EP3234371A1 - Centrifugal pump impeller - Google Patents

Abstract

The invention relates to a centrifugal pump impeller (1) having a non-metallic running wheel part (7) and a metallic hub part (8) connected to the running wheel part (7), said hub part being arranged on a shaft (5). According to the invention, a releasable connection is established between the running wheel part of (7) and the hub part (8).

Description

 Kreisefpumperilaufrad

The invention relates to a Kreiselpumpeniaufrad with a non-metallic impeller part and connected to the impeller part metallic hub part, which is arranged on a shaft.

Entirely made of metal, centrifugal pump impellers are usually mounted for a while by being pushed with their hub bore onto a shaft end and pressed by a nut against a collar of the shaft. Such a fastening method is unfavorable in centrifugal pump impellers according to the preamble of the invention, since they comprise a non-metallic impeller part. Many non-metallic materials, such as polymer casting or plastic, tend to flow under pressure.

DE 44 44 965 A1 describes a centrifugal pump impeller comprising a non-metallic impeller part and a metallic hub part. Hub parts are components which are arranged on the drive shaft and surround it. The hub part is provided with a central receiving opening. The receiving opening has a thread into which the shaft end can be screwed. The impeller part made of a plastic is molded onto the hub part. The hub part has for this purpose a ring which is perforated and is overmolded with the Kunststoffmateriai the impeller part. With this centrifugal pump premium, there is a non-detachable connection between hubbub! and impeller part. In DD 18 758 a completely different way for mounting wheels made of a ceramic material is described. In this method, in contrast to centrifugal pump impellers according to the preamble of the invention, no hub part is used. Instead of a hub part, an intermediate flange is used. This intermediate flange is arranged between the shaft end and the impeller. The impeller and the intermediate flange are provided with a bore, in the bore a bolt is arranged, which is provided at one end with a head and at the other end with a thread on which a nut is screwed. By turning a nut on the thread, the impeller and the intermediate flange are braced against each other. The intermediate flange in turn is connected to the shaft via a screw connection. For this purpose, the shaft is formed at one end with a flange, in which the holes for the screw between flange and shaft are arranged. This construction of the attachment by means of an intermediate flange is very complicated and bulky, since the intermediate flange, in contrast to a Nabenteii is not arranged on the shaft, but is placed at the shaft end between the shaft and the impeller.

DE 2 319 463 describes a rotor for a pump for cooling internal combustion engines. The rotor consists of a metallic hub part, which is pushed onto the shaft in a press fit. On this metallic hub part of Laufradteii is poured. The impeller part consists of a thermosetting resin mixture. Also in this construction, a non-detachable, solid bond between hub part and impeller part is made.

DE 76 10 913 describes a centrifugal pump with an impeller made of plastic. In the hub region of the impeller, a circular disc is arranged from a metal. The impeller has for storage on a metal bushing to which the circular disc is attached. The circular disk is completely embedded in the plastic of the impeller. Thus, there is an insoluble unit between the plastic impeller and the metallic disc. The object of the invention is to provide a centrifugal pump impeller, which can be repaired inexpensively in the event of signs of wear and tear. In addition, the installation work should be carried out quickly and inexpensively. The centrifugal pump impeller should be able to be manufactured with a low cost and thereby have a high quality.

This object is achieved in that there is a detachable connection between the impeller part and hub part.

In contrast to conventional centrifugal pump impellers thus the non-metallic impeller part is not poured around the metallic hub part around. Instead, impeller part and hub part are releasably connected to each other via driver elements. The hub part is preferably an integrally formed metallic component.

In a further embodiment, the driver elements are formed in several parts. Preferably, it is a two-part design. The driver elements preferably each have a sleeve and a connecting element with which a reliable screw connection can be produced.

Advantageously, the sleeves are arranged in recesses on an end face, in particular on the welienseitige front side of the impeller part. The recesses are preferably bores which are introduced into the nonmetallic impeller part, in particular round bores being suitable. For this purpose, a plurality of bores on the front side, for example in the region of the Trägerpiatte, the impeller part can be introduced along a circular arrangement. It proves to be advantageous if the number of holes corresponds to the number of blades of the impeller part. In addition, the depressions are preferably introduced at positions of Trägerpiatte, where attack the blades. After inserting the recesses in the non-metallic impeller part, the sleeves of the driver elements are placed in the wells and fixed there. For this purpose, the pods in the wells For example, be pressed and / or glued. The sleeves sit backlash in the recesses of the impeller part.

Alternati it is advantageous if the sleeves are cast in one end face of the impeller part. This can be dispensed with the operation of drilling.

In both cases, it is advantageous if the sleeves have a suitable anti-rotation.

In a further embodiment, the connecting elements are arranged on a ring of the hub part and engage at least partially in the sleeves. Preferably, the connecting elements are screwed into the sleeves. As a result, a reliable connection between the impeller part and hub part is made.

Preferably, the connecting elements are screws. In this variant, the sleeves are provided with an internal thread, in which engages the external thread of the screw designed as connecting elements.

The screws preferably have a taper and are placed in bores on the ring of the hub part and then screwed into the sleeves. The holes have complementary countersunk approaches to the cone approaches. This creates a play-free or largely play-free construction, in which the individual parts of the driver elements are detachably connected to each other.

By this concept according to the invention the division of the driver elements with a sleeve which is non-releasably fixed in a recess of the non-metallic impeller part and a connecting element which produces a releasable connection between the sleeve and the metallic hub part; it is possible to replace wear of the centrifugal pump impeller only the non-metallic impeller part together with the sleeves arranged therein and continue to use the metallic hub part. This is particularly advantageous because the signs of wear occur primarily on the non-metallic impeller part. In particular to the Blades of the impeller part, which are in direct contact with partially aggressive flow media, wear and tear occur. It is considerably cheaper to replace only the non-metallic impeller part than the entire centrifugal impeller together with the metallic hub chamber.

A further advantage of the construction according to the invention is that no more stresses occur in the centrifugal pump impeller according to the invention, which occur in conventional centrifugal pump impellers made of polymer casting, due to the different thermal expansion values of impeller part and hub part during pouring.

Preferably, the hub chamber has a projection which projects into the impeller part. This projection is hollow cylindrical and surrounds the shaft. At this hollow cylindrical projection of the hub part is followed by the ring.

While the projection protrudes into the hub of the impeller part, the ring of the hub part is aligned parallel to the shaft-side end face of the impeller part and abuts against the end face of the impeller part.

In a variant of the invention, this extension is followed by an extension, which is likewise hollow-cylindrical and thus surrounds the shaft.

Preferably, the metallic hub part has on its inside at least one groove in which a feather key engages, which establishes a connection between the shaft and hub part for torque transmission.

In a variant of the invention, a disk is arranged on a shaft end for fixing the impeller part. For this purpose, the non-metallic impeller part preferably has on the flow side a circular recess into which the disk is positioned. The disc has holes, for example along its circumference. By means of suitable screws, the disc is fastened via the holes on the shaft end. As a result, the hub part and the impeller part are braced against each other. When assembling the centrifugal pump impeller proceed as follows:

First, the metallic hub part and the nonmetallic impeller part are connected. The pre-assembled two-piece centrifugal pump impeller is pushed onto the shaft end.

Then the impeller part and hub part are braced against each other by means of the disc, which is fastened to the shaft end.

Preferably, a cap is arranged on the flow side of the disk. Since the cap comes into contact with flow medium, it is usually made of a corrosion-resistant material.

The impeller part consists in a particularly favorable embodiment of the invention of a ceramic material. Preferably, a ceramic-plastic composite material is suitable for this purpose. It proves to be particularly advantageous if this comprises silicon carbide particles which are arranged in a polymer matrix.

The metallic hub part is preferably made of a duplex stainless steel casting.

The method for manufacturing and assembling the circular pump impeller according to the invention comprises the following steps:

- Manufacture of the non-metallic impeller part, preferably by means of a casting process.

- Introducing depressions in the impeller part, preferably by drilling along a circumference on the shaft-side end face of the impeller part.

- Inserting and Festiegen of sleeves in the wells, preferably by pressing and / or gluing the sleeves in the wells of the impeller part. - Alternatively, the sleeves are cast in the production of non-metallic Laufradtei with.

- Inserting the metallic hub part in the non-metallic impeller part is to pay attention to the alignment of holes and internal thread of the sleeves.

- Inserting of connecting elements in the holes along the ring of the hub part and screwing the connecting elements in the sleeves. A screw lock is to be provided.

- Sliding the pre-assembled centrifugal pump impeller onto the shaft end until it abuts the ring of the hub part.

- Clamping of impeller part and hub part by means of a disc which is screwed to the shaft end.

- Fixing the cap on the mounted centrifugal pump running wheel.

Further features and advantages of the invention will become apparent from the description of an embodiment with reference to drawings and from the drawings themselves.

1 shows an axial section through the housing of a centrifugal pump with arranged therein centrifugal pump impeller,

2 is an exploded view of the Kreissepumplaufrads with shaft,

Fig. 3 is an axial section through the centrifugal pump impeller on a shaft end.

Fig. 1 shows a centrifugal pump impeller 1, which is arranged in a housing 2 of a centrifugal pump. The housing 2 comprises a suction opening 3, through which is sucked and is conveyed by means of the centrifugal pump impeller 1 in the direction of an outflow opening 4 and then leaves the centrifugal pump.

The centrifugal pump impeller 1 is arranged on a shaft 5. The shaft 5 is rotated by a motor, not shown in rotation. The torque is transmitted via two feather keys 6 on the metallic hub part 8 and the driver elements 12 on the non-metallic impeller part 7 of the centrifugal pump impeller 1.

The centrifugal pump impeller 1 consists of a non-metallic Laufradteii 7 and a metallic hub part 8. In the exemplary embodiment, the non-metallic impeller part 7 is made of a ceramic-plastic composite material, in the Siliziumcarbid- particles! embedded in a polymer matrix.

The hub part 8 is made of a duplex stainless steel casting which has a ferritic-austenitic structure.

The non-metallic impeller part 7 is made in one piece and is produced by casting. It has a carrier plate 9, on which blades 10 are formed. The exemplary embodiment is a radial centrifugal pump impeller.

Fig. 2 shows an exploded perspective view of the centrifugal pump impeller 1 with the end of the shaft 5. According to the invention, the non-metallic impeller part 7 recesses 11. The depressions 11 are bores which are introduced into the impeller part 7 after or even before complete curing or, if they were already precast during the production, are then finished.

Fig. 3 shows that in the assembled state in the wells 1 driver elements 12 engage. Each Mitnehmereiement 12 consists of a sleeve 13 and a Verbindungsseiement 14. The sleeve 13 is a hollow cylindrical body which is closed at one end face. Each sleeve 13 has an internal thread. The connecting element 14 is designed as a screw having an external thread. Alternatively, the sleeves 13 may be cast on the Weil-side end face of the impeller part 7.

Fig. 2 shows that the hubbub! 8 has a ring 15 which is provided along its circumference with a plurality of holes 16.

During assembly of the centrifugal pump impeller 1 on the welie, the procedure is as follows:

First, the sleeves 13 are inserted into the recesses 11. A suitable adhesive or epoxy resin bridges tolerances and fixes.

Then the hub part 8 is pushed into the impeller part 7 until the surface 9 of the impeller part 7 rests against the ring 5 of the hub part 8. On the alignment of the bore 16 and internal thread in the sleeves 13 must be ensured.

Then, the connecting elements 14 are inserted into the bores 16 and screwed into the sleeves 13, which are arranged in the recesses 11, and secured.

For further fixation of the hub part 8 with the impeller part 7 screws 20 can be screwed into further designated threaded sleeves or threaded holes 21 in the non-metallic material of the impeller part 7 and serve as a transport lock or mounting aid, for example, if the sleeves 13 are not pressed or glued into the recesses 11 are.

The pre-assembled centrifugal pump impeller is pushed onto the end of the shaft 5. About the feather keys 6, the shaft 5 is rotatably connected to the hub part 8, wherein the feather keys 6 engage in grooves 17 of the hub part 8. The grooves 17 extend in the axial direction in the interior of the hub part 8. Next, a disc 23 is fastened by means of screws 24 on the end face of the shaft 5. For this purpose, 23 holes 25 are introduced in the disc through which the

Screw 24 are inserted and then engage in holes provided with an internal thread on the front side of the shaft 5. The screws 24 are cylindrical screws. By tightening the screws 24, the hub part 8 and the impeller part 7 are braced against each other.

Finally, the cap 26 is screwed into a central bore 27, which is provided with an internal thread. For this purpose, the cap 26 has a pin 28 which is provided with an external thread.

Fig. 3 shows that between the disc 23 and the impeller part 7, an elastomeric ring 29 may be arranged. By tightening the screws 24 is against this

Elastomer ring 29 braced. Thus, a "flow" of the non-metallic impeller part 7 is prevented.

In Fig. 3 it can be seen that between the cap 26 and the disc 23, an O-ring 30 is arranged. There is an O-ring 31 between the cap 26 and the impeller part 7. Likewise, an O-ring 32 is disposed between the ring 15 of the hub part 8 and the surface 9 of the impeller part 7.

LIST OF REFERENCE NUMBERS

Centrifugal pump impeller O-ring Housing O-ring Intake opening O-ring Outlet opening

wave

Adjusting spring

impeller part

hub part

support plate

shovel

wells

dogging

shell

connecting element

ring

Drilled holes with taper

groove

head Start

area

screw

threaded hole

Senkansatz

disc

screw

drilling

cap

drilling

threaded pin

elastomer ring

Claims

claims

A centrifugal pump impeller (1) having a nonmetallic impeller part (7) and a metallic hub part (8) connected to the impeller part (7), which is arranged on a shaft (5), characterized in that between the impeller part (7) and the hub part (7). 8) there is a detachable connection.

Second centrifugal impeller (1) according to claim 1, characterized in that the impeller part (7) and the hub part (8) via driver elements (12) are releasably connected to each other.

3. centrifugal pump impeller (1) according to claim 2, characterized in that the driver elements (12) each have a sleeve (13) and a connecting element (4).

4. centrifugal pump impeller (1) according to claim 3, characterized in that the sleeves (13) in recesses (11) on an end face of the impeller part (7) are arranged.

5. centrifugal pump impeller (1) according to claim 3, characterized in that the sleeves (13) are cast in one end face of the impeller part (7).

6. centrifugal impeller (1) according to one of claims 2 to 5, characterized in that the connecting elements (14) on a ring (15) of the hub part (8) are arranged and at least partially in the sleeves (13) engage.

7. centrifugal pump impeller (1) according to one of claims 1 to 6, characterized in that the hub part (8) has a projection (18) which projects into the impeller part (7).

8. centrifugal pump impeller (1) according to claim 6 or 7, characterized in that the ring (15) of the hub part (8) abuts against an end face (19) of the impeller part (7).

9. A method for producing a centrifugal Pumpenlaufrads (1) according to one of claims 1 to 8.