Vehicle temperature control system

Abstract

A vehicle temperature control system, especially for a hybrid vehicle, includes a first heat transfer medium circuit (12) including an internal combustion engine (16), a heater (18) and one or preferably a plurality of heat transfer areas (32, 34, 36) for transferring heat between a first heat transfer medium, circulating in the first heat transfer medium circuit (12), and a first group of system areas to be thermally treated. A second heat transfer medium circuit (14) includes a heat one or preferably a plurality of heat transfer areas for the transfer of heat between a second heat transfer medium, circulating in the second heat transfer medium circuit (14), and a second group of system areas (46, 48, 50) to be thermally treated. A heat transfer medium circuit heat exchanger unit (58) transfers heat between the first heat transfer medium and the second heat transfer medium.

Claims

1. A vehicle temperature control system comprising: a first heat transfer medium circuit; an internal combustion engine connected to the first heat transfer medium circuit; a fuel operated heater having a burner area and a heat exchanger unit connected to the first heat transfer medium circuit for transferring heat generated in the burner area to a first heat transfer medium circulating in the first heat transfer medium circuit; at least one first heat transfer area, connected to the first heat transfer medium circuit, for a transfer of heat between the first heat transfer medium circulating in the first heat transfer medium circuit and a first group of system areas to be thermally treated; a second heat transfer medium circuit; at least one second heat transfer area, connected to the second heat transfer medium circuit, for a transfer of heat between a second heat transfer medium circulating in the second heat transfer medium circuit and a second group of system areas to be thermally treated; and a heat transfer medium circuit heat exchanger unit for the transfer of heat between the first heat transfer medium circulating in the first heat transfer medium circuit and the second heat transfer medium circulating in the second heat transfer medium circuit, wherein the second group of system areas comprises one or more of: a vehicle battery; a battery charger; and a vehicle electronics, wherein: in the second heat transfer medium circuit, the second heat transfer medium flows in series through the heat transfer medium circuit heat exchanger unit and the vehicle battery; or in the second heat transfer medium circuit, the second heat transfer medium flows in series through the heat transfer medium circuit heat exchanger unit and the vehicle electronics system; or in the second heat transfer medium circuit, the second heat transfer medium flows in series through the heat transfer medium circuit heat exchanger unit and the vehicle battery and the vehicle electronics system; or in the second heat transfer medium circuit, the second heat transfer medium flows in parallel through the heat transfer medium circuit heat exchanger unit and the battery charger; or in the second heat transfer medium circuit, the second heat transfer medium flows in series through the heat transfer medium circuit heat exchanger unit and the vehicle battery and in the second heat transfer medium circuit, the second heat transfer medium flows in parallel through the heat transfer medium circuit heat exchanger unit and the battery charger; or in the second heat transfer medium circuit, the second heat transfer medium flows in series through the heat transfer medium circuit heat exchanger unit and the vehicle electronics system and in the second heat transfer medium circuit, the second heat transfer medium flows in parallel through the heat transfer medium circuit heat exchanger unit and the battery charger; or in the second heat transfer medium circuit, the second heat transfer medium flows in series through the heat transfer medium circuit heat exchanger unit and the vehicle battery and in the second heat transfer medium circuit, the second heat transfer medium flows in parallel through the heat transfer medium circuit heat exchanger unit and the battery charger.

2. The vehicle temperature control system in accordance with claim 1, wherein the first heat transfer medium circuit comprises a first heat transfer medium circuit valve array for: releasing the internal combustion engine for flow of the first heat transfer medium; and blocking the internal combustion engine against flow of the first heat transfer medium.

3. The vehicle temperature control system in accordance with claim 2, wherein: the first heat transfer medium flows through the heat transfer medium circuit heat exchanger unit regardless of a switching position of the first heat transfer medium circuit valve array; or the first heat transfer medium flows through the heat exchanger unit of the heater regardless of a switching position of the first heat transfer medium circuit valve array; or the first heat transfer medium flows through the heat transfer medium circuit heat exchanger unit and the first heat transfer medium flows through the heat exchanger unit of the heater regardless of a switching position of the first heat transfer medium circuit valve array.

4. The vehicle temperature control system in accordance with claim 1, wherein the at least one first heat transfer area connected to the first heat transfer medium circuit comprises a system area heat exchanger unit in association with at least one system area of the first group of system areas for the transfer of heat between the system area and the first heat transfer medium.

5. The vehicle temperature control system in accordance with claim 4, wherein the first heat transfer medium circuit comprises a system area valve array in association with the at least one system area of the first group of system areas for: releasing the system area heat exchanger unit for flow of the first heat transfer medium; and blocking the system area heat exchanger unit against flow of the first heat transfer medium.

6. The vehicle temperature control system in accordance with claim 1, wherein the first group of system areas comprises one or more of: an internal combustion engine oil system provided in the internal combustion engine; a transmission fluid system provided in a transmission associated with the internal combustion engine; and an interior of a vehicle.

7. The vehicle temperature control system in accordance with claim 1, further comprising a cooler heat exchanger unit wherein: the internal combustion engine comprises a heat transfer medium jacket through which the first heat transfer medium flows; and the cooler heat exchanger unit is associated with the internal combustion engine for the emission of heat from the first heat transfer medium flowing through the heat transfer medium jacket.

8. The vehicle temperature control system in accordance with claim 1, wherein the second heat transfer medium circuit comprises a second heat transfer medium circuit valve array for: releasing the heat transfer medium circuit heat exchanger unit for flow of the second heat transfer medium; and blocking the heat transfer medium circuit heat exchanger unit against flow of the second heat transfer medium.

9. The vehicle temperature control system in accordance with claim 1, wherein the second heat transfer medium flows in series through the heat transfer medium circuit heat exchanger unit and the second heat transfer medium circuit valve array and parallel together in relation to the battery charger.

10. The vehicle temperature control system in accordance with claim 1, wherein the second heat transfer medium circuit comprises a second circuit cooler heat exchanger unit for the emission of heat from the second heat transfer medium circulating in the second heat transfer medium circuit.

11. The vehicle temperature control system in accordance with claim 10, wherein a second circuit cooler valve array is associated with the second circuit cooler heat exchanger unit for: releasing the second cooler heat exchanger unit for flow of the second heat transfer medium through the second circuit cooler heat exchanger unit; and blocking the second cooler heat exchanger unit against flow of the second heat transfer medium through the second circuit cooler heat exchanger unit.

12. The vehicle temperature control system in accordance with claim 1, wherein: each of the first heat transfer medium circuit and the second heat transfer medium circuit comprises at least one heat transfer medium pump; or there is no heat transfer medium exchange connection between the first heat transfer medium circuit and the second heat transfer medium circuit; or any combination of each of the first heat transfer medium circuit and the second heat transfer medium circuit comprises at least one heat transfer medium pump and there is no heat transfer medium exchange connection between the first heat transfer medium circuit and the second heat transfer medium circuit.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) In the drawings:

(2) FIG. 1 is a schematic diagram view showing a vehicle temperature control system according to the invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

(3) Referring to the drawings, a vehicle temperature control system is generally designated by 10 in FIG. 1. The vehicle temperature control system 10 comprises two heat transfer medium circuits 12, 14, which are or can be brought into thermal interaction with one another, but between which there is no heat transfer medium exchange connection. The first heat transfer medium circulating in the first heat transfer medium circuit 12 cannot reach the second heat transfer medium circuit 14, while the second heat transfer medium circulating in the second heat transfer medium circuit 14 cannot reach the first heat transfer medium circuit. Nevertheless, the same, preferably liquid medium, for example, essentially water, can be used for the first heat transfer medium and the second heat transfer medium.

(4) The first heat transfer medium circuit 12 comprises as essential components an internal combustion engine 16 which can be used as a drive unit for a vehicle as well as a preferably fuel-operated heater 18 with a burner area 20 and with a heater heat exchanger unit 22. The first heat transfer medium circulating in the first heat transfer medium circuit 12 can flow through a heat transfer medium jacket of the internal combustion engine 16 and the heater heat exchanger unit 22.

(5) A first cooler heat exchanger unit 24 is associated with the internal combustion engine 16. The first cooler heat exchanger unit 24 can be released for flow by means of a thermostat unit 26, so that, for example, in a state, in which the first heat transfer medium has a sufficiently high temperature or shall not be further heated, excess heat can be emitted to the surrounding area. Because the supply of additional energy into the first heat transfer medium is not necessary in this state, the heater 18 is not operated, so that the first heat transfer medium flows through the heater heat exchanger unit 22 without absorbing heat there.

(6) The first heat transfer medium circuit 12 further comprises a first heat transfer medium circuit valve array 28. The internal combustion engine 16 can be released for the flow of the first heat transfer medium by means of this first heat transfer medium circuit valve array 28 as a function of the switching position thereof, as this is the case in the switching position shown in FIG. 1, or it can be blocked against flow, so that the heat transfer medium circulating in the first heat transfer medium circuit 12 does not flow through the internal combustion engine, but through the heater heat exchanger unit 22 due to the feed action of a heat transfer medium 30.

(7) The first heat transfer medium circuit 12 further comprises a plurality of system area heat exchanger units 32, 34 36, which are connected or can be connected parallel to one another, and system area valve arrays 38, 40, 42 associated with each of these system area heat exchanger units. The system area heat exchanger units 32, 34, 36 associated with each of the system area valve arrays 38, 40, 42 can be released or blocked for/against flow by the system area valve arrays 38, 40, 42.

(8) The system area heat exchanger units 32, 34, 36 are each associated with different system areas of a first group of system areas, wherein the first group of system areas is characterized in that the system areas thereof can be heated directly by the first heat transfer medium circulating in the first heat transfer medium circuit 12 or heat can be transferred to this heat transfer medium. Thus, for example, the system area heat exchanger unit 32 may be provided to establish a thermal interaction with the internal combustion engine oil of the internal combustion engine 16 to be considered as such a system area of the first group. For this, for example, the system area heat exchanger unit 32 can be arranged in the area of an oil pan of the internal combustion engine 16 or can be connected via corresponding wired connections to the internal combustion engine 16 in order to transfer heat from the internal combustion engine oil to the first heat transfer medium, or vice versa. The system area heat exchanger unit 34 may be provided in association with the transmission fluid of a transmission associated with the internal combustion engine 16, which transmission fluid is to be considered as another system area of the first group of system areas in order to transfer heat from the transmission fluid into the first heat transfer medium, or vice versa, as a function of the thermal conditions. The system area heat exchanger unit 36 may be provided to heat air to be introduced into a vehicle interior to be considered as another system area of the first group of system areas. For this, this air fed by a blower can flow around the system area heat exchanger unit 36.

(9) Depending on the thermal conditions, it is thus possible to transfer heat to the different system areas or to absorb heat from these system areas and to transfer it to one or more other system areas or to heat one or more of these system areas, as well as the internal combustion engine 16 itself, by the heater 18.

(10) The second heat transfer medium circuit 14 comprises, for example, one or more vehicle batteries 46, for example, lithium ion batteries, a vehicle electronics 48 or a part of the vehicle electronics 48, especially power electronics, as well as a battery charger 50, via which the vehicle battery 46 can be charged, for example, from a stationary power grid, through which the second heat transfer medium can flow in series. Further, the second heat transfer medium circuit 14 comprises a second cooler heat exchanger unit 52, which can be released for the flow of the second heat transfer medium fed by means of a heat transfer medium pump 56 or be blocked against flow. The heat generated during the loading of the different system areas provided especially for the electric drive operation of a vehicle can thus be emitted to the surrounding area, if needed, via the second cooler heat exchanger unit 52, provided there is a risk of an excess heating of these system areas. It should be noted here that for a thermal interaction with the second heat transfer medium circulating in the second heat transfer medium circuit, the system areas of a second group of system areas, which are associated with the second heat transfer medium circuit, i.e., for example, the vehicle battery 46, the vehicle electronics 48 as well as the battery charger 50, may have heat exchanger units 47, 49, 51 through each of which the second heat transfer medium can flow.

(11) A heat transfer medium circuit heat exchanger unit 58 is provided to thermally couple the two heat transfer medium circuits 12, 14 to one another. Both the first heat transfer medium and the second heat transfer medium can flow through this heat transfer medium circuit heat exchanger unit, so that heat from the hotter heat transfer medium can be transferred to the colder heat transfer medium. In this case, the heat transfer medium circuit heat exchanger unit 58 in association with the first heat transfer medium circuit 12 is arranged in series to the heater heat exchanger unit 22 and, regardless of the switching state of the first heat transfer medium circuit valve array 28, the first heat transfer medium can flow through this heater heat exchanger unit as well. In association with the second heat transfer medium circuit 14, the heat transfer medium circuit heat exchanger unit 58 is arranged in series to the vehicle battery 46 and the vehicle electronics 48 and is arranged parallel to the charger 50 together with a second heat transfer medium circuit valve array 60.

(12) If the second heat transfer medium circuit valve array 60 is in its switching state shown in FIG. 1, in which it releases the heat transfer medium circuit heat exchanger unit 58 for flow, the second heat transfer medium circulates through the heat transfer medium circuit heat exchanger unit 58, the vehicle battery 46 and the vehicle electronics 48. In this state, the second heat transfer medium may absorb heat from the first heat transfer medium in the heat transfer medium circuit heat exchanger unit 58 and transfer it to the system areas or some of the system areas of the second group of system areas and thus heat these system areas. If these system areas are sufficiently hot or if these shall possibly be cooled, i.e., heat is dissipated by the heat transfer medium, then this may, for example, take place via the second cooler heat exchanger unit 52 when the heat transfer medium circuit heat exchanger unit 58 is blocked by the second heat transfer medium circuit valve array 60, or may be transferred to the first heat transfer medium via the heat transfer medium circuit heat exchanger unit 58 released for flow by the second heat transfer medium circuit valve array 60, provided that this excess heat can be used in the area of one of the system areas of the first group of system areas.

(13) The vehicle temperature control system configured according to the present invention thus makes possible a higher variability in the utilization of the heat generated in the area of a vehicle, but at the same time ensures that the groups of system areas associated with the two heat transfer medium circuits can be thermally treated in a suitable manner in each of the heat transfer medium circuits even regardless of the other group. Thus, for example, the internal combustion engine 16 may already be thermally treated, for example, by operating the heater 18 in the first heat transfer medium circuit 12, when the heat transfer medium circuit heat exchanger unit 58 is blocked against flow and the hybrid vehicle is operated in electric drive operation, in order to ensure that when a transfer has to be made or shall be made from an electric drive operation into an internal combustion engine drive operation, the internal combustion engine 16 or the internal combustion engine oil and the transmission fluid are already sufficiently heated. The internal combustion engine 16 can then be put into operation in a thermally treated state leading to a reduced emission of harmful substances. On the other hand, system areas of the second group of system areas can be sufficiently heated by heat provided, for example, by the internal combustion engine 16 or/and the heater 18 in the area of the first heat transfer medium circuit 12, which can especially be used to provide the battery temperature necessary for a suitable recovery of the vehicle battery 46 or to reach this temperature faster.

(14) While specific embodiments of the invention have been shown and described in detail to illustrate the application of the principles of the invention, it will be understood that the invention may be embodied otherwise without departing from such principles.