DE2606172C2 - Rotary piston machine for liquids - Google Patents

Description

40

The invention relates to a rotary piston machine for liquids with a toothed wheel and ^M) a toothed ring enclosing this, forming with it Verdriingerkiimmcrn, one more tooth, a cardan shaft engaging the toothed wheel and / wci on both sides of the Zahnclcmcntc arranged end walls, of which the one in the middle part has an opening for the propeller shaft to pass through, but the other is continuous at least in this area.

Such machines are called motors. Pumps or flow meters known. You will act as a drive for Vehicles and machines, in hydrostatic steering units and in many other areas. '

In a known rotary piston machine of the type described above (DIi-PS 19 06 445) that is orbital and rotating gearwheel connected to a rotary valve via a cardan shaft, cüe part of the Main shaft is. The toothed ring is arranged in a housing. A housing boom receives the rotary valve and together with it forms a rotary valve control system. Sieueröffnencn in the rotary valve and in the bore work alternately together so that a functional connection of the pressure cables and non-pressure-side displacement rates between Gear and toothed ring with a pressure and pressure connection of the machine results. The gear has parallel side surfaces, which are closely adjacent to the end walls.

In such a rotary piston machine, the distance between the two end walls must be chosen so that the gear wheel can be rotated without great friction losses. As a result, a gap remains between the gear wheel and the adjacent end walls, through which leakage losses occur. In addition, the opening in the end wall is relatively large because the shaft of the cardan shaft has a certain cross-section in order to transmit the desired power and the opening must be larger by a corresponding amount to take into account the circular movement of the cardan shaft. However, this means that - if a permissible level of leakage losses is not to be exceeded - the diameter of the gearwheel must be selected to be so large. that the length of the sealing gap on the side of the opening ni: hi is too short, which leads to a correspondingly large toothed ring and contradicts the requirement of the designer to build machines that are as small as possible. However, excessively large leakage losses / u lead to higher slip. This is particularly noticeable in the case of rolationskoiix-nmaschincn for control and steering units, because the adjustment specified on the steering wheel is not proportionally transferred to the wheels and must always be readjusted even when driving straight ahead with the wheels being loaded. Given the radial dimensions of the machine, these leakage losses are all the more disruptive the smaller the width of the gearwheel. because the leakage losses represent a higher percentage of the total.

Ks is also known (DE-OS 19 5b 528). in the case of a gear pump with external grip, to provide both gears rotating about fixed axes on both sides with an annular groove in which a sealing ring is inserted. There is already a compression unit bckar.nt (CH-PS 4 04 0b7). in which two revolving rotary pistons with internal engagement and eccentrically arranged axles are provided, of which the gear wheel carries a spring-loaded sliding ring on one end face on the inner circumference. With its help it should be achieved that the gear wheel with the opposite end face is pressed against a cover having the access and access openings.

Then a rotary piston machine is known (DE-OS 21 24 00b). at which the gear on both Has end faces on the tooth flanks depressions, which serve as auxiliary channels and together with the internal teeth of the toothed ring as a secondary part

serve as a standard sliding door system, a more precise mode of operation of this Sieiierdrchschiebereinrichuing with animal functional connection of the pressurized and low-pressure vcr; inger / elle: i with a pressure and low pressure connection of the machine / u. -Such depressions on the tooth flanks are also known in a rotary piston machine (DfI-OS 22 40 632). at the Inside / gear has indentations within the teeth, which are provided for the liquid supply and drainage.

The invention is based on the object of providing a rotary piston machine of the type described at the outset Specify the type in which the small radial dimensions and one sufficient low friction, the leakage losses can be echoed.

According to the invention, this object is achieved in that / wipe the gearwheel and the continuous End wall a lying in an annular groove of the gear sealing ring is arranged and that for the formation of Druckkonipcnsütionsilächen in the opposite Front side of the gear with the displacer L ^ mmcrn connected recesses are provided on the teeth.

By using the die ring, the oil flow is practically completely prevented on one of the cables of the gearwheel. The aim of reducing the leakage losses has thus been achieved. This seal cannot be made on the opposite side, since there the sealing ring would collide with the opening required for the PTO shaft to pass through. This single seal, however, has the consequence that the gear wheel is pressed with considerable force against the end wall provided with the opening. Because on the sealed slide the full work is effective in the printing area. while the leakage oil flow on the unsealed cable causes a pressure drop along the end face, which leads to a correspondingly reduced axial counterforce. D'.j friction losses would be correspondingly large. This disadvantage caused by the single-cable seal is countered by the formation of pressure compression surfaces. which lie in the courses of the gear wheel connected to the displacement chambers. These depressions increase / were not the total area on which the fluid pressure can act axially adf the gear wheel: however, they form areas on which the pressure is fully effective. In this way it is possible to compensate for the large axial pressure caused by the one-sided seal so that / was a pressure of the gear wheel against the end wall provided with the opening, which reduces the leakage gap, but the pressure force is not so great. that excessive friction occurs.

In particular, the dichroic ring made of Polvletrafluoräthylcn exist. This material has equally / hastily / white advantageous properties. Ls has good deformability and can therefore write poetry well. In addition, it has very good sliding properties with ße / uü on metal.

This also includes the possibility of the sealing ring / is divided and arranged from one in the NuI elastic ring and one of them pressed against the corresponding work space front wall, metallic Diclitriiis; considered. This will make the Friction relative to the adjacent front wall.

In the case of a preferred configuration: sl for this made sure that each tooth tip of the gear wheel to form the Druekkompensaiionsfläehen on a rope part of its height is provided with two indentations. which are separated from each other by a radial web are. By making such depressions on the tooth head, relatively large areas of pressure compensation can be achieved achieve without thereby shortening the sealing gap between the tooth base and the opening will. The radial victory means that neighboring displacement chambers are not short-circuited.

In addition, in a rotary piston machine with a rotary valve control device, which primarily consists of a first part coupled to the gearwheel via the cardan shaft and having first slider openings and a part firmly connected to the toothed ring and having second slider openings, it is possible to see which control openings are used to connect the druckscitigen and niederd ^r uekseitigen displacer / Ellen with a pressure and a Nicdcrdruckansch '*;'> of the machine cooperate alternately, for Suij.en. The depressions on each tooth head are dimensioned and arranged in such a way that they, together with the internal toothing of the toothed ring, in a manner known per se as a secondary part of the rotary slide device, enable the latter to function more precisely. In this way, the depressions are used for a second function.

The invention is hereinafter referred to as one in The exemplary embodiment shown in the drawing is explained in more detail. It shows

Fig. I a longitudinal section through an inventive Rotary piston machine.

Fig. 2 is a right view of the gear and tooth ring.

Fig. J a top view of the gear from the opposite ropes uik \

4 in .Schnitt a modified form of the Tight around.

The machine of Fig. I has a gear I and a lamil cooperating toothed ring 2. These Parts are on one side by a first end wall 3. which is formed by a lid, uiul on the the other side by a second end wall 4. the through an intermediate plate is formed, covered. Front wall 3. Toothed ring 2 and front wall 4 are clinch Screws 5 together and with a housing f> tied together. Displacers 7 are located between gear I., ring gear 2 and the end walls 3 and 4 educated. There are connection channels in the housing 8. each one control opening 9 on the inner circumference IO of the housing θ. of one part of a Sieuerdrehsehiehereinrii-htiinj * forms, with channels II in the end wall 4 connect, which in turn are connected to the displacer / ellen 7. Also in the case Connection ports 12 are provided which pass through channels 15 or 14 also lead to the inner peripheral wall IO, but axially to the Steiieröffniini- '9 versei / i are. At the free linden of the case. ' A locking plate 16 is attached by means of screws Ii.

The main shaft 17 is mounted nidially in a sliding bearing 18 and / or between a first bearing disk 19 and an axial bearing 20 held by the tarpaulin 16. A cardan shaft 21 greil'i with a \ er / ahnien head 22 in a toothing 23 Jer I liiiipiwelle and with a ') .linieren ver / ahnien head 24 in a toothing 25 which in a / cntrischcn opening 2h of the gear wheel I.

U) Ii- ¹ L ¹ ScIk-M isi. The sound iler (iclenkwellc 21 lsi (.lurch L-iiiL · (itliniIitr 27 in the forehead; ιικΙ 4 felt through.

The i laupiwclle 17 is designed as a rotary slide valve 28 which has an annular grooves 24 and 30 which are mm! the Aiischiulkanal 15 and 14 in connection · see ii. From these linear dimples emanate, alternately, cavity openings 31 and 52 formed by asialnits. Whose / InIiI corresponds to the double number of teeth of the /; himr; ids I, digging the number of .SleueröliMungen 9 corresponds to the number of teeth of the / shilling 2. As a result, the / between the gear wheel I iiiul the one /; it more tooth belt 2 formed \ culrangcr / elleM 7 in the correct sequence mn Druckllussigkcil lulled and emptied. The rotary valve 28 and the interior housing 10 of the housing act; thus, in the usual way, the rotary valve device is used. the the lunkiioMsgcrecrite connection; / wipe the Ver ili angor / ellcn 7 and the print · or Nicderdruckan sciiiiiii ran "vkislnii'iC hei sicÜLü. / v ,; ^- , chc ;: gehiüivjk-sie :: Ieilen. /. IV the gear 2 and iler end wall 5 is arranged in a Kingniil 55 em O Dichtriug 54 from (iiuiiiin.

In one corner of the tooth ring I is zvv iseheii the Diirchbi iich 2b and all teeth 55 of the / ahnrailes I a l'iML'iUi! 5b provided, in tier see a dichiriny 57 from 1'oktelrailuoiätlulen is located. This Dichlrins. ' dichlel the gap / wipe gear I and end face 5 essentially completely. Therefore, the leakage limited to the Spall / wipe dom gear I and / wide front wall 4 has a '· on the scope of different length.

In I i · _ '. 2, the opening 27 is shown in dashed lines. The short gap results in the illustrated position of the tame everything I / wipe (. A tooth base / η both sides read with first tooth 55 iiiul the oil I intimately ^! I ui ^ \ Siiriiu.nul 5 is prevented. The gear I can get a small I imiaiig, so that the shortest gaps / u iseheii gear I and Zu ischenw and 4, for example, only I.'miiim re. igt. without fear of excessive leakage / ii.

I). The Dichiring! 7 a sense of leakage I. Can a pressure build up outside the dielectric in the area 58. is generally equal to the pressure in all neighboring verilrangcrkainmcrn 7. I all hereby pressed the gear I / u strongly against the end wall 4 v. Should be grounded, leather line 35 aiii 'of the opposite side / white lines 34,40, which are separated from each other by a cadial web 41, can be obtained. This results in pressure cones pensalioMsHachen 42. in which at the same time the pressure of the neighboring displacer 7 prevails. These Vei SchiebuMgeii can also be measured in this way. That they / iisainnicn with the liiienver / alinung of the gearwheel 2 form a supplementary secondary part of the control turning gear. Via these indentations, n: im! It.-h hi-naihb.irie Verdi ängeikammcrn can be kept in connection with one another until a tooth head of gear 2 either with a tooth base oiler or a tooth head in the area of the web 41 read gear wheel I in touch trill. I lierilruch to I Ingenauigkeiten hoist in the \ ork of from inner MiIaML I ¹ '10 and rotary valve 28 existing SteiieiilrehschiebereiMriehtung wcitgehenil compensate.

In I ι g. 4 illustrates a modification at the i'ir seal is designed in two parts and .ms an elastic Dichlrmg 57 in the Kingnui 5b and a metallic Dichlrmg 4 5 consists. This metallic dicluring 45 remains relative to / around sealing ring 57 ortslesi. but results in a low level of friction only the front wall 5.

Modifications of this construction are possible in many different ways. For example, the Rotary valve 28 stall the cylinder shape a disc shape echo. The end wall 4 can also serve directly as a ventilator panel.

For this purpose 2 sheets of drawings

Claims (5)

Patent claims: ! Rotary piston machine for liquids with a toothed wheel and a surrounding, with it displacement chambers forming, one more tooth having toothed ring, one in the gear engaging cardan shaft and two end walls arranged on both sides of the toothed element, one of which has an opening in the middle part for the passage of the propeller shaft, the but others are at least continuously formed in this area. characterized, that between the gear (I) and the continuous end wall (3) in an annular groove (36) of the gear wheel lying sealing ring (37, 43) is arranged and that for the formation of Druckkompensationsfläehcn (42) in the opposite face of the gear with the Vcrdrängcrkanimern (7) connected recesses (39, 40) are provided on the teeth. 2. Roimions piston machine according to claim I. characterized in that the sealing ring (37) consists of poly letrafluoroethylene. 3. Rotary piston machine according to claim I. characterized in that the sealing ring secondly is and of an elastic ring (37) arranged in the groove (36) and one of that against the Corresponding work space front wall pressed, metallic sealing ring (43) consists. 4. Rotary piston machine according to one of claims I to 3, characterized in that each Zahnk ^ pf (35) of the gear (I) to form the Pressure compensation area P on one side over part of its I loh; · is stranded with two depressions (39. 40). the ridge radial through eis π (41) are separated from each other. 5. Rotary piston machine according to claim 4 and with a Sieuer Drehschiebcreinrichmng. the primary from one which is coupled to the gearwheel via the cardan shaft and has first plug openings first part and one with the toothed ring firmly connected and having second Stcucröffcn second part consists of tax openings for the functional connection of the pressure side and low-pressure displacement cells with a pressure and a low-pressure connection the machine interact alternately, characterized in that the recesses (39, 40) on each tooth head (35) are dimensioned and arranged so that they are together with the internal teeth of the ring gear (2) in a manner known per se as a secondary part! the turntable facility enable a more precise mode of operation of the same. jo