DE102017203521A1 - delivery unit - Google Patents

Abstract

There are already known delivery units, with a drive shaft and driven by the drive shaft, rotatably mounted rotor, wherein the drive shaft has an inclined sliding surface on one end side, which can tumble the rotor with its rotor axis upon rotation of the drive shaft about a drive axis of the drive shaft, wherein the drive shaft has a first bearing section facing the rotor and a second bearing section facing away from the rotor, wherein the first bearing section of the drive shaft is arranged in a first slide bearing and the second bearing section is arranged in a second slide bearing spaced from the first slide bearing in the axial direction with respect to the drive axle. The two slide bearings are integrally formed on a housing.
In the delivery unit according to the invention, the bearing clearance is reduced in the plain bearings and thus increases the life of the delivery unit.
According to the invention, it is provided that the first sliding bearing (11) and the second sliding bearing (12) are formed on a common bearing sleeve (15), which is arranged as a separate component in a housing (16) of the delivery unit (1).

Description

State of the art

The invention relates to a delivery unit according to the preamble of the main claim.

It is already a delivery unit from the DE102014219219 A1 known, with a drive shaft and driven by the drive shaft, rotatably mounted rotor, wherein the drive shaft on one end side has an inclined sliding surface, which can tumble the rotor with its rotor axis upon rotation of the drive shaft about a drive axis of the drive shaft, wherein the drive shaft a the Rotor facing first bearing portion and a rotor facing away from the second bearing portion, wherein the first bearing portion of the drive shaft is arranged in a first sliding bearing and the second bearing portion in a spaced from the first slide bearing in the axial direction with respect to the drive axis second sliding bearing. The two slide bearings are integrally formed on a housing.

Advantages of the invention

The delivery unit according to the invention with the characterizing features of the main claim has the advantage that the two plain bearings more precise, ie with fewer tolerances and deviations in form can be produced by the first sliding bearing and the second sliding bearing are formed on a common bearing sleeve, which is a separate component in a housing of the delivery unit is arranged. The inventive design, the bearing clearance can be reduced in the plain bearings. In addition, the life of the sliding bearing and thus of the delivery unit is increased.

The measures listed in the dependent claims advantageous refinements and improvements of the main claim conveying unit are possible.

According to an advantageous embodiment, the bearing sleeve made of metal, in particular steel, or made of a filler, in particular carbon fibers, glass fibers or minerals, containing plastic. In the case of a metallic bearing sleeve, the bearing sleeve can be designed with a sliding coating cooperating with the drive shaft. The metallic bearing sleeve can be made by deep drawing and the bearing sleeve made of plastic by injection molding.

It is very advantageous if the first slide bearing is provided on a first shoulder and the second slide bearing on a second shoulder of the bearing sleeve, wherein a third shoulder of the bearing sleeve is formed between the first shoulder and the second shoulder of the bearing sleeve in the axial direction with respect to the drive axle is.

It is also advantageous if, starting from the first shoulder in the axial direction with respect to the drive axis, the bearing sleeve tapers step-like up to the second shoulder or is steppedly widened. In this way, no undercut is formed, so that the bearing sleeve in the axial direction with respect to the drive axle in the housing of the delivery unit can be inserted or mounted.

Furthermore, it is advantageous if an outlet of the delivery unit is provided at one end of the bearing sleeve. As a result, the outlet does not have to be formed on the housing of the delivery unit, which reduces the manufacturing cost. The outlet may be for example a hose connection.

Moreover, it is advantageous if a fourth shoulder for receiving a rotor receiving pump cover is provided at one end of the bearing sleeve. In this way, the pump cover is centered directly to the bearings, so that wear on pump parts is reduced.

It is advantageous if a connection cover with an inlet is provided on the fourth shoulder of the bearing sleeve, since the rotor receiving the pump cover is fastened by the connection cover on the delivery unit. In addition, the connection cover thereby assumes a holding function for the pump cover, so that the pump cover is held by the connection cover.

It is particularly advantageous if an armature section is provided on the drive shaft between the first bearing section and the second bearing section, which has permanent magnets on its circumference, which cooperate with at least one electrical winding arranged in a stator core of the housing. In this way, a drive of the delivery unit is achieved.

It is also advantageous if the stator is integrated in the housing of the delivery unit by a first, consisting of plastic housing portion and at the other end of the stator stator a second, made of plastic housing portion is provided on a first end side of the stator, wherein the first housing portion and the second housing portion are integrally connected to one another via connecting portions extending through the stator core. In this way, a housing jacket of the delivery unit is produced by encapsulation of the stator. The common bearing sleeve seals In addition, the stator from the inside, so that the fluid of the delivery unit can not come into contact with the stator and / or arranged therein with the electrical winding.

list of figures

• 1 zeigt im Schnitt ein erstes Ausführungsbeispiel des erfindungsgemäßen Förderaggregates und
• 2 im Schnitt ein zweites Ausführungsbeispiel des erfindungsgemäßen Förderaggregates.

Two embodiments of the invention are shown in simplified form in the drawing and explained in more detail in the following description.

• 1 shows in section a first embodiment of the delivery unit according to the invention and
• 2 in section, a second embodiment of the delivery unit according to the invention.

Description of the embodiments

1 shows in section a first embodiment of the delivery unit according to the invention.

The delivery unit 1 serves to convey a liquid or gaseous medium, in particular water or fuel, and comprises a drive shaft 2 and one from the drive shaft 2 driven, rotatably mounted rotor 3 , The drive shaft 2 has an oblique sliding surface on one end face 4 on that the rotor 3 with its rotor axis 5 upon rotation of the drive shaft 2 around a drive axle 6 the drive shaft 2 staggering.

The drive shaft 2 has one the rotor 3 facing first bearing section 9 and one to the rotor 3 facing away from the second bearing section 10 , The first bearing portion 9 of the drive shaft 2 is in a first sliding bearing 11 and the second bearing portion 10 in one of the first sliding bearing 11 in the axial direction with respect to the drive axle 6 spaced second sliding bearing 12 arranged.

According to the invention it is provided that the first sliding bearing 11 and the second sliding bearing 12 on a common bearing sleeve 15 are formed, which as a separate component in a housing 16 of the delivery unit 1 is arranged. In this way, the plain bearings are not individually integrated in the housing as in the prior art, but executed together on a separate component. Thereby, the bearing clearance in the plain bearings 11,12 can be reduced, so that the drive shaft 2 is better stored in the slide bearings 11,12. In addition, this results in a small axial offset and a small roundness offset between the two plain bearings 11,12.

The bearing sleeve 15 can be made for example of metal, in particular steel, or of a filler, in particular carbon fibers, glass fibers or minerals containing plastic.

The first plain bearing 11 is at a first paragraph 17 and the second sliding bearing 12 at a second paragraph 18 the bearing sleeve 15 intended. In the axial direction with respect to the drive axle 6 seen between the first paragraph 17 and the second paragraph 18 the bearing sleeve 15 a third paragraph 19 the bearing sleeve 15 educated.

The diameter of the first bearing section 9 the drive shaft 2 is designed to be larger than the diameter of the second bearing section according to the first embodiment 10 , Likewise, the diameter of the first sliding bearing 11 for example, larger than the diameter of the second sliding bearing 12 , According to this embodiment, the bearing sleeve tapers 15 stepped starting from the first paragraph 17 in the axial direction to the second paragraph 18 ,

The housing 16 of the delivery unit 1 has an inlet 20 and an outlet 21 , The fluid passes through the inlet 20 in a the rotor 3 receiving working chamber 22 and is from the rotor 3 in a connection channel 25 the drive shaft 2 promoted to the outlet 21 of the delivery unit 1 leads.

At the drive shaft 2 is between the first storage section 9 and the second storage section 10 an anchor section 26 provided, the permanent magnets on its circumference 27 having at least one in a stator core 28 of the housing 16 arranged electrical winding 29 interact. The stator package 28 is in the case 16 of the delivery unit 1 integrated, by at a first end face of the stator 28 a first, made of plastic housing section 30 and at the other end of the stator pack 28 a second, made of plastic housing section 31 is provided. The first housing section 30 and the second housing section 31 are over through the stator package 28 extending connecting sections 32 integrally connected. At one the rotor 3 facing end face of the housing 16 is one the rotor 3 in the working chamber 22 receiving pump cover 35 arranged at its the rotor 3 facing inside has a toothing, with a toothing of the rotor 3 interacts fluidically. The pump cover 35 is on the case 16 attached.

The outlet 21 the delivery unit is according to the first embodiment as an outlet port on the housing portion 31 educated.

2 shows in section a second embodiment of the delivery unit according to the invention. At the delivery unit after 2 are the opposite to the delivery unit after 1 Constant or equivalent parts by the same reference numerals.

The delivery unit according to the second embodiment differs from the delivery unit according to the first embodiment in that the outlet 21 at one the rotor 3 opposite end of the bearing sleeve 15 is provided.

Furthermore, on one of the rotor 3 opposite end of the bearing sleeve 15 a fourth paragraph 36 for receiving the rotor 3 receiving pump cover 35 intended. At the fourth paragraph 36 the bearing sleeve 15 is a connection cover 37 with an inlet connection 20 arranged. The connection cover 37 is on the fourth paragraph 36 the bearing sleeve 15 attached and pushes the pump cover 35 for attachment to the delivery unit against the stepped shoulder 38 of the fourth paragraph 36 the bearing sleeve 15 ,

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 102014219219 A1 [0002]

Claims (9)

Conveying unit (1) having a drive shaft (2) and a rotatably arranged rotor (3) driven by the drive shaft (2), the drive shaft (2) having an oblique sliding surface (4) on one end face which supports the rotor (3) with its rotor axis (5) on rotation of the drive shaft (2) about a drive shaft (6) of the drive shaft (2) can wobble, wherein the drive shaft (2) facing the rotor (3) first bearing portion (9) and the rotor ( 3) facing away from the second bearing portion (10), wherein the first bearing portion (9) of the drive shaft (2) in a first sliding bearing (11) and the second bearing portion (10) in one of the first sliding bearing (11) in the axial direction with respect to the drive axis (6) spaced second sliding bearing (12) is arranged, characterized in that the first sliding bearing (11) and the second sliding bearing (12) on a common bearing sleeve (15) are formed, which is a separate component in a housing (16) of the delivery unit it (1) is arranged. Conveying unit after Claim 1 , characterized in that the bearing sleeve (15) made of metal, in particular steel, or made of a filler, in particular carbon fibers, glass fibers or minerals containing plastic. Conveying unit after Claim 1 or 2 , characterized in that the first slide bearing (11) on a first shoulder (17) and the second slide bearing (12) on a second shoulder (18) of the bearing sleeve (15) is provided, wherein in the axial direction with respect to the drive axle (6). seen between the first paragraph (17) and the second paragraph (18) of the bearing sleeve (15) has a third shoulder (19) of the bearing sleeve (15) is formed. Conveying unit after Claim 3 , characterized in that the bearing sleeve (15) starting from the first paragraph (17) seen in the axial direction to the second step (18) tapers stepwise or stepped. Delivery unit according to one of the preceding claims, characterized in that an outlet (21) of the delivery unit (1) is provided at one end of the bearing sleeve (15). Delivery unit according to one of the preceding claims, characterized in that at one end of the bearing sleeve (15) a fourth shoulder (36) for receiving a rotor (3) receiving the pump cover (35) is provided. Conveying unit after Claim 6 , characterized in that on the fourth shoulder (36) of the bearing sleeve (15) a connection cover (37) with an inlet (20) is provided. Delivery unit according to one of the preceding claims, characterized in that on the drive shaft (2) between the first bearing portion (9) and the second bearing portion (10) an anchor portion (26) is provided which has on its circumference permanent magnets (27) with at least one in a stator (28) of the housing (16) arranged electrical winding (29) cooperate. Conveying unit after Claim 8 , characterized in that the stator (28) in the housing (16) of the delivery unit (1) is integrated by a first, consisting of plastic housing portion (30) and at the other end of the first side of the stator (28) Statorpakets (28) a second, consisting of plastic housing portion (31) is provided, wherein the first housing portion (30) and the second housing portion (31) through the stator (28) extending connecting portions (32) are integrally connected to each other.

Images