DE112017007402T5 - Automobile gas pump - Google Patents

Abstract

The invention relates to a motor vehicle gas feed pump (10) with a pump housing (14) and a pump wheel (20). The impeller (20) includes a circular rear disc (26), a circular front washer (24) defining a central impeller inlet opening (22), and numerous impeller blades (30) defining the rear disc (26) and the front Connect the washer (24) together. The pump housing (14) comprises a front cover (15) which essentially covers the front ring disk (24) of the pump wheel (20). The pump wheel (20) is provided with an annular ring projection (40) which projects axially from the front ring disk (24). The front cover (15) of the pump housing (14) is provided with an annular annular groove (17) which corresponds to the annular annular projection (14), so that the annular annular projection (40) projects into the annular annular groove (17).
Since the fluidic backflow is reduced by the gap between the front cover (15) of the pump housing and the pump wheel (20), the fluidic efficiency of the gas feed pump is increased.

Description

The invention relates to a motor vehicle gas feed pump and preferably relates to a so-called flushing pump for pumping fuel vapor from a motor vehicle fuel system to a steam target, for example to a steam accumulator or to a combustion device.

The gas feed pump is not a positive displacement pump, but is provided with a rapidly rotating impeller that generates a steady flow with a relatively high throughput rate but with a relatively low pressure. A typical impeller is constructed as a so-called impeller that includes a circular rear disc, a circular front washer that defines a central impeller inlet, and numerous impeller blades that connect the rear disc and the front washer.

Since the impeller rotates at a relatively high speed, a relatively large gap between the rotating impeller and the static pump housing is required even for a slight imbalance of the impeller to avoid a collision of the impeller with the housing. However, a relatively large gap increases the fluidic backflow from the impeller outlet to the impeller inlet, which causes a reduced fluidic efficiency of the gas feed pump.

An object of the invention is to improve the fluid mechanical efficiency of a rapidly rotating gas feed pump.

The object is achieved by a motor vehicle gas feed pump with the features of main claim 1.

The automotive gas feed pump according to the invention is provided with an impeller that includes a circular rear disc that includes a circular front washer that defines the central impeller inlet opening and that includes numerous impeller blades that interconnect the rear disc and the front washer connect. The pump wheel is a so-called impeller.

The pump housing includes a front cover that substantially covers the front washer of the impeller. The gap between the housing front cover and the impeller front washer is the return flow path for the pumped gas from the high pressure side at the impeller outlet to the low pressure side at the impeller inlet.

The pump wheel is provided with an annular ring projection which projects axially from the front ring disk of the pump wheel. The annular ring projection protrudes axially substantially in the axial direction from the distal surface plane of the front disc ring. The term “axial” does not necessarily mean that the ring-shaped ring projection projects exactly in the axial direction, but with an essentially axial component. The annular ring projection does not define the impeller inlet opening, but is positioned at a radial distance of at least a few millimeters from the impeller inlet opening.

The pump housing, in particular the front cover of the pump housing, is provided with an annular annular groove which corresponds to the annular annular projection of the pump wheel, so that the annular annular projection projects axially into the annular annular groove. This increases the length of the radial backflow path between the impeller gas outlet and the impeller gas inlet port, which is defined by the gap between the front housing cover and the front impeller washer. In addition, the gap in the ring area can be produced with high precision, so that a relatively small gap width can be provided for the ring area gap. The total fluid-mechanical resistance between the high-pressure side and the low-pressure side is increased, as a result of which the total fluid-mechanical backflow is reduced. Since the total fluid mechanical backflow is reduced, the fluid mechanical efficiency of the gas feed pump is increased.

According to a preferred embodiment of the invention, the annular ring projection and the corresponding annular ring groove are positioned radially outward from the impeller inlet opening and not adjacent to the impeller inlet opening. The annular ring projection is preferably provided within the outer half of the total radius of the pump wheel.

According to a preferred embodiment of the invention, the annular ring projection and the corresponding annular ring groove together define a non-contact annular labyrinth seal.

The annular ring projection is preferably defined by an annular ring body with a substantially constant cross section along the entire circumference of the ring body, but with at least one balancing recess. In other words, the annular ring projection is provided with one or more recesses for balancing the impeller. After the impeller is manufactured, the impeller imbalance is determined in a suitable device and the determined impeller imbalance is reduced or eliminated by providing one or more balancing recesses at a suitable location on the annular ring projection. The balancing recess can be provided as a radial bore or as any other type of recess on the annular ring projection. The balancing cutout is preferably provided at the distal axial front end of the annular ring body.

Since the rapidly rotating impeller is balanced, the gap width between the front cover of the pump housing and the front disk of the impeller can be reduced considerably, so that the overall fluidic resistance of the gap between the high-pressure side and the low-pressure side is considerably reduced. This improves the fluid mechanical efficiency of the gas feed pump.

The pump wheel is preferably made of plastic. A pump impeller made of plastic is relatively light and can be produced quite inexpensively. However, an injection-molded pump wheel body generally does not have perfect contour accuracy, which leads to an imbalance in the individual plastic pump wheels. The imbalance of a pump wheel can be essentially corrected by providing suitable balancing recesses on the annular ring projection. The relatively light and balanced pump wheel thus allows the gap width between the front cover of the housing and the front ring disk of the pump wheel to be reduced to a very small value. This increases the fluidic resistance of the gap and the backflow between the high pressure side and the low pressure side is reduced.

According to a preferred embodiment of the invention, an electric drive motor is provided for driving the pump wheel. The pump wheel is not mechanically driven by another rotating part of the motor vehicle engine, but the pump has its own electrical drive device. The gas feed pump can thus be activated when a pump insert is required and requested.

The electric drive motor preferably has a nominal pump speed of more than 10,000 rpm. A relatively high nominal pump speed generates a relatively high gas flow and a relatively high pump pressure and allows a very compact motor vehicle gas feed pump to be provided.

According to a preferred embodiment, the gas feed pump is a fuel vapor pump, which is also known as a so-called purge pump, for pumping fuel vapor from a fuel circuit to a fuel vapor target.

• 1 einen schematischen Querschnitt einer Kraftfahrzeug-Gasförderpumpe, die ein Pumpengehäuse und ein Pumpenrad in dem Pumpengehäuse umfasst, zeigt,
• 2 eine perspektivische Ansicht des Pumpenrads von 1 zeigt, und
• 3 ein vergrößertes Detail der Labyrinthdichtung, die zwischen der vorderen Abdeckung des Gehäuses und der vorderen Ringscheibe des Pumpenrads definiert wird, zeigt.

An embodiment of the invention will be described with reference to the drawings, in which:

• 1 2 shows a schematic cross section of a motor vehicle gas feed pump, which comprises a pump housing and a pump wheel in the pump housing,
• 2 a perspective view of the impeller of 1 shows, and
• 3 an enlarged detail of the labyrinth seal, which is defined between the front cover of the housing and the front washer of the impeller shows.

1 schematically shows a motor vehicle gas feed pump 10 with a pump housing 14 made of plastic, a pump wheel 20 made of plastic and an electric drive motor 12 who the impeller 20 drives directly. The gas feed pump 10 is a fuel vapor pump for pumping fuel vapor from a fuel circuit to a fuel vapor target, for example to a fuel vapor absorber or to a combustion part of an internal combustion engine.

The electric drive motor 12 has a nominal speed between 30,000 and 60,000 rpm. A typical throughput rate is 50 l / min. The typical pressure difference between the pump inlet and the pump outlet is 80 mbar.

The impeller 20 includes a circular rear disc 26 and a circular front washer 24 with a central circular opening edge. The impeller 20 is with numerous impeller blades 30 provided that the rear disc 26 with the front washer 24 connect. A typical diameter of the impeller 20 is 40 mm.

The pump housing 14 defines an axial central pump inlet 13 that is in line with the impeller inlet 22 is aligned and defines an outlet spiral 16 who the impeller 20 surrounds. The outlet spiral 16 leads into a pump outlet, which is not shown in the drawings.

As in 1 and 3 you can see the rear window 26 the impeller 20 in a transverse plane. The front washer 24 the impeller 20 does not lie exactly in a transverse plane, but is somewhat conical. A cylindrical inlet collar 28 is on the circular inner edge of the front washer 24 intended. The opening waistband 28 defines the central inlet opening 22 the impeller.

A cylindrical ring-shaped projection 40 is on the front washer 24 intended. The ring-shaped ring projection 40 protrudes axially from the front washer 24 in front. The ring-shaped ring projection 40 is an integral part of the front washer 24 , The radius RR of the annular ring projection 40 is greater than half the total radius RW of the impeller 20 , The ring-shaped ring projection 40 is from the impeller inlet 22 positioned radially outward and is not adjacent to the impeller inlet 22 positioned.

As best in 1 and 3 can be seen includes the pump housing 14 a front cover 15 that the front washer 24 the impeller 20 essentially covers. An annular ring groove 17 is on the inside surface of the front cover 15 of the housing provided. The ring-shaped ring groove 17 agrees with the annular ring projection 40 the impeller 20 match, so that the annular ring projection 40 axially into the annular ring groove 17 protrudes and thus defines a non-contact ring-shaped labyrinth seal. When viewed in cross section, the labyrinth seal gap has a C-shaped course.

After the injection molding process of the impeller 20 can the impeller 20 have a rotational imbalance. The impeller unbalance is compensated by providing one or more balancing recesses 44 at the front end 43 of the annular ring body 42 that the annular ring projection 40 defined, balanced. The size and number of balancing recesses is from the original imbalance of the impeller 20 dependent.

The axial height H of the annular ring projection 40 above the surface of the front washer 24 is between 1 mm and a few millimeters, for example 1.5 mm.

The axial gap width G1 between the annular ring projection 40 and the front cover 15 of the housing in the annular ring groove 17 is 0.5 mm, and the radial gap width G2 in the annular ring groove 17 is also about 0.5 mm.

Claims (10)

Motor vehicle gas feed pump (10) with a pump housing (14) and a pump wheel (20), the impeller (20) having a circular rear washer (26), a circular front washer (24) defining a central impeller inlet (22), and numerous impeller blades (30) defining the rear washer (26) and the front Connect the washer (24) together, includes wherein the pump housing (14) comprises a front cover (15) which essentially covers the front ring disk (24) of the pump wheel (20), wherein the pump wheel (20) is provided with an annular ring projection (40) which projects axially from the front ring disk (24), and wherein the front cover (15) of the pump housing is provided with an annular annular groove (17) which corresponds to the annular annular projection (40) so that the annular annular projection (40) protrudes into the annular annular groove (17). Motor vehicle gas feed pump (10) after Claim 1 , wherein the annular ring projection (40) and the corresponding annular ring groove (17) from the impeller inlet opening (22) are positioned radially outside and not adjacent to it. Motor vehicle gas feed pump (10) according to one of the preceding claims, wherein the annular annular projection (40) and the corresponding annular annular groove (17) together define a non-contact annular labyrinth seal. Motor vehicle gas feed pump (10) according to one of the preceding claims, wherein the annular ring projection (40) is defined by an annular ring body (42) with a substantially constant cross section and with at least one balancing recess (44). Motor vehicle gas feed pump (10) after Claim 4 , wherein the balancing recess (44) is provided at the front end (43) of the annular ring body (42). Motor vehicle gas feed pump (10) according to any one of the preceding claims, wherein the annular ring projection (40) is provided in the outer half of the total radius (RW) of the pump wheel (20). Motor vehicle gas feed pump (10) according to one of the preceding claims, wherein an electric drive motor (12) is provided for driving the pump wheel (20). Motor vehicle gas feed pump (10) according to one of the preceding claims, wherein the pump wheel (20) is made of plastic. Motor vehicle gas feed pump (10) according to one of the preceding Claims 7 to 8th , wherein the electric drive motor (12) has a nominal speed of more than 10,000 rpm. Motor vehicle gas feed pump (10) according to one of the preceding claims, wherein the pump (10) is a fuel vapor pump.

Images