DE2050161A1 - Crescent moon machine - Google Patents

Description

Dipl.-Ing. Hans Molly, 7502 Maisch, Dr. Eugen-Bssig-Strasse 48

Moon si chelmas chino

The invention relates to a lunar muzzle axis as a spur gear in engagement with a ring gear of larger diameter in a housing, in which between the spur gear and Hohlraü a fixed to the housing Crescent moon body is arranged, in which further the space between the ring gear and the housing with the high pressure area of the Machine is connected and in a limited area formed between the crescent moon body, ring gear and spur gear Suction connection opens, and in which at the periphery of the ring gear a negative pressure field to support the otherwise in the high pressure chamber attacks running ring gear.

Crescent moon machines of this type, in which the gears are essentially run at high pressure and the suction chamber is limited to a relatively small area, have the advantage that the the gears acting hydraulic forces act in the sense of a seal of the suction chamber and to press the parts together strive. In a machine in which - in a likewise known manner - the high pressure is limited to a narrow range is and the gears run essentially in low pressure,

209817/0392

Postal checking account Essen 47247 · Commerzbank AG, Düsseldorf, Deposltenkasee main station

ORIGINAL INSPECTED

the high pressure tries to push the gears apart and to make the machine leaky. For this reason one can use crescent moon machines of the first-mentioned type work at very high pressures. It has been found that at such high pressures the problem a deformation of the ring gear occurs under the influence of the high hydraulic forces.

The invention is based on the object of such a deformation to counteract the ring gear.

According to the invention, this is achieved in that between the ring gear W and the housing wall, a bearing body encompassing the ring gear is arranged so as to be movable to a limited extent, on whose cylindrical bearing surface on the ring gear side a suction field is delimited, which is connected to a suction field of a smaller area on the outside of the bearing body on the housing side, which is connected to the latter delimited by yielding sealing means between the bearing body and the inner wall of the housing and connected to the suction connection.

In this way, a relief force is exerted on the ring gear by a suction field in the high-pressure chamber, which when correct Arrangement and dimensioning counteracts the compressive forces that tend to deform the ring gear. The suction field on the ring gear ^ side bearing surface causes a suction of the bearing body on the Ring gear, while the suction field on the housing side seeks to pull the bearing body with the ring gear towards the housing. Since the ring gear side The suction field has a larger surface area than the suction field on the outside of the bearing body, this ensures that the bearing body remains firmly sucked on the ring gear and not by the pressure forces and the external suction field pressing against each other can be withdrawn from the bearing body. The yielding sealing means allow a limited movement of the bearing body relative to the housing. It also solves the problem

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the suction field on a bearing body sucking on the ring gear to raise. On the other hand, a free alignment of the bearing body with the ring gear is guaranteed.

The bearing body can be formed by a radially resilient ring surrounding the ring gear. This can be done on the ring Axial incisions alternating from one side and from the other side are meandering and resilient in the peripheral direction Section are formed, which allows a radial "breathing" of the ring.

The suction field on the housing side can be delimited by an O-ring its elasticity on the one hand causes a seal and on the other hand a limited movement of the bearing body enables.

If the suction and pressure side of the I-crescent machine are out of operation Change reasons, the Rin £; on both sides of the gear centers have opposing such suction field arrangements, one of which with the one, the second with is connected to the other pressure medium connection of the machine. It then actually acts as one of the suction field arrangements Suction field, while the other fits into the pressure field present on the remaining part of the ring gear circumference.

In crescent moon machines of the type presented here, the high pressure exerts resulting forces on the mutually supporting wheels. Will the spur gear in the housing along the connecting line the gear centers are guided to a limited extent movable, these forces result in mutually opposing components in the direction of the line connecting the gear centers. The suction fields on the ring gear catch the due to the elasticity of the Äadringes supported by the teeth on the crescent moon

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. Forces so that no wear can occur here.

The direction of the force components towards the center of Hades and one that has a beneficial effect on the bending line of this Ractkörpers Angular position of this relief field leads to a pivoting shown in the drawing of the opposite to the central Fields in the direction of the meshing.

The suction field arrangements serve to the ring gear of the on the Suction side over the tooth tips to the crescent moon going support

ψ forces to keep free and moreover, the deformation thereof in the sealing region to control so that a through these, erstrekkende clinging of the ring gear and the spur gear is achieved.

The invention is explained in more detail below using an exemplary embodiment with reference to the accompanying drawings:

Figure 1 shows a section through one according to the invention trained crescent moon machine.

FIG. 2 is a perspective view of one at an annular bearing body used in such a machine.

A ring gear 2 and a spur gear 3 are arranged in a housing 1. The ring gear has a much larger diameter than the spur gear. The crescent moon-shaped one formed between the ring gear and the spur gear Space is filled by a sickle body 4 fixed to the housing. The spur gear 3 can in not shown '// iron in The direction of the connecting line of the gear centers can be guided to a limited extent and is also mounted in the housing 1. Between the ring gear 2, the spur gear 3 and the crescent moon body 4, a suction chamber 5 is formed which is connected to a suction connection 6 stands. The remaining part of the housing interior is under high pressure and is in connection with an I-hole pressure connection 7.

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The inside diameter of the housing interior is significantly larger than the outer diameter of the ring gear 2, so that between the housing and ring gear a king space is formed in which an annular bearing body 8 is seated. V / ie can best be seen from Figure 2, the bearing body 8 has a portion 9 in the peripheral Direction is bouncy. For this purpose, axial incisions 10, 11 are provided alternately from one side and from the other, so that there is a meandering shape. Through this resilient section 9, the bearing body 8 can move in the radial direction "breathe". The bearing body 8 has on its inside two suction field arrangements opposite one another on the ring gear side or 13. The suction field arrangement 12 contains a ring gear side Suction field H, which is delimited by a rectangular annular groove 15 is. The annular groove 15 is connected to a channel 16. Of the Channel 16 opens into a suction field which is delimited between ring 8 and housing 1 by an O-ring 17. This housing-side outer suction field 18 has a smaller area than the suction field H. It is via a channel 19 with the Suction connection 6 in connection. Under the influence of the resilient section 9 is initially between the ring gear 2 and the ring 8 there is a gap. As pressure builds up in the machine, the ring-shaped bearing body 8 is compressed, and the suction field H is sucked onto the ring gear 2. At the same time, the entire bearing body 8 is removed from the suction field 18 pulled against the housing. As a result, a suction force is exerted on the ring gear 2, which counteracts the pressure forces which otherwise a deformation of the ring gear 2 could cause.

While the force components of the forces acting on the spur gear 3 and on the ring gear 2, which are vertical in FIG. 1, essentially cancel each other out via the meshing, the horizontal forces are essentially absorbed by the suction field 18, so that the ring gear only moves with a greatly reduced force on the

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in Figure 1 on the right side of the housing. The suction field orders 12 and 13, respectively, are perpendicular to the line connecting the gear centers, i.e. the vertical in Figure 1 Ring gear diameter downwards, that is to say offset towards spur gear 3. This results from the force decomposition with the relative to the housing limited vertically movable spur gear 3.

The application of the suction forces to the ring gear 2 takes place in the invention in such a way that the free contact of the ring gear 2 on the crescent moon body 4 is not impaired, so "that a tight working of the crescent moon machine is guaranteed is. On the other hand, the pressure forces with which the ring gear rests on the crescent moon body are due to the suction forces applied reduced to a level that reduces wear.

Through the axial cuts 10 and 11 on the bearing body 8 this cushions against the outer wall when installed. There is a play between the ring gear and the bearing body 8, that floods the suction field arrangement 12 at low operating pressure, Nevertheless, the outer suction field 18 is in function, since there is no pressure here. The gear wheel also runs at low operating pressure fully effective relief through the annular groove 15 with a tolerable leakage loss until the occurring here in the suction field Forces are able to overcome the suspension in section 9. With the increased initial pressure of the pump Then the high-density operation of such a machine sets in, which is maintained up to the highest operating pressures.

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Claims (1)

Claims ί 1 ./Ilondsichelmaschine with a spur gear in engagement with a - "Eohlrad larger diameter in a housing," in which between the spur gear and the ring gear a fixed crescent moon body is arranged, in which the space between the ring gear and the housing is connected to the high pressure area of the machine stands and in a limited area formed between the crescent moon body, ring gear and spur gear, the suction connection opens and in which a negative pressure field acts on the periphery of the ring gear to support the ring gear otherwise running in the high pressure chamber, characterized in that between the ring gear (2) and the housing wall (1) a bearing body (8) encompassing the ring gear is arranged to be movable to a limited extent, on whose cylindrical Luger surface on the ring gear side a suction field (14) is delimited, which is smaller with a suction field (18) on the housing side on the outside of the bearing body ( 8) connects, which the latter by yielding Jüichtmitt el (17) is delimited between the body (ö) and the wall of the housing (1) and is connected to the suction connection. ' ^(ύ > 2. rlondsichelnaschine according to claim 1, characterized in that the La _t rerkörper daii by a ring gear (2) enclosing radially resilient King (B) is formed. Crescent-shaped machine according to Claim 2, characterized in that alternately on the king (8) through axial incisions (10, 11) from one side and the other a meandering, In peripheral sighting, a resilient section (9) is formed: what a radial "breathing" of the hanging (ο; enables . BAD OPJQiNAL 2098Ί7 / 0392 4. Crescent moon machine according to one of claims 1 to 3> thereby characterized in that the suction field (8) on the housing side is delimited by an O-ring (17). Crescent moon machine according to Claims 1 to 4, characterized in that that on the ring) 8) a pair of such suction field arrangements (12, 13) symmetrically to the connecting line the gear centers are provided, one of which with the one and the second with the other pressure medium connection (6 or 7) of the machine is connected. 6. Crescent moon machine according to claim 5, characterized in that that the spur gear (3) is guided in the housing (1) along the connecting line of the gear centers so that it can move to a limited extent and that the suction field arrangements (12, I3) in the direction of the spur gear (3) are offset against the ring gear diameter perpendicular to this connecting line. 209817/0392 Lee r side