DE7540751U - TURNING PISTON - Google Patents

Description

Siegfried Stö'rrle , ',,, ■,. ·
Tool and mechanical engineering
7809 Denzlingen, Germany

Rotary piston machine

The advantages of the invention are illustrated using the example of the eccentric Sehiefeer pump explained.

Eccentric vane pumps consist of a housing in which the usually cylindrical rotary piston with the drive shaft is firmly connected, eccentrically mounted. The rotary piston has slots or recesses evenly distributed over the circumference moving parts as sealing elements, such as bolts, slides, wings or flaps. When the shaft rotates, between Housing and rotary piston as well as the sealing elements according to the Eccentricity variable chambers that control the suction and discharge of the medium to be conveyed.

The sealing elements are by the centrifugal force and occasionally by additional spring forces are pressed onto the axially parallel housing wall. They are subject to heavy wear and tear, which reduces their performance the pumps is reduced. This is especially true when non-lubricating liquids are to be conveyed, or these have abrasive components. The abrasion also causes the fora : the sealing elements changed to the detriment of the sealing quality.

In order to keep the abrasion within limits, it is used in particular for pumping water the speed is greatly reduced.

The Impeller pumps. These are rotary lobes and sealing elements a body. The different chamber volumes are created by bending the elastic sealing elements on the appropriately shaped one Housing wall. The abrasion occurs more intensely with these pumps.

The solution according to the invention reduces the abrasion of the sealing elements to a minimum. It therefore allows significantly higher speeds and thus improves the speed-related delivery rate while maintaining the same dimensions.
Show in the explanation below

Figure 1 shows the longitudinal section of an eccentric slide pump according to the invention,

Figure 2 shows the cross section of this pump _>

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I ¹ IgUr 3 the representation of an embodiment of the removal of the rotary piston LS banks in a söhematiseher way,

Figure 4 shows the partial cross-section of a Jhnnpe with elastic Sealing elements,

5 ¹ XgUr 5 the cable cross-section of a Badial piston pump.

Kaeh Figure 1, bearing plate 1 carries the permanently installed bearing body 2, The inside of the bearing body 2 serves to receive the drive shaft 3, which is connected to the rotary piston 4 in a force-locking manner. Outside the bearing body 2 receives the rotor 6. The bearing body can can be replaced structurally by an appropriate combination of cone and / or ball bearings.

The rotor 6 is sealed against the rotary piston 4 with the rotor cover 7 "This does not have in the region of the chambers here perforations illustrated for the Zxx- and outlet of the pumped liquid ^ · The lid 8 has ± s are known to nierenförinige recesses and openings for the Plüssigkeitsführung, Er the fastening screws 11 are connected to the bearing plate 1 by means of the sealing ring 9. The rotary piston here has four beam conductors which slide in slots. When the drive shaft 3 rotates, the rotor 6 is carried along by the drivers 12 of the rotary piston 4 and its opposite * circular recesses 13 *

In this case, the axially parallel for the abrasion of the sealing elements 5 and surfaces of the rotary piston 4 and the rotor that are effective on the side of the rotor 6, as well as the rotor cover 7 approximately the same oil speeds. It is therefore practically impossible for the sealing elements to wear off respectively*

Claims (7)

Ί *. Rotary piston machine «, as Kraft odor Arbeitsmaschin ©, with rotating Rotary piston and in this fixed, rotatable »sliding or elastically arranged, centrifugal force or forced movement sealing elements for delimiting the delivery space, characterized in that the driven or driven rotary piston is enclosed by a mounted or non-supported rotor, driven or driven revolves with it and see the sealing elements against its inner surfaces of the rotary piston and thus do not act against the stationary housing. 2. Rotary piston machine according to claim Ί, characterized in that the reciprocal entrainment of rotary lobes and rotor by means of appropriately shaped opposing faces or axles parallel to each other Elevations or depressions or perforations he follows. 3. Rotary piston machine according to the preceding claims thereby characterized in that the reciprocal entrainment of the rotary piston and rotor is given by the contact pressure of the sealing elements. 4 »Rotary piston machine according to claims 1-3, characterized in that that the rotary piston is completely or partially enclosed on both sides by the rotor. 5 * rotary piston machine according to claims 1-4, characterized in that that the rotor is completely or partially elastically coated on the surfaces facing the rotary piston. 6 * rotary piston machine according to the preceding claims thereby characterized in that the sealing elements are wholly or partially with elastic pads are connected, 7. Rotary piston machine according to claims 1-6, characterized in that that the runner is stored in the cover. 8, rotary piston machine according to the claims 1-7, characterized in that that the rotary piston or the rotor, or both together in the axial direction are slidably attached. 9 »Rotary piston machine according to the preceding claims thereby characterized in that the rotary piston movable in the axial direction or The rotor is held in its position by spring pressure and, if the set spring pressure is exceeded, the front Enlargement of the gap between the rotary piston and rotor, or rotor cover or housing, the return flow of the pumped medium from the pressure to the Suction side allows.