DE10154088A1 - Storage container for a cryogenic medium used as a liquid gas tank for a motor vehicle comprises a removal line extending in the storage container from the top to the bottom and having two openings receiving a cryogenic medium - Google Patents

Abstract

Storage container (1) for a cryogenic medium comprises at least one removal line (2) extending in the storage container from the top to the bottom for removal of a cryogenic medium in the liquid phase. The removal line has at least two openings (3, 13) a receiving cryogenic medium. Preferred Features: One opening of the removal line is located on each side of the storage container. The removal line is T-shaped and extends vertically downward then horizontally to both sides of the storage container. The openings are located in the lowermost region of the storage container. The openings are each provided with a valve having a closing element operated by the inertia produced on traveling round corners and by the weight of the inclined vehicle.

Description

The invention relates to a removal line for a storage container for cryogenic medium according to the preamble of the main claim.

It is already a storage container with an extraction line for cryogenic Medium known in which the removal from the gas and liquid phases over at least one sampling line is carried out and these sampling lines are closed at least one line leading to the consumer of the cryogenic medium be brought together. A valve can be used between the two Sampling lines are switched. The withdrawal line for the liquid phase is in the form of a simple tube, which extends from top to bottom extends into the liquid phase. Such a sampling line describes the DE 199 45 462 A1, the valve using an electrochemical actuator is moved. Valve and / or electrochemical actuator can be within the Storage container may be arranged.

As far as the withdrawal line for the liquid phase is concerned, especially with the Use of such a storage container as a motor vehicle liquid gas tank, possible that when the storage tank is not completely filled, when cornering or when the road is inclined, gaseous fuel gets into the liquid withdrawal. After a short time, this leads to a considerable loss of pressure in the tank Fuel delivery and thus the engine operation severely impaired. If the Liquid withdrawal line not designed for the throughput of gaseous fuel the supply pressure of the motor breaks due to the larger Flow resistance immediately. In addition, if the removal opening for the liquid phase is located near the tank heater to build up pressure in the tank, gaseous fuel are also promoted.

The object of the invention is to avoid these disadvantages.

The object is achieved with the features of claim 1. Further Embodiments of the invention result from the subclaims.

According to the invention is a storage container for a cryogenic medium with at least one extraction line which is used for the extraction of cryogenic medium in liquid phase in the storage container extends from top to bottom, thereby characterized in that the sampling line has at least two openings for receiving of cryogenic medium.

This has the advantage that for the removal of liquid cryogenic medium there are several tapping points alternatively and independently of each other. If gaseous fuel gets into one of the openings for liquid extraction, This no longer necessarily affects fuel delivery.

In advantageous embodiments of the invention is located on one side of the storage container an opening of the sampling line. For example the sampling line, essentially T-shaped, vertically from top to bottom and from there extend horizontally to both sides of the storage tank. If then the openings are in the lowest area of the storage container and are provided with a valve as a shut-off element, the closing element of which Inertial forces and can be operated by gravity, this has the advantage that fuel delivery, even when using the storage tank as a liquid gas tank for a motor vehicle, when cornering the motor vehicle and in an inclined motor vehicle always from the liquid phase without impairment he follows.

Preferred embodiments of the invention are characterized in that the Closing element of the valve from a ball in a funnel-shaped receptacle consists, or that the closing member of the valve consists of a flap that over a hinge is movably attached to the opening. Furthermore is one advantageous embodiment conceivable in which the closing member of the valve from a or there is on the sampling line axially displaceable sleeve which, operated by inertial forces when cornering the motor vehicle and by gravity in the case of an inclined motor vehicle, openings on the circumference of the sampling line against closes the pressure of a return spring. All of these embodiments of the invention ensure the advantageous even in extreme locations of the motor vehicle Withdrawal of fuel in its liquid phase and thus the function of the Regulation of the supply pressure in the motor vehicle tank.

The following describes three preferred exemplary embodiments of the invention Description with the accompanying drawing. Show it:

Fig. 1 shows a schematic representation of a storage container according to the invention in section,

Fig. 2 is a partial section by using one end of a sample line in Fig. 1, with a valve according to the invention,

Fig. 3 shows another schematic representation of a storage container according to the invention in section,

Fig. 4 is a partial section by using one end of a sample line in Fig. 3, with a valve according to the invention,

Fig. 5 is a schematic representation of a further storage container according to the invention in section and

Fig. 6 is a partial section through one end of a sampling line as used in Fig. 5, with a valve according to the invention.

In Fig. 1, a reservoir 1 is shown for a cryogenic medium, with a discharge line 2 into the storage tank 1 and there extends from top to bottom. The removal line 2 is used to remove cryogenic medium in the liquid phase and has two openings 3 , 13 for receiving cryogenic medium. The openings 3 , 13 are located in the lowermost region of the storage container 1 , each on one side, so that the removal line 2 extends essentially T-shaped, vertically from top to bottom and from there horizontally to both sides of the storage container 1 . The openings 3 , 13 are each provided with a valve as a shut-off device, as shown in FIG. 2 enlarged. For this purpose, the closing member of the valve consists of a ball 4 , which is pressed into a funnel-shaped receptacle 5 by the inertial forces when the motor vehicle is cornering and by gravity when the motor vehicle is tilted, thereby closing the valve. The size of the angle 8 of the funnel opening of the receptacle 5 determines the inertia or transverse force from which the valve closes when the ball 4 is pressed against the receptacle 5 .

In Fig. 3, in which the storage container 1 and the removal line 2 correspond to the representation of Fig. 1, the closing members of the valves consist of flaps 6 , which, as shown in Fig. 4 enlarged, each rotatable via a hinge 7 at the openings 3 , 13 are attached. The desired closing force is determined by the angle 11 between the perpendicular direction when the motor vehicle is at a standstill and the seat 9 of the flap 6 . The larger a mass 10 selected on the flap 6 , the greater the inertia or sealing force and thus the functional reliability.

In Fig. 5, in which the storage container 1 and the extraction line 2 also correspond to the illustration of Fig. 1, the closing members of the valves consist of sleeves 12 which are axially displaceable in the extraction line and through which, as shown in FIG Inertia forces when cornering the motor vehicle and by gravity when the motor vehicle is tilted, openings 3 , 13 on the circumference of the extraction line 2 can each be closed against the pressure of a return spring 14 .

Claims (9)

1. Storage container ( 1 ) for a cryogenic medium, with at least one removal line ( 2 ), which extends from top to bottom in the storage container ( 1 ), for removing cryogenic medium in the liquid phase, characterized in that the removal line ( 2 ) has at least two openings ( 3 , 13 ) for receiving cryogenic medium. 2. Storage container ( 1 ) according to claim 1, characterized in that there is an opening ( 3 , 13 ) of the extraction line ( 2 ) on each side of the storage container ( 1 ). 3. Storage container ( 1 ) according to claim 2, characterized in that the extraction line ( 2 ), substantially T-shaped, extends vertically from top to bottom and from there horizontally to both sides of the storage container ( 1 ). 4. Storage container ( 1 ) according to one of the preceding claims, characterized in that the openings ( 3 , 13 ) are in the lowest region of the storage container ( 1 ). 5. Storage container ( 1 ) according to one of the preceding claims, characterized in that the openings ( 3 , 13 ) are each provided with a shut-off device. 6. Storage container ( 1 ) for a motor vehicle according to claim 5, characterized in that the shut-off element is a valve, the closing element of which is actuated by the inertial forces when cornering the motor vehicle and by gravity when the motor vehicle is inclined. 7. Storage container ( 1 ) for a motor vehicle according to claim 6, characterized in that the closing member of the valve consists of a ball ( 4 ) in a funnel-shaped receptacle ( 5 ). 8. Storage container ( 1 ) for a motor vehicle according to claim 6, characterized in that the closing member of the valve consists of a flap ( 6 ) which is movably attached to the opening ( 3 , 13 ) via a hinge ( 7 ). 9. Storage container ( 1 ) for a motor vehicle according to claim 6, characterized in that the closing member of the valve consists of an axially displaceable sleeve ( 12 ) in or on the extraction line ( 2 ) which, actuated by inertial forces when cornering the motor vehicle and by Gravity in an inclined motor vehicle, openings ( 3 , 13 ) on the circumference of the removal line ( 2 ) closes against the pressure of a return spring ( 14 ).