CRYOGENIC VESSEL AND SECONDARY SYSTEM FOR FILLING AND VENTING THE CRYOGENIC VESSEL

Abstract

The invention relates to an ancillary system for filling and venting a first cryogenic container and a second cryogenic container, comprising a first connecting line routed into the first cryogenic container and a second connecting line routed into the second cryogenic container, wherein the first connecting line is connected to the second connecting line via a connection line and a filling coupling is connected to the connection line so that the two cryogenic containers can be filled via the filling coupling, the ancillary system comprising at least one vent coupling connected to the connection line so that the two cryogenic containers can be vented via the vent coupling.

Claims

1-8. (canceled)

9. A motor vehicle comprising a vehicle frame and a system comprising a cryogenic container and an ancillary system for filling and venting the cryogenic container, wherein the ancillary system comprises a connecting line routed into the first cryogenic container and a filling coupling is connected to the connecting line, wherein a shut-off valve is provided in the connecting line and a check valve opening in the filling direction is connected in parallel to the shut-off valve by means of a branch line so that the cryogenic container can be filled via the filling coupling when the shut-off valve is closed and can be vented via the filling coupling or via a vent coupling separate therefrom and connected to the connecting line when the shut-off valve is open, wherein the system comprises a additional cryogenic container and the ancillary system comprises an additional connection line routed into the additional cryogenic container, wherein the ancillary system further comprises a connecting line which connects the two connecting lines in such a way that two cryogenic containers can be filled via the filling coupling.

10. The motor vehicle according to claim 9, wherein the connection line connects the two connecting lines in such a way that the two cryogenic containers can be vented via the filling coupling or the vent coupling.

11. The motor vehicle according to claim 9, wherein an additional shut-off valve is provided in the additional connecting line, and an additional check valve opening in the filling direction is connected in parallel to the additional shut-off valve by means of an additional branch line.

12. The motor vehicle according to claim 11, wherein the shut-off valve and the additional shut-off valve are pneumatically connected to one another.

13. The motor vehicle according to claim 9, wherein an additional filling coupling is connected to the additional connecting line in such a way that the filling couplings are accessible at different points.

14. The motor vehicle according to claim 9, wherein a pressure relief valve is connected to the connecting line.

15. The motor vehicle according to claim 9, wherein the cryogenic container is installed on a first side of the supporting frame and the further cryogenic container being installed on a second side of the supporting frame opposite to the first one, wherein the ancillary system is placed on the motor vehicle in such a way that the filling coupling is accessible on the first side or on the second side.

16. The motor vehicle according to claim 15 in combination with claim 5, wherein the filling coupling is accessible on the first side and the additional filling coupling is accessible on the second side.

17. The motor vehicle according to claim 9, wherein a further pressure relief valve is connected to the additional connecting line.

Description

[0021] Advantageous and non-limiting embodiments of the invention are explained in further detail below with reference to the drawings.

[0022] FIG. 1 shows a motor vehicle with two cryogenic containers installed.

[0023] FIG. 2 shows two cryogenic containers and an ancillary system according to the prior art.

[0024] FIG. 3 shows a cryogenic container and a section of the ancillary system according to the invention.

[0025] FIG. 1 shows a motor vehicle 1 with a supporting frame 2 and two axles 3, 4. On both sides 5, 6 of the supporting frame 2, a cryogenic container 7, 8 is mounted between the axles 3, 4 in each case. The cryogenic containers 7, 8 each store fluid 9, e.g., liquefied natural gas, which is also known to those skilled in the art as LNG (“Liquid Natural Gas”). In the examples of FIGS. 2 and 3, the fluid 9 is in liquid form up to a fill level F, beyond that, it is in the gaseous state. If the cryogenic containers 7, 8 are used in connection with a motor vehicle, the stored fluid 9 can serve as a fuel for an engine of the motor vehicle 1, for example. In other embodiments, however, the cryogenic containers could also be provided in other areas of application.

[0026] The lines connected to the cryogenic containers 7, 8 are referred to in technical terms as an ancillary system. An ancillary system for filling and venting the first cryogenic container 7 and the second cryogenic container 8 is discussed in detail below.

[0027] FIG. 2 shows an ancillary system 10 for filling and venting two cryogenic containers 7, 8 as known from the prior art. The ancillary system 10 is divided into a filling system 11 and a venting system 12 that is independent thereof.

[0028] The filling system 11 comprises a first filling line 13 which is routed into the first cryogenic container 7 and a second filling line 14 which is routed into the second cryogenic container 8. The first filling line 13 has a first filling coupling 15 which is accessible on the first side 5 of the motor vehicle 1, and the second filling line 14 has a second filling coupling 16 which is accessible on the second side 6 of the motor vehicle 1. The filling lines 13, 14 are connected by means of a first connection line 17 so that the two cryogenic containers 7, 8 can be filled simultaneously by only one of the two filling couplings 15, 16.

[0029] The venting system 12 comprises a first vent line 18 which is routed into the first cryogenic container 7 and a second vent line 19 which is routed into the second cryogenic container 8. The first vent line 18 has a first vent coupling 20 which is accessible on the first side 5 of the motor vehicle 1, and the second vent line 19 has a second vent coupling 21 which is accessible on the second side 6 of the motor vehicle 1. The vent lines 18, 19 are connected by means of a second connection line 22 so that the two cryogenic containers 7, 8 can be vented simultaneously by only one of the two vent couplings 20, 21.

[0030] Furthermore, it is known from the prior art according to FIG. 2 to provide a check valve 23 in the respective filling line 13, 14 between the connection to the cryogenic container 7, 8 and the filling coupling 15, 16 in order to prevent a fluid flow from the cryogenic container 7, 8. Furthermore, a pressure relief valve 24 is connected to the respective filling line 13, 14 between the connection to the cryogenic container 7, 8 and the check valve 23.

[0031] Furthermore, in the respective vent line 18, 19, a shut-off valve 25 can be provided, which is accessible on the side 5, 6 of the respective vent coupling 19, 20. By operating one of the shut-off valves 25, the cryogenic containers 7, 8 can be vented via the vent coupling 20, 21. Furthermore, a pressure relief valve 26 is provided in the respective vent line 18, 19 between the connection to the cryogenic container 7, 8 and the shut-off valve 25, wherein the pressure relief valves 26 can be connected, as has been shown.

[0032] FIG. 3 shows an ancillary system 27 for filling and venting the cryogenic containers 7, 8 according to the invention. Accordingly, there are not any separate filling and venting systems each routed separately into the cryogenic container by means of a line, but only a first connecting line 28 is routed into the first cryogenic container 7 and a second connecting line 29 is routed into the second cryogenic container 8.

[0033] The connecting lines 28, 29 thus serve firstly for introducing fluid 9 into the respective cryogenic container 7, 8 and secondly for venting the respective cryogenic container 7, 8. Furthermore, according to the invention, there is only one connection line 30 between the two connecting lines 28, 29.

[0034] At least one filling coupling 31 and one vent coupling 32 are connected to the connection line 30. For example, the filling coupling 31 and the vent coupling 32 can both be accessible on a side 5, 6 of the motor vehicle 1 so that the two cryogenic containers 7, 8 can be filled or vented by means of the connection line 30. More generally, the filling coupling 31 and the vent coupling 32 could also be accessible on opposite sides 5, 6.

[0035] A further filling coupling 33 and/or a further vent coupling 34 can be connected to the connection line 30 in order to be able to fill and vent, respectively, the two cryogenic containers 7, 8 from both sides 5, 6. Alternatively or additionally, a combination coupling, which is not illustrated any further, can be provided for filling and venting. In this case, one filling coupling 31, 33 and one vent coupling 32, 34 (or, respectively, one combination coupling each) are preferably provided on each side 5, 6, so that the cryogenic containers 7, 8 can be filled or vented from both sides 5, 6 of the motor vehicle 1.

[0036] Thus, according to the invention, an ancillary system 27 is created in which both a filling coupling 31 and a vent coupling 32 (or, respectively, a combination coupling) are connected to the same connection line 30. The first cryogenic container 7, the second cryogenic container 8, the filling coupling 31 and the vent coupling 32 are thus interconnected via a single pipe string. Preferably, as described, even two filling couplings 31, 33 and two vent couplings 32, 34 (or, respectively, two combination couplings) are connected to the same connection line 30.

[0037] In the embodiment shown in FIG. 3, it is furthermore envisaged that a shut-off valve 35 is provided in the connecting line 28 and a check valve 37 opening in the filling direction is connected in parallel to the shut-off valve 35 by means of a branch line 36. The shut-off valve 35 is usually accessible next to the vent coupling 32 (or, respectively, the combination coupling). As a result, it may be envisaged that the single connection line 30 can also be used in conjunction with the shut-off valve 35 and the check valve 36. A person skilled in the art will understand that an embodiment in which the shut-off valve 35 is provided in the branch line 36 and the check valve 37 is provided in the connecting line 28 is identical to the above-mentioned solution. In particular, this embodiment can also be used for just one cryogenic container 7, 8, as a result of which the connection line 30 may be omitted as well.

[0038] The connecting line 28 is thus connected with one end to the cryogenic container 7 and opens out with another end into the filling coupling 31 and into the vent coupling 32 (or, respectively, into the combination coupling), the shut-off valve 35 being arranged with a check valve 37 connected in parallel in the connecting line between the cryogenic container 7 and the filling coupling 31 or, respectively, the vent coupling 32 (or, respectively, into the combination coupling).

[0039] The same can be provided for the second (additional) connecting line 29 so that an additional shut-off valve 38 is provided in the additional connecting line 29 of the second cryogenic container 8 and an additional check valve 40 opening in the filling direction is connected in parallel to the additional shut-off valve 38 by means of an additional branch line 39.

[0040] In general, the second cryogenic container 8 could also be equipped with a filling line and a ventilation line separate therefrom, as shown in FIG. 2, so that the connection line 30 opens out, on the one hand, into the connecting line 28 of the first cryogenic container and, on the other hand, into both the filling line and the ventilation line of the second cryogenic container 8.

[0041] Furthermore, it may be envisaged in the solution according to the invention that a pressure relief valve 41 is connected to the first connecting line 28 and preferably also a further pressure relief valve 42 is, in addition, connected to the second connecting line 29. For example, the pressure relief valve 41 or 42 can also be provided in the branch line 36 or, respectively, the additional branch line 39 and can be indirectly connected to the respective connecting line 28, 29 via said branch line.

[0042] Moreover, additional components such as a pressure sensor 43 for a control unit and/or a visual pressure display 44 can be provided in the respective connecting line 28, 29 or, respectively, the branch line 36, 39.

[0043] Additional shut-off valves could also be provided in the first connecting line 28, the second connecting line 29 and/or in the connection line 30 in order to selectively fill or, respectively, vent only one of the two cryogenic containers 7, 8 via one of the filling couplings 31, 33 or, respectively, vent couplings 32, 34.

[0044] The ancillary system 27 illustrated above is depicted for two cryogenic containers 7, 8, but could easily be upgraded for use with one, three or more cryogenic containers.