DE2429340A1 - Universal joint for helical screw type pump - has stiff sleeve inside outer protective flexible membrane - Google Patents

Abstract

The pump has a helical screw rotor turning inside a casing with a female helical thread. The rotor is driven from a driving shaft through a lay shaft with universal joints (36). Each joint has two housing ends (46) connected to transmit rotation while allowing axial misalignment. To prevent fluid entering the joint the latter is surrounded by a thin wall flexible membrane (50) the ends of which are fixed to the housing ends (46). The membrane has a recess (64) in its centre in which a thin steel sleeve (66) is inserted. The housing ends (46) have projecting caps (72) with a gap (74) between them which is bridged by the sleeve (66) in the membrane. This prevents the flexible membrane being squeezed between moving parts of the coupling.

Description

3 e 5- c h r e i b u n g swivel joint between the Pump parts The invention relates to a swivel joint between those rotating in the flow of conveyed goods Pump parts, in particular of eccentric screw pumps, in which a joint space between two attached to one of the pump parts and coupled to one another in an angularly movable manner Housing halves closed by a hose-like cuff attached to them is.

In such swivel joints, the hose-like cuff has the task of to seal the joint space against the conveyed goods so that these are arranged in the joint space Cannot destroy joint parts through corrosive or abrasive effects. If the joint parts require lubrication, the cuff has the further task of to seal the joint space against loss of lubricant. The.between in the flow of conveyed goods rotating pump parts, in particular angular deflections occurring in eccentric screw pumps may only have the order of magnitude of about 3 to 100, but there is still a need -to use a hose-like cuff that is as thin as possible and therefore flexible, there is only one such cuff in the case of the constantly rotating in all directions Angular deflections can have a satisfactory life. With a thin one A cuff made of a soft elastomer, however, runs the risk of that they are affected by the pressure of the pumped medium or as a result of the impact of hard components of the The pumped medium is pressed into the joint space and there between the housing halves or other joint parts is gradually crushed or crushed. One was therefore previously forced to use swivel joints of the type described at the outset, such as those for example from the German utility model 1 996 830 are known, with relatively thick-walled To provide cuffs, however, from the as a result of the angular deflections in them occurring internal tensions have in many cases been destroyed before those of their enclosed joint parts had reached a reasonable service life.

The invention is based on the object of providing a swivel joint of the initially introduced to design described genus in such a way that their cuff also then largely is secured against damage if it is made of soft material and only has a small wall thickness.

This object is achieved according to the invention in that on the inside the cuff, at a distance from its attachment points on the housing halves, a substantially rigid sleeve is arranged with a gap between bridged the radially outer parts of the housing halves with radial play.

This ensures that the cuff comes into contact with the edges of the outer parts of the housing halves and the possibility that the sleeve between the Housing halves could be squeezed is also excluded.

The sleeve can be vulcanized or vulcanized onto the inner wall of the sleeve be glued on. However, it is particularly useful if the sleeve is in an annular Recess of the cuff is engaged from the inside. For installing the sleeve the cuff can also be pulled over the sleeve because of its elasticity, if this is completely rigid.

In a preferred embodiment of the invention, the sleeve is composed of two sheet metal rings with an L-shaped cross-section, the each one in the gap between the radially outer parts of the housing halves Have game protruding flange and welded together at these flanges are.

The flanges stiffen the socket and thus prevent violent Deformation of the socket due to improper storage or handling prior to installation the swivel joint into a pump; but even without the flanges, the sleeve offers, especially if it is made of sheet steel, an effective protection for the cuff also during the transport, during which previously unnoticed damage occurred are that in the operation dam to the failure of the affected swivel joint and thus the entire Have led the pump.

Especially with swivel joints with a joint space of large axial Expansion, it is advantageous if, according to a further feature of the invention, the Housing halves each have a sleeve pushed over as radially outer parts. the both sleeves limit the gap bridged by the sleeve and offer the sleeve defined contact surfaces in the event that it is due to uneven loading should come to any contact between the sleeve and the sleeves.

In the case of swivel joints of the type described above, it is expedient to as known from the aforementioned utility model 1 996 830, from the ends of the sleeve at least one between an annular shoulder of the associated housing half and a bowl-like clamping ring clamped on the outer face of the Housing half is held adjacent and around one end of the associated Pump part extends, which is inserted in a fitting bore of the housing half.

Such a swivel joint can in addition to the inventive features described or independently of this, be further developed according to the invention in that the or each half of the housing is provided with an external thread extending the fitting bore having tubular extension on one of the clamping ring against the end face the nut that is tightening the housing half is screwed on.

It is also advantageous if each of the sleeves mentioned on their from the end facing away from the sleeve has an inwardly projecting collar which lies on a shoulder of the annular shoulder of the associated housing half.

The dismantling of the swivel joint according to the invention is made easier, when the length of the nut is greater than the axial distance between the external thread of the extension and a pressure shoulder provided on the associated pump part. This makes it possible to remove the pump part by unscrewing the nut without additional To pull means out of the fitting bore in the associated housing half0 The invention is independent of the type of joint parts arranged in the joint space Joint parts can according to the mentioned utility model 1 996 830 a cross pin with corresponding bushings include; but the joint parts can also be toothed have, as they are known for example from DT-PS 1 302 725, or it Joint parts made of rubber can be provided.

The invention is described below with reference to schematic drawings of exemplary embodiments explained in more detail. It shows: FIG. 1 a vertical longitudinal section by an eccentric screw pump with two swivel joints; Fig. 2 a single, half-sided swivel joint drawn in axial section; Fig.3 another swivel in the half-sided axial section; and FIG. 4 is a view of parts of the swivel joint shown in FIG.

The main assemblies of the eccentric screw pump shown in Fig. 1 are a drive device 12, an inlet part 14, a pumping device 16 and an outlet 18e The drive device 12 has a bearing housing 20 with ball bearings 22 in which a drive shaft 24 is mounted.

The drive shaft 24 protrudes from the bearing housing on both sides 20 out; it has a stub shaft on the right side of the bearing housing 20 in FIG 26, which can be coupled to a motor, not shown. On the left in Fig At the end of the bearing housing 20, the drive shaft 24 extends through a shaft seal 28 through into the inlet part 14.

The inlet part 14 has a cylindrical one attached to the bearing housing 20 Tube 30 into which an inlet port 32 opens.

In the tube 30, a cardan shaft 34 is arranged, which at one of them Ended by a swivel 36 with the drive shaft 24 and at its other end by a further, identical swivel joint 36 with a helical rotor 38 is connected.

The rotor 38 is as a movable part of the pumping device 16 of a stator enclosed, which has a tubular stator casing 40 vulcanized into it Has lining 42 made of an elastomer. The stator shell 40 is within one Stator housing 44 is arranged, which connects the outlet 18 to the tube 30. The lining 42 forms a two-start internal thread; the rotor 38 performs circular movements therein around the stator axis, while it is at the same time around its own, with a certain Eccentricity rotates parallel to the stator axis arranged rotor axis.

Two embodiments of the swivel joints which differ in detail 36 are shown in FIG. 2 on the one hand and FIGS. 3 and 4 on the other hand. Together In both embodiments, each swivel joint 36 has two identical housing halves 46, which include a joint space 48 between them and through therein arranged, described below joint parts rotatably, but angularly movable are connected to each other. The joint space 48 is through a thin-walled, hose-like Cuff 50 completed with both ends of the two housing halves 46 is attached. For this purpose, the two housing halves 46 point in the vicinity their outer end face 52 One ring-shaped each with an undercut executed shoulder 54, together with a bowl-shaped opposite it Clamping ring 56 has an annular cavity with a dovetail cross-section limited. In the cavity formed in this way on each housing half 46 is a thickening 58 formed at the associated end of the cuff 50 as well a corresponding thickening 60 of an outer sleeve 62 is clamped. The outer Cuff 62 is made of an elastomer resistant to the conveyed material, while the sleeve 50 is resistant to lubricants, at least in the embodiment can be provided in the joint space 48 according to FIG.

The cuff 50 has in its central area on its inside an annular recess-64, in which a sleeve 66 (Fig. 2) or 66 (Fig. 3) is locked. The sleeve 66 consists of two cylindrical sheet metal rings 68, which each have a radially inwardly projecting flange and with these flanges 70 Are welded back to back. The sleeve 66 'shown in Figure 3 is made in one piece from sheet steel and has one in the middle inwardly protruding bead 70 '.

On each housing half 46 is a radially outer part 72 thereof sleeve attached; each of these sleeves protrudes into the socket 66 or 66 ' into it, but at least not touch it when the swivel joint is in Fig. 2,3 and 4 is drawn in the extended position and the cuffs50 and 60 are not loaded by external radial forces. The two designed as sleeves outer parts 72 leave a gap 74-free between them, in the case of the embodiment 2, the flanges 70 of the sleeve 66 protrude with play. The bead 70 'of the Sleeve 66 'in FIG. 03 is arranged in the radially outer region of the gap 74 without the sleeve-shaped outer parts 72 of the housing halves 46 to touch.

Each of the housing halves 46 has its shoulder on the radially outer edge 54 has a shoulder 76 which has a radially inwardly projecting collar 78 of the sleeve-shaped outer part 72 accommodates, so that this covenant by the associated In clamping ring 56 pressure exerted over the end portions of the collars 50 and 62 his position is recorded.

Each housing half 46 also has an axial, in the examples shown frustoconical fitting bore 80, which a corresponding designed end of the associated circulating pump part, namely either the drive shaft 24 or the cardan shaft 34 or the rotor 38 with a press fit. The fitting bore 80 of each housing half 46 is extended by a tubular extension 82, the has an external thread 84 and carries the associated clamping ring 56.

A nut 86 is screwed onto the external thread 84, which the The clamping ring 56 presses against the adjacent end face 52 of the housing half 46. the Nut 86 also encloses a clamping sleeve 88, which is in a transverse bore in the extension it sits 82 and the end of the associated rotating pump part 24 or 34 or 38. The space enclosed by the nut 86 is sealed with sealing rings 90.

The pump part 24 or 34 or

38 points at a distance behind the nut which is less than that Length of the nut itself is a push-off shoulder 91 on.

If the nut 86 is loosened, it first releases the clamping sleeve 88 free so that it can be removed. If you screw the nut 86 further from the associated extension 82, it presses against the push-off shoulder 91 and pulls thus the end of the relevant rotating pump part from the associated housing half 46 from.

The swivel joint shown in FIG. 2 has one in the joint space 48 arranged cross pin 92, which is in two bearing eyes 94 of the two housing halves 46 is stored. In the case of the swivel joint shown in FIGS. 3 and 4, however, are for the transmission of torques and axial forces buffer 96 made of an elastomer arranged in chambers which are offset from one another at equal angular intervals, interdigitated fingers on the two housing halves 46 are limited.

Expectations:

Claims (7)

Requirements swivel joint between pump parts circulating in the flow of conveyed goods, especially of eccentric screw pumps, in which a joint space between two each attached to one of the pump parts and coupled to one another in an angularly movable manner Housing halves closed by a hose-like cuff attached to them is indicated by the fact that on the inside of the cuff (50), at a distance from their attachment points on the housing halves (46) a substantially rigid sleeve (66; 66 ') is arranged, which has a gap (74) between the radially outer parts (72) of the housing halves (46) with radial play bridged. 2. Swivel joint according to claim 1, characterized in that g e k e n n -z e i c h n e t that the sleeve (66; 66 ') in an annular recess (64) of the sleeve (50) is engaged from the inside. 3. Rotary joint according to claim 1 or 2, characterized in that g e k e n n -z e i c h n e t that the sleeve (66) consists of two sheet metal rings (68) of L-shaped cross-section is composed, each one in the gap (74) between the radially outer Have parts (72) of the housing halves (46) with clearance protruding flange (70) and are welded together at these flanges. 4. Swivel joint according to one of claims 1 to 3, characterized g e k e n It is noted that the housing halves (46) as radially outer parts (72) each have a sleeve pushed over. 5. Swivel joint between pump parts rotating in the flow of conveyed goods, especially of eccentric screw pumps, in which a joint space between two each attached to one of the pump parts and coupled to one another in an angularly movable manner Housing halves is closed by a hose-like cuff, of which At least one ends between an annular shoulder of the associated housing half and a bowl-like clamping ring is clamped on the outer end face the housing half is held adjacent and around one end of the associated Pump part extends, which is in a fitting bore of the housing half-is, in particular according to one of claims 1 to 4, characterized in that the respectively. Each housing half (46) has a fitting bore (80) extending External thread (84) provided tubular extension (82) on which one the Clamping ring (56) against the end face (52) of the housing half (46) tensioning nut (86) is screwed on. 6. Swivel joint according to claims 4 and 5, characterized in that g e -k e n n z E i c h e t that each sleeve (72) facing away from the sleeve (66; 66 ') on its End has an inwardly projecting collar (78) which is on a shoulder (76) the annular shoulder (4) sits. 7. Rotary joint according to claim 5 or 6, characterized in that g e k e n n -z e i c h n e t that the length of the nut (86) is greater than the axial distance between the external thread (84) of the extension (82) and one on the associated pump part (24; 34; 38) provided forcing shoulder (91).