DE3617765A1 - Engine radiator segment and combination radiator, made from these segments, for motor vehicle engines - Google Patents

Abstract

The subject-matter of the invention is a novel radiator segment and an arrangement of these segments to form a combination radiator for motor vehicles. The radiator segment is constructed in this case in one piece which consists of an extruded profile (1) made from aluminium and having at least one longitudinal bore (2) as a channel for the medium, and of lamellae (4) extending in the longitudinal direction of the profile (1). It can be combined with at least one other radiator segment. The bounding plate (5) of one segment rests congruently on the bounding plate (6) of the other segment. The longitudinal bores (2), respectively of the same diameter, are connected to one another in the segments to form a channel passing through the segments by means of aluminium tube bends (7) in the shape of circular segments. The segments are interlocked via the insertion groove (16) of one segment and the inserted insertion ridge (17) of the other segment. The advantages of this radiator which consists of a plurality of segments reside in that a plurality of cooling circuits are available. Use is made of the heat dissipated by the engine into the cooling medium. Another advantage is that both the radiator and the individual segments are of simple construction and are simple to produce. <IMAGE>

Description

The invention relates to a novel cooler segment and an arrangement of these segments into a combination cooler for motor vehicles.

The previously known radiators for motor vehicles are normally formed in one piece and expensive deliver. Because of the large flow rates, they have to have a size in the engine compartment of a motor vehicle takes up a lot of space. In the coolers is only a cooling circuit for a cooling medium.

In addition, the well-known coolers in their Operation "rigid", d. H. that regardless of external changing circumstances essentially unchanged have changeable, constant cooling circuit lengths.

The invention is based, cooler modules the task or to provide cooler segments from which Coolers that can be assembled from the state of the art Overcome known disadvantages; they should go special allow that within the out of the segmen existing cooler, several cooling circuits for ver stand, whereby from the engine into the cooling media guided heat is used.

At the same time, the radiator segments should simply open built and easy to manufacture, as well like one composed of these cooler segments Combination cooler with several cooling and heating radio ions.

The object of the invention is achieved by the cooler segments according to claims 1 to 10 and the arrangement of these segments to a combination cooler according to the Claims 11 and 12 solved, whereby by the Invention appropriate modular system from the easy to manufacture Radiator segments very different, each on the  Purpose-tuned cooler with several Functions can be made.

The fact that several media channels through the Combination cooler composed according to the invention extend, it is possible, for example, simultaneously to cool the cooling water and the oil and if necessary in one third air media channel for internal heating and / or for diesel engines for the preheated intake air heat.

The construction concept according to the invention allows through different media channel diameters the cooling capacity the requirements of the cooling (or heating) Adjust medium. Media that is not the whole Length of the media channel provided for this purpose in the cooler necessary, can be executed ahead of time; the ver remaining length of the media channel can be for others Media heating or cooling can be used.

According to the invention, it is also due to the construction possible by adding bypasses a dynamic To manage the cooler, d. i.e., despite different inlet temperatures of different Media at the same outlet temperature of the media to come, or vice versa if necessary.

Because you have this system with forced water supply and with an increased degree of air heating (at least 50 ° C) can operate, there is a possibility of part intercept the heated air after the radiator outlet and coupled with a fresh air path in the air initiate intake manifold. In this way, the ange sucked air, especially in the colder seasons, be preheated to the ideal temperature. So that can the cooling water preheaters in the air intake manifolds omitted, making it easier, lighter and more powerful result in more capable intake manifolds.  

Due to the lower amount of water required by the cooler and the resulting faster achievement of Operating temperature also allows fuel preheating especially in diesel engines, with paraffin formation and increased Pollutant emissions, especially in the starting and starting phases, are avoided.

With the engine cooler segments according to the invention create a stationary cooling part and a driving cooling. These can be turned on separately or connected together be built, as a block or pallet; you can by means of controlled bypasses in parallel and / or one after the other be switched.

It is particularly suitable here if the pipe bends be glued in, using a suitable epoxy adhesive is for example available from the company Ciba-Geigy. The The temperature resistance of this adhesive is minus 40 ° up to plus 270 ° C.

In addition, the combination according to the invention cooler but also with a manifold with distributor than Multi-pipe guidance must be formed. Such a cooler is for cooling with high water flow and for larger ones Performance requirements suitable.

The invention is explained with reference to the following FIGS. 1 to 10.

Fig. 1 is left, a cross section and, right, a longitudinal section through an engine cooler segment according to the invention;

Fig. 2 is a cross section through a preferably formed segment of FIG. 1;

Fig. 3 is an oblique side view, partly in vertical cross-section, of two segments connected to form a cooler arrangement according to FIGS. 1 and 2;

Fig. 4 shows in cross section different types of fastening the circular segment-shaped aluminum tubes in the cooler segments;

Fig. 5 shows preferred connection profiles for the United connection of the engine cooler segments according to the invention;

FIGS. 6 and 6a show schematically the frame-shaped connection of the segments to an inventive radiator block;

Fig. 7 shows schematically the structure of a radiator block according to the Invention with one-pipe forced water;

Fig. 8 shows schematically the structure of a cooler block according to the invention in multi-pipe forced water management with header and manifold;

Fig. 9 is a schematic representation of the structure and application of an embodiment of the combination cooler according to the invention;

Fig. 10 shows the possible use of the combination cooler according to the invention for preheating the intake air.

In Fig. 1 is an execution form of the engine cooler segment 1 according to the invention in cross section and, on the right side, in longitudinal section, along the line AA of the section on the left, reproduced.

The segment 1 consists of extruded aluminum profile with the holes 2 , which are formed as media channels. These holes are surrounded by lamellae 4 , these preferably having a larger 4 a and a lower 4 b height. This aluminum profile can be cut to a certain size depending on the required performance and size.

The upper and lower surfaces are preferably designed as upper and lower boundary plates ( 5, 6 ).

The entry and exit areas 3 of the bores are widened for the insertion of connecting pipe bends.

Preferably, on the upper and lower limit plates 5, 6 means 16, 17 are attached, through which, for example, the boundary plate 6 can be connected or locked to a limit plate 5 of a second segment to be fastened thereon. In the embodiment according to FIG. 2 it is on the one boundary plate 6 to a channel-shaped profile 16 and on the opposite boundary plate 5 to a burr-shaped profile, the cross section of which is designed for locking insertion into the profile 16 (an underlying segment) . The lateral longitudinal edges 18 of the boundary plates 5, 6 can be designed in a corresponding manner for locking with an adjacent segment or with a connecting profile (see FIG. 5).

According to FIG. 3, the medium channels 2 of the same diameter are connected to one another by radiator pipe segments 1 according to the invention lying one above the other or lying next to one another by circular segment-shaped aluminum pipe bends ( 7 ), so that the medium channel is extended in a corresponding manner. Since the different media channels 2 of a segment have different diameters, the aluminum pipe bends ( 7 ) must have different, corresponding diameters.

According to Fig. 4 on the left side of different adhesive compounds which are the preferred type of connection between the aluminum pipe bends 7, and segments 1 shown graphically in the bore 2. Particularly suitable is the suitable epoxy adhesive from Ciba-Geigy, whose temperature resistance is minus 40 ° to plus 270 ° C, which is not brittle and with an adhesive area of 660 mm ² an adhesive strength of 35 k / N mm ² , a total of 2310 kg. If necessary, additional O-ring seals ( 9 ) can be used in a manner known per se.

In order to increase the inherent elasticity of the segment combination to the cooler according to the invention, the pipe bends used on the connecting parts can be provided with an expansion deformation 10 .

In the case of soldering, solder rings ( 11 ) can be used in a manner known per se. (According to Fig. 4, right side)

When using the expansion forming 10 a greater tightness is achieved. So that a precise and secure connection can be established, milled sections 12 are provided in the segments.

The connection of the segments 1 to each other is preferably effected by connecting profile made of plastic or aluminum in FIG. According 5. These profiles or fittings possess Figure recesses or attachments which correspond to the attachments 16, 17 or the deformed edge margins 18 and cooperate interlockingly therewith. Via the connection profiles designed in this way, the cooler segments according to the invention can be connected to one another.

In addition, the connectors are designed as shown in Figs. 6 and 6a that a frame can be pushed over them. The frame consists of the frame profile ( 21 ), adjustable corner connections with tensioning screw 22 and outer vibration damper 23 . Otherwise, the components correspond to the components described above.

In Fig. 7, the passage of a medium channel through a combination cooler according to the invention is shown schematically. A indicates the direction of entry of the medium into the associated medium channel and B indicates its direction of exit. Due to the corresponding connection of the corresponding channel sections in the individual segments through the pipe bends, the flow of the medium takes place by means of a serpentine positive guide through the segment arrangement (cooler) with only one inlet and one outlet for the medium.

In Fig. 8, a multi-pipe positive guide is shown schematically, which is suitable for a cooler with high medium throughput. The amount of the medium to be conveyed flows through a distributor pipe 13 into the individual pipe lines, which in turn wind through the cooler structure in a serpentine manner, and enter a collecting pipe 14 , from which they are returned to the point of use.

In Fig. 9, an inventive combination cooler is shown schematically, which is constructed from the segments and pipe bends according to the invention and at the same time has a stationary and driving cooling. It is clear here that more media cooling can be carried out in an astonishingly simple manner, heating or one or more media being able to take place in parallel with this. If necessary, a charging air cooler for turbocharger operation can also be integrated in this device, the size of the water cooler currently used not being exceeded, but at the same time providing a multiple function superior to traditional water coolers.

In Fig. 9, the broken line segment combinations are associated with the auxiliary cooling, which are cooled by the fan.

The following numbers indicate the different ones Cooling and heating functions for the various Media:

• 1 : Hydraulic oil flow
• 2 : Cooling water flow
• 3 : ATF cooling flow
• 4 : Diesel preheating from the fuel pump to the exchanger flow
• 5 : from exchanger to return filter
• 6 : from the filter to the exchanger exchanger flow
• 7 : Return from exchanger to injection pump
• 8 : Intake air preheating

In Fig. 10 it is shown schematically how inventively invented the intake air is preheated.

The air flowing through the cooler, which serves as a cooling medium, is warmed up considerably. In order to use this energy of the warmed air, a fan attachment 15 is formed such that the intake air is mixed in a controlled manner in a preheating chamber 19 with part of the warmed air, whereby the mixture can be brought to the respectively required optimal temperature. This mixture then enters the carburetor with air filter 20 . The mixing ratio of hot air with at least 50 ° C and intake air is regulated in a manner known per se by the thermal mixer controller 21 .

Claims (12)

1. cooler segment, in one piece consisting of an extruded profile ( 1 ) made of aluminum with at least one longitudinal bore ( 2 ) as a medium channel and in the longitudinal direction of the profile ( 1 ) extending fins ( 4 ). 2. Segment according to claim 1, characterized in that the profile ( 1 ) with at least two longitudinal bores ( 2 ) is extruded as media channels. 3. Segment according to at least one of the preceding claims, characterized in that the entry / exit region ( 3 ) of the longitudinal bores ( 2 ) in / out of the (the) cooler segment have a slightly larger diameter than the longitudinal bores ( 2 ) within the cooler segment. 4. Segment according to at least one of the preceding claims, characterized in that in a cooler segment with more than one longitudinal bore ( 2 ), the longitudinal bores ( 2 ) have different diameters from one another. 5. Segment according to at least one of the preceding claims, characterized in that in the entry / exit areas ( 3 ) of the longitudinal bores ( 2 ) circular segment-shaped aluminum pipe bends ( 7 ) are fixed. 6. Segment according to claim 5, characterized records that he fixation by gluing follows. 7. Segment according to claim 5, characterized records that he fixation by soldering follows. 8. Segment according to claim 5, characterized in that the aluminum pipe bends ( 7 ) in the entry / exit areas ( 3 ) of the longitudinal bores ( 2 ) are secured by inserted or by sealing rings formed on the pipe bend ends. 9. Segment according to claim 5, characterized in that it has two opposing boundary plates ( 5, 6 ) integrally formed, the longitudinal and transverse edges with the longitudinal and transverse edges of the long lamp blades ( 4 a) are aligned. 10. Segment according to at least one of the preceding claims, characterized in that on the boundary plate ( 5 ) in the longitudinal direction of the segment, an insertion channel ( 16 ) is integrally formed, while on the opposite boundary plate ( 5 ) an insertion ridge ( 17 ) is integrally formed , The di dimensionally for locking insertion in the insertion channel ( 16 ) is formed. 11. Radiator segment arrangement, consisting of at least two radiator segments according to at least one of the preceding claims, wherein the boundary plate ( 5 ) of one segment lies congruently on the boundary plate ( 6 ) of the other segment, and the longitudinal bores ( 2 ) each have the same diameter in the segments are connected to each other by circular segment-shaped aluminum tube bends ( 7 ) to form a channel running through the segments, the segments being interlocked with one another via the insertion channel ( 16 ) of one segment and the inserted insertion ridge ( 17 ). 12. Segment arrangement according to one of claims 10 and / or 11, characterized in that the media channels ( 2 ) of the same diameter are connected to one another in such a way via the pipe bends ( 7 ) that the media channel formed is arranged in a serpentine manner through the stacked and / or side by side Stretches segments.