DE102008005231B4 - Separate coolant circuit in conjunction with block heater - Google Patents

Abstract

The invention relates to a medium circuit which has a control valve (6) and which has a first partial circuit (2) and at least one second partial circuit, wherein at least the first partial circuit (2) is associated with a heating element (3) which can be operated by means of an energy source. To ensure that e.g. In split-cooling systems of internal combustion engines, the medium is completely heated during a warm-up phase, it is proposed that the control valve (6) is designed as Dehnstoffregelventil (6) which is coupled to the energy source of the heating element (3) or simultaneously with the Heating element (3) is controlled.

Description

The The invention relates to a medium circuit having a control valve, and a first partial circuit and at least a second partial circuit having at least the first partial circuit by means of a Energy source operable heating element is assigned. The invention but also relates to a method for maintaining a medium flow in the medium circuit, whose medium is in a warm-up phase warmed up by means of the heating element will, according to the preamble of claim 7.

The EP 0 694 423 A2 deals with a coolant circuit of an internal combustion engine for a motor vehicle. The coolant circuit connects the engine, a coolant / air heat exchanger and a combustion gas / coolant heat exchanger of a combustion heat generating heater with each other. The coolant circuit includes a bypass passage leading past the engine and a valve for controlling the flow of coolant through the bypass passage and the engine. The valve is designed as a thermostatic valve with at least one additional, higher-level, electrically activatable adjusting drive.

such, initially mentioned medium circuits are in vehicle technology, for example, as coolant circuits of Internal combustion engines known. To improve the warm - up behavior of the Combustion engine increasingly comes the principle of split cooling used, so the division of the coolant circuit in one Block water cycle and in at least one cylinder head water cycle. The block water cycle can also be referred to as the first partial cycle be, with the at least one cylinder head water cycle as well can be referred to as a second partial circuit. The cylinder head water circuit can in other subcircuits be divided. In split-cooling systems, the medium flow becomes while the warm-up phase of the internal combustion engine by means of the control valve, for example by means of a thermostat through the cylinder block, thus purposefully interrupted in the first partial cycle, so that this does not flow through is, and coolant only flows through the cylinder head. Is the warm-up phase completed or reaches the coolant a sufficient one Temperature level, the block water cycle is opened again. The Warm-up phase of the internal combustion engine is the phase at which the internal combustion engine started after a long standstill is (cold start) and continues until the internal combustion engine is at its operating temperature or the medium or the coolant has reached a sufficient temperature level.

Known But it is also that in regions with low or extremely low Ambient temperatures, for example, in the block water jacket Heating element is installed to protect the engine. This Heating element is usually installed as an external component in the cylinder block, and about one external power source supplied with the necessary energy. As external Power source can, for example, a power outlet of an electricity supplier serve, in which a corresponding connection cable to the heating element is inserted. The heating element then works similar to one Immersion heaters, and prevents freezing of the coolant. At the same time the combustion engine in the off state or its coolant so warmed up already, so that the warm-up phase of the internal combustion engine can be shortened.

at the combination of both systems (split-cooling, heating element for warming up) can do it but problems arise because the control valve or the thermostat in the warm-up bunny may be closed, so that the cylinder block (first partial circuit) or only the medium of the medium circuit located therein is warmed up. Because through the closed control valve or thermostat is a medium flow in the entire medium circuit or a warm-up of the entire medium prevented.

Of the Invention is based on the object, a medium cycle of Input type mentioned above with simple means to improve that, despite the existing control valve or thermostat, a warming up of Medium throughout the medium circuit or split-cooling system ensured is.

According to the invention Device-technical part of the task achieved in that the control valve is designed as Dehnstoffregelventil, which with the energy source of the heating element is coupled. The procedural part of the task is solved by that the Dehnstoffregelventil in the heating phase of the medium at the same time is controlled with the heating element when the medium over the Heating element warmed up becomes.

Advantageously, it is achieved with the invention that in particular the coolant circuit of internal combustion engines, which have a split-cooling system, despite the use of the control valve is also completely traversed during the warm-up phase of the engine or its coolant. By coupling the Dehnstoffregelventils with the energy source of the heating element, the Dehnstoffregelventil is simultaneously supplied with the heating element with energy or energized, so that the Dehnstoffregelventil opens, and a medium or cooling water flow is ensured in the entire medium or coolant circuit. The waxing rule In this case, valve advantageously has an expansion element, for example a wax element, which is heated in accordance with the amount of current flow, so that the expansion valve opens correspondingly continuously and continuously. Advantageously, a radiator is provided, which is coupled to the energy source of the heating element, and which is associated with the expansion element.

The warm-up of the internal combustion engine according to the invention is the phase in which the internal combustion engine is switched off, and the medium or the cooling liquid warmed up by means of the heating element so as to avoid freezing, for example so z. B. to reduce a warm-up phase of the engine. Conceivable is also, by means of the heating element, a warm-up, for example, the combustion chamber (about the coolant) What makes sense, especially with ethanol as a fuel is.

The Heating element is electrically operable, being used as an energy source for Operating the heating element can use an external power supply.

In a first embodiment of the invention is advantageously provided the heating element and the expansion valve are separated from each other, are separate components, which to the same, preferably external Energy source are connected. On a connection cable of the power source to the heating element is a branch to the Dehnstoffregelventil intended. The branch leads to the radiator, which the expansion element of the Dehnstoffregelventils warms up accordingly. Of course you can the coupling of the two components to the power source also by other appropriate measures getting produced. The heating element is inside the block water jacket, So arranged the first subcircuit. The Dehnstoffregelventil is advantageously arranged so that a medium flow through the entire Medium circulation during the warm-up hare is ensured. Appropriate way the Dehnstoffregelventil is in a compound of the first arranged for the second partial circle purchase.

In a second embodiment is advantageously provided that the Dehnstoffregelventil or its radiator is connected to an engine control unit, wherein advantageously provided a Umspanner in the aforementioned branch is. Naturally the Umspanner can also between the Dehnstoffregelventil and the Engine control unit be provided. The electrical system of the motor vehicle is usually operated at a voltage of for example 12 volts. The external one Energy source of the heating element has, for example, a voltage from 220 volts up. In other countries Of course, as Germany can deviating amount of voltage in the external power grid. through the Umspanners is achieved that the heating coil of the heating element not with 12 volts, and the radiator to warm up the Expansion element is not operated with 220 volts. By the Connection of the Dehnstoffregelventils or its radiator with the engine control unit, can be achieved, that the Dehnstoffregelventil with on-board power be supplied and specifically opened can.

Cheap in the The sense of the invention is that a part of the current for heating the Heating element also for energizing the radiator and thus opening the Dehnstoffregelventils is used.

It but is also well within the meaning of the invention, when the heating element and the Dehnstoffregelventil are combined in one component, or both components are integrated in a single component. at In this embodiment, the heating element in the block water jacket is physically connected to the Dehnstoffregelventil. Part of the heating element comprises the expansion element, which has at least one winding, and is through the separation area of Dehnstoffregelventils in the block water jacket guided, and has there at least one more winding. It is conceivable but also to provide separate windings, which are electrically within of the one-piece component are connected. This can be a winding also as a radiator be designated, which is associated with the expansion element.

Further advantageous embodiments of the invention are in the dependent claims and the following description of the figures disclosed. Show it

1 a schematic representation of an internal combustion engine with heating element and Dehnstoffregelventil,

2 the basic representation of the internal combustion engine 1 with a Dehnstoffregelventil upstream Umspanner, and

3 the basic representation of the internal combustion engine 1 with built-in component heating element and Dehnstoffregelventil.

In the different figures are the same parts always with them Reference numerals provided, which is why these usually described only once become.

1 shows in principle an internal combustion engine 1 a motor vehicle with a medium circuit. The medium circuit is designed as a coolant circuit in the embodiment of the split-cooling system, which means that the Kühlmitteilkreislauf in a first subcircuit (block water jacket) and in at least a second partial circuit (cylinder head water jacket) is divided. In 1 is only the first partial cycle 2 illustrated in principle, the below as a block water jacket 2 referred to as.

In the block water jacket 2 is a heating element 3 arranged, which with an external energy source via a connecting line 4 connected is. The heating element 3 is via the external power source, which may be, for example, a 220 volt power supply so operable that the medium or the coolant liquid is heated or reheated when the engine stopped or for a long time, for. B. is turned off overnight. The warming up of the medium or of the coolant in the parked state of the internal combustion engine is referred to as a warm-up phase in the context of the invention.

Next is in the medium cycle, here in a transition from the block water jacket 2 to the second, not shown, partial circuit or to the cylinder head water jacket a control valve 6 or a thermostat arranged.

The control valve 6 is as Dehnstoffregelventil 6 executed, and has an expansion element 7 on, which is executed in the illustrated embodiment as a wax element.

So that a medium flow or coolant flow is ensured during the heating phase in the entire medium circuit, ie in the block water jacket and the second subcircuit, it is advantageously provided that the Dehnstoffregelventil 6 with the energy source of the heating element 3 is coupled. At the in 1 illustrated embodiment, this is a branch 8th reached, which in the connecting line 4 is arranged. The branch 8th leads to a radiator 9 which the expansion element 7 heated. In the example shown is the radiator 9 like the heating element 3 designed for a voltage of 220 volts.

Will now be the heating element 3 , And thus the medium or the coolant liquid in the warm-up phase of the internal combustion engine 1 heated by the external energy or power source, the expansion element is 7 over the radiator 9 heated at the same time, so that the Dehnstoffregelventil 6 opens, and a medium flow or coolant flow in the entire medium circuit, ie in the block water jacket 2 and in the cylinder head water jacket is ensured.

According to the embodiment 2 is the radiator 9 via connecting lines 11 connected to an engine control unit. In order to avoid that the voltage amount of the external energy or power source is fed into the electrical system of the motor vehicle is in the branch 8th advantageous a transformer 12 provided, which reduces the voltage amount of the external power source to the voltage amount of the electrical system, for example, to 12 volts.

This ensures that the heating element 3 not at 12 volts and the radiator 9 z. B. does not have to work at 220 volts.

In the embodiments of the 1 and 2 are the heating element 3 and the Dehnstoffregelventil 6 separate components. In 3 By contrast, it is a one-piece component 13 represented in which the Dehnstoffregelventil 6 and the heating element 3 are integrated.

The heating element 3 is physically with the Dehnstoffregelventil 6 connected. A connection line 14 connects the radiator 9 or a winding within the component 13 with the heating element 3 or another winding. In this respect, two separate windings can be used, which are within the component 13 connected to each other. It is also conceivable that a part of the heating element 3 the expansion element 7 comprising, wherein the heating element 3 through a separation region of the Dehnstoffregelventils 6 in the block water jacket 2 is guided and there has at least one more winding. Of course, it is also possible to provide a transformer in this embodiment, the expedient manner between the engine control unit and the Dehnstoffregelventil 6 can be provided.

During the warm-up phase by means of the heating element 3 at the same time becomes the Dehnstoffregelventil 6 or his radiator 11 driven. In the embodiment too 3 This is achieved by adding a portion of the current to the heating element 3 also for opening the expansion element 6 is being used. In the embodiments too 1 and 2 This is achieved by the connection (branch) of Dehnstoffregelventils 6 with the same power source of the heating element 3 is made, so that the expansion element 6 about the generated heat of the radiator 9 infinitely opens when the heating element 3 is energized.

Claims (7)

Medium circuit containing a control valve ( 6 ), and the a first partial circuit ( 2 ) and at least one second partial circuit, wherein at least the first partial circuit ( 2 ) a heating element which can be operated by means of a power source ( 3 ), characterized in that the control valve ( 6 ) as Dehnstoffregelventil ( 6 ) is executed, which with the energy source of Heizelemen tes ( 3 ) is coupled. Medium circuit according to claim 1, characterized in that the Dehnstoffregelventil ( 6 ) an expansion element ( 7 ), to which a radiator ( 9 ) assigned. Medium circuit according to claim 2, characterized in that the expansion element ( 7 ) is executed as a wax element. Medium circuit according to one of the preceding claims, characterized in that the heating element ( 3 ) and the Dehnstoffregelventil ( 6 ) are separate components. Medium circuit according to one of claims 1 to 3, characterized in that the Dehnstoffregelventil ( 6 ) and the heating element ( 3 ) in a component ( 13 ) are integrated. Medium circuit according to one of the preceding claims, characterized in that a Umspanner ( 12 ) between the energy source of the heating element ( 3 ) and the Dehnstoffregelventil ( 6 ), or that a transformer ( 12 ) between the Dehnstofffregelventil ( 6 ) and an engine control unit is provided. Method for maintaining a medium flow in a medium circuit, in particular according to one of the preceding claims, comprising a control valve ( 6 ), and the a first partial circuit ( 2 ) and at least one second partial circuit, wherein at least the first partial circuit ( 2 ) a heating element which can be operated by means of a power source ( 3 ), which warms the medium in a warm-up phase, is associated, characterized in that the control valve ( 6 ) as Dehnstoffregelventil ( 6 ) carried out in the heating of the medium simultaneously with the heating element ( 3 ) is controlled when the medium via the heating element ( 3 ) is warmed up.