DE10012676A1 - Heating circuit for vehicles uses the vehicle engine, and a heater radiator as a heat source - Google Patents

Abstract

This heating circuit for vehicles has a heat source (12), in the form of the vehicle engine, and a heater radiator (14) connected by a supply pipe (16) and a return pipe (18) in which a heater pump (20) is connected. Part of the supply pipe (16) and return pipe is in the form of parallel pipe sections (22,24) forming a single common pipe (26).

Description

The invention relates to a heating circuit for a motor vehicle according to the preamble of claim 1.

Heating or air conditioning systems are used in today's motor vehicles Use that have a heating heat exchanger with which the one Air to be supplied to the vehicle interior can be heated by hot cooling medium by a heat source, such as a combustion Motor of the motor vehicle, is heated to the heating heat exchanger is conducted and there transfer the heat of the coolant to the air becomes. To guide the coolant from the heat source to the heater heat exchanger and back there are separate coolant lines, so that a heating circuit is formed. Via a coolant pump the coolant is promoted in this circuit.

Today's vehicles have to be as compact as possible in their external dimensions be with the largest possible interior dimensions. So there is always that Problem that the individual components of the vehicle only a minor one Space is available.

Based on this, it is an object of the invention to provide an improved Provide heating circuit that takes up less space and is easier to install in the vehicle.  

This task is solved by a heating circuit with the characteristics len of claim 1.

According to the invention it is provided that the feed and the return line run parallel at least in regions by one of two in each case the partial tubes of a common tube are formed. This means that Lead and return line combined into a single tube, so that when installing the heating circuit, not two individual lines, but only a common pipe has to be laid. This is not only simplifies assembly, but also creates installation space. Also are by the inventive combination of feed and return problem areas, such as the routing of the lines through a bulkhead of the vehicle that separates the engine compartment from the interior separates, reduced, since now only one pipe has to be carried out.

Since only one pipe has to be insulated, insulation material can be saved. By suitable coolant routing, for example when the supply and Return line are arranged coaxially and the flow for the heating heat exchanger, i.e. the supply line, in the inner tube and the return, So the coolant return line, which is guided in the outer tube, is the tem temperature difference to the environment smaller and less heat loss occurs to the outside. At the same time, with such a coolant guide the common pipe as a countercurrent heat exchanger as used by climate Systems for refrigerant management, for example from DE 196 13 684 A1 are known in principle, can be used.

The simplified assembly of the coolant supply and return line in the The configuration according to the invention is particularly advantageous if several Heat exchangers in the vehicle are arranged in different places, such as known for example from DE 35 16 444.

The pipe connection to the heating heat exchanger is simplified because in the configuration according to the invention only one pipe connection, with to which the return line and the feed line are connected at the same time be required.  

In one embodiment of the invention, the feed and the return can line be arranged coaxially. Alternatively, the feed and return lines through two nested tubes with different diameters be formed knife. The outer tube then forms together with the In a common pipe that meets the needs like an ordinary pipe nits can be bent accordingly. Here the individual Lines, i.e. inner tube and outer tube, made of different materials exist, different cross-sectional shapes and different lengths have. Read through the different lengths of the individual lines sen these in a simple manner to different connection points to lead.

In order to avoid cross-sectional narrowing at the bending points, the inner and outer tubes advantageously have spacers, for example in the form of webs or knobs or the like, vorese hen. Furthermore, the inner tube and / or the outer tube as so-called tes swirl tube be formed.

In a further embodiment of the invention, the common tube is as Multi-chamber tube formed, at least two chambers provided are so that one chamber the supply line and another chamber the Return line can form.

The common pipe according to the invention, with its partial pipes, the To The guide and return line can be formed in an extrusion process and / or coextrusion processes from different materials, for example be made of metal, alloys and / or plastic.

In the following, the invention is illustrated by means of exemplary embodiments Reference to the drawing explained in detail. In the drawing demonstrate:

Figure 1 is a schematic representation of a heating circuit according to the invention.

FIGS. 2a-2f are schematic cross sections of further embodiments of delivery and return lines of the inventive SEN heating circuit.

A heating circuit 10 according to the invention for a motor vehicle has egg ne heat source 12 , for example an internal combustion engine of the motor vehicle and a heating heat exchanger 14 . About a coolant supply line 16 is heated in the internal combustion engine 12 coolant, which is used in normal operation for cooling the internal combustion engine, the heating heat exchanger 14 and supplied via a coolant return line 18 via a coolant pump 20 to the internal combustion engine again. The heating heat exchanger 14 is used to heat fresh or cold air supplied from a vehicle interior.

The feed line 16 and the return line 18 are at least partially formed by one of two parallel partial pipes 22 and 24 of a common pipe 26 .

For such a summary of the feed line 16 and the return line 18 in a common tube 26 , different embodiments are conceivable. In FIGS. 2a to 2f are shown three possible exporting approximately shapes.

In a first embodiment shown in Figs. 2a and 2b, the tube 26 has a longitudinal partition 28 which divides the tube 26 into two channels 30 and 32 , one channel 30 the supply line 22 and the other channel 32 can form the return line 24 or vice versa. At one end of the common tube 26 , one of the channels, for example channel 32 , can be made longer, as shown for example in FIG. 2b, so that a corresponding connection, for example for connection to the heating heat exchanger 14 , is formed on the channels 30 and 32 can. For this, e.g. B. the channel 30 have at one end a nozzle 33 which is separated from the channel 32 .

In an embodiment shown in FIGS . 2c and 2d, the feed and return lines 22 and 24 are arranged coaxially. For this purpose, the common tube 26 comprises an inner tube 34 and an outer tube 36 , the inner tube 34 preferably forming the coolant supply line 16 and the outer tube 36 the coolant return line 18 . A connection to the outer tube 36 can be made in the radial direction via a connecting piece 37 .

In an embodiment shown in FIGS . 2e and 2f, the feed and return lines 22 and 24 are again formed from two individual tubes 38 and 40 , tube 38 being designed as an outer tube and tube 40 as an inner tube arranged therein, which are not coaxial, but are arranged eccentrically. Such a tube 26 could, for example, be produced using the extusion process. To connect the individual pipes 38 and 40 to the heat exchanger 14 is again one of the pipes, for example the inner pipe 40 at the end of the pipe line 26 shown in FIG. 2f is longer than the outer pipe 38 , this to close at one end Spigot 42 has.

Claims (6)

1. Heating circuit for a motor vehicle with a heat source (12), for example an internal combustion engine of the motor vehicle, and a heating heat exchanger (14), the line through a coolant supply (16) for directing hot refrigerant from the heat source (12) to the heat exchanger (14) and are connected to one another via a coolant return line ( 18 ) for directing the coolant from the heat exchanger ( 14 ) to the heat source ( 12 ), characterized in that the feed line ( 16 ) and the return line ( 18 ) are at least partially by one of each two parallel partial tubes ( 30 , 32 ; 34 , 36 ; 38 , 40 ) of a common tube ( 26 ) are gebil det. 2. Heating circuit according to claim 1, characterized in that the feed ( 16 ) and the return line ( 18 ) are arranged coaxially and the feed line ( 16 ) in the inner tube ( 34 ) and the return line ( 18 ) in the outer tube ( 36 ) is performed. 3. Heating circuit according to claim 1 or 2, characterized net that the feed and the return line by two into each other pushed pipes of different diameters are formed. 4. Heating circuit according to one of the preceding claims, there characterized in that by webs, knobs or the like formed spacers provided between the inner and outer tubes are.   5. Heating circuit according to one of the preceding claims, there characterized in that the common pipe with the partial pipe ren is produced in the extrusion process. 6. Heating circuit, according to one of the preceding claims, there characterized in that the common tube is a multi-chamber pipe is.