DE4313457C1 - Pump with intermeshing lobed rotors - has adjusting mechanism in each lobe thrusting elastomer cover at tip outwards and has adjusting body sliding in groove inside lobe - Google Patents

Abstract

Inside each lobe (12) is an adjusting mechanism thrusting the elastomer cover (4) outwards in the radial direction to the outer end (13) of the lobe. The cover can extend over the peripheral surface of the rotor, its thickness (D) increasing steadily towards the outer end of each lobe. There can be an oblong adjusting body (16) sliding in the radial direction inside each lobe. This works in a groove (17), bearing against the cover underside via a flat, domed or roof-shaped surface. USE/ADVANTAGE - Particularly for solids-laden liquid, the life of the rotor lobes is greatly increased.

Description

The present invention relates to a rotary lobe pump, included especially for the promotion of solids the liquids, according to the preamble of the patent saying 1.

Rotary lobe pumps are widely used in practice. they are also referred to as rotor pumps. Rotary lobe pump pen for the promotion of solids containing Liquids used are subject to a star ken wear, especially due to the carried hard fabrics. Therefore known rotary lobe pumps at least least in the area of the outer ends of the displacement wing the rotary lobes are made of an elastomeric material on. This edition is on the displacer example as fastened by screw fasteners and can heavier wear can be replaced.

From DE-PS 37 07 722 is a rotor pump according to the The preamble of claim 1 is known, in which the Outer end of the rotor in each case at least one elastic, low-wear, replaceable plastic or rubber has ledge, the interleaved one in their Longitudinal running intermediate metal profile ver is screwed, the intermediate profiles each thread holding holes for the associated elastic bar, from the outer surface insertable screws sen, and the intermediate profiles in turn each  are screwed to the associated displacement wing, where the screwing of the elastic bar with the intermediate profile relative to the screw connection of the Dim the intermediate profile with the displacer wing is based.

If this well-known rotor pump in practice Operation has proven itself, but is a disadvantage that the rotary lobe or rotor for an exchange of Wear parts are pulled out of the housing got to. Another disadvantage is that the relatively expensive Wear parts are no longer usable.

From DE 92 16 170 U1 a rotary lobe pump is also be knows, in which an elastomeric wear part to the Outer ends of the displacer wing using a T-shaped approach in a correspondingly shaped groove on the the extreme end of the displacement wing can be inserted, so that when the rotary lobe is replaced due to wear does not have to be removed from the housing.

However, the disadvantage remains that it is relatively complex Wear parts must be replaced.

DE-PS 1 47 457 and US 14 07 496 each describe Weil rotary lobe pumps, the pistons of which are in radial direction Slidable sealing strips are provided. The se sealing strips are spring-loaded to the outside preloaded, which means that the system always seals Sealing strips on the opposite housing wall of the pump housing and the associated second turn piston should be reached.

The disadvantage of this known rotary lobe pump pen viewed that the sealing strips are not targeted are adjustable. Just the strength with which the sealing strips are pushed outwards in the radial direction,  is due to the choice of springs below it influenceable; the location of the sealing strips, in particular the The position of its radially outer edge is there not specifically adjustable.

The present invention is based on the object a rotary lobe pump especially for the promotion of To create liquids containing solids which the service life of the displacement wing compared to the State of the art is significantly increased without Ver wear parts must be replaced.  

The problem is solved with a generic Rotary lobe pump with the characteristic features of the Claim 1.

The fact that within each displacer a Nach Adjusting device is arranged with which the edition elastomeric material in a radial direction to the outer end of the displacer is adjustable a compensation for the ver reduced diameter of the rotary lobes without exchanging Wear parts possible.

To get as much elastomeric material to the ver wear-prone parts of the displacement wing for ver to have it is advantageously provided that the Pad made of elastomeric material, the weight surface of each Rotary piston and the radially outer area of the forehead ten of the rotary piston, and that the thickness of the up lay radially on the lateral surface in the direction of the Outer ends of the displacer wing increases steadily.

A preferred embodiment of the invention provides that an elongated adjusting body radially in Rich tion to the outer end in an axially through running first groove in the radially outer region of the Displacer wing from below against the support is supported, the adjusting body with its End faces up to the inside of the forehead support extends sides of the rotary lobe.

This ensures an even readjustment on the whole th axial length of the outer region of each displacer wing allows.

It is provided that the adjusting body on his from the side lying on the support flat or is roof-shaped or bulged.  

The adjustment device suitably comprises a few Sliding wedges with the same helix angles that are in an axial second groove are arranged below the first groove is formed in the displacer wing, the sloping surfaces of the sliding wedges on top of each other lie, the outer sliding in the radial direction wedge rests on the adjustment body; and one by one Adjustment accessible from the front of the displacement wing screw that is screwed into a threaded hole, which extend in the axial direction from the second groove to extends the end face of the displacer wing, wherein the inner sliding wedge in the radial direction by a Movement of the adjusting screw on its broad forehead te is axially displaceable.

This is a stepless and lockable setting the position of the adjusting body possible, which in turn due to the force acting on the elastome pad rem material an adjustment of the outside diameter of the Displacer wing.

Alternatively, it is provided that the adjusting device comprises an eccentric shaft in an axial second Groove is arranged below the first groove in the Displacer wing is molded, and which around an axial Axis rotatable on the front sides of the displacer wing is mounted, one end of the eccentric shaft le accessible from the front of the displacer wing is and a key approach to setting the posi tion of the eccentric; and a locking means for Locking the position of the eccentric, preferably two se the locking means an approach with an external thread the front of the eccentric shaft and one on the outside has thread screwable threaded nut, and the The key approach is a depression with a hexagonal profile.  

This allows the position of the eccentric with the help of a Hex key easily and continuously set who the, again by acting on the adjustment body the diameter of the displacement wing adjustable is.

Yet another alternative is that the Adjustment device comprises an axial second groove inserted below the first groove in the displacer wing is formed, and a through hole which is axially from one end of the second groove to one end of the Displacement wing is designed and close to its outer End an internal thread near the inner end a you tion ring in a groove, a liquid preferably a hydraulic oil, which is the second groove full constantly filling in, and a grub screw that fits with his an area with an external thread into the internal thread screwed in and with its smooth area you tends against the sealing ring, by screwing of the grub screw a radially acting force on the Adjustment body can be applied.

Due to the pad made of elastomeric material, the purpose vulcanized moderately on the metal carrier body tight sealing of the liquid is achieved, so that by screwing in the grub screw only there by dodging that the adjuster in radi aler direction is shifted.

The elastomeric material is expedient rubber or a elastic plastic, which is conveniently ver is low wear.

A preferred embodiment of the invention will now explained in more detail using a drawing. It shows in  

Fig. 1 is a schematic view of the end face of a rotary lobe pump, in

Fig. 2 is an enlarged view of the end face of a displacement wing, in

Fig. 3 shows a section along the line II-II in Fig. 2 and in

Fig. 4 is a plan view of a displacement vanes of FIG. 2.

With reference to FIG. 1, a pump housing 10 is indicated purely schematically, which has an oval cross section with a liquid inlet and a liquid outlet, which are each identified by arrows.

In the housing 10 , two three-bladed rotary pistons 11 are rotated in opposite directions, for which purpose a drive motor and a transmission are present, which is not shown.

The rotary pistons 11 each have three displacement vanes 12 , which are each offset by 120 ° and each have an outer end 13 .

Since the rotary lobe pump is well known as such, on their structure at this point not discussed in detail gene.

Fig. 2 shows an enlarged view of the end face of the displacer wing 12 with the outer end 13 , the entire ge surface of the displacer wing 12 is covered by a support 14 , the thickness D in the radial direction Rich continuously increases from the inside to the outside and in the region of the outer end 13 has its greatest thickness.

Dashed is a first groove 17 in cross section recognizable bar, which is continuously mounted in the support body of the displacer wing 12 and in which a Nachstellkör is slidably inserted by 16 .

Below the first groove 17 , a second groove 19 is formed which, in the exemplary embodiment shown, has a smaller width than the first groove 17 . The second groove 19 is not continuous, but ends at a distance from the end faces of the displacer wing 12 .

Fig. 3 shows the displacer wing 12 , where it can be clearly seen that the pad 14 on the end faces of the United displacer wing 12 in the areas 15 and 15 'extends from the outer end partially over the area of the end faces.

The longitudinal extension of the adjusting body 16 is such that it abuts with its support 14 on the side 16 'and with its end faces on the support and thus is largely secured against slipping in the axial direction, with two screws, for example, a final one in the embodiment shown Fixation of the adjusting body 16 on a sliding wedge 18 , which is arranged below the adjusting body 16 so that its inclined side faces downwards and cooperates with a correspondingly beveled side of a second sliding wedge 18 ', which is slidably inserted into the second groove 19 .

On the wide side of the sliding wedge 18 'and then continuously to the end of the displacer 12 extends a threaded bore 21 which is accessible from the end of the displacer 12 because it is not covered by the pad 14 .

In the threaded bore 21 , a screw 20 is turned, which acts with its free end on the wide side of the sliding wedge 18 'when it is rotated.

Characterized by turning the screw 21, a sliding th of the wedge 18 'on the wedge 18 can be effected, the wedge 18 in Fig. 3 moves up and increases the diameter of the rotary piston.

Fig. 4 shows in a plan view, the contour of the second groove 19, which for example is milled and the continuous groove 17.

Claims (9)

1. Rotary lobe pump, in particular for the conveyance of liquids containing solids, with a pair of rotary lobes ( 11 ) rotating in opposite directions in a cross-sectionally oval pump housing ( 10 ), driven by a drive motor via a gear, each in the intermediate spaces of the other rotary lobe engaging displacement wings ( 12 ) which have at least in the area of their outer ends ( 13 ) a support ( 14 ) made of elastomeric material, the supports each sealing the rotation of the rotary piston ( 11 ) on the inside of the wall of the pump housing ( 10 ) or revolve on the other rotary piston, characterized in that an adjusting device is arranged within each displacer wing ( 12 ) with which the support ( 14 ) made of elastomeric material can be displaced radially in the direction of the outer end ( 13 ) of the displacer wing ( 12 ) is. 2. Rotary lobe pump according to claim 1, characterized in that the support ( 14 ) made of elastomeric material covers the dumbbell surface of each rotary lobe ( 11 ) and the radi al outer region ( 15 , 15 ') of the end faces of the rotary piston and that the thickness D the support ( 14 ) on the lateral surface radially towards the outer ends ( 13 ) of the displacer wing ( 12 ) increases continuously. 3. Rotary lobe pump according to claim 2, characterized in that an elongated adjusting body ( 16 ) ra dial in the direction of the outer end ( 13 ) slidably in an axially continuous first groove ( 17 ) in the ra dial outer region of the displacer ( 12 ) from below is supported on the support ( 14 ), where the adjusting body ( 16 ) extends with its front sides to the inside of the support ( 14 ) of the front side of the rotary piston. 4. Rotary lobe pump according to claim 3, characterized in that the adjusting body ( 16 ) on its from below on the support ( 14 ) adjacent side ( 16 ') is flat or roof-shaped or is arched. 5. Rotary lobe pump according to claim 3 or 4, characterized in that the adjusting device comprises a pair of sliding parts ( 18 , 18 ') with the same helix angles, which are arranged in an axial second groove ( 19 ) which are below the first groove ( 17th ) is formed in the displacer wing ( 12 ), the oblique surfaces of the sliding wedges ( 18 , 18 ') lying on one another, the outer radial wedge ( 18 ) resting against the adjusting body ( 16 ) in the radial direction; and an adjusting screw ( 20 ) which is common from one end face of the displacer wing ( 12 ) and which is screwed into a threaded bore ( 21 ) which extends in the axial direction from the second groove ( 19 ) to the end face of the displacer wing ( 11 ) extends, the inner radial sliding wedge ( 18 ) being axially displaceable by moving the adjusting screw ( 20 ) on its wide end face. 6. Rotary lobe pump according to claim 3 or 4, characterized in that the adjusting device comprises an Exzen terwelle, which is arranged in an axial second groove, which is formed below the first groove ( 17 ) in the displacer wing ( 12 ) and around an axial axis is rotatable on the end faces of the Ver drängerflügels stored (12), wherein the one end face of the eccentric shaft is accessible from the front side of the Verdrängerflügels (12) and comprising a key approach to adjusting the position of Ex zenters; and a locking means for locking the position of the eccentric. 7. Rotary lobe pump according to claim 6, characterized net that the locking means an approach with Außenge winch on the front of the eccentric shaft and one threaded nut that can be screwed onto the external thread points and that the key approach with a depression Hexagonal profile is. 8. Rotary lobe pump according to claim 3 or 4, characterized in that the adjusting device comprises an axia le second groove which is formed below the first groove ( 17 ) in the displacer wing ( 12 ), and a through hole which is axially te from a front face the second groove to an end face of the displacer wing ( 12 ) and near its outer end of an internal thread and near the inner end has a sealing ring in a groove, a liquid speed, which completely fills the second groove, and a grub screw with its area carrying an external thread is screwed into the internal thread and with its smooth area lies sealingly against the sealing ring, a penetrating force being able to apply a radial force to the adjusting body ( 16 ) by penetrating the threaded pin. 9. Rotary lobe pump according to one of the preceding claims che, characterized in that the elastomeric work rubber or an elastic plastic.