DE102006058166A1 - Swivel head for pin joints on connecting rod in eccentric screw pump. It has transverse bores fitted with bushes prevented from moving transversely by stops which cooperate with stops on bore through rod for pin - Google Patents

Abstract

Swivel head is used on the pin joints (8a) at the ends of a connecting rod (6) between the rotor (2) and drive shaft of an eccentric screw pump. It has two transverse bores (11), into which the ends of a pin (13) fit after passing through the rod. These are fitted with bushes (14) which are prevented from moving transversely by stops (18) which cooperate with stops (17) on the bore passing through the rod.

Description

The The invention relates to a joint head for a pin joint of an eccentric screw, wherein the eccentric screw pump, a stator, a rotor and a drive shaft and between the rotor and the drive shaft, a coupling rod having end-side coupling pin. The coupling rod is above each a pin joint on the one hand the rotor and on the other hand the drive shaft hinged. The pin joint points to the rotor or drive shaft connected condyle with a Einsteckaufnahme for the assigned Coupling pin of the coupling rod, said condyle at least two diametrically opposite Rod end holes and the coupling pin at least one coupling pin bore have, wherein for connecting the joint head with the coupling rod in the joint head bores and the coupling pin bore a hinge pin is inserted and wherein in the condyle bores a guide bushing is introduced, in which the associated hinge pin end of the Joint bolt is stored. - Of the Coupling pin can be pushed by means of a on the joint head joint sleeve be assured. The pin joint can be completely encapsulated with a collar be. In this way it is prevented that pumped material in the pin joints entry.

It is known, eccentric screw pumps with such rod ends with to operate a lubricant which is e.g. in the cuff encapsulated area is arranged. In the known from practice Rod ends, where the guide bush e.g. in the press fit is inserted into the condyle hole exists the danger that the lubricant exchange or the lubricant circulation within the pin joint is obstructed. This is where the invention sets one.

Of the Invention is based on the object, a joint head for a pin joint an eccentric screw pump of the type described above to create which with a simple and inexpensive construction optimal Lubricant exchange in the area of a pin joint guaranteed.

to solution this object teaches the invention in a generic condyle for a pin joint an eccentric screw pump of the type described above, that the insertion depth of the guide bush limited in the hinge hole towards the Einsteckaufnahme out or fixed or defined. This can be the joint head bore and / or the guide bush at least one limiting the insertion depth of the guide bush or Having the insertion depth defining stop. - doing so The invention is based on the knowledge that a flawless Guaranteed lubricant exchange within a pin joint can be if for that it is ensured that there is always a sufficient gap between the in the guide head inserted the condyle on the one hand and the inserted into the Einsteckaufnahme coupling pin the coupling rod on the other hand remains. This will be part of the Invention achieved in that the insertion depth of the in the joint bore inserted guide bush e.g. is limited by a stop, so that as it were a defined Gap remains. It no longer exists the danger that a pressed into the conical bore guide bushing as far as pressed in the direction of the Einsteckaufnahme that a sufficient lubricant exchange is prevented. Plug in the guide bush in the condyle well in the context of the invention quite generally means "introduction", i. also screwing in, Screwing or the like, i. Insertion depth means "penetration depth", e.g. also insertion depth or screwing depth or the like.

Provided The pin joint is encapsulated with a cuff, usually used a suitable lubricant, wherein on the cuff penetrate an A. of the conveyed goods or expulsion of the lubricant and consequently a mixing of the lubricant with the conveyed material is avoided. However, the invention also includes embodiments in "open" construction, in which is waived on a cuff. Such an open design offers itself, for example, if the conveyed itself the function take over a lubricant can, if e.g. Oils or Fats promoted become.

advantageous Further developments of the invention are explained below: is appropriate if the joint head bore on the one hand at least a first stop and the guide bush on the other hand have at least a second stop, in which case the first stop of the joint head bore with the second stop the guide bush corresponds. Preferably, the stop, e.g. the first stop and / or the second stop, as substantially transversely to the insertion direction formed extending stop shoulder.

Of the first stop can in an advantageous development than in the joint head bore cantilevered inner shoulder be formed. In such an inner shoulder may be one or more spatially limited nose-like projections act. Preferably, however, the inner shoulder is on the inner peripheral side partially or completely circumferential annular shoulder formed. Inner circumference side means that this inner shoulder into the interior of the condyle bore and consequently in the direction of the guide bush protrudes.

Accordingly can the second stop of the guide bushing transversely to the direction of insertion Outside forward collar and as outward protruding outer shoulder be educated. Also this outer shoulder can be considered at least one spatially be formed limited nose-like projection, or it may be several such nose-like projections be provided. Preferably, the outer shoulder is the outer peripheral side partially or completely circumferential annular shoulder formed. Outside perimeter means that the ring shoulder is different from the guide bush outward and consequently extends in the direction of the condyle bore.

It is within the scope of the invention that the width of the first stop and the width of the second stop is substantially identical are, i. the geometric configurations of the two stops are coordinated.

The However, the invention also includes embodiments in which e.g. only the joint bore with an inside projecting shoulder or an inside protruding stop is equipped while the guide bush without appropriate shoulders, so then, for example arranged in the insertion end of the guide bush forms the stop.

In modified embodiment the invention, the stop or the attacks of a on the inside conical conical bore and / or of one outside conically shaped guide bush educated. So it may be appropriate if the conical head bore is tapered on the inside (or regionally conical) is formed and thus a tapering in the insertion direction Inner diameter has. Then it is convenient if the guide bush externally is conical (or locally conically formed on the outside is) and thus a rejuvenating in the insertion direction outer diameter having. Also by this configuration is a defined insertion depth realized, so that a perfect lubricant exchange ensured is.

The guide bush not only by insertion, e.g. by means of a press fit, be introduced into the joint head bore. The invention includes also such embodiments, where the guide bush is introduced into the joint head bore in a different way, e.g. is screwed in. Then the condyle hole can with a Internal thread and the guide bush with a corresponding external thread be equipped.

Of the Joint pin is preferably at least in the region of the coupling pin bore designed as a spherical hinge pin. Then it is useful if the coupling pin bore at least partially (essentially) is cylindrical. However, the invention also includes embodiments, where the hinge pin (in the area of the coupling pin bore) is cylindrical or substantially cylindrical. Then it is useful if the coupling pin bore at least partially spherically formed is.

object The invention is also a pin joint assembly with a joint head of the type described. Bolt joint assembly means an aggregate, which at least one condyle, one inserted into the condyle Has coupling rod and a hinge pin. It can in the Coupling pin bore of the coupling pin a coupling pin bushing be used.

It also includes the invention a rotor for an eccentric screw pump with such a condyle as well a drive shaft for an eccentric screw pump with such a condyle.

Finally is The invention also an eccentric screw pump with at least one Stator, a rotor and a drive shaft and an intermediate the rotor and the drive shaft arranged coupling rod with end-side Coupling pin, wherein the coupling rod via a pin joint on the one hand the rotor and on the other hand articulated the drive shaft is, with the pin joint one to the rotor or the drive shaft connected condyle with a Einsteckaufnahme for the assigned Has coupling pin of the coupling rod. The condyle is formed in the manner described.

in the The invention will be described below with reference to a purely exemplary embodiment drawing closer explained. Show it

1 an eccentric screw pump in a schematic representation,

2 a section of the object after 1 and

3 the object after 2 in another working position and

4 a cross section through the object after 3 ,

In the figures, an eccentric screw pump for conveying flowable media is shown schematically. Flowable media means low to highly viscous media, eg liquids, viscous products but also crushed bulk materials. Such an eccentric screw pump has a stator in its basic structure 1 , a rotor designed as a worm 2 and a drive, of which only the drive shaft 3 is shown. It also recognizes the housing 4 the eccentric screw pump with a Pumpgutaufgabe, eg as a funnel 5 can be trained. Between the rotor 2 and the drive shaft 3 there is a coupling rod 6 with end coupling pin 7a . 7b , The coupling rod 6 is with its one end over a pin joint 8a to the rotor 2 and with its other end over a pin joint 8b to the drive shaft 3 connected. The one bolt joint 8a has one to the rotor 2 connected condyle 9a and the other pin joint 8b one to the drive shaft 3 connected condyle 9b on. These rod ends 9a . 9b each have a plug-in receptacle 10 for the respective associated coupling pin 7a . 7b the coupling rod 6 on.

The condyle 9a . 9b has at least two diametrically opposite joint head bores 11 on. The coupling pin 7a . 7b has at least one coupling pin hole 12 on. To connect the condyle 9a . 9b with the coupling rod 6 is each a hinge pin 13 provided, which in the condyle holes 11 and in the coupling pin hole 12 is inserted and therefore these holes 11 . 12 penetrates.

According to 2 and 3 is in each of the condyle holes 11 one guide bush each 14 used, being in this guide bushing 14 the associated hinge pin end 19 of the hinge pin 13 is stored. It can also be seen that to secure the hinge pin 13 in the condyle 9a . 9b a joint sleeve 15 is provided, which end on the condyle 9a . 9b is pushed and slipping out of the hinge pin 13 guaranteed.

The 2 and 3 show the condyle 9a in the area of the rotor 2 , The condyle 9b in the area of the drive shaft 3 can be constructed in the same way. This is not shown in detail.

Furthermore, in 2 indicated that the pin joint 8a . 8b with a cuff 16 can be encapsulated, which is made of plastic, for example. It should be noted that within the scope of the invention, a lubricant for lubrication of the pin joints 8a . 8b is used. In the illustrated embodiment prevents the cuff 16 the penetration of the lubricant and the penetration of pumped material in the region of the joints, so that a mixing of lubricant on the one hand and pumping material on the other hand is avoided. However, the invention also includes embodiments in which a cuff is dispensed with. These can be in particular eccentric screw pumps for the promotion of such media, which can even take over the function of a lubricant, if, for example, fats or oils are promoted.

According to the insertion depth of the guide bush 14 into the condyle hole 11 in the insertion direction R to the insertion receptacle 10 limited or fixed. The insertion direction is indicated by the arrow R. For this purpose, the joint head bore 11 and the guide bush 14 the penetration depth limiting attacks 17 . 18 on. In the figures it can be seen that the joint head bore 11 a first stop 17 while the guide bushing 14 a second stop 18 so that the guide bush 14 so deep into the condyle hole 11 can be inserted until the second stop 18 the guide bush 14 against the first stop 17 the condyle hole 11 strikes. It is in 2 indicated that in this way it is ensured that in the field of insertion shots 10 ie between coupling pins 7a . 7b (or coupling pin bushing 20 ) on the one hand and guide bushing 14 On the other hand defined or sufficient column S are formed, which ensure a perfect exchange of lubricant. It is reliably avoided that the guide bushes 14 so far into the condyle holes 11 be plugged that lack of gap formation would prevent an exchange. Taking into account the additional fixation of the hinge pin by means of the attachable joint sleeve of the hinge pin is fixed as it were positively due to the attacks described in a defined axial position.

The first stop 17 the condyle hole 11 is here as a stop shoulder extending substantially transversely to the direction of insertion 17 educated. In the case of this stop shoulder, the exemplary embodiment is an inner shoulder, wherein this inner shoulder is an annular shoulder that completely surrounds the inner circumference 17 is trained.

Accordingly, the second stop 18 as from the guide bush 14 outer shoulder projecting transversely to the direction of insertion 18 formed and as the outer circumference completely circumferential annular shoulder 18 , The width of the inner shoulder and the width of the outer shoulder are essentially identical.

Furthermore, it is shown in the figures that the hinge pin 13 as crowned hinge pin with end hinge pin heads 19 is trained. The coupling pin bore 12 is substantially cylindrical, so that the desired relative movement between the coupling rod 6 on the one hand and rotor 2 or drive shaft 3 on the other hand is made possible. This will be based on a comparative analysis of the 2 and 3 as well as on 4 directed. 3 respectively. 4 show the object 2 with an angle α or β pivoted coupling rod 6 ,

Incidentally, it can be seen in the figures that in the coupling pin bore 12 a coupling pin bushing 20 is used, which forms the described cylindrical inner surface.

In the exemplary embodiment, the embodiment is in the range of in 2 above and below illustrated guide bushes etc. identical.

Incidentally, the not in 2 illustrated embodiment in the region of the joint 8b the drive shaft 3 the in 2 illustrated embodiment in the region of the joint 8a of the rotor 2 ,

Finally, in 2 shown that (optional) in the coupling pin 7a . 7b , For example, at least one flushing bore at the end or front side 21 may be incorporated, which further improves the lubricant exchange. This can be on the outer circumference in the coupling socket 20 an annular groove 22 or the like may be introduced. In addition, one with the flushing hole 21 the coupling pin 7a . 7b aligned flushing bore 23 in the coupling socket 20 be introduced.

Claims (15)

Rod end for a pin joint of an eccentric screw pump, wherein the eccentric screw pump is a stator ( 1 ), a rotor ( 2 ) and a drive shaft ( 3 ) as well as between rotor ( 2 ) and drive shaft ( 3 ) a coupling rod ( 6 ) with end coupling pins ( 7a . 7b ), wherein the coupling rod ( 6 ) via a respective pin joint ( 8a . 8b ) on the one hand the rotor ( 2 ) and on the other hand, the drive shaft ( 3 ), wherein the pin joint ( 8a . 8b ) one to the rotor ( 2 ) or the drive shaft ( 3 ) connected condyle ( 9a . 9b ) with a plug-in receptacle ( 10 ) for the associated coupling pin ( 7a . 7b ) of the coupling rod ( 6 ), wherein the condyle ( 9a . 9b ) at least two diametrically opposite joint head bores ( 11 ) and the coupling pin ( 7a . 7b ) at least one coupling pin bore ( 12 ), wherein for the connection of the condyle ( 9a . 9b ) with the coupling rod ( 6 ) into the condyle bores ( 11 ) and the coupling pin bore ( 12 ) a hinge pin ( 13 ) and wherein in at least one of the joint head bores ( 11 ) at least one guide bush ( 14 ) is arranged, in which the associated hinge pin end of the hinge pin ( 13 ), characterized in that the insertion depth of the guide bush ( 14 ) in the joint head bore ( 11 ) is limited towards the Einsteckaufnahme towards or fixed. Articulated head according to claim 1, characterized in that the joint head bore ( 11 ) and / or the guide bush ( 14 ) at least one insertion depth of the guide bushing ( 14 ) limiting or defining stop ( 17 . 18 ) having. Articulated head according to claim 2, characterized in that the joint head bore ( 11 ) at least one first stop ( 17 ) and the guide bush ( 14 ) at least one corresponding to the first stop second stop ( 18 ) exhibit. Articulated head according to claim 2 or 3, characterized in that the stop, for example the first stop ( 17 ) and / or the second stop ( 18 ), as is formed substantially transversely to the insertion direction extending stop shoulder. Articulated head according to claim 4, characterized in that the first stop as projecting into the joint head bore inner shoulder ( 17 ) is trained. Articulated head according to claim 5, characterized in that the inner shoulder as the inner peripheral side partially or completely encircling annular shoulder ( 17 ) is trained. Articulated head according to one of Claims 4 to 6, characterized in that the second stop is in the form of an outer shoulder projecting outward transversely to the direction of insertion from the joint bush (10). 18 ) is trained. Conical head according to claim 7, characterized in that the outer shoulder as outer peripheral side partially or completely encircling annular shoulder ( 18 ) is trained. Articulated head according to one of claims 3 to 8, characterized in that the width of the first stop ( 17 ) and the width of the second stop ( 18 ) are substantially identical. Articulated head according to claim 2 or 3, characterized that the stop, e.g. the first stop and / or the second Stop, from an internally conical conical bore and / or from an outside conically shaped guide bush be formed. Articulated head according to one of claims 1 to 10, characterized in that the hinge pin ( 13 ) at least in the region of the coupling pin bore ( 12 ) as a spherical hinge pin ( 13 ) is formed and that preferably the coupling pin bore ( 12 ) is at least partially substantially cylindrical. Pin joint assembly for an eccentric screw pump with a pin joint ( 8a . 8b ) with a condyle ( 9a . 9b ) according to one of claims 1 to 11, and with a coupling rod ( 6 ) and a hinge pin ( 13 ). Rotor ( 2 ) for an eccentric screw pump with a joint head ( 9a ) according to one of claims 1 to 11. Drive shaft ( 3 ) for an eccentric screw pump with a joint head ( 9b ) according to one of claims 1 to 11. Eccentric screw pump with a stator ( 1 ), a rotor ( 2 ) and a drive shaft ( 3 ) and between the rotor ( 2 ) and the drive shaft ( 3 ) arranged coupling rod ( 6 ) with end coupling pins ( 7a . 7b ), wherein the coupling rod ( 6 ) via a respective pin joint ( 8a . 8b ) on the one hand the rotor ( 2 ) and on the other hand, the drive shaft ( 3 ), wherein the pin joint ( 8a . 8b ) one to the rotor ( 2 ) or the drive shaft ( 3 ) connected condyle ( 9a . 9b ) with a plug-in receptacle ( 10 ) for the associated coupling pin ( 7a . 7b ) of the coupling rod ( 6 ), characterized by at least one condyle ( 9a . 9b ) according to one of claims 1 to 11.