DE3126475A1 - Venting device - Google Patents

Abstract

The invention relates to a venting device for fuel tanks of motor vehicles, with a venting bore (5) leading from the fuel tank (3) to the outside. This venting bore (5) can be closed by a float-operated venting valve designed as a seating valve. In order to permit sensitive closing and opening of the venting valve in any position of the venting device, the float (1), on its circumferential surface (11) facing the guide (2), has a radial all-round tipping edge (14), the radial extent of which is equal to or greater than the maximum diameter of the float (1). <IMAGE>

Description

Venting device

The invention relates to a venting device for fuel tanks of motor vehicles, with a vent hole leading to the outside of the fuel tank, which can be closed by a vent valve, the one with play in one Guide vertically guided, with a U-valve cone on its upper side Has a float, which is arranged with a vertically above the float Taper valve seat of the vent hole cooperates.

Such venting devices are used for venting and venting Fuel tanks. There should be rapid venting during refueling the fuel tank can be prevented by the vent valve. Simultaneously should also be prevented from getting fuel when refueling or in sloping positions of the Motor vehicle expires. If the vehicle overturns, it is also allowed no fuel leaks.

It is true that the vent valve must when exposed to the fuel close in every position. However, if the vent valve is not acted upon by fuel, should when the motor vehicle and thus the fuel tank are tilted below about 500 compared to the normal position, the vent valve remain open.

These criteria require that the resistances to be overcome such as the frictional resistance when the float moves in any position of the venting device are as low as possible.

It is therefore the object of the invention to provide a ventilation device the generic term to create a sensitive in every position of the venting device Closing and opening of the vent valve allows.

This object is achieved according to the invention in that the float a radially circumferential tilting edge on its lateral surface facing the guide has, the radial extent of which is equal to or greater than the maximum diameter of the swimmer. The inventive design, the swimmer at a Pivot the inclined position around its tilting edge, which then rests on one side of the guide. This results in the angle at which the valve cone on one side of the cone valve seat is applied, becomes very flat and thus the one to be overcome when the swimmer moves Frictional force between valve cone and cone valve seat is kept low. Through this The sensitivity of the vent valve remains largely the same even in the case of extreme inclination obtain.

Is the tipping edge roughly in the area of the swimmer's center of gravity level, the float can perform a tilting movement without essential through the the weight of the swimmer to overcome. The tilting edge can also be in the center of gravity from the valve cone be arranged in the closer area. In this case the tracking force is reduced of the valve cone on the side wall of the cone valve seat in an inclined position more, which leads to a further reduction in the frictional forces to be overcome. The tilting edge can be in the area of the end face provided with the valve cone of the swimmer.

The tilting edge can be designed so that it protrudes radially is trained.

Another possibility is that the swimmer to his the side facing away from the valve cone is designed to taper conically. is while the float is conically tapered on part of its outer surface, so the tilting edge is through the transition point at which the lateral surface in the conical part passes, formed.

Another possibility is that the float is barrel-shaped is curved outwards. This training opportunity is also made possible to tip the swimmer in the guide. The tilting edge is in each case through formed the point of the bulge that rests against the wall of the guide.

The lateral surface can be designed so that it faces each other the longitudinal axis of the swimmer is tapered by an angle between 10 and 50. Var preferably is the angle at which the lateral surface is in relation to the longitudinal axis of the swimmer is tapered on the lateral surface in the area of the largest diameter and / or the tilting edge has a longitudinal direction reception trained, so the air to the desired extent from the interior of the fuel tank to the Flow float past to vent hole. The recess can thereby also extend over the entire length of the swimmer. In addition, it is also advantageous if similar recesses are evenly distributed over the entire circumference of the float are trained.

The float can be concentric to the face of the valve cone have closed and open to the opposite end recess. on this allows the float's center of gravity to be relatively close to the valve cone.

The float can be supported by a firmly supported spring with a low spring force be acted upon towards the cone valve seat.

The valve cone is preferably rounded in the region of its tip.

An embodiment of the invention is shown in the drawing and is described in more detail below. The only figure in the drawing shows one Ventilation device in section with a float 1 in partial section.

The approximately cylindrical float 1 is in a cylindrical Guide 2 arranged to be axially movable with radial play. The guide 2 is through a chamber is formed which merges down into a fuel tank 3 and which is closed at the top by an end wall 4.

In the end wall 4 is coaxially to the guide 2 leading to the outside Vent hole 5 formed, the mouth of which into the chamber as a cone valve seat 6 is formed.

With the cone valve seat 6, a valve cone 7 forms a vent valve, the valve cone 7 on the end face of the cone valve seat 6 facing Float 1 is arranged.

In the float 1 there is an end face facing the fuel tank 3 open recess 8 formed. In the recess 8 of the float 1 is a compression spring 9 arranged with a low force, one end of which is at the bottom of the recess 8 and at its other end on stationary struts 10 projecting radially into the chamber is supported.

The jacket surface 11 of the float 1 facing the guide 2 is cylindrical in its upper area, while it is cylindrical in its lower area is conically tapered. It tapers in relation to the longitudinal axis 12 of the float 1 at an angle 13 which is approximately 30.

The one at the transition from the cylindrical to the conical area of the float 1 formed radially circumferential edge is a tilting edge 14 around which the float can tilt out of its position, which is axial to the guide 2, if it is inclined the guide 2 comes to rest on the cylindrical inner wall of the guide 2.

Since the tilting edge 14 is in the plane of the center of gravity 15 of the swimmer 1 is located, this can be largely torque-free around the tilting edge 14 in the inclined position tilt so that the angle at which the valve cone 7 on the wall of the cone valve seat 6 comes to rest, becomes very flat. But this also applies to the continuing Closing movement of the vent valve to overcome friction between valve cone 7 and cone valve seat 6 reduced to a small extent, resulting in a sensitive Closing the vent valve leads.

Also contributes to a sensitive closing of the vent valve in that the float 1 only with the tilting edge 14 and thus only with a small one The friction surface on the guide 2 comes to rest.

On the lateral surface 11 of the float 1 are evenly around the circumference recesses 16 extending over the entire length of the float 1 are distributed educated. They allow the air to escape from the fuel tank to the desired extent 3 to the vent hole 5 and flow outwards.

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Claims (15)

Claims ventilation device for fuel tanks of Motor vehicles with a vent hole leading from the fuel tank to the eyes, which can be closed by a vent valve, the one with play in one Guide vertically guided, with a valve cone on its upper side Has a float, which is arranged with a vertically above the float The cone valve seat of the vent hole cooperates, characterized in that the float (1) has a radial on its outer surface (11) facing the guide (2) has circumferential tilting edge (14), the radial extent of which is equal to or greater is than the maximum diameter of the float (1). 2. Ventilation device according to claim 1, characterized in that that the tilting edge (14) approximately in the area of the center of gravity (15) of the swimmer (1) walking plane is arranged. 3. Ventilation device according to claim 1, characterized in that that the tilting edge is arranged in the area closer to the valve cone from the center of gravity is. 4. Ventilation device according to one of the preceding claims, characterized in that the tilting edge in the area provided with the valve cone Face of the float is formed. 5. Ventilation device according to one of the preceding claims, characterized in that the tilting edge is designed to protrude radially. 6. Ventilation device according to one of the preceding claims, characterized in that the float (1) faces away from the valve cone (7) Side is tapered conically. 7. Ventilation device according to claim 6, characterized in that that the float (1) tapers conically on part of its lateral surface (11) is trained. 8. Ventilation device according to one of claims 1-3, characterized in that that the float is curved outward like a barrel. 9. Ventilation device according to claim 6, characterized in that that the lateral surface (11) is opposite the lung axis (12) of the swimmer (1) tapered by an angle (13) between 1 ° and 5 °. 10. Ventilation device according to claim 9, characterized in that that the lateral surface (11) is opposite to the longitudinal axis (12) of the float (1) tapered by an angle (13) of 30. 11. Ventilation device according to one of the preceding claims, characterized in that on the lateral surface (11) in the region of the largest diameter and / or the tilting edge (14) has a recess (16) running in the longitudinal direction is. 12. Ventilation device according to claim 11, characterized in that that the recess (16) extends over the entire length of the float (1). 13. Ventilation device according to one of the preceding claims, characterized in that the float (1) is concentric to the end face of the valve cone (7) closed recess and open to the opposite end face (8) owns. 14. Ventilation device according to one of the preceding claims, characterized in that the float (1) is supported by a firmly supported spring (9) low spring force is applied towards the cone valve seat (6). 15. Ventilation device according to one of the preceding claims, characterized in that the valve cone (7) is rounded in the region of its tip is.