JPH02215976A - Double-piston pump - Google Patents

Abstract

PURPOSE:To miniaturize a pump body and reduce the number of parts as well as to simplify its working by housing a regulator piston and a regulator valve both inside the pump body, and having the regulator piston installed at a right angle with a pump turning shaft. CONSTITUTION:When pump discharge pressure fluctuates, a spool 13 of a regulator valve 11 is displaced in the axial direction in a case 12 by a pressure variation in an oil chamber 14, and hydraulic fluid in a supply passage 15 is fed to an oil chamber 19 or 10 whereby a regulator piston 8 is displaced in the axial direction as supporting a swash plate 5. The regulator piston 8 to do control as mentioned above and the regulator valve 11 both are housed in the inner part of a pump body 1, so that mechanical and hydraulic connection between these members and a pump unit becomes facilitated, thus a leak of oil can be prevented. In addition, since the regulator piston 8 and the regulator valve 1 are installed at a right angle with a turning shaft 2, the pump body can be shortened.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an improvement of a swash plate type dual piston pump.

(Prior Art) In a swash plate type dual piston pump in which two sets of pump units are driven by a common rotating wheel, for example, in order to individually control the tilting angle, for each pump unit,
It includes a regulator piston coupled to the swash plate and a regulator valve that controls the supply of hydraulic oil to the regulator piston.

(Problem to be solved by the invention) In this case, the regulator piston and regulator valve are often housed in a case and attached to the outside of the pump body, but due to mechanical coupling between the case and valve body and connection of oil passages, However, there were problems in that it took time and effort to process the parts and the number of parts increased. Another problem was that oil easily leaked from the connecting portions of the passages.

In view of these rIR problems, it is an object of the present invention to provide a dual pump that can be configured with a small number of parts without requiring difficult machining and is highly oil-tight.

(Means for Achieving the Object) The present invention provides two sets of pump units each consisting of a cylinder block and a swash plate housed inside an integrated pump body, and each cylinder block is driven by the same rotating wheel. In the pump body, two sets of regulator pistons that adjust the tilt angle of the swash plate corresponding to each pump unit, and a regulator valve that controls the supply of hydraulic oil to the regulator pistons are housed inside the pump body. In addition, each regulator piston is disposed at right angles to the rotating ring.

(Function) Since both the regulator piston and the regulator valve are housed inside the pump body, mechanical and hydraulic connections between these members and the pump unit are facilitated.

Further, by arranging the regulator piston at right angles to the rotating ring, the axial length of the pump body can also be suppressed.

(Example) Embodiments of the present invention are shown in FIGS. 1 and 2.

Reference numeral 1 designates a pump body, in which two cylinder blocks 3 having a common rotating ring 2 are housed, and the base ends of pistons 4 that freely protrude from each cylinder block 3 in the axial direction are opposed to each other. and are in sliding contact with a swash plate 5 supported within the pump body 1, respectively.

The rotating ring 2 freely rotates and protrudes to the outside of the pump body 1 via a bearing 6.

The swash plate 5 is supported by the pump body 1 through a bearing 7 so as to be freely rotationally displaceable in a substantially horizontal direction within a certain range. Also,
A regulator piston 8 for rotationally displacing the swash plate 5 in the horizontal direction is disposed inside the pump body 1 above the swash plate 5 so as to form a right angle to the rotating ring 2. The swash plate 5 is configured to be rotationally displaced in conjunction with the regulator piston 8, and the regulator piston 8 moves in the axial direction according to the hydraulic oil pressure in oil chambers 9 and 10 formed in the pump body 1 facing both ends. By displacing it, the tilting angle is changed.

The hydraulic pressure in the oil chambers 9 and 10 is controlled by the regulator piston 8.
It is supplied via a regulator valve 11 housed in the pump body 1 in parallel with the pump body 1. The regulator valve 11 has a spool 13 slidably housed inside a hollow case 12, and a boat communicating with the oil chambers 9 and 10 is housed inside the case 12.
One end of the spool 13 is connected to an oil chamber 14 formed by guiding the pump discharge pressure into the pump body 1.
In response to the axial displacement of the spool 13 based on the pump discharge pressure, these boats communicate with the hydraulic oil supply passage 15 that introduces a part of the pump discharge oil, so that the oil chamber 9
and 10 are selectively supplied with hydraulic oil.

Further, in order to feed back the resulting displacement of the regulator piston 8 to the displacement of the spool 13, a spring seat 18 of a spring 17 that elastically supports the spool 13 against the pressure of the oil chamber 14 is coupled to the regulator piston 8. It is supported by a feedback lever 16.

Although only one set of pump units is shown in Figures 1 and 7#IJ2, another set of pump units with a similar configuration is housed in a symmetrical position within the pump body 1. .

Next, the effect will be explained.

When the pump discharge pressure fluctuates, the spool 13 of the regulator valve 11 moves to the case 12 due to the pressure change in the oil chamber 14.
The hydraulic oil in the supply passage 15 is supplied to the oil chamber 9 or 10, thereby causing the regulator piston 8 to displace in the axial direction while supporting the swash plate 5. On the other hand, this displacement changes the supporting force of the spool 13 by the spring 17 via the feedback lever 16 and the spring seat 18. Therefore, the displacement of the spool 13 stops at a position where the change in the hydraulic pressure in the oil chamber 14 and the change in the supporting force of the spring 17 are balanced, and the swash plate 5 moves to a corresponding new tilt angle. It is supported by

In this way, the discharge amount is adjusted for each pump unit based on the pump discharge pressure. As a result, control is performed, for example, to keep the pump output constant.

Note that since the regulator piston 8 and the regulator valve 11 that perform this control are both housed inside the pump body 1, there is no fear that the hydraulic oil supplied to these members will leak to the outside. Further, since the regulator piston 8 and the regulator valve 10 are disposed at right angles to the rotating ring 2, there is no need to increase the axial dimension of the pump body 1 to accommodate these members.

Therefore, the processing and number of parts required to manufacture this pump are relatively small, and the overall size of the pump is compact.

(Effects of the Invention) As described above, the present invention accommodates two sets of regulator pistons and regulator valves that control the tilt angle of a dual piston pump inside the pump body that accommodates the pump unit. Mechanical and hydraulic connections between the pump unit and the pump unit are facilitated, and the risk of oil leakage to the outside is reduced. Furthermore, since each regulator piston is disposed at right angles to the pump rotating ring, the dimensions of the pump body that accommodates them can also be kept relatively small.

Therefore, the number of processes and parts required to assemble the dual piston pump is reduced, and the reliability of the pump is improved.

[Brief explanation of the drawing]

Figure WS1 is a horizontal cross-sectional view of a main part of a dual piston pump showing an embodiment of the present invention, and Figure $2 is a longitudinal cross-sectional view of the main part. DESCRIPTION OF SYMBOLS 1... Pump body, 2... Rotating ring, 3... Cylinder block, 4... Piston, 5... Swash plate, 8...
...Regulator piston, 11...Regulator valve, 16...Feed pack lever

Claims (1)

[Claims] In a dual piston pump in which two sets of pump units consisting of a cylinder block and a swash plate are housed inside a single pump body, and each cylinder block is driven by the same rotating wheel, a swash plate is installed corresponding to each pump unit. two sets of regulator pistons for adjusting the tilting angle of the pump body, and a regulator valve for controlling the supply of hydraulic oil to the regulator pistons, respectively, are housed inside the pump body,
A dual piston pump characterized in that each regulator piston is disposed at right angles to the rotational direction.