DE19927315C2 - Bolt joint for eccentric screw pumps - Google Patents

Description

The invention relates to a pin joint for eccentric screw pumps thereof inner rod end has a diametrical bore at a distance from the head end, in which extends a cylindrical bolt which with its two outer ends Rod ends of the outer joint head penetrates.

The use of progressing cavity pumps in the food and pharmaceutical sectors is offered by the between the helical with round surfaces provided rotor and the stator also provided with round transitions. In this regard, for hygienic reasons, brings in short time intervals necessary cleaning no problems. A problem area when cleaning on the other hand, the area of the couplings between the drive and the pump Joints used for these applications must be cleaned according to the CIP (Cleaning in Place) procedure to be cleaned. This means that the joints without disassembly cleaned when installed in the pump at high flow speed become. For this reason, low-flow zones must be avoided occur especially in the area of seals or fasteners. This is generally prevented by making the joints as open as possible.

DE 37 28 821 C1 describes a bolt joint for an eccentric screw pump without any sealing of the joint. The outer condyle, which is either belongs to the pump rotor or the drive shaft, is connected to the Coupling rod connected. To secure the bolt against moving out the joint has an annular groove on its outer ends semicircular cross section. The end of a turn lies in this ring groove a coil spring. After the coil spring under a certain Preload is inserted between the hinge pin and a slide ring, prevents larger movements in the longitudinal direction of the hinge pin and ensures thus for its stable position in the area of the inner and outer Joint head area.  

DE 39 20 756 A1 relates to a threaded part made of plastic screw-on counter thread part, which provides effective protection against unintentional loosening. It is mentioned here that with many plastics also screw locks through adhesive-like material, such as those with good Success when using metal threads are not usable.  

DE OS 15 28 935 also shows a pin joint connection for Eccentric screw pumps. Here is the coupling rod with the output end the drive shaft and the output end of the pump rotor connected. For Torque transmission is a hinge pin that is diametrically through the coupling rod extends and with its two ends over the cross section of the Protrudes from the head of the pump rotor. The free ends of the hinge pin point Thread on, on the nuts are screwed so that the hinge pin firmly with is connected to the head of the pump rotor. The over the head of the pump rotor or the joint head of the drive shaft are relatively far protruding nuts together with the threaded connections according to the "3 A-" Standard "not permitted as articulated joints in the food sector.

The invention is based on the problem of an open pin joint to improve its functional reliability also under cleaning aspects.

This object is achieved with the features of claim 1. Beneficial Embodiments of the invention are solved by the features of the subclaims.

The applicant has been building and distributing a wide variety of bolt joints for decades. For the pumps used in the food and pharmaceutical industries, in addition to fulfilling the requirements of complete cleaning according to the CIP process, the 3 A standard, there must also be an extremely high level of safety.

The development of the pin joint according to the invention has shown that the Use of bolts that consist of two or more bolt parts, at least between the forehead directly contacting the product to be pumped or contact surfaces of the bolt parts adhesive is introduced with which the Bolt parts can be securely and firmly connected and the glue also prevents product from entering the joints between the parts.

With a corresponding advantageous further development of the invention, this inner end of one bolt part an internal thread, the inner end of the other Bolzens an external thread, the thread in the assembled state are glued together. This is done in this thread, as well as in the following mentioned or described thread, an anaerobic adhesive, the physiological is harmless.  

In a further advantageous development of the invention, both point Bolt parts on a hole in which a grub screw, preferably one Stud screw, screwed in and through an adhesive with the two bolt parts connected is.

In a further advantageous development, a sleeve sits on the two inner ends of the bolt parts, using an adhesive connection for secure Connection ensures and the sleeve itself offers high wear protection.

Further advantages and details of the invention can be seen from the following description of the invention from the preferred in practice Embodiment.

Fig. 1 shows an axial section of an open pin joint.

Fig. 2 shows an open bolt joint with a further bolt variant.

Fig. 3 shows an open bolt joint with a further bolt variant.

The pin joint 10 in FIG. 1 forms the positive connection between the pump rotor 12 and the coupling rod 14 . For this purpose, the inner joint head 16 of the coupling rod 14 has a bore 18, as does the outer joint head 20 of the pump rotor (or the drive shaft) the bore 22 . Through these holes extends the bolt 24 which is composed of the bolt parts 26 and 28 . The bolt thus transmits the driving force transmitted from the drive to the coupling rod ( 14 ) to the outer joint head 20 and thus to the pump rotor 12 . So that the two bolt parts 26 and 28 are firmly and securely connected to each other, each bolt part 26 , 28 has on its inner side a bore 30 and 32, respectively, which are provided with internal threads 34 , 36 into which the external threads 38 , 40 of the stud screw 42 engage . For the assembly of the bolt parts 26 , 28 with the stud 42 , key surfaces are provided on the outer ends of the bolt parts 26 , 28 . The adhesive that ensures the secure fit of the connection of the bolt parts 26 , 28 is introduced into the threads of the internal and external threads 34 , 36 , 38 , 40 and between the contact / end faces 43 , 44 of the bolt parts 26 , 28 .

In the embodiment of the pin joint shown in FIG. 2, the pin part 28 has an internal thread 46 and the pin part 26 has an external thread 48 at the inner end of the respective pin part 26 , 28 . During assembly, adhesive is introduced into the internal / external threads 46 , 48 , as well as into the end faces or contact surfaces 52 . The two bolt parts 26 , 28 are divided asymmetrically in this embodiment. Since the parting plane T of the bolt parts 26 , 28 extends outside the outer joint head 20 in this example, there is no connecting joint in the region of the inner joint head 16 which is exposed to the load on the drive via the coupling rod. In addition, the assembly or disassembly of the hinge pin is facilitated, since the end of the pin part 28 ends with the internal thread 46 on the outer circumference of the outer joint head 20 .

Fig. 3 shows a plurality of bolt portions 54, 56, 58, 60 existing bolt joint 10. The inner bolt part 54 extends diametrically through the inner and outer joint heads 16 , 20 . Two screw-like bolt parts 56 , 58 on the outer joint head fix the inner bolt part 54 . The sleeve 60 made of highly wear-resistant material surrounds the inner bolt part 54 and thus absorbs the force exerted by the coupling rod. As shown in this particular example, the sleeve 60 completely surrounds the inner bolt part 54 . This creates between the two screw-like bolt parts 56 , 58 further end faces or contact surfaces 62 into which the adhesive is introduced. Depending on the strength of the stress, adhesive can be introduced between the end faces or contact surfaces 62 , 64 and additionally into the threads 66 , 68 . Although the sleeve 60 in FIG. 3 covers the entire inner bolt part 54 , a length of the sleeve 60 that is partially limited to the inner joint head 16 can also be used.

Claims (7)

1. Bolt joint ( 10 ) for eccentric screw pumps whose inner joint head ( 16 ) has a diametrical bore at a distance from the head end, in which extends a cylindrical bolt ( 24 ) which penetrates the joint head ends of the outer joint head ( 20 ) with its two outer ends, characterized in that the bolt ( 24 ) consists of two or more bolt parts ( 26 , 28 , 42 , 54 , 56 , 58 , 60 ) and adhesive is introduced at least between the end faces or contact surfaces of the bolt parts which directly contact the product to be pumped is. 2. Bolt joint according to claim 1, characterized in that in each case one of the two bolt parts ( 26 , 28 ) has an internal thread ( 46 ) into which the external thread ( 48 ) of the other bolt part is screwed, with this thread and / or in the Contact surfaces ( 52 ) which are arranged inside or outside the outer joint head ( 20 ), adhesive is introduced. 3. Bolt joint according to claim 1, characterized in that both bolt parts ( 26 , 28 ) have a bore ( 30 , 32 ) into which a common cylindrical pin is inserted, the pin surface and the contact surfaces being connected to one another by means of adhesive. 4. Bolt joint according to claim 3, characterized in that the cylindrical pin is a stud ( 42 ), the threaded portions ( 38 , 40 ) engage in the inner threaded portions ( 34 , 36 ) of the two bolt parts ( 26 , 28 ) and in the thread and the contact surface adhesive is introduced. 5. Bolt joint according to one of claims 1 to 4, characterized in that each bolt part ( 26 , 28 ) in the region of the inner joint head ( 16 ) has either an internal thread or an external thread, with which both bolt parts ( 26 , 28 ) are screwed together . 6. Bolt joint according to one of claims 1 to 5, characterized in that both bolt parts ( 26 , 28 ) in the region of the inner joint head ( 16 ) are surrounded by a sleeve provided with or without an internal thread and also an adhesive layer between the sleeve and the bolt is introduced. 7. Bolt joint according to claim 1, characterized in that the inner bolt part ( 54 ) has threads (66, 68) at both ends, into which the screw-like bolt parts ( 56 , 58 ) are inserted, the inner bolt part ( 54 ) being provided by a sleeve ( 60 ) is covered.