EP2606234A2

EP2606234A2 - Rotary piston pump

Info

Publication number: EP2606234A2
Application number: EP11748632.4A
Authority: EP
Inventors: Paul Krampe
Original assignee: Hugo Vogelsang Maschinenbau GmbH
Current assignee: Hugo Vogelsang Maschinenbau GmbH
Priority date: 2010-08-20
Filing date: 2011-08-18
Publication date: 2013-06-26
Anticipated expiration: 2031-08-18
Also published as: US9127673B2; KR20140020818A; AU2011290716B2; BR112013004008B1; HK1181834A1; WO2012022784A3; US20130202474A1; DK2606234T3; HRP20160309T1; BR112013004008A2; EP2606234B1; CN103140682A; SI2606234T1; BR112013004008B8; HUE027120T2; KR101845572B1; CY1117347T1; NZ607424A; RS54565B1; ES2566340T3

Abstract

The invention relates to a rotary piston pump (100) for conveying a fluid medium which contains solid matter, comprising an inlet opening (111) and an outlet opening (112) for the medium to be conveyed, having two rotary pistons (121, 122) which are arranged in a pump housing (140) and which have rotary piston vanes which engage into one another, wherein each of the two rotary pistons is fastened in a torsionally rigid manner to in each case one shaft (131) and can be driven by the respective shaft, and wherein the two shafts are coupled to one another by means of a gearing arranged in a gearing housing (152). The invention relates in particular to a rotary piston pump in which the inlet opening and the outlet opening are arranged on a connecting housing (151).

Description

Rotary pump

The invention relates to a rotary piston pump for conveying a solids-containing fluid medium, comprising an inlet opening and an outlet opening for the medium to be conveyed, two arranged in a pump housing rotary piston with interlocking rotary lobes, each of the two rotors torque-fixed to one shaft and by the respective Shaft is drivable, and wherein the two shafts are coupled together by a transmission disposed in a transmission housing.

The invention further relates to a rotary lobe pump kit for providing rotary lobe pumps.

Rotary lobe pumps of the aforementioned type are known, for example, from DE 10 2007 054544 A1 and EP 1 624 189 B1 of the Anmeiderin and from DE 10 2005 017 575 A1 and WO 2007/026 109 A1 and serve to convey a fluid medium containing solids. For example, with a rotary pump inhomogeneous liquids, such as liquid manure can be promoted. The medium to be delivered passes via an inlet opening arranged on the pump housing into the interior of the pump housing, is conveyed there by the intermeshing rotary lobe wings of two driven rotary lobes in the direction of an outlet opening arranged on the pump housing and leaves the interior of the pump housing again through the outlet opening. Due to the nature of the medium to be pumped, in particular by the solids contained therein, and the applications of rotary lobe pumps, they are exposed to high wear. Due to the high wear, regular maintenance of rotary lobe pumps with replacement of wearing parts is required. Further problems with rotary wafers are, on the one hand, the leakage problems occurring in the case of insufficient or wear-resistant seals and the settling of solids in dead spaces.

Furthermore, there is the disadvantage in existing rotary lobe pumps that they are not or only laboriously einseizbar in installation situation with very small space and / or are difficult or impossible to adapt to different applications and Einsatzbereite.

It is therefore an object of the present invention to provide a Drehkoibenpumpe for promoting a fluid medium containing solids and a rotary lobe pump set to provide rotary lobe pumps, which reduces or eliminates one or more of the disadvantages mentioned. It is a further object of the present invention to provide a rotary lobe pump for conveying a fluid medium containing solids as well as a rotary lobe pump kit for providing rotary lobe pumps which have less wear and are easier to maintain. It is a further object of the present invention to provide a rotary lobe pump for conveying a fluid medium containing solids as well as a rotary lobe pump kit for providing rotary lobe pumps which on the one hand are compact but otherwise variable in terms of installation situation and size or performance. It is a further object of the present invention to provide a rotary lobe pump for conveying a fluid medium containing solids as well as a rotary lobe pump kit for providing rotary lobe pumps which are inexpensive to manufacture.

This object is achieved by a rotary piston pump of the aforementioned type, which is characterized in that the inlet opening and the outlet opening are arranged on a Anschiussgehäuse.

The invention is based on the finding that an advantageous rotary kiln pump can be replaced by a departure from the conventional design with a pump housing. orderly inlet and Ausiassöffnungen can be realized with the most direct access to the rotary piston in the pump housing. According to the invention, the inlet and outlet openings are arranged on a connection housing.

In the pump housing, the two rotary pistons are arranged, preferably in a pump chamber formed in the interior of the pump housing. The two rotary pistons are driven in opposite directions, with their Drehkolbenflügei mesh to promote the medium.

The arrangement according to the invention of the inlet and outlet opening on the connection housing and not on the pump housing has the advantage that the connection housing can be firmly integrated into a pipeline system via the inlet and outlet openings and only the pump housing must be accessible for servicing the rotary pump.

This embodiment of the rotary piston pump according to the invention with a spatial separation of the pump housing with the rotary piston of the inlet and outlet ports used for connection of the rotary piston pump on pipe fittings allows on the one hand a very compact design of the rotary lobe pump and on the other hand a maintenance-friendly rotary lobe pump, as exposed to increased wear and therefore more frequently Rotary pistons to be exchanged are arranged and accessible independently of the connection housing and the pipes to be connected thereto.

It is preferable that the terminal housing is offset from the pump housing in an axial direction parallel to the troughs. In particular, it is preferred that the inlet and outlet openings in an axial direction, which is parallel to the waves, from the pump housing, in particular to a pump chamber formed in the interior of the pump housing, are spaced or adjacent thereto. In this way it can be ensured that the adjoining the inlet and outlet ports are spaced from the pump housing and the pump housing is easily accessible.

The invention can be developed by designing the transmission housing and the connection housing as a transmission unit. In this Fortbiidungsform is provided that the transmission housing and the connection housing a structural unit - the transmission unit - form. The gear housing and the connection housing can each consist of several components or each formed in one piece. It is particularly preferred that the gear unit is formed as a whole in one piece, that is, the gear housing and the terminal housing are formed as a continuous, one-piece component.

It is furthermore particularly preferred that the transmission housing is arranged at least partially within the connection housing and further preferably at least one flow space is formed between the connection housing and the transmission housing, which can be flowed through by the medium to be delivered. The at least one flow space is preferably in fluid communication with the inlet or outlet port and the interior of the pump housing, so that flowing through the inlet opening medium through the flow space to a arranged in the interior of the pump housing and the rotary piston pump chamber and from there via the same or can reach a further flow space to the outlet opening. This training form is on the one hand very compact and has the further advantage that the gearbox is cooled in this way by the medium to be pumped, which at least partially flows around the gear housing in the flow space, and thus a higher power density can be achieved. In a preferred development of the rotary piston pump according to the invention it is provided that the pump housing and the gear unit are releasably connected to each other.

The pump housing may be releasably secured to the terminal housing, the transmission housing or both the connection housing and the transmission housing. In this way, the pump housing of the rotary pump can be removed to wait for example, the rotary piston or replace. Due to the fact that, according to the invention, the inlet and outlet openings are not arranged on the pump housing, inlet and outlet connections connected to the inlet and outlet openings do not have to be disassembled during maintenance of the rotary piston pump, but can remain connected to the connection housing even when the pump housing is removed. By being able to completely remove the pump housing from the gear unit and thus completely expose the rotary pistons, the access is lichkeii the Drehkoiben and thus their maintenance and possibly assembly / disassembly considerably easier.

The invention can be developed by the fact that the two Drehkoiben are releasably secured to the respective shaft. This further development form has the advantage that when servicing with an exchange of Drehkoiben not the waves must be dismantled, but - with removed pump housing - only the Drehkoiben must be solved by the shaft and can be replaced.

The invention can be further developed by a Verschieißpiatte disposed between the pump housing and the gear unit, wherein the Verschieißplatte is preferably releasably attached to the transmission unit.

This preferred development of the rotary piston pump according to the invention has the advantage that the Wartungsfreundiichkeit the rotary piston pump is further improved in that the wear plate located at the junction of gear unit and pump housing and therefore is very easy to access and can be quickly replaced. It is particularly preferred that the wear plate is releasably secured to the gear unit, so that, for example, when removing the pump housing from the gear unit to replace the Drehkoiben the wear plate on the one hand easily accessible, but on the other hand is stably attached to the gear unit, if an exchange or disassembly of the wear plate should take place at another time. The wear plate may be releasably secured to the terminal housing, the transmission housing, or both the terminal housing and the transmission housing.

In particular, it is preferred that the rotary piston pump has only a single wear plate.

The design of the rotary lobe pump according to the invention and its further developments makes it possible, in contrast to known from the prior art Drehkoibenpum- pen with two wear plates only a wear plate is required. This has the advantage that, on the one hand, less time is needed for maintenance, since less schleißteiie are exchanged. On the other hand, with a smaller number of wearing parts, the maintenance costs also decrease.

The invention can be developed by the fact that the two shafts of the gear unit are rotatably mounted and in each case a portion of the grooves projects into a pump chamber formed in the interior of the pump housing, in particular it is preferred that the pump housing has no storage for the two shafts.

In this preferred further development form, the bearings for the two drive shafts of the rotary pistons are located in the gear unit, preferably in the gear housing. The waves protrude in such a way into the pump chamber in the pump housing into which the two rotary pistons are fixed torque-resistant on the waves and can be driven by the respective shaft accordingly. In particular, it is preferred that the shafts are not additionally supported by bearings in the pump housing.

This further development form has the advantage that during the removal of the pump housing from the gear unit and continue even when the rotors are removed from the waves, the waves are also exclusively and completely stored in the gear unit during maintenance and no assembly / disassembly of Weilagerlagern in the pump housing is required ,

Another advantage of this training is that in this way the pump housing can be particularly simple and therefore can be made faster and cheaper than housing parts having shaft bearings.

A particularly preferred further development form therefore also provides that the pump housing is formed in one piece.

A one-piece design of the pump housing over a known in the prior art training in two half-shells has the advantage that the pump housing can be produced more cheaply, easier and faster to assemble and dismantle is as a two-piece pump housing and an additional separation point, which must be sealed and therefore always a risk of leakage, can be avoided. The invention can be developed by the fact that the inlet opening via a first Strömungskana! and the outlet opening are connected via a second flow channel to a pump chamber formed in the interior of the pump housing, at least a respective part of the first and second flow channels extending in a substantially axial direction, which is arranged parallel to the waves.

Due to the inventive arrangement of the inlet and outlet opening on the connection housing, it is necessary to provide flow channels through which the medium to be delivered can pass from the inlet opening into the pump chamber formed in the interior of the pump housing and from the pump chamber to the outlet opening. In the preferred embodiment, the flow channels are arranged at least in sections axially, that is to say parallel to the axis of rotation of the shafts. The flow channels can be formed within or as part of one or more flow spaces between the connection housing and the transmission housing. By this partial axial inflow and outflow of the medium to the pump housing, the axial distance of the inlet housing and outlet openings arranged on the connection housing is overcome to the pump chamber comprising the rotary kilns and formed in the interior of the pump housing.

The invention can be developed by arranging the inlet opening and the outlet opening in the operating state of the rotary piston pump in the upper half of the connection housing.

This further development form has the advantage that always a very good liquid reservoir is achieved and thus a particularly efficient operation of the rotary lobe pump with high power density is made possible.

In this case, it is particularly preferred that the inlet opening and the outlet opening are arranged in the operating state of the rotary piston pump on the connection housing such that a first axis which is arranged at right angles to a plane comprising the inlet opening, and a second axis which is perpendicular to a Auslassoffnung comprehensive Plane is arranged, each inclined at an angle of 45 ° to a vertical. This training not only has the advantage that a very good liquid reservoir and a high power density can be achieved, but also that of the Einiass- and Ausiassöffnung be connected inlet and Ausiassstutzen can be variably adapted to different installation situations.

A particularly preferred further development form is characterized by an inlet connection with an inlet flange adjoining the inlet opening and an outlet connection with an outlet flange, the inlet connection and the outlet connection being designed and attachable to the connection housing such that the inlet is in a first attachment position - And / or the outlet in the operating state of the rotary pump is arranged horizontally or are and / or in a second mounting position of the inlet and / or the outlet in the operating state of the rotary piston pump is arranged vertically or are. In this embodiment, inlet and Ausiassstutzen are provided, which can be arranged and attached to the inlet or Ausiassöffnung on the connection housing and further each have an inlet or Ausiassflansch for connection of the inlet or outlet nozzle to a pipeline. It is now preferred that the inlet and the outlet are designed such that they can be arranged in at least two different ways at the inlet or Ausiassöffnung on the connection housing: The respective nozzle can be arranged so that the associated flange in the operating state the rotary lobe pump is arranged horizontally or vertically. This results in the following preferred combinations: Arrangement of inlet and outlet ports such that the inlet and outlet are arranged horizontally in the operating state of the rotary pump, arrangement of inlet and outlet ports such that inlet and Ausfassflansch are arranged vertically in the operating state of the rotary pump, or arrangement of inlet and outlet ports such that one of the two nozzles is arranged horizontally in the operating state of the rotary piston pump and the other of the two nozzles is arranged vertically in the operating state of the rotary piston pump. In this way it is possible with a compact design of the rotary lobe pump to use the Drehkoibenpumpe in a variety of different installation situations. The invention can be further developed in that the connection housing has at least one releasably closable drainage bore, through which the medium to be conveyed can be discharged. By this training form maintenance of the rotary piston pump is facilitated, since in this way a complete or nearly complete emptying of the connection housing, in particular at least one formed between the Anschiussgehäuse and the transmission housing flow space is enabled and so, for example, during maintenance when opening the rotary pump no promotional Medium runs after. For this purpose, the drain hole is opened before maintenance. In the operating state of the rotary piston pump, the at least one drain hole is preferably closed in order to prevent an unwanted escape of the medium to be conveyed.

Another aspect of the invention relates to a rotary lobe pump kit for providing rotary lobe pumps of different size and / or power, comprising a rotary lobe pump according to the invention as described above and further characterized by at least two further Drehkoiben other size with interlocking rotary lobes, wherein the two parts and the at least two further rotary pistons another size are formed such that the at least two further rotary pistons of other sizes are detachably fastened on the respective one of the two shafts.

According to this aspect, a rotary lobe pump according to the invention and its further developments can form part of a rotary lobe pump kit which makes it possible to convert a rotary lobe pump according to the invention to a rotary lobe pump according to the invention having a different size or a different power by exchanging the rotary lobes. As a result, the rotary lobe pump kit has two pairs of rotary pistons of different sizes, in particular of different lengths, so that either the first pair of two rotary lobes is fastened in the middle or the second pair of two lobes. A rotary piston pump set according to the invention can also have more than two pairs of rotary disks of different sizes. In particular, when the pump housing is releasably secured to the gear unit, the rotary lobe pump can be changed by replacing the Drehkoiben very quickly and easily in terms of size or performance.

The rotary lobe pump kit according to the invention can be developed by providing at least one further pump housing of a different size, wherein the gear unit and the at least one further pump housing of a different size are designed such that the at least one further pump housing of a different size can be detachably fastened to the gear unit. This further development form has the advantage that a significantly larger bandwidth can be realized in terms of size and power of the rotary lobe pump set to be provided because larger, especially longer, rotary piston and a larger, especially longer, pump housing with a correspondingly larger pump chamber for receiving the Drehkoiben can be provided. In this way - without having to dismantle the gear unit with connection housing and gear housing from a conduit system - only by replacing the rotary piston and possibly the pump housing size or power of the rotary lobe pump can be varied quickly and easily. A preferred embodiment of the invention will be described by way of example with reference to the accompanying drawings. Show it:

FIG. 1 shows a three-dimensional representation of a first embodiment of a rotary pump according to the invention,

FIG. 2: a front view of the rotary pump shown in FIG. 1; FIG. 3: a three-dimensional view of a further embodiment of a rotary pump according to the invention in a variant with drain holes;

FIG. 4 is a front view of the rotary kiln pump shown in FIG. 3;

Figure 5 ^'is a partially sectioned isometric view of the embodiment shown in Fig. 1

Drehkoibenpumpe,

6 shows a longitudinal section through the rotary pump shown in FIG. 1, FIG. 7 shows the longitudinal section shown in FIG. 6 with the pump housing removed;

FIG. 8 shows a rear view of a further embodiment of a device according to the invention

Drehkoibenpumpe without inlet and outlet in a variant with drain holes, FIG. 9 shows a front view of a further embodiment of a rotary pump according to the invention without inlet and outlet nozzles,

FIG. 10: a side view of the rotary kiln pump shown in FIG. 9,

FIG. 11: a rear view of the rotary pump shown in FIG. 9; FIG. 12: a partially sectioned side view of the rotary pump shown in FIG.

FIG. 3 is a plan view of the rotary kiln pump shown in FIG. 9;

FIG. 15 shows a second three-dimensional view of the rotary kiln pump shown in FIG

Figure 16: the three-dimensional view shown in Fig. 15 with partially partially cut pump housing.

All figures are shown once with the reference symbol (Respective figure number with the following "a") and once - for better representability - without the reference symbol (respective figure number followed by "b").

The rotary pump 100 according to the invention has a Einiassöffnung 111 and an outlet opening 112 for the medium to be conveyed.

As can be seen in FIGS. 1 to 7, an inlet connection 115 with an inlet flange 117 can be fastened to the inlet opening 111, via which the rotary pump 100 can be connected in the operating state to a pipeline (not shown). As can also be seen in FIGS. 1 to 7, an outlet connection 116 with an outlet flange 118 can be arranged at the outlet opening 112, via which the rotary pump 100 can be connected in the operating state to a pipeline (not shown). As can be seen in the embodiments shown in Figures 8 to 16 without inlet and Ausiassstutzen, the arrangement of these nozzles is optional.

Figures 1 and 2 show an embodiment of a rotary piston pump 100 according to the invention, in which the nozzles 115, 116 are arranged so that the respective Fian- see 117, 118 of the nozzle 115, 116 are arranged substantially vertically in the installed state of the rotary piston pump, so that the to be connected to these flanges 117, 118 pipe (not shown) extends substantially horizontally, so-called 90 ° connection.

In the embodiment of the rotary piston pump 100 shown in FIGS. 3 and 4, the two connecting pieces 115, 116 are designed as gooseneck connection, d. H. the two flanges 117, 118 are arranged substantially horizontally in the installed state of the rotary piston pump, so that to be connected to the flanges 117, 118 pipes in the installed state of the rotary piston pump are substantially perpendicular.

Furthermore, it is also possible to mount only one of the two nozzles with a vertical flange and to mount the respective other nozzle with a substantially horizontal flange. In this way, a further flexibility of Drehkoibenpumpe 100 invention results to adapt to different installation situations.

As can be seen from the synopsis of the figures, can be easily turned from a gooseneck in a 90 "connection and vice versa or the rotary pump 100 completely without nozzle or by a rotated assembly of the connecting pieces 115, 116 rotary pump 100 of the invention This has the advantage that the rotary piston pump 100 according to the invention is on the one hand very compact and on the other hand easily and quickly adaptable to different installation situations 16. The features, functions and advantages described below therefore apply equally to the illustrated in the figures, various embodiments of a Drehkoibenpumpe 100 according to the invention, the same or substantially functionally similar elements are therefore denoted by the same reference numerals Mistake. The inlet and outlet openings 111, 112 are arranged on a connection housing 151 of the rotary kiln pump 100. The rotary piston pump 100 further has a pump housing 140.

Within the pump housing 140, a pump chamber 141 is formed, in which two rotary pistons 121, 122 are arranged, whose rotary lobes engage with each other. The first rotary piston 121 is fixed torque-fixed on a shaft 131 and driven by this. The second Drehkoiben 122 (not shown) fixed torque on a second shaft and driven by this, the two shafts are driven in opposite directions and pelt coupled together for this purpose via a corresponding gear. Such a transmission (not shown) is located in a transmission housing 152. The transmission housing 152 and the connection housing 151 together form a transmission unit 150. In the embodiment shown here, the transmission housing 152 is arranged at least partially within the connection housing 151. Between the connection housing 151 and the transmission housing 152, a flow space 153 is formed, via which the inlet opening 111 is in fluid communication with the pump chamber 141. Preferably, the rotary piston pump 100 has a further flow space (not shown), via which the Ausiassöffnung 112 is in fluid communication with the pump chamber 141.

The inlet and outlet ports 111, 112 are spaced from the pump housing 140 in an axial direction that is parallel to the shaft 131. Terminal housing 151 and pump housing 140 are offset in the axial direction and adjoin one another in the axial direction. As can be seen in particular in FIG. 6, inlet and outlet openings 11, 112 and pump chamber 141 (in each case based on their center viewed in the axial direction) are spaced apart at a distance A. The pump housing (140) is detachably connected to the transmission unit 150 at a connection or interface 170. One of the two shafts, here the shaft 131, is guided out of the gear housing 152 and can be rotated by means of a drive motor (not shown). This rotation is transmitted through the transmission (not shown) in the transmission housing 152 to the other shaft (not shown). The shaft 131 is rotatably supported in the transmission housing 152 and protrudes with a portion 131 a into the pumping chamber 141. On this section 131a of the rotary piston 121 is removably fixed torque. The second rotary piston 122 is on the same way attached to the second Weüe, not shown. The pump housing 140 has no bearing for the two shafts and may therefore be formed in one piece. In this way, results in a particularly inexpensive to produce pump housing 140, which can be poured without a core and requires only a clamping in the processing. The one-piece design of the pump housing 140 further reduces the number of Gehäusetrennsteilen so that the accuracy of fit of the housing parts can be increased in an advantageous manner.

Between the pump housing 140 and the gear unit 150, a wear plate 160 is arranged, which is releasably secured to the gear unit 150. Due to the construction of the rotary piston pump 100 according to the invention, it is possible to provide only one single grinding plate 160, so that time and costs can be saved in the maintenance.

The fluid medium entering the connection housing through the inlet connection 115 and the inlet opening 111 passes through a first flow passage 113 into the pump chamber 141 and from there via a second flow channel 114 through the outlet opening 112 and the outlet connection 116 again out of the rotary piston pump 100 out. The two flow channels 113, 114 each have a first portion 113 a, 114 a, which extends in the gear unit 150, and a second portion 113 b, 114 b, which extends in the pump housing 140. The two flow channels 113, 14 are partially parallel to the shaft 131, d. H. arranged in a substantially axial direction of the rotary piston pump 100 relative to the axis 180 of the rotary piston pump 100. This results in a partial axial inflow or outflow of fluid medium into the pump chamber 141. The flow channel 113 is at least partially formed within the flow space 153 or constitutes a part of the flow space 153. The same applies to the flow channel 114 and another, not shown flow space. Due to the at least partially axial inflow or outflow of the fluid medium through the flow spaces or channels, the axial distance A between inlet and outlet openings 111, 112 and pump chamber 141 is overcome.

The arrangement of the inlet opening 111 and the outlet opening 112 in the operating state of the rotary piston pump 100 in the upper half of the connection housing 151 results in a very good liquid reservoir in the rotary piston pump 100 and in particular in the pump chamber 141, especially in combination with the at least partially axial Inflow or outflow of the fluid medium. As can be seen in FIGS. 3, 4 and 8, the connection housing 151 can have two releasably closable drainage holes 154a, b with detachably fastened closure lids 155a, b, through which the medium to be conveyed can be discharged. This facilitates maintenance of the rotary kiln pump 100, since in this way full or almost complete emptying of the connection housing 151, in particular of the at least one flow space 153 formed between the connection housing and the transmission housing and of the flow channels 113, 114, is made possible and thus, for example, at one Maintenance when opening the rotary lobe pump 100 runs no medium to be pumped. In the operating state of the rotary pump 100, it is preferred that the closure lid 155 a, b, the drain holes 154 a, b close tightly to prevent accidental leakage of medium to be conveyed.

The inventive arrangement of inlet and outlet ports 111, 112 on the connection housing 151 and the arrangement of the two rotary pistons 121, 122 in the pump housing 140, there are several advantages: First, it is possible, the rotary pump 100 with the terminal housing 151 fixed in one Piping system (not shown) via the connecting to the inlet and outlet ports 111, 112 connecting piece 115, 116 with Anschlussfianschen 117, 118 to connect. At the same time, however, despite this fixed connection of the terminal housing 151, the wearing parts, in particular the wear plate 160 and the rotary pistons 121, 122, 140 can be replaced easily and quickly by removing the pump housing. Furthermore, it is possible in this way, also rotary piston of other sizes and pump housings of other size to fix the parts or on the gear unit 150 and thus in the sense of a rotary lobe pump kit size and power of the rotary lobe pump 100 easy and fast to change. It is preferred that the respective connections or fastening devices of gear unit and shafts on the one hand and the rotary piston and pump housing of different size on the other hand are designed such that different combinations with the same connections or fastening devices can be realized.

Overall, the structure of the rotary lobe pump 100 according to the invention has little dead space in which solids can settle.

Claims

A rotary lobe pump (100) for conveying a fluid medium containing solids, comprising an inlet opening (111) and an outlet opening (112) for the medium to be conveyed, two rotary pistons (121, 122) arranged in a pump housing (140) with intermeshing ones Rotary vanes, each of the two rotary pistons fixed torque on each of a shaft (131) and is driven by the respective shaft, and wherein the two shafts are coupled by a transmission in a transmission housing (152) arranged transmission, characterized in that the inlet opening and the outlet opening are arranged on a connection housing (151).

2. rotary piston pump (100) according to the preceding claim, characterized in that the transmission housing (152) and the connection housing (151) as a transmission unit (150) are formed.

3. Drehkolbenpurnpe (100) according to any one of the preceding claims, characterized in that the pump housing (140) and the gear unit (150) are releasably connected to each other.

4. rotary piston pump (100) according to any one of the preceding claims, characterized in that the two rotary pistons (121, 122) are releasably secured to the respective shaft (131).

5. Rotary pump (100) according to one of the preceding claims, characterized by a between the pump housing (140) and the transmission unit (150) arranged Verschieißplatte (160), wherein the wear plate is preferably releasably attached to the transmission unit.

6. rotary piston pump (100) according to any one of the preceding claims, characterized in that the rotary piston pump has only a single Verschieißplatte (160).

7. Rotary pump (100) according to one of the preceding claims, characterized in that the pump housing (140) has no bearing for the two shafts (131).

8. Rotary pump (100) according to one of the preceding claims, characterized in that the pump housing (140) is integrally formed.

9. Drehkoibenpumpe (100) according to any one of the preceding claims, characterized in that the inlet opening (111) via a first flow channel (113) and the outlet opening (112) via a second flow channel (114) with a pump chamber formed in the interior of the pump housing ( 141), at least a portion of each of the first and second flow channels extending in a substantially axial direction parallel to the shafts (131).

10. Rotary pump (100) according to one of the preceding claims, characterized in that the inlet opening (111) and the outlet opening (112) are arranged in the operating state of the rotary piston pump in the upper hooks of the Anschussgehäuses (151).

11. Rotary pump (100) according to one of the preceding claims, characterized in that the inlet opening (11) and the outlet opening (112) are arranged in the operating state of the rotary piston pump on the connection housing (151) such that a first axis which is arranged at right angles to a plane comprising the inlet opening, and a second axis is arranged at right angles to a Ausiassöff- comprehensive plane, each inclined at an angle of 45 ° to a vertical.

12. Drehkoibenpumpe (100) according to any one of the preceding claims, characterized by an inlet port (111) adjoining the inlet nozzle (115) with an inlet flange (117) and an outlet opening (112) adjoining the outlet nozzle (116) with a Auslassfiansch (118), wherein the inlet nozzle and the Ausiassstutzen are formed and fastened to the connection housing (151) that in a first fastening position of the inlet and / or the outlet in the operating state of Drehkoibenpumpe is arranged horizontally or are and / or in a second fastening position of the inlet and / or the outlet is arranged vertically in the operating state of Drehkoibenpumpe or are.

13. Drehkoibenpumpe (100) according to any one of the preceding claims, characterized in that the connection housing (151) has at least one releasably closable drain hole through which the medium to be conveyed can be discharged.

14. Drehkibenpumpenbausatz for providing rotary piston pump (100) of different size and / or power comprising a Drehkoibenpumpe according to any one of the preceding claims and further characterized by at least two further Drehkoiben other size with intermeshing Drehkolbenflügetn, wherein the two shafts (131) and the at least two another rotary piston of a different size are formed such that the at least two further rotary pistons of other size are releasably fastened to the respective one of the two shafts.

15. Drehkoibenpumpenbausatz according to the preceding claim, characterized by at least one further pump housing of a different size, wherein the gear unit (150) and the at least one further pump housing other Size are formed such that the at least one further pump housing of a different size to the transmission unit is detachably fastened.