DE1553092A1 - Capsule pump - Google Patents

Description

IWfKXTANWALT DR. I). LOUIS, _{New Adr3S3;} Konur lß, 5 3 092

"sr, χ Γ Ii x Ii κ it Ci cüWSÜi ^ Ba

Mefoiiinii / iBWb March 14, 1966

I'clcyriimme liurgpalctil

^ 6 / 7850.7851. -ll / L j X_y j. , .UA] Jl. I.

Horst Knap ρ, Neutraubling, and Dr. Johann Vielberth,

Regensburg.

"Capsule pump"

The invention relates to a capsule pump with a guided in a cylindrical housing on an eccentric, in which Rotation of the eccentric on the circumference of the housing rolling ring piston, on which one sealingly between two sliding blocks, which have the shape of cylinder sections and in a cylindrical bore around one parallel to the eccentric Swing axis, guided, radial slide tongue is attached to the enclosed by the housing and the annular piston Sickle chamber into a pressure chamber connected to the pressure line and one connected to the suction line standing suction chamber divided. In the known capsule pumps of this type, the suction and pressure line via channels in the pump housing directly into the pump chamber. The mouths are mostly in the cylindrical outer surface of the pump chamber. Because the annular piston If this cylindrical circumferential surface theoretically only touches in one line, the pressure chamber is with the suction chamber during the passage of the annular piston through the between

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these mouths lying dead zone in connection. The hydraulic fluid can therefore enter the pump chamber via the Flow back the suction line until the annular piston has rolled over the mouth of the suction line again. About this reflux To prevent this, check valves must be arranged on these capsule pumps.

It is also known, the inlet and outlet openings for the To arrange liquid in the housing cover. The annular piston closes the inlet and outlet openings during its passage through the dead zone. However, this closure is not completely tight, so that anyway Check valves must be provided.

All capsule pumps of the type mentioned have the disadvantages that the seal is in the radial and axial directions leaves a lot to be desired and that strong shock loads occur between the housing and the annular piston, provided that there is the annular piston does not roll exactly on the cylindrical circumferential surface of the pump housing. Small deviations of the exact circular shape are inevitable for the eccentric, the annular piston and the cylindrical housing walls « The resulting impacts are the harder, the higher the desired pressures are and consequently the lower the play of the pump is.

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The object of the invention is to remedy this deficiency and to create a capsule pump of the type mentioned, which works without valves even at higher pressures and at which significantly reduces the shocks when the ring piston rotates are. This object is first achieved in that the slide tongue and the Gleitbacken'Kanäle to connect the pressure chamber with the pressure line and the suction chamber have with the suction line and as a control slide for closing the channels during the passage of the Ring pistons are formed by the dead center position.

Check valves are therefore unnecessary in the pump according to the invention because the slide tongue and the sliding jaws fulfill their task. This significantly simplifies the pump. Also thanks to the invention the volume of the pump chamber is fully used, while a certain dead space is unavoidable in the known designs.

In itself, it would be sufficient to shut off the pressure line during the passage of the annular piston through the dead zone. Advantageously, however, the suction line is shut off in the same way, so the slide tongue and the sliding jaws are ° symmetrically designed, · In this way can by simple

O ₅ Reversal of the direction of rotation of the pump, the conveying direction cp can be reversed.

C In a simple embodiment of the invention,

the slide tongue has a locking surface on both sides,

which covers the channel in the sliding block in the dead center position of the annular piston. The locking surfaces on the The slide tongue and the channels in the sliding jaws are advantageously rectangular.

Another feature of the capsule pump according to the invention consists in that a sliding ring is inserted between the drive eccentric and the annular piston, one of which is axial Ring surface is elastically deformable. In this way, the annular piston is held axially displaceably on the eccentric, so that he can evade bumps or inaccuracies. So should the circle described by the annular piston do not coincide exactly with the pump housing bore, the ring piston fits due to the elastic deformability of the slip ring to the given conditions.

The sliding ring advantageously has at least one groove into which a sealing ring made of elastic material is inserted that is thicker than the groove depth. The sealing ring protrudes from the groove with its outer ring surface, see above that there is elastic play between the annular piston and the sliding ring. The elasticity of the sealing ring or The sliding ring, in conjunction with the fit between the annular piston and the housing bore, determines the amount generated by the pump Pressure. By replacing the sealing ring, it is possible to switch to a different pressure in a single manner will.

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For radial sealing of the annular piston against the drive eccentric is the annular piston on its upper side and on its underside with at least one annular groove provided, in which a sealing ring is inserted. It is advantageous between the bottom of the groove and the inside of the Dxchtungsrxnges a ring of greater elasticity, preferably an O-ring inserted due to the elasticity of the The latter ring determines the contact pressure of the sealing ring.

Further advantages and features of the invention emerge from the description of an exemplary embodiment the drawing.

Fig. 1 shows schematically a plan view of the pump, partially cut, with the upper case cover removed.

Fig. 2 shows schematically a section along the line II-II in Fig.l.

The annular piston 1 is guided within the cylindrical housing bore 2 on the eccentric 3. A slide tongue 6, which is secured by the dowel pin 5, is inserted into a radial recess in the annular piston. The slide tongue 6 is slidably guided between two sliding jaws 7 which are inserted into a cylindrical housing. When turning the

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Eccentric 3, the annular piston 1 rolls on the cylindrical housing wall 2, the slide tongue ό slides back and forth between the sliding jaws 7, while the slide tongue 6 and the sliding jaws 7 at the same time have an oscillating rotary movement carry out.

The slide tongue ό is provided on its two sides facing the sliding jaws 7 with two channels 8 each, which at the end of the slide tongue facing away from the annular piston are connected to one another and thereby form a closure surface enclose between them. The sliding blocks 7 are provided with radial bores 9, which are connected to the inlet or outlet 11.12 are connected. The channels 9 in the sliding jaws as well as the slide surface are rectangular. In the The dead center position of the annular piston closes the edge of the closure surface facing away from the annular piston exactly with that of the annular piston facing away from the edge of the bore 9. The channels 8 in the slide tongue 6 taper in Direction towards the annular piston 2. Your edge facing the annular piston closes exactly with it in the dead center position the ring-shaped housing wall, so that also hereby the supply lines from the pump chamber in the dead center position are separated.

A sliding ring 13 is inserted between the eccentric 3 and the annular piston 1. In a groove de «sliding ring 13 is a

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Sealing ring 14 used. With its outer surface resting on the inner surface of the annular piston 1, the sealing ring 14 protrudes from its receiving groove. There is therefore a radial, resilient play between the annular piston 1 and the sliding ring 13. As a result, the annular piston can evade inaccuracies in the congruence between its orbit and the housing bore. The pump pressure is determined by the contact pressure between the annular piston and the sealing ring 14 and thus between the annular piston and the housing wall 2. Due to the oval or circular cross -sectional shape of the sealing ring 14, the spring characteristic during the radial displacement of the annular piston is determined. The axial height of the sliding ring 13 is smaller than that of the annular piston 1.

The annular piston 1 is provided with a rectangular annular groove each on its upper side and on its lower side. In these Grooves are a rectangular sealing ring 15 and under this an O-ring 16 is inserted. This makes the annular piston 1 guided between the housing base and the housing cover and sealed with respect to the eccentric 3.

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Claims (11)

-Z- patent (protection) claims 1. J capsule pump with an annular piston guided in a cylindrical housing on an eccentric, rolling on the circumference of the housing during rotation of the eccentric, on which one sealingly between two sliding jaws, which have the shape of cylinder sections and in a cylindrical bore around one to Swing eccentric parallel axis, guided radial slide tongue is attached, which divides the sickle space enclosed by the housing and the annular piston into a pressure chamber connected to the pressure line and a suction chamber connected to the suction line, characterized in that the slide tongue (6) and the sliding blocks (7) have channels (8,9) for connecting the pressure chamber middle pressure line (11,12) and the suction chamber with the suction line (11,12) and as a control slide for closing the channels during the passage of the annular piston (l) the dead center position are formed. 2. Capsule pump according to claim 1, characterized in that the slide tongue (6) has a closure surface on both sides (10), which in the dead center position of the annular piston (1) covers the channel (9) in the sliding jaw (7). 3. Capsule pump according to claim 2, characterized in that the closure surfaces (10) on the slide tongue (6) and the channels (9) in the sliding blocks are rectangular. 009849/0009 -8- ^: ■ 4 · capsule pump according to claims 1-3 »characterized in that that the annular piston (1) facing edges (17) of the channels (8) of the slide tongue (6) in the dead center position of the annular piston close to the housing bore (2). 5 capsule pump according to claim 1, characterized in that that between the drive eccentric (3) and the annular piston (1) a sliding ring is used, one axial annular surface of which is elastically deformable. 6. Capsule pump according to claim 5, characterized in that the sliding ring (13) has at least one groove in a ring (14) made of elastic material is inserted, which is thicker than the groove depth. 7. Capsule pump according to claim 6, characterized in that the ring (14) has an oval or circular cross section Has. 8. Capsule pump according to claims 5-7, characterized in that that the axial height of the sliding ring (13) is smaller than that of the annular piston (l). 9. Capsule pump according to at least one of the preceding claims, characterized in that the annular piston (l) carries on its upper side and on its lower side at least one sealing ring (15), which is preferably inserted into an annular groove. -9- 009849/0009 Ίο 10. Capsule pump according to claim 9 »characterized in that that between the bottom of the groove and the inside of the sealing ring a ring (16) of greater elasticity, preferably an O-ring (18) is inserted. 11. Capsule pump according to at least one of the preceding Claims, characterized in that the slide tongue (6) is connected to the annular piston (1) by an axial dowel pin (5) connected is. -10-. 009849/0009