DE1628323C - Rotary piston machine for gaseous media - Google Patents

Description

3 4

and one on the pivot shaft of the separating flap is subdivided, the volume of which is reduced in each case.

continuous, one corresponding to the separating flap alternately for suction via a suction pipe 12

Diale expansion having rocker arm enlarged or reduced for compression, so that

follows. the compressed medium is discharged via a pressure pipe 13

A rotary piston machine that can be pushed according to the invention.

The aforementioned separating flap 11 is supported by a relatively large-area contact with the drive shaft 5 parallel-axis pivot shaft of the sealing segment on the circumferential rolling piston 14 in the housing. The free edge of the area under kept constant, the arrival partition flap 11 is provided as a bearing shell lla to Aufpreßdruckes arranged to move by the drive zwangläufigen io would take a seal segment 11 is formed b is brought. These conditions are for one that is pivotably mounted on the separating flap. Wide speed range of the rolling piston drive So that this sealing segment 11 b is constantly in front of you, on whose crank pin a counterweight of the surface system can be attached to the circumferential surface of the rolling piston so that it is held in a higher piston 3, is for the pivot shaft 14 15 of the separating flap 11 an inevitable drive means that an optimal sealing can be achieved. This consists of a rocker arm 18 to support the effect. which at a protruding into a chamber 16

According to a further design feature, the extension of the pivot shaft 14 is attached. the Finding it is preferably provided that the crank chamber 16 is on one side by the end pin to the axis of the rolling piston drive shaft 20 wall 15 of the cylindrical working space 2 and after and the rotary piston to the axis of the cylindrical of the other side through an end cover 17 be-working space have the same eccentricity. With the rocker arm 18 is a connecting rod at 19 and that the length of the connecting rod is the same as the connecting rod 20, which is articulated on a course stand mounted between the pivot axis of the sealing leg pin 21 of the rolling piston drive shaft 5 mentes and the axis of the rolling piston. This dimension is 35. For this inevitable drive of the separation ratios ensure in an optimal way the flap 11 is chosen such an arrangement, the best possible maintenance of a precise distance between the crank pin 21 and the axis of the drive the separating flap and the rotary piston. shaft 5 and the rotary piston 3 to the axis of the cylindrical

An embodiment of the drical working space 2 according to the invention has the same eccentricity

The rotary piston machine is shown in the drawing to have 30 and that the length of the connecting rod 20

shown automatically. It shows is equal to the distance between the pivot axis

F i g. 1 shows an axial longitudinal section through the dimensions of the sealing segment 11 b and the axis of the roller

machine, piston 3. Furthermore, the length of the separating flap

2 shows an end view of the machine according to 11 between the pivot axis of its sealing segment

F i g. 1 from the right with the end cover 35 Mentes 11 b and the axis of its pivot shaft 14 removed

and equal to the length of the rocker arm 18 between the

F i g. 3 shows a cross section through the machine along the axis of the hinge pin 19 and the axis of FIG

the line III-III of FIG. 1. Pivot shaft 14, and the longitudinal axes thus determined

The rotator, designated in its entirety by 1, the separating flap 11 and the rocker arm 18 are positioned piston machine has a cylindrical arm 40 parallel to one another. On the crank pin 21 of the working space 2, in which a rolling piston 3 on the drive shaft 5, a counterweight 22 is also attached. zenter4 of a drive shaft 5 is rotatably mounted. When the shaft 5 is used to move the rotary piston 3, the drive shaft 5 is driven in the machine housing by the eccentric 4, then it is supported by two bearings 6 and 7 and the separating flap 11 can be driven by a synchromesh drive a pulley 8 with 45 NEN swivel drive, which is integrally connected to the flywheel 9 described above. The design ensures that the seal segment flywheel 9 is provided with radial cooling fins 10 comparable 11 b on the vibrating free edge part of the separating vision. When the drive shaft 5 is driven, then the flap 11 is practically unpressurized on the circumferential surface. The sealing caused by the eccentric 4 and one by 50 segment 11 b and the rolling piston 3 are therefore almost off its axis rotating movement. not subject to wear and tear, and because the seal

Then the rolling piston 3 remains in the cylinder tung segment in the bearing shell 11 pivotally overall α

drical workspace 2 is a rotating, transversely supported, can be used for each phase of movement of the

cut essentially sickle-shaped effective Ar rolling piston 3 a constant surface contact working space, which will be provided during most of the piston 55, which when using the machine

circulation (see especially Fig. 3) by a vibrating machine as a compressor to achieve a high

movable separating flap 11 is decisive in two Verdrängerkam- compressor performance.

1 sheet of drawings

Claims (3)

1 2 of the circumferential surface of the rotating eccentric piston connected to the drive shaft, which can be rotated here. 1. Rotary piston machine for gaseous hen. This drive is carried out by a on the piston ' Media, in particular compressor, with a zy- 5 drive shaft attached eccentric from a '' Lindrian work space, one designed to be rotatable on a spring adjustable against a - Eccentric of a drive shaft and a data stop preloaded follower roller, which on a through a circular one in the working area and one wedged around on the "pivot shaft of the separating flap" execute its axis rotating movement- rocker arm is rotatably mounted. It is obvious, the rolling piston and one that can oscillate, io that in this version there is also one around the shaft ' Rotatable rolling piston mounted in the housing by means of a swivel shaft in place of the eccentric piston Divider which could be used by an inevitable. Drive their pivot shaft on their swinging rotary piston machines are still free edge part in sealing contact with the kahnt (see, for example, the USA to the sealing flap via a sealing contact pivotably mounted on it between the rolling piston (3) sealing segment in sealing contact with the circumference and the separating flap (11) is held on this in the area of an eccentric rotary piston, known way a sealing segment (11 b) Here, too, the separating flap is pivotably mounted on its swing arm and that the drive of the 20 presses the free edge part with the sealing segment through the separating flap (11) in a manner known per se by a spring against the eccentric rotary piston, a crank pin (21) of the rolling piston On rotary piston machines of a similar type, but the drive shaft (5) via a connecting rod (20) un d without a sealing segment, it is (s. the · British patent. (one on the pivot shaft (14) of the separating flap font 273 439), also known, for the separating flap (11) attached, using one of the separating flaps corresponding to a positive drive, the radial extension from a crank pin of the drive shaft takes place via rocker arm (18). a connecting rod and one on the pivot shaft of the 2. Rotary piston machine according to claim 1, separating flap attached rocker arm accordingly characterized in that the length takes place on the crank pin. fen (21) of the rotary piston drive shaft (5) a shaft 30 Mention should also be made of a known rotary piston counterweight (22) is attached. . machine (see Swiss patent specification 8543), 3. Rotary piston machine according to the claims, with an out-of-round eccentric turning in the working area 1 and 2, characterized in that the piston rotates, on its peripheral surface one of Crank pin (21) to the axis of the rolling piston - a circular eccentric driven separating drive shaft (5) and the rolling piston (3) rests against the flap. Axis of the cylindrical working space (2) is particularly important when rotary piston machines have the same eccentricity and that the length of the type mentioned above as Verder connecting rod (20) is the same as the distance between dense for gaseous media should work, the pivot axis of the sealing segment ren efficiency, mainly from the sealing (11 b) and the. Axis of the rolling piston (3). 40 effect of the separating flap or its seal segment relative to the circumferential surface of the rotary piston or the eccentric rotary piston. for . the seal is to be kept constant a planar system of the separating flap or of (^ 45 whose sealing segment on the peripheral surface of the The invention relates to a Rotationskolbenma- rolling piston under the same pressure over länschine for gaseous media, especially compression time decisive. Since this criterion is in the verter, with a cylindrical working space, a rotatably different embodiment of the well-known Rotabar tion piston machines mounted on an eccentric of a drive shaft, taking into account the and thereby a circular and a 50% wear factor for the sealing effect in the working area execute its axis rotating movement because essential components are not satisfactory Rolling piston and a vibratory, is prevailing, the present invention has the by means of a pivot shaft mounted in the housing task, a rotary piston machine for Separating flap, which by an inevitable angasmic media of the type mentioned drove your swivel shaft to your 'swinging 55 create the right one in the best possible form free edge part in sealing contact with the circumferential distance between the seal-side edge of the . surface of the rolling piston is held. ■ Separating flap and the circumferential surface of the rolling piston In a known rotary piston machine, this distance can be maintained because this distance is similar Art (see British patent specification 274 220) this embodiment of such rotary piston corn for a first execution machine, which is intended as a pump, direct contact of the separating flap is decisive for achieving an optimal mode of action. the circumferential surface of the rolling piston due to the pressure This object is achieved according to the invention by * an adjustable spring provided, solved that for sealing contact between the which on the outside of the freely swinging part rolling piston and the separating flap on this in itself the dividing flap is in contact. For a second embodiment, a sealing segment is known to be pivotable form of this known rotary piston machine is mounted and that the drive of the separating flap in an inevitable drive for the pivot shaft in a manner known per se from a crank pin of the in doing so, via a sealing strip attached to it with a rolling piston drive shaft via a connecting rod