Refrigeration – With vehicle feature – Occupant-type vehicle
Reexamination Certificate
2002-12-05
2004-03-23
Tapolcai, William E. (Department: 3744)
Refrigeration
With vehicle feature
Occupant-type vehicle
C062S324100, C062SDIG002
Reexamination Certificate
active
06708513
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention pertains to a climate control system for a motor vehicle which comprises a compressor and a corresponding compressor drive, an interior heat exchanger, an expansion element, an exterior heat exchanger and, if applicable, an internal heat exchanger.
DE 35 31 045 C2 discloses an air conditioning system that is mounted on the roof of a motor vehicle and contains an evaporator and a condenser which are arranged in a housing to be mounted on the roof, wherein the evaporator and the condenser are connected to one another and to a compressor that can be driven by means of a drive unit via corresponding lines. On its underside, the housing is provided with at least one outlet opening for the cooled air generated in the air conditioning system, wherein the housing is sealed relative to the roof of the motor vehicle with a peripheral seal arranged on the underside of the housing. The housing is detachably mounted on the roof of the motor vehicle by means of mounting elements. The compressor and the drive unit for the compressor are arranged in the housing of the air conditioning system. This known air conditioning system consists of a standard air conditioning system that is operated with R
134
a
. R
134
a
systems of this type have certain disadvantages with respect to their output capacity, efficiency and structural volume. In addition, with R
134
a
systems it is practically impossible to achieve comfortably raised air temperatures for heating the interior of a motor vehicle, e.g., a small bus, a van or a bus of conventional size. This is the reason why R
134
a
is currently not the standard refrigerant used in heat pump circuits for motor vehicle heaters.
WO 97 27 437 A1 describes a compression-type refrigerating system with a compressor, a gas cooler, an expansion device and an evaporator that are connected to one another in the form of a circuit that contains a refrigerant. In this known compression-type refrigerating system, the refrigerant filling level lies between 50 and 100% of the critical density of the refrigerant. Carbon dioxide is preferably used as the refrigerant in this case.
A system with a heat pump and an accumulator is known from EP 0 969 255 A2. In this known system, the heat pump contains a compressor, a high-temperature heat exchanger, an expansion device and a low-temperature heat exchanger that are connected to one another in the form of a circuit through which carbon dioxide flows as the working medium. The high-temperature heat exchanger is arranged in the region of the bottom side of the temperature-layered accumulator and realized in the form of a countercurrent heat exchanger that is arranged in a receptacle. A riser that extends to the region of the upper side of the accumulator with a riser outlet is connected in a fluidic fashion to the upper side of the receptacle. The high-temperature heat exchanger is preferably realized in the form of a lamellar tube bundle heat exchanger. A regulating device may be arranged in the riser in order to control the volume flow of the accumulator fluid to be heated.
DE 100 06 513 A1 discloses an air conditioning system for a motor vehicle with a refrigerant circuit, a coolant circuit, a refrigerant/coolant heat exchanger that couples these circuits in a heat-exchanging fashion and means for controlling the refrigerant flow in dependence on the operating mode, wherein the air conditioning system cannot only be operated in an air conditioning mode, but also in at least one heat pump or reheating mode. In this known air conditioning system, an internal combustion engine exhaust gas coolant/heat exchanger operates upstream of the refrigerant/coolant heat exchanger in the coolant circuit in at least the heat pump mode and/or the refrigerant/coolant heat exchanger functions in the reheating mode as a condenser/gas cooler that operates upstream of an intake air/coolant heat exchanger on the side of the coolant. A drying mode in which the intake air/refrigerant heat exchanger is dried with air transported in the opposite direction may be additionally or alternatively provided. The refrigerant used in this air conditioning system consists, for example, of R
134
a
or CO
2
. The compressor of the refrigerant circuit is mechanically coupled to the internal combustion engine.
DE 198 06 654 A1 describes an air conditioning system for motor vehicles with a channel network that makes it possible to realize two operating circuits that have a common compressor and common expansion devices by switching over two flow dividers, wherein one operating circuit serves for cooling the passenger compartment of a motor vehicle and the other operating circuit serves for heating said passenger compartment. The heating circuit makes it possible to very rapidly heat the passenger compartment, namely while the internal combustion engine of the motor vehicle is still cold, because the circulating heat transfer medium is heated without inertia to a maximum heating temperature in the compressor. The channel network provided for cooling the internal combustion engine is a suitable heat source for this heating process, wherein both channel networks are coupled by a common heat exchanger. CO
2
is used as the heat transfer medium in this case. The compressor is rigidly connected to and driven by the internal combustion engine of the motor vehicle, i.e., without a clutch.
A method and a device for heating and for cooling the interior of a motor vehicle that is driven by an internal combustion engine is known from EP 0 945 290 A2. In the cooling mode, a medium circulates through a compressor, an ambient heat exchanger, a throttle device and an interior heat exchanger that are connected in series and form an integral closed circuit. A supercritical pressure is generated on the high-pressure side of the circuit, and a subcritical pressure is simultaneously generated on the low-pressure side of the circuit. In the heating mode, the high-pressure side of the circuit in the cooling mode becomes the low-pressure side, and the low-pressure side of the circuit in the cooling mode becomes the high-pressure side. The medium being circulated is conveyed into the interior heat exchanger under a supercritical pressure, wherein thermal energy is transferred to the air to be conveyed into the interior from the medium being circulated. This medium is also conveyed through an exhaust gas heat exchanger. CO
2
is preferably used as the medium being circulated. The compressor is driven by the internal combustion engine.
SUMMARY OF THE INVENTION
The invention is based on the objective of developing a climate control system of the initially described type which is designed for cooling in a cooling mode and for heating in a heat pump mode and has a superior capacity and efficiency, as well as a reduced structural volume, in comparison with standard systems, i.e., R
134
a
systems.
According to the invention, this objective is attained with the characteristics of claim 1, i.e., due to the fact that the device is realized in the form of a self-sufficient flat module that is designed for cooling in a cooling mode and for heating in a heat pump mode, wherein the compressor consists of a high-output carbon dioxide compressor that has a small structural volume and is integrated into the module together with the compressor drive, and wherein the module contains an energy connection for only one form of energy in order to supply the drive of the module with energy. The carbon dioxide compressor preferably consists of a compressor with external power control. The carbon dioxide compressor preferably has a diameter of approximately 100-120 mm such that a module of low structural height can be realized.
Carbon dioxide refrigeration provides advantages which make it possible to realize small, flat modules that are able to optimally cool in the cooling mode and to efficiently heat in the heat pump mode. Despite their small structural volume, carbon dioxide compressors have a high output such that they can be integrated into a climate control mo
Koehler Juergen
Lemke Nicholas Carsten
Konvekta AG
Mantooth Geoffrey A.
Tapolcai William E.
Zobal Arthur F.
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