BRPI1103433A2 - fuel transport device - Google Patents

Abstract

DEVICE FOR THE TRANSPORT OF FUEL. The present invention relates to devices for transporting fuel with a storage pot; with a pot bottom, from which a transport unit draws fuel, with a suction jet pump, which has a mixing channel executed, at least partially, in the storage pot, which passes from the bottom of the pot and. emptying into the storage jar: The disadvantage is that for the suction jet pump housing, in addition, a separate component is required, which needs to be connected by sealing with the storage jar. In the case of the device according to the invention, it is completely integrated into the storage pot, in such a way that the manufacturing costs are reduced. According to the invention, it is provided that the mixing channel (12) is made in one piece in the storage pot (5) and is placed at an angle, in such a way, that the section of the mixing channel. (12), facing inward (16), seen in a demoulding direction (22), does not form any back cut.

Description

Report of the Invention Patent for "FUEL TRANSPORT DEVICE".

Description Field of the Technique

The present invention relates to a device for transporting

according to the gender of the main claim.

DE 100 60 293 A1 already discloses a fuel conveying device with a storage pot having a pot bottom from which a conveying unit aspirates fuel with a suction jet pump. which has a mixing channel executed at least partially in the storage pot, which passes from the bottom of the pot and into the storage pot. The disadvantage is that, furthermore, for the suction jet pump housing a separate component is required which must be connected with the storage pot. Advantages of the Invention

In contrast, the device according to the invention with the salient features of the main claim has the advantage that the mixing channel is fully integrated into the storage pot and thus manufacturing costs are reduced by the fact that, the mixing channel is at least partially made in one piece in the storage pot and is inclined so that the inwardly facing section of the mixing channel is viewed in one direction. demoulding, does not form any rear cut. By carrying out according to the invention a simple demoulding of the injection molding tool is possible since no rear cut is formed on the inner side.

By the measures performed in the subordinate claims, advantageous improvements and improvements of the device indicated in the main claim are possible.

According to an advantageous embodiment, the mixing channel is widened in the direction of the outlet to the storage pot. In this case, the angle of the inclined position corresponds at least to the widening angle of the mixing channel. Therefore, the mixing channel is placed inclined such that the widening section facing inwardly passes in the demoulding direction.

Drawing

An exemplary embodiment of the invention is shown in simplified form in the drawing, and will be explained in detail in the following description.

Description of the Execution Example The drawing shows in section a simplified section view of the

device according to the invention.

The fuel conveying device is arranged in a fuel tank 1 and by means of a conveying unit 2, for example an electric fuel pump, transports fuel from the fuel tank 1, with pressure increase through a pressure conductor 3 for an internal combustion machine 4. The transporting unit 2 is disposed in a storage pot 5 which has a pot bottom 6 which stores sufficient fuel for the transporting unit 2 so that at low levels in fuel tank 1 and, during acceleration, braking, cornering and / or climbing, this unit can draw in fuel.

From the pressure conductor 3 of the device branches a drive conductor 8, which drives a suction jet pump 9 to the active filling of the storage pot 5. Of course, the drive conductor 8 can also be fed with fuel by a return of internal combustion engine 4 not shown, or otherwise. The drive conductor 8 flows into a suction chamber 11 of the suction jet pump 9 through, for example, a reduced jet outlet 10 which may form a nozzle. To the suction chamber 11 a mixing channel 12 is connected which is arranged in the imagined extension of the jet outlet 10 such that a jet of fluid exiting the jet outlet of the drive conductor 8 can reach straight into the mixing channel 12 through the suction chamber 11. The manner of operation of the suction jet pump 9 is sufficiently known such that it will only be briefly described here: through the drive conductor 8 and its outlet 10 a jet drive stream is introduced into the suction chamber 11.0 the drive driver 8 jet drags the fuel around the suction chamber 11 into the mixing channel 12 such that , a conveyor stream flows through the mixing channel 12 to the storage pot 5. In the suction chamber 11, a vacuum emerges which does not allow fuel to flow from the fuel tank 1 to the suction chamber 11, through a suction opening 15 of the suction chamber 11, the mixing channel 12 passes towards the longitudinal extension of the storage pot 5 and forms a rising conductor. The storage pot 12 is disposed on an inner side 16 of the circumference of the storage pot 5.

According to the invention it is envisaged that the mixing channel 12 is made in one piece in the storage pot 5 and is placed inclined such that the section of the mixing channel 12 faces the transporting unit. 2 in a demoulding direction 22, does not form any rear cuts. According to the exemplary embodiment, the mixing channel 12 has a longitudinal axis 12.1 which is inclined so that the section of the mixing channel 12 facing transport aggregate 2 is viewed in a demolding direction. 22, does not form any rear cut. The inclined position results from the fact that between the longitudinal axis 12.1 and a vertical or perpendicular axis 18, which runs parallel to the demoulding direction 22, an acute angle Î ± is provided. An outer section of the mixing channel 12 is performed in one piece on the circumferential wall 20 of the storage pot 5. The demolding direction 22 is defined by the direction of movement of an injection molding tool employed for manufacturing. from the storage pot 5. The demoulding direction 22 may pass perpendicular to the bottom of the pot 6. The mixing channel 12 is extended towards the outlet for the storage pot 5, for example, conically. In this case, the mixing channel 12 is inclined, for example, such that the widening section 17 facing inwardly 16 passes parallel to the perpendicular 18.

By means of the embodiment according to the invention, the storage pot 5 can be injection molded with a very simple injection tool. Mixing channel 12 is fully integrated in storage pot 5. In this case, storage pot 5 has the demoulding direction 22 which passes from the bottom of the pot 6 to the open end, whereby the section of the storage channel mixing 12, facing the inner side 16, seen in the demoulding direction 22, does not form any back cuts. The injection tool is removed from the storage pot 5 in the demoulding direction 22. By carrying out according to the invention no internal slide in the injection tool is required for the demoulding. In contrast, the externally facing section of the mixing channel 12, viewed in a demolding direction, has a rear section 19.

Claims (7)

1. Fuel conveying device with a storage pot (5) having a pot bottom (6) from which a conveying unit (2) aspirates fuel with a suction jet pump (9) , which has a mixing channel (12) run at least partially in the storage pot (5), which runs from the bottom of the pot (6) and into the storage pot (5), characterized by the mixing channel (12) is made in one piece in the storage pot (5) and is inclined such that the section of the mixing channel (12) faces inwardly ( 16), viewed in a demolding direction (22), does not form any rear section. Device according to claim 1, characterized in that the mixing channel (12) is extended in the direction of the opening to the storage pot (5). Device according to claim 1, characterized in that the flare (17) is made conical. Device according to Claim 1, characterized in that the mixing channel (12) is inclined so that the flare section (17) faces inwardly (16). passes perpendicular to the pot bottom (6) or in the demoulding direction (22). Device according to claim 1, characterized in that the mixing channel (12) has a longitudinal axis (12) which is inclined with respect to the demoulding direction (22). Device according to claim 1, characterized in that the storage pot (5) is injection molded. Device according to Claim 1, characterized in that the externally facing section of the mixing channel (12), viewed in the demoulding direction (22), has a rear section (19). .