EP2721301A1

EP2721301A1 - Immersion pump and method for assembling an immersion pump

Info

Publication number: EP2721301A1
Application number: EP12724979.5A
Authority: EP
Inventors: Michael Fath; Christoph Jäger; Boris Werner
Original assignee: KSB AG
Current assignee: KSB AG
Priority date: 2011-06-17
Filing date: 2012-05-30
Publication date: 2014-04-23
Anticipated expiration: 2032-05-30
Also published as: CN103827504B; BR112013030162B1; DE102011077777B3; ZA201309468B; DK2721301T3; ES2609855T3; BR112013030162A2; RS55486B1; BR112013030162A8; US9605679B2; CN103827504A; WO2012171792A1; EP2721301B1; US20140134013A1

Abstract

The invention relates to an immersion pump (1), comprising an integral housing (2) having an inlet opening on the intake side, an outlet opening on the delivery side and a passage for electrical lines, an electronic unit for processing power and optionally information signals, an electric motor, a pressure chamber and a pump unit, wherein the electronic unit, the electric motor, the pressure chamber and the pump unit can be pre-assembled to an insert, the pre-assembled insert is supported on one end of the housing (2) and an axial clamping and/or fastening system (10, 11, 12), in particular a Taperlock system, is provided on the opposite end of the housing.

Description

description

Submersible pump and method for assembling a submersible pump

The invention relates to a submersible pump and a method for producing a submersible pump, comprising a housing with a suction-side inlet opening, a pressure-side outlet opening and an electrical line passage, an electronics unit, an electric motor, a pressure chamber and a pump unit,

Submersible pumps are a type of pump that has been designed for different applications and tailored to the respective requirements. It is essential to immerse the pump in the fluid to be pumped. A special design requires that the pump can be placed in a wellbore. Since wellbores, particularly very deep ones, are very expensive, fitting to the wellbore is an essential feature of such a pump.

US 4,966,532 discloses a submersible pump in which the inlet, pump and outlet are arranged axially in a row. The individual components are surrounded by a common shell, which is divided into a first area, which encloses the motor and a second area, which encloses the pump. Both areas are connected by a connecting element, by which both the distance of the components from the inner wall of the housing and the axial position is fixed. EP 0 746 683 B1 discloses a generic submersible pump in which the essential individual components of the pump are arranged axially. In one line are the suction-side inlet cover, the pump impeller, the motor and the pressure-side outlet cover. These individual components are housed in a tubular sheath, wherein the conveyed fluid is passed through a gap between the motor and the housing to the pressure-side outlet opening. The gap between the tubular jacket and the motor housing is defined by an elastomeric padding. The motor is mounted on the suction inlet cover, which also contains the pump impeller. The pressure-side outlet cover is merely connected to the tubular jacket.

The object of the invention is to provide a generic submersible pump, which allows easy installation and repair of the submersible pump.

The solution provides a submersible pump in which the electronics unit, the electric motor, the pressure chamber and the pump unit are preassembled for use, the preassembled insert is supported at one end of the housing and at the opposite end of the housing an axial clamping and / or Mounting system is provided. The electronics unit may include both power electronics and signal electronics.

The inventive construction of the submersible pump makes it possible to align the pre-assembled components before they are joined in the enclosing housing. Furthermore, it is possible to make the enveloping housing integral or integral, thereby improving the seal against penetrating fluid. Due to the clamping and fastening system, it is possible to provide the insert with a bias.

According to one embodiment of the submersible pump according to the invention, the tensioning and / or fastening system can be released. This has the advantage that the insert can be removed from the enclosing housing for inspection purposes. Subsequently it can be reused and fixed again in the housing by the clamping and / or fastening system.

To carry out the clamping and / or fastening system as Taperlock clamping bush, whereby a non-positive connection can be made, which is axially centered is particularly advantageous.

In a further advantageous embodiment, all components of the insert are provided with fixed or releasable devices for supporting against the housing, in particular for radial support. The devices are used to transfer heat from the motor to the enclosing housing and at the same time support the mounting kit on the housing with a precisely defined distance, whereby a displacement of individual components during operation of the pump is prevented.

It is advantageous in the region of the pressure-side outlet opening to provide a bearing for supporting the insert, in particular for centered support. The insert can be fitted during assembly by means of a guide directly into this camp. The centering simplifies the production of the defined bias of the insert relative to the enclosing housing.

Advantageously, the motor is a synchronous motor, in particular a permanent magnet tipped synchronous motor. These motors are energy efficient, easy to operate and robust. If the submersible motor pump is used as a borehole pump, then it is urgently necessary that the technology used is robust, since the pump must be lifted out of the borehole for repairs.

In one embodiment of the invention, the pump is designed as a centrifugal pump. The advantage here is that large delivery volumes with variable delivery are possible. It is also possible with centrifugal pumps, mitzufördern small amounts of sand. In a further embodiment, the pump is designed as a positive displacement pump, in particular as an eccentric screw pump. This self-priming pump allows high delivery heights and variable delivery volumes in low pulsation operation.

In a further embodiment, a pressure line is provided on the pressure-side outlet opening, in which a holder for a traction means of the submersible pump is integrated, in particular, the outlet opening itself can act as a holder. For a revision, the pump can be lifted on the traction device from the borehole. This simplifies the installation of the pump on site, especially in a borehole.

Furthermore, the object of the invention is to provide a method for producing a submersible pump of the type described above.

The solution provides a method for producing and assembling a submersible pump of the type described above, wherein in a first step, an insert of an electronics unit, an electric motor, a pressure chamber and a pump unit is pre-assembled, in a second step, the insert is inserted into a housing wherein the insert is centered in the housing, and in a third step the insert is clamped and secured in the housing by a clamping and / or fastening system. By pre-assembly, an exact alignment of the individual components is possible before the insert is joined in the enclosing housing. For example, when the insert is inserted into the enclosing housing on the suction side, the means for maintaining a fixed distance between the insert and the enclosing housing center the insert and the bearing on the pressure side and defines the exact position of the insert. By the clamping system, a bias voltage can be brought to the use. The fastening system holds the insert in the enveloping housing. If a Taperlock fastening system is used, then the clamping set can be clamped freely at the suction end of the enveloping tube without further precautions being taken there, such as holes or threads. For revisions, the attachment of the insert can be solved. If the length of the insert has been slightly changed during the revision, then the insert can be fixed again in the enclosing housing with the same fastening system.

Further embodiments result from the combination of the previously shown and are therefore not further elaborated here.

Embodiments of the invention are illustrated in the drawings and will be described in more detail below. It show the

Fig. 1 a submersible pump according to the invention, the

Fig. 2 is a detail view of FIG. 1 and the

Fig. 3 is an isometric view of the detail view.

1 shows a submersible motor pump 1 according to the invention. In a housing 2, at the upper end, there is indicated a drive 3, which is connected via a coupling element 4 to the actual pump element. The Pumpeneiement is formed in the example shown as an eccentric screw pump, consisting of a stator 5 and a rotor 6, which are represented by an etall-eggastomer pairing or a plastic-elastomer pairing. At the lower end of the submersible pump 1, a detail is marked, which comprises the clamping system 7. The eccentric screw pump allows continuous water delivery, the pump can be self-priming. The technology of Stator 5 and Rotor 6 is very robust and can also be used in abrasive, for example sandy, environment. The coupling element 4 designed as a long rod makes it possible to establish a connection between the eccentric rotor 5 and the stop 3. The drive 3 is typically an electric motor used. In order to achieve a high power density, a synchronous motor equipped with permanent magnets is used. This results in a low construction dimension, whereby the cost of a deep well well can be significantly reduced. The individual components of the submersible pump are introduced from below into the housing 2. When assembling the drive 3 is first placed in the housing 2, which is already connected to the rod as the coupling element 4 and the rotor 5. For secure rotationally fixed attachment of the insert in the housing 2, the clamping system 7 according to the invention, in the form of a Taperlock clamping system, is provided.

Fig. 2 shows the details of the axial clamping and / or fastening system of the submersible pump. A contact piece 8 encloses the stator 5 and provides at the lower end of the stator 5 a contact surface for the other components of the clamping system 7. Directly to this contact piece 8 includes a snap element 9, which is firmly connected by a latching function with the contact piece 8 and is supported against the housing 2. Adjacent to the snap element 9, a conical, inner clamping ring 10 is arranged, which forms the taper bushing. Within this inner

Clamping ring 10, which is provided with a thread, an outer clamping ring 11 is arranged, which is also provided with a thread, so that it can be clamped with the inner clamping ring 10. Both clamping rings are braced so that they are supported against the snap element 9, ie also against the housing 2. To prevent rotation, a feather key 12 is additionally provided. For simplified assembly of the clamping system 11 recesses 13 are provided on the outer clamping ring, which serve for applying a suitable tool for bracing. The design with recesses 13 makes it possible to create a predefined, simple and cost-effective approach to tools, which significantly increases the reliability and ease of installation.

FIG. 3 shows an isometric view of the submersible pump 1, wherein in particular the detail of the tensioning system 7 from FIG. 1 is shown. In the right part of the figure, the stator 5 and the rotor 6 are shown in the housing 2. On the left in FIG. 3, the arrangement of the individual components of the axial clamping and / or fastening system is shown. Directly to the housing 2, the snap element 9 connects. This is firmly connected to the pressing piece 8. Within which the conical inner clamping ring 10 and thus connected for example by screwing outer clamping ring 11 is shown. The illustration illustrates the approaches to a tool for Screwing the outer clamping ring 11 in the inner clamping ring 10, which are braced together due to the conical shape of the inner SpannringslO, whereby they are radially supported against the housing 2.

Alternatively, the invention can also be applied to a submersible pump whose motor is housed in a separate housing.

LIST OF REFERENCE NUMBERS

1 submersible pump

2 housings

3 drive

4 coupling element

5 stator

6 rotor

7 clamping system

8 contact piece

9 snap element

10 inner clamping ring

11 Outer tension ring

12 feather key

13 recesses

Claims

claims

1 submersible pump (1) comprising a housing (2) having a suction-side inlet opening, a pressure-side outlet opening and an opening for electrical lines, an electronics unit, an electric motor, a pressure chamber and a pump unit, characterized in that the electronic unit, the electric motor, the Pressure chamber and the pump unit are preassembled to an insert, wherein the preassembled insert is supported at one end of the housing and at the opposite end of the housing (2) an axial clamping and / or fastening system (7) is provided.

2. submersible pump (1) according to claim 1, characterized in that the clamping and / or fastening system (7) from the housing (2) is releasable.

3. submersible pump (1) according to claim 1 or 2, characterized in that the clamping and / or fastening system (7) is designed as Taperlock clamping bush.

4. submersible pump (1) according to claim 1, 2 or 3, characterized in that

Components of the insert are provided with devices for supporting against the housing (2), in particular for radial support.

5. submersible pump (1) according to one of claims 1 to 4, characterized in that in the region of the pressure-side outlet opening a bearing for supporting the Insert is provided, in particular for centered support.

6. Submersible pump (1) according to one of claims 1 to 5, characterized in that a synchronous motor is provided as the drive (3), in particular a permanentmagnetbestückter synchronous motor.

7. submersible pump (1) according to one of claims 1 to 6, characterized in that the pump is a centrifugal pump.

8. submersible pump (1) according to one of claims 1 to 6, characterized in that the pump is a positive displacement pump, in particular an eccentric screw pump.

9. submersible pump (1) according to one of claims 1 to 8, wherein at the pressure-side outlet opening, a pressure line is provided, wherein the pressure line is designed as Zugmitttel for holding the submersible pump (1).

10. A method for assembling a submersible pump (1) according to one of claims 1 to 9, wherein in a first step, an insert of an electronics unit, an electric motor, a pressure chamber and a pump unit is pre-assembled, in a second step, the use in a housing ( 2), wherein the insert in the housing (2) is centered, and in a third step, the insert in the housing (2) by a clamping and / or fastening system (7) is clamped and fastened.