SU848740A1 - Rotor-type hydraulic machine - Google Patents

Description

The invention relates to mechanical engineering and can be used in drives of various machines.

A rotary hydraulic machine with a $ adjustable volume is known, comprising an end distributor installed in the housing with the possibility of rotation about its axis when regulating with cavities of high and low pressure. communicated with the bores under the piston on surfaces adjacent to the distributor [13. 1.5 'A disadvantage of the known hydraulic machines is the high noise level when changing the flow.

The purpose of the invention is to reduce the noise level when the feed is changed by adjusting the pressure under the pistons.

This goal is achieved by the fact that the axis of the rotor windows is offset relative to the axis of the distributor to form adjustable throttle elements with holes.

In Fig.1 shows a hydraulic machine, a transverse section - in Fig.2 - 30 section aa in Fig.1; figure 3-6 relative position of the cylinder block and the distributor for various values of flow and reverse flow.

The rotary hydraulic machine contains a mechanical distributor 1 mounted in a housing (not shown) with the possibility of rotation about axis 2 during regulation. On its end surface 3, cavities 4 and 5 of high and low pressure are made with holes 6 and '7 on the jumpers 8. From -; versts 6 and 7 are communicated by channels 9. In the rotor 10 there are concentrically arranged windows 11 connected with bores 12 under the pistons 13. The windows 11 face the end surface 14 of the rotor 10 adjacent to the end surface 3 of the distributor 1.

The axis 15 of the rotor windows is offset relative to the axis 2 of the distributor 1 to form adjustable throttle elements with holes 6 and 7. On the end surface 3 of the distributor, throttling slots are made, communicated with cavities 4 and 5.

The hydraulic machine in pump mode operates as follows.

Pistons 13, making a reciprocating movement in the holes 12, suck and displace the working fluid through the windows 11 and cavities 4 and 5.

When the distributor 1 is rotated relative to its axis 2, the pump flow changes, since part of the discharge stroke of the hole 12 is in communication with the suction cavity.

With the position of the distributor 1 shown in FIG. 3, the jumpers 8 are symmetrical with respect to the upper and lower dead points of the pistons 13, and the pump flow has a maximum value. A smooth increase in pressure is provided in the holes 12 due to the throttling slots. Holes 6 and 7 do not communicate with windows 11.

When the position of the distributor 1, shown in figure 4, the supply is zero, since during the discharge, the piston 13 is in the same time communicated with the cavities 4 and 5 of the suction and discharge. Holes 6 and 7 are in communication with the windows 11 with a full cross section, while compressing and stretching the fluid volumes in the holes 12 with the pistons 13 as much as possible

In the intermediate position (FIG. 4), the openings 6 and 7 communicate, with the windows 11 having an incomplete cross-section, the compression and tension of the volumes are less than the maximum shown in the position in FIG. 2. The windows 11 form in this case with openings 6 and 7 adjustable throttle elements. The bore of these elements depends on the angle of rotation of the distributor 1.

5, the position of the distributor corresponds to a partial feed.

6, the distributor is rotated 180 °, which corresponds to the position of the feed reverse.

The execution of the axis of the rotor windows with a shift relative to the axis of the distributor allows you to adjust the speed ^{3 of} the pressure change in the sub-piston holes when the windows pass through jumpers at any angle of rotation of the distributor, which. leads to a reduction in noise when regulating the working volume of the hydraulic machine.

Claims (1)

The invention relates to mechanical engineering and can be used in drives of various machines. A known rotary hydraulic machine with an adjustable volume, containing an end valve disposed in the housing can be rotated about its axis when adjusting with high and low pressure cavities on its front surface, openings on bridges between cavities, common channels, and concentric spaced rotor windows, combined with the borings under the piston, are adjacent to the surface distributor. And The disadvantage of the known hydraulic machine is the high noise level when the flow is changed. The purpose of the invention is to reduce the noise level when changing the flow rate by adjusting the pressure under the pistons. This goal is achieved by the fact that the axis of the rotor windows is offset relative to the axis of the spreader to form throttle elements with openings. The figo shows the hydromachine cross-section; in FIG. 2, section A-A in FIG. Fig.3-6 the relative position of the cylinder block and the distributor at different values of the flow and reverse flow. The rotary hydraulic machine contains an end dispenser i mounted in a housing (not shown) with the possibility of rotation about the axis 2 when adjusting. On its end surface 3, high and low pressure cavities 4 and 5 are made with openings 6 and 7 on jumpers 8. From -; Versions 6 and 7 are communicated by channels 9. In the rotor 10 there are concentrically arranged windows 11 communicated with bores 12 under the pistons 13. Windows 11 exit to the front surface 14 of the rotor 10 adjacent to the end surface 3 of the distributor 1. The axis 15 of the rotor windows is displaced relative to axis 2 of distributor 1 to form adjustable throttle elements with holes 6 and 7. On the end surface 3 of the distributor, throttling slots are made communicated with cavities 4 and 5. The pump mode in the pump mode operates as follows. The pistons 13, making a reciprocating motion in the holes 12 / suck and force out the working fluid through the windows 11 and cavities 4 and 5. When the distributor 1 rotates about its axis 2, the pump flow changes as part of the discharge stroke of the hole 12 communicates with the suction cavity. . When the position of the distributor 1, shown in figure 3, the jumpers are symmetrical with respect to the upper and lower dead pistons 13, and the pump flow has a maximum value. A smooth increase in pressure is provided in the openings 12 by throttling slots. The apertures 7 do not communicate with the windows 11. When the distributor 1 is in the position shown in Fig. 4, the flow rate zero as during the injection piston 13 is the same time communicated with the suction and discharge cavities 4 and 5. The holes 6 and 7 communicate with the windows 11 with a full cross section, while the compression and expansion of the fluid volumes in the holes 12 through the tires 13 is maximal. At the intermediate post (fig. Holes 6 and 7 communicate with incomplete cross-section windows 11, the compression and stretching of the maximum volume represented in the position in figure 2. The window 11 is formed with adjustable holes with openings b and 7). The cross section of these elements depends on the angle of rotation of the distributor 1. In Fig. 5, the position of the distributor corresponds to a partial feed. In Fig. 6, the distributor is rotated, which corresponds to the position of the feed reversal. the limiter allows you to adjust the rate of change of pressure in the piston holes when the windows pass the bridges at any angle of rotation of the distributor, which leads to a decrease in the noise level when adjusting the hydraulic machine displacement. .1 in the housing can be rotated relative to it when adjusting the high and low pressure on the cavity of mg – j on its end surface, with openings on the The drives between the cavities, the communicated channels, and the concentrically arranged rotor windows, are in communication with the piston holes on the surfaces adjacent to the distributor, characterized in that, in order to reduce the noise level as the flow changes by adjusting the pressure under the pistons, the rotor is offset relative to the axis of the distributor to form adjustable orifices with openings. Sources of information taken into account in the examination 1. Nikitin OF, On the regulation of the supply of axial-piston pumps by turning the face distributor. Sat Hydroautomatic, M., Science, 1965, s.Z. 6-5 W