DE1001593B - Swash plate pump with automatic pressure-dependent feed control - Google Patents

Description

Swash plate pump with automatic pressure-dependent delivery control The invention deals with a swash plate pump with automatic pressure-dependent Funding scheme. The swash plate pump can have several arranged in a circle, have movable pistons in fixed cylinders that represent individual pumps and are actuated by a swash plate rotatable about their central axis.

In such swash plate pumps, it is already known to promote to be regulated automatically by the pressure prevailing in the delivery line of the pump. The automatic control is carried out by a central auxiliary piston, which is used as Differential piston is formed and is under the counter pressure of a spring. This The auxiliary piston is displaced by the delivery pressure prevailing in a storage chamber and, depending on its position, controls another device that controls the conveying space connects to a return line. This known device speaks first above a certain delivery pressure and only switches below a certain pressure Delivery pressure, so does not allow soft continuous control.

It has already been proposed for a fine-grained funding regulation to make bores in the cylinder wall of a working piston, all or individually can be covered by a sleeve adjustable by a central auxiliary piston and If the sleeve is shifted accordingly, the cylinder with the return line of the Connect the pump. If the swash plate pump has several working pistons, one must Provide as many sleeves as there are pistons.

The invention now allows a finely graded delivery control also with Swash plate pumps with several working pistons and required as a control element only one arranged centrally in the pump housing and as a differential piston trained and standing under the delivery pressure and the back pressure of a spring Auxiliary piston. In the invention, the fine-level control for all cylinders is thereby achieved that radially directed bores are provided in the walls of the cylinder are covered by the jacket of the auxiliary piston and with increasing delivery pressure for the purpose of establishing a connection between the interiors of the cylinders and the return line be released. The auxiliary piston can be used in a manner known per se be arranged centrally located in the pump delivery chamber. That way is it is possible to use a single auxiliary piston for all cylinders if the pressure is too high at the same time to connect with the return line and the delivery pressure continuously to regulate.

The arrangement is very simple and works accordingly without interference. This makes maintenance and the procurement of spare parts easier.

The drawing brings an embodiment of the invention Hand of a vertical section along the drive shaft of the pump.

The pump body 1 has a chamber 2 with the suction channel 4 and a chamber 3 with the delivery channel 5. The chamber 3 is also through the return channel 6 connected to the storage container (not shown).

Around the chamber 3 are cylinders at the same distance from the pump axis 7 arranged with piston 8 movable therein. The pistons 8 have on their heads 13 opposite ends of cylindrical cavities 9 with transverse channels 10.

One with the drive shaft 12 in one piece and inclined thereto Disk 11 rests on the correspondingly beveled piston heads 13. To the the shaft 12 extending pin 15 hangs a plate 14 which passes through the bores 16 engages under the piston heads 13.

With the joint ball 17 resting on the flange 18, the plate is 14 suspended from the pin 15; it has a spherical joint socket in the middle part The same diameter as the joint ball 17. The joint socket is wide enough upwards open so that the plate 14 wobbles about the ball joint during the piston movement can.

Each revolution of the shaft 12 corresponds to a suction and a delivery stroke each piston 8 in its cylinder, with the disc 11 the piston 8 down presses and the plate 14 due to its dew melns the opposite Piston movement caused.

In the top dead center position of the piston 8 according to FIG. 1, the liquid penetrates through the transverse channel 10 into the cylinder 7 of this piston 8. The rotation of the disc 11 then pushes the piston into the cylinder and thus closes the transverse channel 10. Through the pressure of the liquid opens the valve 19 against the pressure of the spring 20. The pumped liquid flows through the chamber 3 to the feed channel 5. Correspondingly all pistons 8 work analogously to the rotation of the disk 11.

The delivery of the pump is automatically regulated as follows: In the chamber 3 sits a hollow differential piston 21 with a bore 22 in his Floor.

The delivery pressure prevailing in the chamber 3 presses the piston 21 against it the spring 23 down. When a certain delivery pressure is exceeded, presses the piston 21 the spring 22 together and passes through the partition between the Chamber 3 and the cylinders 7 guided bores 24 free. This will make the cylinders 7 connected to the return channel 6. The individual pumps are shunted switched over and no longer feed into the delivery line until the Has reduced the pressure in the delivery line. The transition from one state to the other takes place softly because the Bores 24 are continuously released or covered.

Claims (2)

PATENT CLAIMS: 1. Swash plate pump with a centrally located in the pump housing arranged, designed as a differential piston, under the delivery pressure and the Counterpressure of a spring auxiliary piston for automatic pressure-dependent control the promotion by releasing a return line, characterized in that radially directed bores (24) are provided in the walls of the cylinders (7), which are covered by the jacket of the auxiliary piston (21) and with increasing delivery pressure for the purpose of establishing a connection between the interiors of the cylinders (7) and the return line (6) to be released. 2. Swash plate pump according to claim 1, characterized in that the auxiliary piston (21) located centrally in the pump in a manner known per se Delivery chamber (3) is arranged. ~~~~~~~~~~ Publications considered: German Patent Nos. 722 527, 680 573, 574 612, 527 997, 522 717, 444 458, 421 301; Austrian Patent No. 121160; French patents No. 910 527, 656 116.