FR2753748A1 - JET PUMP-BASED SUCTION DEVICE FOR MOTOR VEHICLE FUEL TANKS - Google Patents

Abstract

The invention concerns an injector or venturi for the induction of fuel in a motor vehicle fuel tank comprising an injection duct (20) receiving an injected delivery provided with a jet at its outlet, in line with a venturi tube (14) connected to the outlet (18) of the device delivering a transferred flow, an inlet (13) through which flows the sucked in delivery emerging between the jet and the venturi tube (22, 14), characterised in that the jet (22) which receives the injected delivery is formed of a nozzle of variable cross section depending on the pressure and the injected delivery Qi.

Description

 The present invention relates to the field of suction devices based on jet or Venturi effect pumps.

 The present invention applies to pumping fuel for motor vehicles.

 Numerous suction devices based on jet or Venturi effect pumps have already been proposed for motor vehicle fuel tanks. Jet or Venturi effect pumps are generally used to transfer fuel between pockets in multi-pocket tanks, or to transfer fuel from a main tank to a reserve bowl from which fuel is drawn to be directed to the engine. .

Examples of fuel suction devices based on jet or Venturi effect pumps are illustrated in documents DE-A3915185, DEA-3612194 or DEA-2602234
Suction devices based on jet or effect pumps
Venturi conventionally comprise a conduit which receives an injected flow, provided at its output with a first convergent nozzle forming placed opposite a second convergent forming a venturi tube which leads to the output of the device, to deliver a transferred flow, l main entrance to the device through which the aspirated flow passes being located between the two convergers, that is to say between the nozzle and the venturi tube.

The present invention now aims to improve the suction devices for fuel based on jet or effect pumps
Venturi.

 This object is achieved in the context of the present invention by means of a suction device such as a jet pump or Venturi effect in which the nozzle which receives the injected flow is formed by a nozzle of variable section depending on the pressure and the flow injected.

 Preferably, according to the invention, the variable section nozzle forming a nozzle is made of elastic material.

Other characteristics, objects and advantages of the invention will appear on reading the detailed description which follows, and with reference to the appended drawings, given by way of nonlimiting examples and in which - FIG. 1 represents a schematic view in longitudinal section of a pumping device according to the present invention, - Figure 2 shows an end view of an elastic nozzle according to a first variant of the invention, - Figure 3 shows a side view of this nozzle , - Figure 4 shows an end view of a nozzle according to a second variant of the invention, - Figure 5 shows a side view of this nozzle, - Figure 6 shows curves which illustrate the back pressure in function of the flow injected for a conventional nozzle formed by a nozzle of constant section and a nozzle formed by an elastic valve with variable section in accordance with the invention, under the same backpressure conditions downstream ion, - Figure 7 represents curves which illustrate the suction rate
Q / Qi as a function of the flow injected for the same nozzles, - Figure 8 represents curves which illustrate the jet section, as a function of the flow injected, for the same nozzles, - Figure 9 represents curves which illustrate the speed of the jet as a function of the flow injected for the same nozzles, and - Figure 10 represents a curve which illustrates the relationship between the flow sucked in using an elastic nozzle according to the invention and the flow sucked by a section nozzle classic constant, depending on the flow injected.

Illustrated in Figure 1 attached, a jet or effect pump
Venturi according to the present invention comprising a body 10. This carries an injection tube 20 which receives an injected flow Qi. This injected flow Qi can come for example from a return of fuel not consumed by the engine, or from an output stage of a main pump, for example an electric pump.

 According to the invention, the injection tube 20 is equipped at its outlet (located in a chamber 12 of the body 10) with a convergent 22 forming a nozzle consisting of a nozzle, preferably made of elastic material, with an opening section variable according to the pressure and the flow injected Qi. Thus according to the invention, the opening of the nozzle 22 automatically increases when the pressure of the injected flow Qi increases.

 The nozzle 22 is coaxial with the chamber 12 formed in the body 10. More precisely, the variable section nozzle 22 is placed opposite a second convergent 14 forming a venturi tube, produced in the body 10.

This venturi tube 14 opens into a mixing tube 16 connected to the outlet 18 of the device by a diffuser 17 itself consisting, for example, of a divergent in the direction of the outlet 18.

 The body 10 also has an inlet 13 which connects the outside of the body 10 to the chamber 12 upstream of the venturi tube 14, that is to say between the outlet of the nozzle 22 and the venturi tube 14.

 The inlet 13 receives a suction flow Ca taken from a fuel tank.

In a conventional manner in itself, the output 18 delivers a transferred flow
Qt equal to the sum of the injected flow Qi and the sucked flow Qa.

 The elastic nozzle 22 must of course be tightly connected to the outlet of the injection line 20 and also define a seal with the body 10 so that the suction flow Ca passes entirely through the inlet 13.

 According to the embodiment illustrated in Figure 1, the elastic nozzle 22 is attached to the outlet of the injection tube 20. However, the invention is not limited to this embodiment. Thus, as a variant, provision can be made to integrate the elastic nozzle 22 on the injection tube 20.

 The elastic nozzle 22 must be made of a material compatible with the fuel used.

 More precisely, it is preferably a material compatible with any type of fuel, petrol or diesel, to allow the production of a universal device (whose elastic characteristics change little as a function of the fuel temperature and of aging in the fuel).

 In the context of the present invention, the nozzle 22 is thus preferably produced on the basis of natural rubber or elastomer, preferably of fluoroelastomer, such as fluorosilicone or fluorocarbon.

The nozzle 22 can for example be made from the material sold under the trademark VI? TON.

 In the context of the present invention, the material making up the elastic nozzle 22 preferably has a high fluorite index, typically greater than 60%, very preferably greater than 65%.

 Furthermore, according to the invention, the material constituting the elastic nozzle 22 preferably has a hardness of the order of 60 shoreA.

 In the context of the present invention, the elastic nozzle of variable opening section 22 preferably consists of several symmetrical elastic lips around an axis OO centered on the chamber 12 of the body 10. This arrangement makes it possible to maintain an injected jet. Qi centered on the chamber 12 and the venturi tube 14 whatever the opening of the elastic nozzle 22.

 Illustrated in Figures 2 and 3 a first alternative embodiment of elastic nozzle 22 with two lips 220, 222, while illustrated in Figures 4 and 5 a second alternative embodiment of elastic nozzle 22 with four lips 225, 226, 227 and 228.

 Of course, the invention is not limited to this particular arrangement but may include a different number of lips, for example equal to three or even more than four.

 In the context of the present invention, the elastic nozzle 22 is preferably adapted to withstand injected flows Qi capable of evolving between 0 and 200 l / h, with a back pressure field on the conduit 20 of between 0 and 150 ka.

 The elastic nozzle 22 according to the present invention offers many advantages compared to conventional jet or Venturi effect pumps.

 Indeed, conventional jet pumps are dimensioned to generate a maximum back pressure in relation to the operating constraints of the organs upstream of the nozzle receiving the injected flow (regulator in petrol version, mechanical pump in diesel, ...). This back pressure makes it possible to define the minimum tolerable diameter when the injected flow is at its maximum value (zero motor consumption and maximum pump flow for example). For lower injected flow rates, the jet speed is reduced accordingly and the efficiency of the jet pump is reduced (linear reduction in the entrainment rate Qa / Qi).

 On the other hand, the use of an elastic nozzle 22 in accordance with the present invention allows - to automatically regulate the section of the nozzle 22 as a function of the flow injected Qi, - a high jet speed for low flows (increasing the venturi effect suction), - to keep a reduced jet section for low flow rates and therefore to increase the entrainment rate compared to a conventional constant fixed section, - to limit the back pressure by progressive opening of the section with the flow injected.

 The present invention finds particular interest in applications with variable injection rates.

 Of course, the curves given in FIGS. 6 to 10 are in no way limiting.

 Of course the present invention is not limited to the particular embodiments which have just been described, but extends to any variant in accordance with its spirit.

Claims (12)

 1. Jet pump or Venturi effect for sucking fuel into a tank of motor vehicles of the type comprising an injection duct (20) receiving an injected flow rate provided with a converging nozzle forming an outlet, opposite a second convergent (14) forming a venturi tube connected to the outlet (18) of the device delivering a transferred flow, an inlet (13) through which a sucked flow flows opening between the nozzle and the venturi tube (22, 14), characterized by the the nozzle (22) which receives the injected flow is formed by a nozzle of variable section according to the pressure and the injected flow Qi.  2. Device according to claim 1, characterized in that the variable section nozzle (22) is made of elastic material.  3. Device according to one of claims 1 or 2, characterized in that the nozzle (22) comprises several elastic lips (220, 222; 225, 226, 227, 228) which are symmetrical with respect to the axis of the venturi inlet.  4. Device according to claim 3, characterized in that the nozzle (22) comprises two lips (220, 222) diametrically opposite.  5. Device according to claim 3, characterized in that the nozzle (22) comprises four lips (225, 226, 227, 228) equi-distributed around an axis.  6. Device according to one of claims 1 to 5, characterized in that the nozzle (22) is formed of a natural rubber or an elastomer.  7. Device according to one of claims 1 to 6, characterized in that the nozzle (22) is formed of a fluoroelastomer.  8. Device according to one of claims 1 to 7, characterized in that the nozzle (22) is formed of a fluorosilicone or a fluorocarbon.  9. Device according to one of claims 1 to 8, characterized in that the material constituting the nozzle (22) has a fluorite index greater than 60%, preferably greater than 65%.  10. Device according to one of claims 1 to 9, characterized in that the material constituting the nozzle (22) has a hardness of about 60 shoreA.  11. Device according to one of claims 1 to 10, characterized in that the nozzle (22) is attached to the outlet of an injection tube (20).  12. Fuel tank equipped with a suction device according to one of claims 1 to 11.