DE3514594A1 - Fuel pump unit fitted inside a tank - Google Patents

Abstract

In order to achieve effective noise insulation of a fuel delivery pump fitted inside a tank, the pump 1 is resiliently mounted on all sides in a bell-shaped outer housing 4. The annular space 20 between pump 1 and the outer housing 4 is filled with gas. The gas cushion forms an effective insulation against transmission of the pump noises and is continually replenished by the air and gas bubbles entrained by the returned fuel, which separate out in the chamber 16. <IMAGE>

Description

Inner tank fuel pump unit

The invention relates to an inner-tank fuel pump unit according to the preamble of claim 1.

A current problem with such inner tank pumps is damping the sound of the pump coming through the wall of the unit housing and the suction opening is transferred to the fuel, which acts as a low-attenuation pressure wave conductor transmits the sound to the tank wall. This transfer is also not through prevents elastic mounting of the pump unit in the tank.

The invention is based on the object of effective damping of the To achieve pump noise of such inner tank fuel pump units.

This object is achieved according to the invention by the features in the characterizing part of the claim 1 specified features solved.

In the proposal according to the invention, the unit is through the housing the elastic mounting is arranged in the outer housing and decoupled from structure-borne noise Annular space between the unit housing and the outer housing is filled with gas. This Gas cushion, which is formed by air before the first refueling, is in operation continuously through the air and gas bubbles carried along by the returned fuel , which are deposited in the gas separation chamber, added. This ensures that the unit housing is constantly surrounded by a gas cushion that the transmission the pump noises have an effect on the fuel in the tank and thus on the tank wall prevented.

In a preferred embodiment, the annular space is downwards open and the gas separation chamber is arranged below and surrounds the annular space the lower end section of the unit housing and stands over an annular gap with the annulus in connection, the return line above the suction opening opens into the gas separation chamber. The return line preferably opens tangentially into the gas separation chamber, so that the gas is preferentially on the one near the center Collects side of the gas separation chamber and can rise into the annulus. These The tendency can be intensified if the peripheral wall of the gas separation chamber Is formed spirally.

In order to allow the pump to suck in gas bubbles even when there is a high volume of gas To prevent as much as possible, a vent opening can be made of the annular space near its lower end starting through the gas bubbles in the tank outside the gas separation chamber when the annular space is full can ascend. In addition, the suction opening can be in the gas separation chamber surrounding sieve be provided.

The delivery line of the pump can pass through an opening in the end wall of the outer housing, which is sealed by a rubber ring, and to elastic mounting of the unit housing can be between this and the outer housing at least three rubber elements arranged at an angular distance from one another are provided will.

The housing forming the gas separation chamber can be fixed to the tank wall be connected, while the outer housing containing the pump unit with this Housing is releasably connected by a bayonet lock or the like.

An embodiment of the invention is hereinafter referred to described on the drawings. It shows: Fig. 1 is a partial longitudinal section of an inner tank fuel pump unit according to the invention, and FIG. 2 shows a section along line 2-2 in FIG. 1.

1 with a cup-shaped unit housing is referred to, which the fuel pump and accommodates the electric motor driving it and a lower open end 2 has, which serves as a suction port for the pump. Upward extends from -the unit housing 1, a fuel delivery line 3.

The unit housing 1 is insulated from structure-borne noise in an outer housing 4 stored. For this purpose, between the unit housing 1 and the outer housing 4 three elongated rubber elements 5 arranged at an angular distance from one another provided, each having a first inner projection 6 which is inserted into an annular groove 7 in the Unit housing 1 engages, and has a second inner projection 8, the rests against the outer surface of the unit housing 1. The rubber elements 5 are through a snap ring 9 held in the plane of the annular groove 7 on the unit housing 1 and in the outer housing 4 by abutment of their upper ends against the end wall 10 of the outer housing 4 and by placing an inclined surface 11 near its lower end on an indentation 12 of the outer housing 4 is axially fixed. The delivery line 3 extends through a Opening 13 in the end wall 10 of the outer housing 4 through a sealing ring 14 is sealed. The unit housing 1 and the outer housing 4 thus form one Unit.

The outer housing 4 is by a schematically indicated bayonet lock 15 releasably connected to the housing of a gas separation chamber 16, which is a spiral-shaped Has peripheral wall 17 and an end wall 18. The peripheral wall 17 surrounds the lower one End section of the pump housing 1, and its end wall 18 forms with the peripheral wall of the unit house 1 an annular gap 19, which with the annular space 20 is connected between the unit housing 1 and the outer housing 4. In the gas separation chamber 16 opens tangentially into a fuel return line 21, namely at a point above the suction opening 2 of the unit housing 1. Below the mouth of the return line 21 extends from the peripheral wall 17 a guide surface 17a, which ensures that the returned fuel is not immediately sucked in again will. The housing of the gas separation chamber 16 has a base plate 22 which is attached to the Bottom 28 of the fuel tank is attached. Openings 23 in the peripheral wall 17 allow the flow of fuel from the tank to the intake opening 2.

Before the first refueling, the annular space 20 is filled with air. To When the fuel is filled in, this air cannot escape, so it forms a Pad, which the transmission of the pump noise to the fuel and thus effectively dampens the tank wall. Over time, however, this air - dependent from the saturation state of the fuel - be dissolved in the fuel.

However, since the annular space 20 via the annular gap 19 with the gas separation chamber 16 is in connection, can be carried by the returned fuel Air and gas bubbles which are deposited in the chamber 16, the gas cushion in the annular space 20 to be updated continuously. This gas separation is supported by that from FIG. 2 visible, spiral formation of the peripheral wall 17 and the tangential opening the fuel return line 21. The fuel flows in the chamber 16 preferably along the peripheral wall 17, while the gas is preferably on the near the center side of the chamber 15, so in the area of the Rina gap 19, collects. This gas now rises and fills the ring room 20. To reach that the fuel pump sucks in as little gas as possible, close to the lower At the end of the annular space 20, a ventilation opening 24 in the wall of the outer housing 4 are provided. In addition, an annular sieve 25 can be placed in the gas separation chamber 16 be provided that surrounds the suction opening 2 and on the unit housing 1 is applied via a rubber seal 26.

Furthermore, the guide surface 17a ensures that as few gas bubbles as possible can get into the area of the suction opening 2.

With 27 the electrical leads for the pump motor are designated, which are led out of the outer housing 4 at the lower end of the annular space 20.

Claims (9)

Inner tank fuel pump unit Patent application 1. Inner tank fuel pump unit with a cup-shaped which accommodates the pump and an electric motor that drives it Unit housing with a suction opening at the lower end, d u r c h e k e n n -z e i c h n e t that the unit housing (1) is elastic on all sides in one vertically arranged, bell-shaped outer housing (4) is mounted with the unit housing (1) bounds an upwardly closed annular space (20) which with a gas separation chamber (16) arranged in front of the suction opening (2) stands, into which a fuel return line (21) opens. 2. Fuel pump unit according to claim 1, characterized in that that the annular space (20) is too open at the bottom, that the gas separation chamber (16) below of the annular space (20) is arranged and the lower end portion of the unit housing (1) surrounds and communicates with the annular space (20) via an annular gap (19), and that the return line (21) into the gas separation chamber above the suction opening (2) (16) opens. 3. Fuel pump unit according to claim 1, characterized in that that the return line (21) opens tangentially into the gas separation chamber (16). 4. Fuel pump unit according to one of claims 1 to 3, characterized characterized in that the housing of the gas separation chamber (16) has a peripheral wall (17) with openings (23) for the passage of fuel from the tank and an end wall (18) having an annular gap with the peripheral wall of the unit housing (1) (19) limited, which is in communication with the annular space (20). 5. Fuel pump unit according to claim 4, characterized in that that the peripheral wall (17) is formed spirally. 6. Fuel pump unit according to one of claims 1 to 5, characterized characterized in that a vent opening of the annular space (20) near its lower end (24) goes out. 7. Fuel pump unit according to one or more of the preceding Claims, characterized in that a suction opening in the gas separation chamber (16) (2) surrounding screen (25) is provided. 8. Fuel pump unit according to claim 1, characterized in that that the end wall (10) of the outer housing (4) is sealed by a sealing ring (14) Has opening (13) for the feed line (3) of the fuel pump to pass through and that between the unit housing (1) and the outer housing (4) at least three at an angular distance from each other arranged rubber elements (5) are provided, axially fixed both on the unit housing (1) and on the outer housing (4) are. 9. Fuel pump unit according to claim 2, characterized in that that the outer housing (4) with which the gas separation chamber (16) delimit the housing is releasably connected by a bayonet lock (13).