.