DE3230361A1 - Unit for delivering a medium - Google Patents

Abstract

The invention proposes a unit which is used, in particular, for delivering fuel from a storage tank to the internal combustion engine of a motor vehicle. The feed unit comprises an electric driving motor and a feed pump, the delivery element of the feed pump and the motor armature being rotatably mounted on an axle fixed to the frame. Arranged between the winding of the armature and the armature mounting is an insulating piece which has a catch that connects the motor armature rotationally to the pump rotor. In order to achieve a simplified construction of the unit, the catch is provided with a shoulder which faces the armature and to which a fixedly arranged countershoulder is assigned in the direction of the axis of rotation of the rotating parts of the unit. <IMAGE>

Description

Unit for conveying a medium

PRIOR ART The invention is based on a conveyor unit the genre of the main claim. A conveyor unit is already known in which the fixing of the rotating assembly parts on the bearing axis by means of snap rings and washers is accomplished. The snap rings are used on both sides of the armature arranged annular grooves of the axis used and the armature longitudinal play by means of of the washers are limited to the still permissible dimension.

Advantages of the Invention The delivery unit according to the invention with the Characteristic features of the claim has the advantage that the Grooves in the axis, the snap rings themselves, measuring and limiting the longitudinal play as well as the assembly of the snap rings can be omitted. Another advantage is that that the armature when heated during operation of the unit without difficulty in Can extend towards its free end.

The measures listed in the subclaims are advantageous Further training and improvements to the delivery unit specified in the main claim possible.

Exemplary embodiments of the invention are shown in the drawing and explained in more detail in the following description. It show figure 1 a schematic representation of an arrangement with a fuel storage tank, a fuel delivery unit and an internal combustion engine, Figure 2 is a partial section through the delivery unit 'in an enlarged representation, Figure 3 is a partial section according to FIG. 2 through a different conveyor unit and FIG. 4 shows a section by the delivery unit according to Figure 3 along the line IV-IV.

Description of the exemplary embodiments FIG. 1 shows a fuel storage tank 10, which is connected via a suction line 12 to the suction side of a fuel delivery unit 14 is connected. On the pressure side of the fuel delivery unit lit is a Pressure line 16 connected, which leads to an internal combustion engine 18.

During the operation of the internal combustion engine, the fuel delivery unit delivers 14 fuel from the storage tank 10 to the internal combustion engine 18.

The fuel delivery unit 14 is provided with an electric drive motor Equipped with 20 (FIG. 2), motor armatures 22 measure on a fixed axis 24 is rotatably mounted. The armature winding 25 of the otoranker 22 is by an insulating piece 26 insulated from a support tube 28 surrounding the bearing axis 24. The support tube itself is supported on the bearing axis 24 via slide bearings 30.

In the axial direction of the bearing axis 24 next to the motor armature 22 is a the feed pump 32 belonging to the feed unit 14 is arranged, which acts as a roller cell pump is trained. The roller cell pump 32 has a pump stator 34, the one Forms the pump chamber in which the pump rotor 36 is rotatably mounted. The as Pump rotor 36 acting on the delivery member is carried by a driver 38, which is an extension of the insulating piece 26, connected to the motor armature 22 in a rotationally fixed manner. The driver 38 extends through a recess 40 in the armature between the motor 22 and the pump rotor 36 located stator wall 42 through a recess 44 in the pump rotor 36 through it, so that it has its free end 46 facing away from the motor armature 22 Side of the pump rotor 36 protrudes. The free end 46 of the driver 38 is with a Radial shoulder 47 extending away from the axis of rotation of the pump rotor 36 provided, which has a shoulder 48, which faces away from the motor armature 22 with the shoulder Front face of the pump rotor 36 cooperates in the sense of a latching. The driver 38 is made of an elastic plastic, so that the driver 38 together is elastically deflectable with the approach 46. The end face 50 of the pump rotor 36 thus forms a counter shoulder for the shoulder 48 of the extension 47. The insulating piece 26 has three drivers 38. So that these drivers through the recess 40 in the Stator wall 42 can be passed through, is the recess with an extension 52 which extends radially.

The radial extent of the extension 52 is greater than that radial extension of the projection 47 with the shoulder 48. The free one The end 46 of the driver 38 has an end face facing away from the motor armature 22 54, which is located in a depression 56 in the other stator wall 58. Of the Distance between the end face 54 and the base area 58, which is a contact surface forms for the end face 54, limits the armature longitudinal play in one direction. In the other direction, the longitudinal play of the armature is increased by the direction of the axis of rotation immovably fixed pump rotor limited. The coordination between drivers 38 and the bearing axis 24, it is made so that the driver 38 when mounted The unit is supported with its side facing the axis of rotation on the bearing axis 24, before the shoulder 48 of the extension 4 disengages from the opposing shoulder 50.

The embodiment shown in Figure 3 corresponds to the invention largely of the embodiment according to FIG. 2.

Therefore, the same parts are given the same reference numbers as in Figure 2. Also in the embodiment according to Figures 3 and 4, the insulating piece 26 three drivers 138, which extend through a recess 140 in one stator wall 42 extend therethrough. Finger-like end sections 142 of the driver 138 grip in entrainment openings 144 of the pump rotor 36. The same as in the embodiment according to FIG Figure 2, the recess 140 is provided with an extension 152, so that a proper Assembly of the unit is possible. In the area of the stator wall 42, each driver has 138 has a radially outwardly extending shoulder 148, one of which is fixed to the frame Counter shoulder 150 in the stator wall 42 is assigned. Each driver points further 138 still has an inner shoulder 15 pointing away from the armature 22, which with one of her facing end face 15> 4 of the rotor 36 cooperates. Thus the anchor clearance is after the one Side by the cooperating with the counter shoulder 150 Shoulder 148 and to the other side through the inner shoulder 156 and yours associated end face (counter shoulder) 154 of the rotor 36 is limited. The shoulder 148 is set back into the stator wall 42 from the perspective of the pump rotor 36 and the extension 152 of the recess 140 wraps around approximately 180 degrees of the recess circumference. In this exemplary embodiment, too, the radial extent is the extension 152 greater than the radial extent of the shoulder 148.

Both exemplary embodiments have in common that each driver 38 has a shoulder 48 or 148 facing the motor armature 22, the one in the direction the axis of rotation of the rotating assembly parts 22, 36 fixedly arranged counter-shoulder 50 or 150 is assigned.

Claims (13)

Claims unit for conveying a medium, in particular fuel from a storage tank to the internal combustion engine of a motor vehicle, with an electric one Drive motor and a feed pump, in which the circulating conveyor link of the pump and the armature of the motor are rotatably mounted on a shaft fixed to the frame and with one holding the armature winding and the armature bearing at a distance from one another Insulating piece which connects the conveyor link to the motor armature in a rotationally fixed manner Has driver, characterized in that the driver (38 or 138) a the armature (22) facing shoulder (48 or 148), the one in the direction the axis of rotation of the rotating assembly parts (22, 36) fixedly arranged counter-shoulder (50 or 150) is assigned. 2. Unit according to claim 1, characterized in that the shoulder (48 or 148) on one of the axis of rotation of the rotating assembly parts (22, 36) extending projection (47 or 147) of the driver (38) is arranged. 3. Unit according to claim 2, characterized in that the driver (38) with its free end (46) from the side of the facing away from the armature (22) Conveyor member (36) protrudes and that at this end (46) the shoulder (47) with the shoulder (48) is arranged. 4. Unit according to claim 3, characterized in that the counter shoulder is formed on the pump rotor (36) fixed in the direction of the axis of rotation. 5. Unit according to one of claims 3 or 4, characterized in that that the projection (47) is elastically deflectable via the driver (38). 6. Unit according to one of claims 3 to 5, characterized in that that the driver (38) with its mounted unit facing the axis of rotation Side on the bearing axis (24) supported before the shoulder (483 and the counter shoulder (50) disengage. 7. Unit according to one of claims 3 to 6, characterized in that that the driver (38) at its free end (> 46) is one of the motor armature (22) has remote end face (54) which has a contact surface (58) on the pump stator (34) is facing. 8. Unit according to claim 7, characterized in that the contact surface is formed by the base (58) of a depression (56) in the pump stator (34). 9. Unit according to claim 2, wherein between the pump rotor and A wall of the pump stator penetrated by the bearing axis is arranged on the motor armature is, characterized in that the driver (38) in the area of the stator wall (42) is provided with the shoulder (148) forming approach (147) and that this shoulder (148) is assigned a counter shoulder (150l) formed on the wall (42). 10. Unit according to claim 9, characterized in that the counter shoulder (150) is set back on the stator wall (42) with respect to the pump rotor (36). 11. Unit according to one of claims 9 or 10, characterized in that that the penetration of the stator wall (42) through the bearing axis (24) enables Recess (140) is provided with an extension (152) which is approximately 180 degrees of the The circumference of the recess wraps around. 12. Unit according to claim 11, characterized in that the radial Extension of the extension (152) greater than the radial extension of the shoulder (148). 13. Unit according to one of claims 1 to 12, characterized in that that the unit has several, preferably three drivers (38).