WO2025078089A1 - Supply system for coolant flows of a vehicle, interface unit, distributor housing and vehicle - Google Patents

Abstract

The invention relates to a supply system for coolant flows of a vehicle, to an interface unit, to a distributor housing and to a vehicle. The supply system (100) comprises a distributor housing (110) with a pump housing (111) for receiving at least one coolant pump and/or with at least one valve housing (112) for receiving a valve unit, wherein the distributor housing (110) is designed in such a way that the pump housing (111) and/or the valve housing (112) are/is open at least on a first side of the distributor housing (110); an interface unit (120) with a multiplicity of coolant interfaces (121), wherein the interface unit (120) can be arranged on the first side of the distributor housing (110) in such a way that the interface unit (120) seals fluidically with the pump housing (111) and/or the valve housing (112), and an exchange of coolant with the pump housing (111) and/or the valve housing (112) can be provided via the multiplicity of coolant interfaces (121).

Description

Supply system for coolant flows of a vehicle, interface unit, distributor housing and vehicle

The present invention relates to a supply system for coolant flows of a vehicle, an interface unit, a distributor housing and a vehicle.

Vehicles have one or more coolant circuits with one or more coolants to cool and/or heat various components of the vehicle. Switching the coolant circuits requires multiple valves, pumps, and lines. Depending on the vehicle type and the installed units, these coolant circuits can be configured differently, and the arrangement of the valves, lines, and corresponding coolant interfaces must be adapted.

Furthermore, connecting a multitude of coolant circuit lines to the various valves and pumps is time-consuming and resource-intensive. In addition, the pumps and valves must be arranged in the vehicle and be accessible. Finally, the coolant circuits and the connections between the lines, valves, and pumps must be arranged as space-efficiently as possible.

It is an object of the present invention to provide a supply system for coolant circuits of a vehicle, an interface unit, a distributor housing, and a vehicle that improve or even eliminate one or more of the aforementioned disadvantages. In particular, it is an object of the present invention to provide a modular supply system that meets correspondingly complex requirements for the circuits of the coolant flows of one or more coolant circuits and further enables a simple, cost-effective, and reliable connection between lines of the coolant circuits to pumps and valves.

The object is achieved according to a first aspect by a supply system for coolant flows of a vehicle, comprising a distributor housing with a Pump housing for accommodating at least one coolant pump and/or at least one valve housing for accommodating a valve unit. The distributor housing is designed such that the pump housing and/or the valve housing are open at least on a first side of the distributor housing. The supply system further comprises an interface unit with a plurality of coolant interfaces, wherein the interface unit can be arranged on the first side of the distributor housing, in particular is arranged such that the interface unit forms a fluidic seal with the pump housing and/or the valve housing and an exchange of coolant with the pump housing and/or the valve housing can be provided via the plurality of coolant interfaces.

The modular design of the supply system, consisting of the distributor housing and the interface unit, allows the specific requirements of vehicle coolant circuits to be addressed and a compact wiring and connection to be provided ex works. In particular, the distributor housing can be connected to an additional interface unit if required, which has a different arrangement of coolant interfaces and can therefore meet the requirements of a different wiring. Furthermore, the coolant interfaces, the pump housing, and the valve housing are predefined, and installation effort can be reduced. At the same time, potential errors when connecting the coolant circuit lines to the coolant interfaces and thus to the pumps and valves are reduced, as these can be designed modularly in advance. Accordingly, the safety of the overall system is also improved. Another advantage is that fluidically sealing connections between the coolant interfaces, pump, and valve unit are already provided.

The pump housing can be designed to accommodate two or more, in particular two, coolant pumps.

The supply system may comprise two, three, four or more pump housings and/or two, three, four or more valve housings. In particular, the supply system may comprise one pump housing and/or three valve housings for accommodating a respective valve unit. One variant of the supply system is that the distributor housing comprises at least the valve housing for receiving the valve unit, and the distributor housing is designed such that the valve housing is open at least on the first side of the distributor housing. The supply system further comprises the interface unit with the plurality of coolant interfaces, wherein the interface unit can be arranged on the first side of the distributor housing, in particular is arranged such that the interface unit forms a fluidic seal with the valve housing and the exchange of coolant with the valve housing can be provided via the plurality of coolant interfaces. In this variant, the supply system can further comprise a pump housing for receiving at least one coolant pump, wherein the pump housing is arranged on the distributor housing. The pump housing can, but does not have to, be open on the first side of the distributor housing. Consequently, a flexible arrangement of the pump housing is possible. The arrangement and/or orientation of the pump housing can be designed depending on or independently of the arrangement and/or orientation of the valve housing(s).

The plurality of coolant interfaces can be arranged such that they are at least opposite the respective opening of the pump housing and/or the valve housing, so that coolant can be conducted from the respective housing via the coolant interfaces.

The coolant pump can be designed to pump the coolant, in particular via the coolant interfaces to lines connected to the coolant interfaces.

The supply system may comprise the coolant pump, the coolant pumps, the valve unit and/or the valve units.

The valve unit may be at least one valve, in particular a slide valve. The valve unit may comprise two, three or more valves. The valve unit may be configured to assume two or more switching states, such that based on the switching states, at least one coolant flow of the coolant can be conducted from at least one first coolant interface of the plurality of coolant interfaces to at least one second coolant interface of the plurality of coolant interfaces.

The plurality of coolant interfaces can be designed to be coupled to a plurality of lines for conducting coolant, in particular to provide a fluid seal.

The distributor housing can be configured such that the pump housing and/or the valve housing are open on at least one further side of the distributor housing. The interface unit can be configured to be further arranged on the at least one further side in order to fluidically seal with the pump housing and/or the valve housing on the at least one further side. Alternatively, a second interface unit can be used.

The pump housing and/or the valve housing can be configured such that the coolant pump and/or the valve unit can be mounted in the pump housing or the valve housing. The pump housing and/or the valve housing can be configured to accommodate the coolant pump or the valve unit based on the dimensions of the coolant pump or the valve unit.

The pump housing and/or the valve housing can be at least partially cylindrical. The pump housing and/or the valve housing can extend along a longitudinal direction. The pump housing and the valve housing can each have a predetermined length along the longitudinal direction, which is in particular the same. The pump housing and the valve housing can be arranged along an arrangement direction that extends perpendicular to the longitudinal direction, in particular adjacent to one another. Furthermore, the pump housing and the valve housing can have a predetermined thickness or a predetermined inner diameter along a thickness direction that extends perpendicular to the longitudinal and arrangement directions. The supply system may extend from the first side along the thickness direction to a second side opposite the first side.

The first side can therefore extend in a plane spanned by the longitudinal direction and the arrangement direction. Alternatively, the first side can extend in a plane spanned by the arrangement direction and the thickness direction. Alternatively, the first side can extend in a plane spanned by the longitudinal direction and the thickness direction. The first side can be an end face of the distributor housing.

The interface unit can be configured based on the arrangement of the pump housing and/or the valve housing, in particular the openings on the first side, in order to form a fluid seal with them. The interface unit can be planar and/or arcuate, at least in sections. A shape of the interface unit can be determined based on a shape of the distributor housing.

The plurality of coolant interfaces can be configured to provide a fluidic seal in a first state, so that, in particular, no exchange of coolant from the respective housing with the environment can occur via the coolant interfaces. Furthermore, the plurality of coolant interfaces can be configured to enable a coolant flow through the coolant interfaces in a second state.

The plurality of coolant interfaces may comprise a predetermined first number of coolant interfaces for the pump housing and/or a predetermined second number of coolant interfaces for the valve housing. The first number of coolant interfaces may be two or more, in particular two. The second number may be between zero, one, two, three or more. In particular, it may be advantageous to select the plurality of coolant interfaces such that coolant can flow over the coolant interfaces only at certain coolant interfaces and/or in certain valve positions of the accommodated valve unit, and leakage and/or exchange of coolant is prevented at other locations, since no coolant interface can be provided there.

The plurality of coolant interfaces, in particular a position, a type, and/or a number of the coolant interfaces, can be configured based on a coolant system of the vehicle to be connected to the supply system. The coolant system can have one or more lines for conducting coolant.

The interface unit can be designed to enable predetermined switching states and/or coolant flows of a coolant of the coolant system through the pump housing and/or the valve housing based on the plurality of coolant interfaces, in particular the position, the type and/or the number of the coolant interfaces.

The interface unit can be designed such that it can be coupled to the distributor housing. Alternatively, the interface unit can be connected to the distributor housing, in particular by welding, a material connection, a force connection, or a form-fitting connection.

The interface unit can be formed in one piece. The distributor housing can be formed in one piece. The interface unit and/or the distributor housing can be made of one or more materials. In particular, the interface unit and/or the distributor housing can be manufactured using an injection molding process or using a casting tool. The material can be or include plastic.

The plurality of coolant interfaces may be formed on a side of the interface unit opposite the first side. The plurality of coolant interfaces may extend away from the first side and/or be directed outward. The distributor housing can be open exclusively on the first side. Alternatively, the distributor housing can be configured such that the pump housing and/or the valve housing are open on a second side of the distributor housing that is different from the first side. The second side can be opposite the first side.

The distributor housing can be configured such that a second interface unit with a plurality of coolant interfaces and/or a first fluid distribution unit for distributing coolant can be arranged on the second side, such that the second interface unit and/or the first fluid distribution unit fluidically seals with the pump housing and/or the valve housing, and an exchange of coolant with the pump housing and/or the valve housing can be provided via the plurality of coolant interfaces of the second interface unit or the first fluid distribution unit. In particular, the supply system can comprise the second interface unit and/or the first fluid distribution unit.

The first fluid distribution unit can be configured to provide one or more coolant channels or lines. Based on the switching states of the valve units and/or the coolant pump, the coolant can be forwarded by means of the coolant channels, in particular to a heat exchanger or a heat pump of the vehicle.

The pump housing and the valve housing can be designed to be fluidically separated from each other. For this purpose, the distributor housing can have a partition between the pump housing and the valve housing.

The distributor housing can be cuboid-shaped, at least in sections.

The above-mentioned features relating to the pump housing and/or the coolant pump can be implemented as features of further pump housings and/or coolant pumps of the supply system. Features relating to the The valve housing and/or the valve unit can be designed as features of other valve housings and/or valve units of the supply system.

The interface unit may further comprise a second fluid distribution unit that can be arranged between the distributor housing and the plurality of coolant interfaces of the interface unit, in particular such that the interface unit fluidically seals with the distributor housing. Consequently, the second fluid distribution unit can fluidically seal with the distributor housing. The second fluid distribution unit can have one or more lines and/or one or more channels for conducting coolant from the distributor housing to the plurality of coolant interfaces and/or vice versa. Alternatively, the interface unit can be provided without the second fluid distribution unit. The interface unit can be formed integrally with the second fluid distribution unit. Alternatively, the interface unit can be formed so as to be coupleable to the second fluid distribution unit and/or connected thereto.

Features implemented with respect to the first fluid distribution unit may be implemented as features of the second fluid distribution unit and vice versa.

According to a second aspect, the object is achieved by an interface unit for a distributor housing of a supply system, in particular according to the first aspect, or a distributor housing according to the subsequent third aspect, wherein the interface unit comprises a plurality of coolant interfaces. The interface unit can be arranged on a first side of the distributor housing in such a way that the interface unit forms a fluidic seal with a pump housing and/or a valve housing open at least on the first side of the distributor housing, and an exchange of coolant with the pump housing and/or the valve housing can be provided via the plurality of coolant interfaces.

The object is achieved according to a third aspect by a distributor housing for an interface unit of a supply system, in particular according to the first aspect, or an interface unit according to the second aspect. The The distributor housing comprises a pump housing for accommodating a coolant pump and/or a valve housing for accommodating a valve unit, wherein the distributor housing is configured such that the pump housing and/or the valve housing are open on at least a first side of the distributor housing. The distributor housing is configured such that an interface unit having a plurality of coolant interfaces can be arranged on the first side in order to fluidically seal with the interface unit and provide an exchange of coolant with the pump housing and/or the valve housing via the plurality of coolant interfaces.

The object is achieved according to a fourth aspect by a vehicle comprising a supply system according to the first aspect, an interface unit according to the second aspect and/or a distributor housing according to the third aspect.

The vehicle may further comprise at least one coolant pump accommodated in the pump housing for pumping coolant and/or at least one valve unit accommodated in the valve housing.

The plurality of coolant interfaces may be connected to a plurality of lines for conducting coolant. The lines may be included in the vehicle.

Features described with respect to the supply system of the first aspect may be implemented as features of the second to fourth aspects.

Preferred embodiments are explained using the accompanying figures. They show:

Fig. 1 is a side view of a first embodiment of a supply system;

Fig. 2 is a plan view of the first embodiment of a supply system; Fig. 3 is a plan view of a second embodiment of a supply system;

Fig. 4 is a plan view of a third embodiment of a supply system;

Fig. 5 is a plan view of a fourth embodiment of a supply system;

Fig. 6 is a plan view of a fifth embodiment of a supply system;

Fig. 7 is a side view of a fifth embodiment of a supply system;

Fig. 8 is a side view of a sixth embodiment of a supply system;

Fig. 9 is a side view of a seventh embodiment of a supply system;

Fig. 10 is a side view of an eighth embodiment of a supply system; and

Fig. 11 an embodiment of a vehicle with a supply system.

In the figures, identical or essentially functionally identical or similar elements are designated by the same reference numerals.

Fig. 1 shows a first exemplary embodiment of a supply system 100 for a vehicle 200, in particular a coolant system of the vehicle 200, comprising a distributor housing 110 and an interface unit 120. The distributor housing 110 comprises a pump housing 111 for accommodating at least one, in particular two, coolant pumps and at least one valve housing 112, here three valve housings 112, each accommodating a valve unit. The coolant pump is designed to pump coolant. The valve units are designed to assume various switching states and thus change a coolant flow of the coolant, in particular to adjust it to coolant interfaces 121 of the interface unit 120. Fig. 1 shows a side view of the supply system 100, wherein the pump housing 111 and the valve housings 112 are arranged adjacent to one another along an arrangement direction AR. The pump and valve housings 111, 112 are fluidically separated from one another by partition walls. Furthermore, the supply system 100 has a predetermined thickness along a thickness direction DR, wherein the thickness direction is perpendicular to the arrangement direction AR. In the exemplary embodiment shown, the supply system 100 is cuboid-shaped, although other shapes are also possible. Furthermore, the supply system 100 extends along the longitudinal direction LR with a predetermined length, wherein the longitudinal direction LR is perpendicular to the thickness and arrangement directions DR, AR. In the exemplary embodiment shown, the pump and valve housings 111, 112 have identical dimensions along the different directions AR, DR, LR, although these can alternatively be designed at least partially differently.

The distributor housing 110 is configured such that the pump housing 111 and the valve housings 112 are open on a first side of the distributor housing 110. In Fig. 1, the pump and valve housings 111, 112 are open on the left side.

The supply system 100 further comprises the interface unit 120 with the plurality of coolant interfaces 121, wherein the interface unit 120 can be arranged on the first side of the distributor housing 110 (see arrow direction from left to right in Fig. 1) such that the interface unit 120 fluidically seals the pump housing 111 and the valve housings 112, in particular their openings, and an exchange of coolant with the pump housing 111 and the valve housings 112 can be provided via the plurality of coolant interfaces 121. In particular, the coolant interfaces 121 assigned to the housings 111, 112 are arranged such that they are arranged opposite the respective opening, so that a coolant exchange of the coolant from the respective housing 111, 112 can take place via the coolant interfaces 121, in particular to lines connected to the coolant interfaces 121 for conducting coolant. Furthermore, the coolant pump and/or the valve units can Coolant flow can be controlled and coolant flow to the coolant interface 121 can be enabled or blocked.

The plurality of coolant interfaces 121 are formed, in particular, on a side of the interface unit 120 opposite the first side of the distributor housing 110, so that they extend away from the distributor housing 110. The plurality of coolant interfaces 121 are shown to be similar, but may be at least partially different.

By arranging the interface unit 120 on the first side of the distributor housing 110, the pump housing 111 and the valve housings 112 can be fluidically sealed so that coolant is exchanged exclusively via the coolant interfaces 121.

Fig. 2 shows a top view of the supply system 100 of Fig. 1. As shown in Fig. 2, the pump and valve housings 111, 112 have an identical length along the longitudinal direction LR. Furthermore, an arrangement of the plurality of coolant interfaces 121 is shown.

The coolant interfaces 121 of a respective housing 111, 112 can be arranged along a straight line extending parallel to the longitudinal direction LR. The straight line can, in particular, be arranged centrally along the arrangement direction AR of the respective housing. The coolant interfaces 121 are circular in shape but can alternatively be configured differently, in particular based on a desired connection type of the lines to be connected.

According to Fig. 2, two coolant interfaces 121 are provided for the pump housing 111, wherein these two coolant interfaces 121 are arranged at an upper and a central section of the pump housing 111 along the longitudinal direction LR. At a lower section along the longitudinal direction LR, no further coolant interface 121 is arranged. Viewed along the arrangement direction AR, the first valve housing 112 has, to the right of the Pump housing 112 has three coolant interfaces 121, the middle second valve housing 112 has two coolant interfaces 121, and the third valve housing 112 arranged on the far right has three coolant interfaces 121. The first and third valve housings 112 each have a coolant interface 121 at an upper section, a middle section, and a lower section, viewed along the longitudinal direction. In contrast, the second valve housing 112 has no coolant interface 121 in the middle section. The arrangement and number of coolant interfaces 121 can be designed based on the requirements of the coolant system of the vehicle 200. Consequently, a modular supply system 100 is provided which can be configured based on the requirements of the respective vehicle 200.

3 to 5 show further embodiments of the supply system 100 with different arrangements of the coolant interfaces 121. Fig. 3 shows two coolant interfaces 121 for the pump housing 111 and three coolant interfaces each for the first to third valve housings 112. In comparison to Fig. 3, Fig. 4 shows two coolant interfaces 121 for the first valve housing 112 and three for the second and third valve housings 112. In comparison, Fig. 5 shows only one coolant interface 121 for the first valve housing 112. The invention is not limited to the number and arrangement of the coolant interfaces 121 shown in the figures, and the plurality of coolant interfaces 121 can be designed based on the requirements of the coolant system.

Fig. 6 shows an embodiment of a supply system 100 with four valve housings 112 and without a pump housing 111. The pump housing 111 can be arranged arbitrarily on the distributor housing 110. Furthermore, the pump housing 111 can be open on the first side, but can also be opened and/or closed in other ways. Consequently, the pump housing 111 can be arranged flexibly or as needed on the supply system 100. The interface unit 120 is designed such that the interface unit 120 forms a fluidic seal with the valve housings 112 and an exchange of coolant with the valve housings 112 can be provided via the plurality of coolant interfaces 121. Fig. 7 shows a fifth embodiment of a supply system 100, in which, in comparison to the previously shown embodiments, the distributor housing 110 is designed such that the pump and valve housings 111, 112 are further open on a second side of the distributor housing 110, wherein the second side is opposite the first side of the distributor housing 110.

In an embodiment not shown, this is also possible with a distributor housing 110 which only comprises pump housing 111 or valve housing 112.

The supply system 100 further comprises a second interface unit 120', which is identical to the first interface unit 120 and has a plurality of coolant interfaces 121'. As an alternative to the second interface unit 120', a first fluid distribution unit 130 can be arranged on the second side in order to fluidically seal with the distributor housing 110, in particular the pump and valve housings 111, 112. Furthermore, the coolant can be conducted via channels and/or lines of the first fluid distribution unit 130 by means of the first fluid distribution unit 130. Alternatively, the fluid distribution unit 130 can be arranged on the second side between the distributor housing 110 and the interface unit 120'. In general, a fluid distribution unit 130 can be arranged between an interface unit 120, 120'. According to Fig. 7, the second interface unit 120' is designed to be arranged on the second side (see arrows from right to left in Fig. 7) in order to fluidically seal with the pump and valve housings 111, 112. Furthermore, the coolant interfaces 121' are arranged opposite the openings of the pump and valve housings 111, 112 on the second side, so that coolant can be conducted via the coolant interfaces 121' to lines that can be arranged on the coolant interfaces 121'.

Alternatively or additionally, the distributor housing 110 can be open on a side different from the first side, for example, an end face, as shown in Fig. 1. The end face extends here within a plane spanned by the arrangement direction AR and the thickness direction DR. The interface unit 120 can be designed to be connected to the The distributor housing 110 can be arranged in such a way that it fluidically seals the pump and/or valve housings 111, 112 on the first side and the side different from the first side. For this purpose, the interface unit 120 can further comprise coolant interfaces that are opposite the opening(s) on the side different from the first side.

Fig. 8 shows a sixth embodiment of a supply system 100, in which, in comparison to the embodiment of Fig. 1, the interface unit 120 further comprises a second fluid distribution unit 130. The second fluid distribution unit 130 is designed, together with the interface unit 120, to fluidically seal the pump and valve housings 111, 112. Furthermore, the second fluid distribution unit 130 has at least one line and/or at least one channel for conducting coolant from the respective housings 111, 112 to the coolant interfaces 120. By means of the second fluid distribution unit 130, a further prefabricated circuit or line of the coolant can be provided, so that a greater complexity of coolant flows can be achieved. In Fig. 8, the interface unit 120 and the second fluid distribution unit 130 are shown in the form of two units. Alternatively, the interface unit and the second fluid distribution unit 130 can be formed as a single piece.

Fig. 9 shows a seventh embodiment of a supply system 100 in which, in comparison to the embodiment of Fig. 8, the distributor housing 110 is open on the second side of the distributor housing 110 (see also Fig. 7).

Furthermore, the supply system 100 comprises a second interface unit 120', which has a plurality of coolant interfaces 121'. The second interface unit 120' is designed to be arranged on the second side (see arrows from right to left in Fig. 9) in order to fluidically seal with the pump and valve housings 111, 112. Furthermore, the coolant interfaces 121' are arranged opposite the openings of the pump and valve housings 111, 112 on the second side, so that coolant can be conducted via the coolant interfaces 121' to lines that can be arranged on the coolant interfaces 121'. Fig. 10 shows an eighth embodiment of a supply system 100, in which, in comparison to the embodiment of the supply system 100 of Fig. 9, the second interface unit 120 further comprises a second fluid distribution unit 130'. The second fluid distribution unit 130' is designed, together with the interface unit 120', to fluidically seal the pump and valve housings 111, 112. Furthermore, the second fluid distribution unit 130' has at least one line and/or at least one channel for conducting coolant from the respective housings 111, 112 to the coolant interfaces 120'. By means of the second fluid distribution unit 130', a further prefabricated circuit or line of the coolant can be provided, so that a greater complexity of coolant flows can be achieved. In Fig. 10, the interface unit 120 and the second fluid distribution unit 130, as well as the interface unit 120' and the second fluid distribution unit 130', are each shown as two units. Alternatively, the interface unit 120, 120' and the second fluid distribution unit 130, 130' can be formed as a single piece.

Fig. 11 shows a vehicle 200 with a supply system 100 according to one of the previous embodiments. The modular supply system 100 ensures space-efficient and simple installation, while also providing various circuits for coolant flows.

Reference symbol

100 supply system

110 distribution housing

111 Pump housing

112 valve housing

120, 120' interface unit

121 , 121' coolant interfaces

130 Fluid distribution unit

LR longitudinal direction

DR thickness direction

AR arrangement direction

200 vehicles

Claims

Patent claims 1 . Supply system (100) for coolant flows of a vehicle (200), comprising: a distributor housing (110) with a pump housing (111) for receiving at least one coolant pump and/or at least one valve housing (112) for receiving a valve unit, wherein the distributor housing (110) is designed such that the pump housing (111) and/or the valve housing (112) are open at least on a first side of the distributor housing (110); an interface unit (120) with a plurality of coolant interfaces (121), wherein the interface unit (120) can be arranged on the first side of the distributor housing (110) in such a way that the interface unit (120) fluidically seals with the pump housing (111) and/or the valve housing (112) and an exchange of coolant with the pump housing (111) and/or the valve housing (112) can be provided via the plurality of coolant interfaces (121). 2. Supply system (100) according to claim 1, wherein the plurality of coolant interfaces (121), in particular a position, a type and/or a number of the coolant interfaces (121), is formed based on a coolant system of the vehicle (200) to be connected to the supply system (121). 3. Supply system (100) according to claim 1 or 2, wherein the interface unit (120) is designed to enable predetermined switching states and/or coolant flows of a coolant of the coolant system through the pump housing (111) and/or the valve housing (112) based on the plurality of coolant interfaces (121), in particular the position, the type and/or the number of the coolant interfaces (121). 4. Supply system (100) according to one of the preceding claims, wherein the interface unit (120) is designed such that it can be coupled to the distributor housing (110), or wherein the interface unit (120) is connected to the distribution housing (110). 5. Supply system (100) according to one of the preceding claims, wherein the interface unit (120) is formed in one piece. 6. Supply system (100) according to one of the preceding claims, wherein the plurality of coolant interfaces (121) are formed on a side of the interface unit (120) opposite the first side. 7. Supply system (100) according to one of the preceding claims, wherein the distributor housing (110) is open exclusively on the first side, or wherein the distributor housing (110) is designed such that the pump housing (111) and/or the valve housing (112) are open on a second side of the distributor housing (110) which is different from the first side. 8. Supply system (100) according to claim 7, wherein the distributor housing (110) is designed such that a second interface unit (120') with a plurality of coolant interfaces (121') or a first fluid distribution unit (130) for distributing coolant can be arranged on the second side, such that the second interface unit (120') or the first fluid distribution unit (130) fluidically seals with the pump housing (111) and/or the valve housing (112) and an exchange of coolant with the pump housing (111) and/or the valve housing (112) can be provided via the plurality of coolant interfaces (121') of the second interface unit (120) or the first fluid distribution unit (130), wherein, as an option, the supply system (100) comprises the second interface unit (120') or the first fluid distribution unit (130). 9. Supply system according to one of the preceding claims, wherein the interface unit (120, 120') further comprises a second fluid distribution unit (130) which can be arranged between the distributor housing 110 and the plurality of coolant interfaces (121) of the interface unit (120), wherein the second fluid distribution unit (130) has one or more lines and/or one or more channels for conducting coolant from the distributor housing (110) to the plurality of coolant interfaces (121) of the interface unit (120). 10. Interface unit (120, 120') for a distributor housing (110) of a supply system (100), in particular according to one of the preceding claims, wherein the interface unit (120, 120') comprises a plurality of coolant interfaces (121, 121'), wherein the interface unit (120, 120') can be arranged on a first side of the distributor housing (110) in such a way that the interface unit (120, 120') fluidically seals with a pump housing (111) open on at least the first side and/or a valve housing (112) and an exchange of coolant with the pump housing (111) and/or the valve housing (112) can be provided via the plurality of coolant interfaces (121, 121'). 11. Distributor housing (110) for an interface unit (120, 120') of a supply system (100), in particular according to one of claims 1 to 8, comprising: a pump housing (111) for receiving a coolant pump and/or a valve housing (112) for receiving a valve unit, wherein the distributor housing (110) is designed such that the pump housing (111) and/or the valve housing (112) are open at least on a first side of the distributor housing (110); wherein the distributor housing (110) is designed such that an interface unit (120, 120') having a plurality of coolant interfaces (121, 121') can be arranged on the first side in order to fluidically seal with the interface unit (120, 120') and to provide an exchange of coolant with the pump housing (111) and/or the valve housing (112) via the plurality of coolant interfaces (121, 121'). 12. Vehicle (200), comprising a supply system (100) according to one of claims 1 to 9, an interface unit (120, 120') according to claim 10 and/or a distributor housing (110) according to claim 11. 13. The vehicle (200) according to claim 12, further comprising at least one coolant pump accommodated in the pump housing (111) for pumping coolant and/or at least one valve unit accommodated in the valve housing (112). 14. The vehicle (200) according to claim 12 or 13, wherein the plurality of coolant interfaces (121, 121') are connected to a plurality of lines for conducting coolant.