RU85570U1 - AXIAL PISTON HYDRAULIC MACHINE - Google Patents

Abstract

An axial piston hydraulic machine containing a main body with a pumping unit located in it, including a shaft and a cylinder block installed with the ability to change the angle of inclination relative to the shaft axis, a regulator body in which channels are made, a movable distributor located in the regulator body, when Moreover, in the movable distributor, pivotally connected to the piston pin, slots are made on the side of the regulator body, characterized in that the ratio of the maximum angle of inclination of the cylinder block to the shaft axis to the minimum angle of inclination of the cylinder block to the shaft axis is 1.2-2.1.

Description

The utility model relates to the field of mechanical engineering, in particular, to axial-piston hydraulic machines with an inclined cylinder block.

The type of machines with an inclined cylinder block and a movable distributor resting on the regulator cover is widely known. The main manufacturers of such machines are:

1. Rexroth, Germany: for example, a series - A6V; A7V.

2. PSM-hydraulic, Russia: for example, the series - 303.

The regulation coefficient of these machines is determined by the ability of the distributor to block the supply channels located in the regulator cover. In this case, the condition of the hydraulic support must be satisfied with a guaranteed excess load to ensure the tightness of the joint.

The main manufacturers of hydraulic machines of this type have a steady tendency to provide the maximum possible coefficient of regulation of the working volume, in which:

where α _max , α _min - the angle of inclination of the cylinder block.

Under this condition, the hydraulic machine is able to satisfy the consumer as much as possible in changing the flow of the working fluid if it is used as a pump or to obtain the maximum change in the output shaft speed when using the hydraulic machine as a motor. This approach defines a number of design flaws, in particular:

- attenuated movable distributor;

- high hydraulic resistance;

- large specific weight characteristics with high material consumption (inexpediency of creating hydraulic machines of this type of large sizes).

These shortcomings can be explained as follows.

A weakened movable distributor is a consequence of the design conditions for maintaining a high control coefficient, as a result of which the longitudinal slot of the distributor is made as possible. This is due to the fact that when moving to extreme positions, the distributor must completely block the channel in the regulator body.

Under the condition of hydrostatic support, both holes are formed into elongated slots of the maximum possible size. In this case, the long walls of the slot, intersecting the entire body of the distributor, determine the weak section along which the destruction of the distributor occurs.

This drawback is a serious obstacle when increasing the pressure range in hydraulic systems.

High hydraulic resistance is due to the design conditions for the maximum coefficient of volume change.

The size of the long side of the channel in the regulator housing is limited by the design conditions of the distributor, and its width should not exceed the slot width of the movable distributor.

Based on these conditions, the cross section of the hole in the regulator body becomes limiting in terms of the flow of the working fluid.

Taking into account the observance of the hydrostatic support condition for a pair of movable distributor - regulator body, it becomes obvious that the hole cross section cannot be increased without taking into account the tightness of the joint.

High specific weight characteristics and material consumption of this type of hydraulic machines are also directly related to their design.

The natural desire of manufacturers to increase specific indicators of energy supply determines the largest angles of inclination of the cylinder block to the axis of rotation of the shaft. In this case, the segment of the regulator housing, concluded between the minimum and maximum angles of inclination of the cylinder block, determines the path of movement of the distributor.

The weight and dimensions of the actuator of the regulator located on the outside of the structure directly depend on the angle of the cylinder.

Closest to the claimed utility model is an axial piston hydraulic machine with an adjustable displacement, comprising a housing, a shaft with a flange mounted on bearings, a rotating rotary cylinder block with pistons that are pivotally connected to the flange and contact with the distributor installed in the housing cover with the possibility displacement along the surface of rotation. In the distributor, on the side of the housing cover, slots are made, connected to the suction and discharge channels, made on the housing cover. The distributor is pivotally connected to the finger of the piston of the hydraulic cylinder of the control mechanism. The slot of the distributor connected to the discharge channel tapers to the side of decreasing the angle of inclination of the cylinder block, and its minimum width is less than the width of the discharge channel (see USSR author's certificate No. 1536029). The execution of the slots of the distributor narrowed in the direction of decreasing the angle of inclination of the cylinder block made it possible to somewhat reduce the resistance for large flows at maximum angles of inclination.

The design of this axial piston hydraulic machine is selected as a prototype.

The prototype and the claimed utility model have common features:

- main building;

- pumping unit;

- the pumping unit is located in the main body;

- the pumping unit includes a shaft and a cylinder block;

- the cylinder block is mounted with the possibility of changing the angle of inclination relative to the axis of the shaft;

- regulator case (in the prototype it is the case cover);

- channels made in the body of the regulator;

- mobile dispenser;

- a movable distributor is placed in the body of the regulator;

- the slots are made in a movable distributor;

- the slots are made on the side of the regulator body;

- the distributor is pivotally connected to the piston pin.

However, based on the conditions of the hydrostatic support, the slot area and its length are values that depend on the size of the hydraulic machine, and, therefore, the slot of the movable distributor, made with a variable cross-section, introduces an asymmetric hydrostatic extraction of the movable distributor and, as a result, an increase in leakage with the possibility of depressurization as well as disproportionate wear.

In this design, as before, the movable distributor is weakened by the large length of the longitudinal slots, and the development of hydraulic machines in the direction of increasing sizes is structurally impractical.

The design flaw, which is a consequence of the condition for increasing the radius with increasing sizes, becomes so significant that it makes large-sized hydraulic machines unclaimed, and their production is inappropriate.

The utility model is based on the task of creating an improved design of an axial piston hydraulic machine, in which by changing the ratio where α _max is the maximum angle of inclination of the cylinder block to the axis of the shaft, α _min is the minimum angle of inclination of the cylinder block to the axis of the shaft, to ensure the expansion of the range of hydraulic machines and their functional capabilities, as well as lower costs and increase competitiveness.

The problem is solved in an axial-piston hydraulic machine containing a main body with a pumping unit located in it, including a shaft and a cylinder block mounted with the possibility of changing the angle of inclination relative to the axis of the shaft, a regulator body in which the channels are made, a movable distributor located in the regulator case, while in the movable distributor, pivotally connected to the piston finger, slots are made on the side of the regulator case, so that the ratio of the maximum angle of inclination of the cylinder block to the axis of the axis la to the minimum angle of inclination of the cylinder block to the axis of the shaft is 1.2-2.1.

New in the claimed utility model is the ratio where α _max is the maximum angle of inclination of the cylinder block to the axis of the shaft, α _min is the minimum angle of inclination of the cylinder block to the axis of the shaft, as well as the ratio L / where L is the length of the slots in the movable distributor, - the length of the channels in the regulator housing.

The inventive axial piston hydraulic machine is shown in the drawing, where:

figure 1 is a General view of the machine in section;

figure 2 is a view of the body of the regulator with channels;

figure 3 is a view of a movable dispenser;

4 is a view of a movable distributor with slots.

The axial piston hydraulic machine comprises a main body 1, inside which a pumping unit 2 is located, including a shaft 3 and a cylinder block 4 with a piston group (the piston group is not shown in the drawing). The shaft 3 and the cylinder block 4 are elements of the pumping unit 2, the location of which depends on the volume of the hydraulic machine. The angle of inclination α _min determines the minimum, and α _{max the maximum} volume of the hydraulic machine. A movable distributor 6 is located between the cylinder block 4 of the pumping unit 2 and the regulator body 5. The movable distributor 6 is moved by a pin 7 located in the piston 8. The movable distributor 6 has slots 9 and 10, which are located on the side of the regulator body 5 and have an exit to the opposite side for interaction with the channels 11 of the cylinder block 4. The slots 9 and 10 cover the channels 12, 13, made in the body of the regulator 5.

The cylinder block 4 is installed with the possibility of changing the angle of inclination relative to the axis of the shaft 3. The ratio of the maximum angle of inclination of the cylinder block 4 to the axis of the shaft 3 (α _max ) to the minimum angle of inclination of the cylinder block 4 to the axis of the shaft 3 (α _min ) is = 1.2-2.1.

The ratio of the length of the slots 9 and 10 in the movable distributor 6 (L) to the length of the channels 12, 13 in the housing of the controller 5 is L / = 0.47-2.1.

Moreover, the width of the slots 9, 10 in the movable distributor 6 (B) and channels 12, 13 in the housing of the regulator 5 (c) meets the requirements of the hydrostatic support.

Subject to the above conditions, it becomes possible to change the section of the channel 12 in the direction of increasing. The increase in the section, respectively, leads to a decrease in hydraulic resistance, which occurs due to a change in the minimum tilt angle (α _min ) of the cylinder block 4 and at the same time it becomes possible to increase the length channel 12. At the same time, the length L of the slots 10 and 9 in the movable distributor 6 decreases. Adhering to the conditions of hydrostatic support in the pair, the movable distributor 6 - the regulator body 5, it becomes possible to increase the width (B) of the slots 10 and 9, respectively, of the width (c) in the channels 12 and 13.

The increase in the cross section of the channels 12 and 13 (their length and width) leads to a decrease in hydraulic resistance. Changing the length of the slots 9 and 10 changes the load on their lateral (long) sides and makes it possible to use hydraulic machines over a larger pressure range. As a result of changing the values of the tilt angles of the cylinder block 4 in the direction of decreasing their difference, the displacement of the movable distributor 6 decreased from the minimum to the maximum extreme position. At the same time, the design of the hydraulic machine, its dimensions, and also the specific gravity are reduced. Changing the dimensions and weight of the structure expands the range of competitive use of this type of hydraulic machines in the direction of its increase. Hydromachines of this type, improving their technical and specific characteristics, get the opportunity to further develop standard sizes in the direction of their increase.

Axial piston hydraulic machine operation:

The inventive axial piston hydraulic machine can be reversible and operate both in pumping and in motor mode. In case of directed use:

- for the pump version, one of the slots 9 or 10 can be performed without taking into account the conditions of the hydrostatic support, being in the suction line;

- for motor performance, both slots 9 and 10 are made taking into account the need to ensure the conditions of hydrostatic support, since the hydraulic motors are reversible.

The working fluid is supplied, for example, to a channel 12 located in the housing of the regulator 5 from the side of the slot 9. Passing it, the working fluid enters the channel 11 of the cylinder block 4, where the energy of the stream is converted into the rotational motion of the pumping unit 2 according to the well-known principle. As a result, the energy of the torque is realized on the shaft 3 of the pumping unit. The working fluid from the cylinder block 4 is discharged into the slot 10 located on the opposite side. Next, the working fluid passes through a symmetrically located channel 13 in the housing of the regulator 5 and is discharged into the drain line. Since the hydraulic motor is reversible, the flow direction can be changed, as a result of which the moment realized on the shaft 3 acquires rotation in the opposite direction.

In case of failure to comply with the conditions = 1.2-2.1; L / = 0.47-2.1, the design of the considered type of hydraulic machines with a movable distributor 6 returns to the disadvantages described above.

With the ratio

the design of the hydraulic machine is in the zone of ineffective advantage, and this ratio zone is inappropriate for the application of this solution.

Claims (1)

An axial piston hydraulic machine comprising a main body with a pumping unit located in it, including a shaft and a cylinder block mounted with the possibility of changing the angle of inclination relative to the axis of the shaft, a regulator body in which channels are made, a movable distributor located in the regulator case, this, in the movable distributor, pivotally connected to the piston pin, slots are made from the side of the regulator body, characterized in that the ratio of the maximum angle of inclination of the cylinder block to the shaft axis to the minimum mu tilt adjustment cylinder to the shaft axis is 1.2-2.1.