LIQUID TANK FOR A LIQUID SYSTEM OF A VEHICLE, LIQUID SYSTEM, AND VEHICLE

Abstract

A liquid tank for a liquid system of a vehicle, comprising a tank housing for storage of a liquid of the liquid system, wherein the tank housing is designed as multiple shells and has at least two tank housing shells that are joined to one another, and at least one flow passage of the liquid system, which flow passage is integrated in the tank housing. At least one of the at least one flow passages integrated in the tank housing is formed by two joined tank housing shells of the at least two tank housing shells.

Claims

1. A liquid tank for a liquid system of a vehicle, the liquid tank comprising: a tank housing for storage of a liquid of the liquid system, the tank housing being designed as multiple shells and has at least two tank housing shells that are joined to one another; and at least one flow passage integrated in the tank housing, the at least one flow passage being formed by two joined tank housing shells of the at least two tank housing shells.

2. The liquid tank according to claim 1, wherein a first valve is arranged in at least one of the at least one integrated flow passages or in the flow passage formed by the two joined tank housing shells.

3. The liquid tank according to claim 2, wherein the first valve is a check valve.

4. The liquid tank according to claim 1, wherein the tank housing is designed as a valve housing for at least one second valve of the liquid system.

5. The liquid tank according to claim 4, wherein one of the tank housing shells of the tank housing is designed as the valve housing for the second valve, or wherein the valve housing is designed as a bottommost tank housing shell of the tank housing, or wherein the tank housing has at least three tank housing shells with the bottommost tank housing shell, a middle tank housing shell, and a topmost tank housing shell.

6. The liquid tank according to claim 1, wherein the tank housing shells are each designed as an injection molded plastic part.

7. A liquid system of a vehicle, the liquid system comprising: the liquid tank according to claim 1 for storage of a liquid of the liquid system; and at least one liquid circuit that is connected in a flow-conducting manner to the liquid tank and has at least one flow passage in which the liquid circulates.

8. The liquid system according to claim 7, wherein the liquid system has at least one second valve for controlling at least one liquid flow of the liquid in the liquid system, which valve is connected in a flow-conducting manner to the liquid circuit and/or to the liquid tank, and wherein the tank housing is designed as a valve housing for the second valve of the liquid system.

9. The liquid system according to claim 8, wherein one of the tank housing shells of the tank housing is designed as the valve housing for the second valve or wherein the valve housing is designed as a bottommost tank housing shell of the tank housing or wherein the tank housing has at least three tank housing shells with the bottommost tank housing shell, a middle tank housing shell, and a topmost tank housing shell.

10. A vehicle comprising the liquid system according to claim 7, wherein the liquid system is a coolant system of the vehicle.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0017] The present invention will become more fully understood from the detailed description given hereinbelow and the accompanying drawings which are given by way of illustration only, and thus, are not limitive of the present invention, and wherein:

[0018] FIG. 1 is an example of the vehicle according to the invention with the liquid system according to the invention in a first partial, perspective representation,

[0019] FIG. 2 is the example in a second partial, perspective representation, without the topmost tank housing shell, and

[0020] FIG. 3 is the example in a detail view in the region of the first valve, in a partial, sectional top view.

DETAILED DESCRIPTION

[0021] An example of a vehicle according to the invention, with a liquid system according to the invention, is shown by way of example in FIGS. 1 to 3.

[0022] The vehicle is designed here as a motor vehicle, for example, an all-electric vehicle, and is not shown in detail.

[0023] The liquid system 2 for the vehicle is designed as a coolant system for cooling the traction battery and the drive motor along with the corresponding power electronics, as well as for cooling a refrigerant circuit for air conditioning a passenger compartment of the vehicle. The traction battery, the drive motor with the corresponding power electronics, the refrigerant circuit, and the passenger compartment of the vehicle are designed, for example, in a manner known per se to the person skilled in the art.

[0024] The liquid system 2 designed as a coolant system includes a liquid tank 4 designed as a coolant tank for storage of a liquid of the vehicle, which liquid is implemented as a coolant, and a total of three liquid circuits connected in a flow-conducting manner to the liquid tank 4 and designed as coolant circuits in which the liquid circulates. The liquid circuits are not shown in detail in FIGS. 1 to 3, and are designed in a manner known per se to the person skilled in the art.

[0025] The liquid tank 4 of the liquid system 2 includes a tank housing 6 for storage of the liquid of the liquid system 2, wherein the tank housing 6 is designed as multiple shells and has at least two tank housing shells that are joined to one another, namely a bottommost tank housing shell 8, a middle tank housing shell 10, and a topmost tank housing shell 12, and at least one flow passage of the liquid system 2, which flow passage is integrated in the tank housing 6. In the present exemplary embodiment, one of the flow passages integrated in the tank housing 6, namely the flow passage 14, is formed by two joined tank housing shells, namely the middle and topmost housing shells 10, 12 of the at least two tank housing shells 8, 10, 12. See FIG. 2 in this regard. The tank housing shells 8, 10, 12 are each designed as an injection molded plastic part here.

[0026] Arranged in the flow passage 14 is a first valve 16 designed as a check valve. See FIG. 3 in this regard.

[0027] The liquid system 2 additionally has a second valve 18 for controlling at least one liquid flow of the liquid in the liquid system 2, which valve is connected in a flow-conducting manner to the liquid circuits and/or to the liquid tank 4, wherein the tank housing 6, namely the bottommost tank housing shell 8, is simultaneously designed as a valve housing for the second valve 18 of the liquid system 2. See FIGS. 1 and 2 in this regard.

[0028] The second valve 18 is designed here as a so-called multiway valve, and includes the valve housing simultaneously designed as bottommost tank housing shell 8 with a multiplicity of valve housing openings, a valve body that is arranged in the valve housing 8 so as to be rotatable about a rotational axis and has at least one flow-conducting connecting passage for the flow-conducting connection of at least two valve housing openings of the multiplicity of valve housing openings, a valve seal that is arranged between the valve housing 8 and the valve body and has valve seal openings corresponding to the valve housing openings, a valve actuator for automatically rotating the valve body about the rotational axis, and a multiplicity of a total of five flow passages corresponding to the valve housing openings for the flow-conducting connection of the second valve 18, namely of the valve housing openings, to a remainder of the liquid system 2. Only four of the total of five flow passages, namely the flow passages 20, 22, 24, 26, are visible in FIGS. 1 and 2.

[0029] The valve housing openings of the valve housing 8 of the valve 18 are not shown in FIGS. 1 to 3. The same is true of the valve body with the at least one connecting passage, the valve seal with the valve seal openings designed to correspond to the valve housing openings, and the valve actuator.

[0030] The flow passages 20, 22, 24, 26 that are connected in a flow-conducting manner to the second valve 18 are formed jointly from a single first passage shell and from a single second passage shell 30, wherein the first passage shell is simultaneously formed as the valve housing, namely the bottommost tank housing shell 8, which can be joined to the second passage shell 30 to form the aforementioned flow passages 20, 22, 24, 26. Analogously to the bottommost tank housing shell 8 that is simultaneously designed as first passage shell and valve housing, in the present exemplary embodiment the second passage shell 30 is likewise designed as an injection molded plastic part. The two passage shells 8, 22 are joined to one another by plastic welding for the purpose of forming the aforementioned flow passages 20, 22, 24, 26. Other joining methods are also absolutely possible, however. The person skilled in the art will choose the joining method suitable for joining the two passage shells according to the requirements of the individual case. Strictly by way of example, mention is made here only of adhesive bonding methods.

[0031] In the present exemplary embodiment, the bottommost tank housing shell 8 that is simultaneously designed as valve housing and as first passage shell is designed to be moldable in such a manner that a seal side of the valve housing 8 that faces the valve seal is designed to be essentially flash-free after a demolding of the valve housing 8. In manufacturing terms, this is implemented here in that, for example, mold separation at the seal side of the valve housing 8 is avoided by design with the aforementioned injection molded plastic part, namely the valve housing 8.

[0032] The vehicle according to the invention with the liquid system according to the invention in accordance with the present exemplary embodiment is explained below in detail on the basis of FIGS. 1 to 3.

[0033] First of all, the individual tank housing shells, namely the bottommost tank housing shell 8 simultaneously designed as first passage shell and valve housing, the middle tank housing shell 10, and the topmost tank housing shell 12 of the tank housing 6 of the liquid tank 4, as well as the second passage shell 30, are each produced individually as injection molded plastic parts, which is to say separately from one another, in a manner known to the person skilled in the art.

[0034] Next, the individual tank housing shells 8, 10, 12 are plastic welded to one another, resulting in the tank housing 6 of the liquid tank 4. See FIG. 1 in this regard.

[0035] The liquid tank 4 is only partially shown in FIG. 2, namely to the effect that only the bottommost and the middle tank housing shells 8, 10 of the total of three tank housing shells 8, 10, 12 of the tank housing 6 are shown, so the view of a part of the flow passage 14 integrated in the middle tank housing shell 10 is unobstructed. This part of the flow passage 14 then forms the flow passage 14 after the joining of the middle tank housing shell 10 to the topmost tank housing shell 12, in which a part of the flow passage 14 corresponding to the aforementioned part of the flow passage 14 is formed.

[0036] For the purpose of forming the flow passages 20, 22, 24, 26 that are connected in a flow-conducting manner to the second valve 18, the second passage shell 30 is now plastic welded to the bottommost tank housing shell 8 that is simultaneously designed as first passage shell and valve housing. Analogously to the design of the flow passage 14, a part of each of the flow passages 20, 22, 24, 26 is formed in the bottommost tank housing shell 8 and a relevant corresponding part of each of the flow passages 20, 22, 24, 26 is formed in the second passage shell 30. The flow passages 20, 22, 24, 26 are produced accordingly, as can be seen from FIGS. 1 and 2.

[0037] Finally, the second valve 18 is now completed by the means that first the valve seal and then the valve body of the second valve 18 are inserted and secured, in a manner known per se to the person skilled in the art, in the bottommost tank housing shell 8 that is designed as valve housing. For this purpose, the second valve 18 has, for example, an end plate, which seals the second valve 18 at the bottom in the respective image plane in FIGS. 1 and 2. In the present exemplary embodiment, this end plate is mechanically joined to the tank housing shell 8 that is simultaneously designed as valve housing by means of three screws.

[0038] On account of the design according to the invention of the liquid tank for a liquid system of a vehicle, of the liquid system for a vehicle, and of the vehicle according to the present exemplary embodiment, it is possible to implement the aforementioned liquid tank 4, the aforementioned liquid system 2, and the aforementioned vehicle in a manner that is especially simple in terms of design and manufacturing. Furthermore, a centralization of the components of the liquid system 2 for the vehicle is made possible as a result. At the same time, a flow-optimized shape of the flow passages 14, 20, 22, 24, 26 of the liquid system 2 can be implemented easily in terms of manufacturing in this case, since, on the one hand, the flow passage 14 of the liquid system formed by the joined middle and topmost tank housing shells 10, 12 is not only integrated in the tank housing 6, but can be freely configured within broad suitable limits on account of the aforementioned design. Similar applies to the integration of the valve housing 8 of the second valve 18 in the tank housing 6 and the flow passages 20, 22, 24, 26 connected in a flow-conducting manner to the second valve 18, which flow passages are likewise integrated in the tank housing by means of the bottommost tank housing shell 8 that is simultaneously designed as first passage shell.

[0039] The invention is not limited to the present exemplary embodiment. For example, the invention can also be used to good advantage with other types of vehicles. This applies not only to land vehicles, but also to aircraft and watercraft.

[0040] In particular, the invention is not restricted to the design and manufacturing details of the exemplary embodiment. For example, the number of the at least one flow passage(s) formed by two joined tank housing shells of the at least two tank housing shells can be freely chosen within broad suitable and technically feasible limits. Similar applies to the number of flow passages connected in a flow-conducting manner to the second valve and the number of corresponding valve housing openings and valve seal openings. The same applies to the spatial arrangement of the individual flow passages, which likewise can be freely chosen, within the technical constraints, as a function of the spatial conditions of the use case in question.

[0041] It is also possible that the tank housing is formed only of two tank housing shells. However, any other practical number of tank housing shells is also possible in principle.

[0042] In contrast to the present exemplary embodiment, the second valve can also be attached by means of its valve housing merely to the liquid tank, namely the tank housing. Accordingly, an integration of the valve housing of the second valve in the tank housing is not absolutely imperative. Furthermore, the second valve can also be attached to other suitable components of the vehicle, for example a vehicle body or a drive motor of the vehicle. However, other embodiments of the invention are also possible in which no second valve is present.

[0043] Instead of the design of the individual tank housing shells as injection molded plastic parts, other manufacturing methods and materials known to the person skilled in the art can be used for the tank housing shells. Accordingly, tank housing shells designed as plastic parts can also be manufactured in other suitable ways. However, other materials as distinguished from plastic that are suitable for the liquid tank in question, such as, e.g., aluminum, can also be used for manufacturing the individual tank housing shells. The particular joining method for joining the individual tank housing shells is then matched to the materials used. Of course, combinations of materials and/or manufacturing methods and/or joining methods are also absolutely possible for manufacturing the tank housing shells as well as the liquid tank, however.

[0044] Of course, it is not only in liquid systems designed as coolant systems of a vehicle that the invention can be employed to good advantage. Accordingly, the invention can be employed for a multiplicity of quite different use cases.

[0045] The invention being thus described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the invention, and all such modifications as would be obvious to one skilled in the art are to be included within the scope of the following claims.