DE202018100587U1 - Stator for eccentric screw machine - Google Patents

Abstract

Stator (11) for eccentric screw machine, in particular eccentric screw pump for liquid, mushy or pasty, homogeneous or inhomogeneous media, with a metallic casing tube (12) which is internally provided with an elastomer lining (15) and an axial direction (17) determines, with a rotation (16) in the form of a cantilever (19) having an internal thread (20) opening with a pin (21) connected to the casing tube (12) and externally threaded, the internal thread (20 ) of the cantilever (19) is engaged with or engageable with the external thread (22) of the pin (21).

Description

The invention relates to a stator for an eccentric screw machine, in particular an eccentric screw pump for liquid pulpy or pasty, homogeneous or inhomogeneous media.

Eccentric screw pumps are basically known. Typically, they have a stator with multiple threads and an elastomeric lining. Exemplary will be on the DE 199 50 257 A1 directed. This document discloses an eccentric screw machine with a stator, which is taken between an input housing and an output housing. The input housing and the output housing are braced against each other by tie bolts.

From the EP 0 987 438 A1 the attachment of a radially projecting away from the stator bolt is known, which serves as rotation for the stator. The pin finds its abutment on one of the tension bolts and thus prevents rotation of the stator. To allow packaging of the stator with shrink film, the outer metallic shell of the stator is first welded in a recess with a nut into which the screw can be screwed after attachment of the shrink film later.

The utility model DE 20 2014 103 665 U1 discloses an anti-rotation, which form by a radially projecting from the stator jacket, welded to the stator jacket pin. The utility model proposes alternatively to weld to the stator casing a socket into which a round pin is pressed or glued.

From the DE 20 1026 104 173 U1 It is known to provide a stator for an eccentric screw machine with a boom for preventing rotation, which is welded to the casing tube of the stator and projects radially from this. The boom may be formed as a pin with upset head, which is welded to the jacket tube.

The torque support is a critical element. Even at higher loads, it must not be damaged, so that the torque support is maintained and the casing pipe is not damaged. Furthermore, stators of eccentric screw machines are parts which have to travel considerable distances from the manufacturer to the user and must be made available for shipment accordingly.

On this basis, it is an object of the invention to design a stator for an eccentric screw machine with improved torque support.

This object is achieved with a stator according to claim 1:
The stator according to the invention is suitable for eccentric screw machine, in particular eccentric screw pump for liquid, mushy or pasty, homogeneous or inhomogeneous media. He has a metallic casing tube which is internally provided with an elastomer lining. The inner lining delimits a longitudinal passage in the form of a double or multiple thread. It serves to receive a rotor which carries an external thread with a different number of threads. The stator is provided with a rotation in the form of a boom, which is detachably connected to the jacket tube. The rotation is designed as a boom, which preferably protrudes radially from the jacket tube and is bolted to a pin which is inextricably linked to the jacket tube. For this purpose, the boom has an opening provided with an internal thread, which is screwed onto an external thread provided on the pin.

The jacket tube may be cylindrical (round cross-section) or have two (or more) threads () oval cross-section, wherein the pin may be attached to a point of the jacket tube to which the jacket tube has a large outer diameter. As a result, the forces to be absorbed by the connection point between the pin and the jacket tube are minimized.

The pin is preferably arranged on the jacket tube in a radial orientation and welded to the jacket tube. For this purpose, the pin may have a head whose diameter is greater than the outer diameter of the pin. The connection between the jacket tube and the pin can be made by a linear welded joint, e.g. a ring seam, or by stud welding and thus a planar weld done. The pin is preferably short compared to the cantilever, i. it is shorter than half, preferably shorter than one third, and more preferably shorter than one quarter of the length of the cantilever to be measured in the radial direction. This allows the boom to be removed from the stator for transport. In addition, the application of protective films, e.g. Shrink films simplified.

The boom may have a circular cross-section and have at one end a threaded blind bore, with which it can be screwed onto the threaded bolt. Alternatively, the cantilever over its entire length hollow, ie be formed as a continuous tube. The flexural rigidity is sufficient radially outward. At the radially inner end of the screwed into the boom pin contributes to increase the flexural rigidity. Apart from its internal thread, the boom can have a constant cross section over its entire length.

The pin may have been welded to the jacket tube prior to the formation of the elastomer liner. Alternatively, it is possible to weld the pin to the jacket tube only after the formation of the elastomer lining. This is especially true when used to attach the pin welding process that require only a small local heat.

It is advantageous if a shrink film is attached to the stator, which can serve the temporary or permanent protection thereof. It is particularly advantageous if the pin breaks through the film at an opening, but the edge of the opening at or at the pin e.g. is held firmly by clamping. As a result, the protective effect of the film remains safe despite the breakthrough.

Further details and modifications of the invention will become apparent from the drawings, the description or claims. Show it:

1 the stator according to the invention with anti-rotation, in perspective view,

2 the stator according to the invention with anti-rotation, in front view,

3 the stator after 1 and 2 , cut longitudinally at the height of the anti-rotation device along the line III-III,

4 the stator after 1 in cross-section, taken along the line IV-IV,

5 the stator after 3 in a fragmentary representation,

6 the stator after 3 , in a fragmentary representation,

7 a modified embodiment of the stator with cylinder tube and with anti-rotation in a cross-sectional view

8th a modified boom, in side view, partially cut.

In 1 is a stator 11 an eccentric screw machine illustrates how it can be used to convey fluid media, in particular pulpy or pasty, homogeneous or inhomogeneous media, such as concrete mortar and filler. The stator 11 forms according to a first embodiment, an elongated tube with an at least 2-course internal thread profile. It consists of an outer jacket tube 12 whose profiling the at least two threads 13 . 14 sets. Alternatively, the stator may also be a cylindrical jacket tube 12 show how it looked 7 evident.

Inside is the stator 11 with one on the inner surface of the mantle 12 adherent elastomeric coating 15 provided, which preferably has a substantially uniform thickness. Accordingly, the threads form 13 . 14 , like out 2 visible, inside the coating as threads 13 ' . 15 ' from. The thickness of the coating 15 is largely uniform, being like 3 shows smaller differences in thickness can occur. Also at input and output, ie at the two front ends of the stator 11 larger layer thicknesses can come about as it 2 illustrated. It is also possible to use the stator 11 with less deep profiling or cylindrical shape. In this case, the threads become 13 . 14 exclusively or predominantly in the coating 15 formed, which then has a locally different thickness. Such an embodiment is in 7 illustrated.

While the jacket pipe 12 preferably made of steel, the coating consists 15 of a non-metallic material, in particular a cross-linked plastic material, such as a polymer or an elastomer, rubber or the like. For the material of the coating 15 it is typically a thermally sensitive material that tends to degrade and decompose at higher temperatures (several hundred degrees Celsius).

At the stator 11 is an anti-twist device 16 attached, which serves to the longitudinal axis 17 of the stator 11 absorb and dissipate acting torques. Such torques can in operation by rotation of the rotor 18 (please refer 2 . 4 or 7 ) occur.

The anti-twist device 16 is by a preferably in the radial direction of the jacket tube 12 protruding boom 19 formed, which may for example have a circular cross-section. The boom 19 can be formed by a round bar with a solid cross section or also, as shown, by a round tube. In any case, it can have a constant cross section over its entire length. At its radially inner, the stator 11 facing end, the boom 19 an opening with an internal thread 20 on, by means of which the boom at a radially from the casing pipe 12 projecting pins 21 is attached.

It is also possible a boom 19 provide with varying along the radial cross-section. For example, the boom 19 to 8th have a head whose diameter is greater than the diameter of the remaining, radially outwardly extending portion. The head may be provided with a threaded blind bore to the pin 21 take. The outwardly extending portion may have a circular cross-section or suitable for applying a tool, such as wrench cross-section.

The boom 19 For example, one of its outside may have a non-circular structure. For example, the boom 19 have at its radially outer end, at its radially inner end or in an intermediate region a tool coupling structure. For this purpose, a deviating from the circular shape cross-sectional shape, for example, an oval shape with two parallel straight sections, or a hexagonal shape may be provided for applying a wrench or other torque-exerting tool. It is also possible the entire boom 19 form with an outer contour that allows the attachment of a wrench. The cantilever may have a rectangular cross-section which is unaltered along its entire length, along continuous flattenings or another polygonal cross-section. Also, it is possible along the length of the boom 19 provide different cross sections for different key widths. Additionally or alternatively, at the radially outer end or in the interior of the boom 19 Tool coupling structures, such as an Inbusform be coached.

The pin 21 is preferably formed of solid in the manner of a bolt and on its outer circumference with an external thread 22 provided (see in particular 5 ) leading to the internal thread 20 fits. The cylindrical shape of the basic form 21 indicates at its the jacket tube 12 facing the end of a preferably flat disc-like head 23 on, whose outer diameter is preferably not smaller than the outer diameter of the cantilever 19 , The head 23 is with the jacket pipe 12 cohesively firmly connected, preferably welded, for example, the entire surface by a pressure welding or friction welding. Alternatively, an annular uninterrupted ring around the head 23 leading weld 24 be provided in the form of a fillet weld. Alternative weld between the head 23 and the jacket tube 12 , In particular, welded joints, leading to a planar connection between the head 23 and the jacket tube 12 may also be provided.

The welded connection between the threaded pin 21 and the jacket tube 12 is out of the thread 22 and is limited to the front end of the threaded pin 21 especially on his head 23 , Therefore, make sure that before welding the threaded pin 21 attached to the casing pipe thread 22 is not damaged by the welding process and in particular is not deformed.

The boom 19 is in all above and below described embodiments of the stator according to the invention 11 preferably at a location of the jacket tube 12 arranged where this has a large radius, as from the 1 . 3 and 5 evident. This has the merit of being that of the junction between the boom 19 and the jacket tube 12 forces to be transmitted due to the greatest possible distance to the longitudinal axis 17 are lower compared to an attachment in a threaded valley.

The jacket tube 12 may be provided on its outside with a lacquer and / or a plastic coating. The plastic coating can be made by a shrink film 25 be formed as they look 5 is apparent. This shrink film can on the jacket tube 12 after attaching the pin 21 , but have been attached before screwing the boom. She can do the pin 21 span and close tightly. Alternatively, it may be from the pin 21 be broken.

Attaching the shrink film 25 on the stator 11 first leads to the shrink film 25 the pin 21 envelops. Will the shrink film 25 on the pin 21 when screwing on the jib 19 severed, it may have the tendency of the pin because of its inherent tension 21 to crawl away. After the pin 21 However, a film supply is present, this does not lead to an exposure of the weld. This remains protected. The stator according to the invention 11 is therefore safe to use in adverse environments. The when screwing the boom 19 and thus when breaking the shrink film 25 resulting hole edge of the film can be between the internal thread 20 and the external thread 22 and / or between the head 23 and the facing end face of the boom 19 be clamped. This is a corrosion-resistant enclosure of the jacket tube 12 especially in the area of the weld 24 ensured.

Numerous modifications are possible on the invention described so far. For example, the cross section of the boom 19 not necessarily round, hexagonal or oval. Different configurations are possible. For example, the boom 19 a cross-shaped cross-section or a symmetrical or asymmetrical angular cross-section, a T-section, a Profilrohrquerschitt or the like. Also, the boom can 19 regardless of its cross-section, extending from the jacket tube 12 Be trained rejuvenating way. In other words, the cross section of the boom 19 may be constant or decrease radially outward in steps or smooth transitions. reference numeral 11 stator 12 casing pipe 13 . 14 . 13 ' . 14 ' threads 15 coating 16 twist 17 longitudinal axis 18 rotor 19 boom 20 inner thread 21 spigot 22 external thread 23 Head of the pin 21 24 Weld 25 shrink film

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 19950257 A1 [0002]
• EP 0987438 A1 [0003]
• DE 202014103665 U1 [0004]
• DE 201026104173 U1 [0005]

Claims (15)

Stator ( 11 ) for eccentric screw machine, in particular eccentric screw pump for liquid, pulpy or pasty, homogeneous or inhomogeneous media, with a metallic casing tube ( 12 ) inside with an elastomer lining ( 15 ) and an axial direction ( 17 ), with an anti-twist device ( 16 ) in the form of a cantilever ( 19 ), one with an internal thread ( 20 ) provided with an opening, with a pin ( 21 ), with the jacket tube ( 12 ) and provided with an external thread, wherein the internal thread ( 20 ) of the jib ( 19 ) with the external thread ( 22 ) of the pin ( 21 ) is engaged or engageable. Stator for eccentric screw machine according to claim 1, characterized in that the jacket tube ( 12 ) is cylindrical or has a non-circular, preferably oval cross-section and that the pin ( 21 ) at one point of the jacket tube ( 12 ) is attached, on which the jacket tube ( 12 ) has a large outer diameter. Stator according to claim 1 or 2, characterized in that the pin ( 21 ) on the jacket tube ( 12 ) arranged in radial orientation and with the jacket tube ( 12 ) is welded. Stator according to claim 3, characterized in that the pin ( 21 ) a head ( 23 ), whose diameter is greater than the outer diameter of the pin. Stator according to one of the preceding claims, characterized in that the pin ( 21 ) via a planar weld or via a ring seam ( 24 ) with the jacket tube ( 12 ) connected is. Stator according to one of the preceding claims, characterized in that the boom ( 19 ) has a circular cross-section. Stator according to one of the preceding claims, characterized in that the boom ( 19 ) has a hollow cross-section. Stator according to claim 7, characterized in that the arm ( 19 ) is designed as a continuous tube. Stator according to one of the preceding claims, characterized in that the radially inner end of the arm ( 19 ) is provided with the internal thread. Stator according to one of the preceding claims, characterized in that the boom ( 19 ) has a constant cross section over its entire length. Stator according to one of the preceding claims, characterized in that the pin ( 21 ) frontally by stud welding, pressure welding, friction welding, resistance welding or spot welding with the jacket tube ( 12 ) is welded. Stator according to one of the preceding claims, characterized in that the pin ( 21 ) with the jacket tube ( 12 ) before the formation of the elastomer lining ( 15 ) has been welded. Stator according to one of the preceding claims, characterized in that the pin ( 21 ) after the formation of the elastomer lining ( 15 ) with the jacket tube ( 12 ) has been welded. Stator according to one of the preceding claims, characterized in that the jacket tube ( 12 ) painted on its outside and / or with a shrink film ( 25 ) is provided. Stator according to claim 15, characterized in that the shrink film ( 25 ) between the pin ( 21 ) or the jacket tube ( 12 ) and the boom ( 19 ) is held.

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