DE2105657B2 - Heat exchanger - Google Patents

Description

The invention relates to a heat exchanger with the outer shape of an elongated cylindrical Housing.

For certain purposes, a heat exchanger with the design described above is particularly useful. So z. B. with V-shaped reciprocating internal combustion engine !! Intercooler, oil cooler or water cooler is required, which may be included in the V-space are arranged between the two rows of cylinders and extend over the entire length of the machine extend.

The previously known heat exchangers of the type mentioned here are designed as tube coolers. Their disadvantage is the low performance in relation to their volume, so that the The space available is insufficient to achieve the necessary heat exchange. In the Application of such a heat exchanger in a reciprocating internal combustion engine, this means that the Charge air or the cooling oil or the cooling water is not sufficiently cooled, or the pressure losses become impermissibly large.

It is the object of the invention to provide a heat exchanger to create the best possible external dimensions and high thermal efficiency especially in reciprocating internal combustion engines in

V-type can be arranged between the rows of cylinders.

In a heat exchanger of the type mentioned at the outset, this is achieved according to the invention in that in the cylindrical housing several block-shaped as seen in the direction of the longitudinal center axis of the housing Heat exchanger elements with a square cross-section are used at a distance from one another and one behind the other and their longitudinal edges are tightly connected to the housing, and that between the housing and the outer boundary walls of the heat exchanger elements formed by the arrangement of Connecting walls between the individual heat exchanger elements to sections of supply and Drain channels are designed for two heat-transferring media.

The term “block cooler” means those that are also referred to as “honeycomb coolers”; these have the advantage that they have a large heat exchange surface in relation to their overall volume. The invention allows the advantage of the block cooler to be exploited in a favorable manner, with the new The heat exchanger differs from the known block cooler in that it has a larger one The overall length is flowed through directly if, according to a further concept of the invention, further Connecting walls are provided and dl 2 block-shaped heat exchanger elements are arranged parallel to one another with regard to the flow through both media are.

For the use of the heat exchanger in a reciprocating piston internal combustion engine in V-design, in the this is arranged in the free space between the rows of cylinders, it results in an advantageous manner that the heat exchanger is surrounded by the machine housing and the inflow and outflow channels are formed by the machine housing. This doesn't just make one special space-saving design achieved, it also results in particularly simple and short Connections for the media involved in the heat exchange, which are usually in the inflow and outflow channels of the Machine housing are performed.

In the drawing, an embodiment of the invention is shown as an example.

The A b b. 1 shows a cross section through a cylindrical heat exchanger.

Fig.2 shows a longitudinal section of the in Fig. 1 shown heat exchanger according to the section line U-II.

The A b b. 3 shows a longitudinal section through the in A b b. 1 shown heat exchanger according to the Section line IM-III.

Figure 4 shows a partial cross-section through a V-type reciprocating piston machine with built-in between the rows of cylinders in the machine housing Heat exchanger.

In Fig. 1 a honeycomb-like structure is approximately cube-shaped heat exchanger element 1, which is surrounded by a cylindrical housing 2, is shown. The cylindrical housing 2 encloses the heat exchanger element 1 such that it is the circumscribed Forms a circle to its square cross-section. The resulting four circular segment-shaped inflows and Drainage channels 3, 4 are sealed against each other that they are used for the supply and discharge of the Media supplied to the heat exchanger are suitable.

In the horizontal longitudinal section of A b b. 2 are the individual cube-shaped or block-shaped heat exchanger elements 1, as they are in the cylindrical housing 2

2! 05

are arranged one behind the other, shown. Through the Inflow and outflow channels 4, one of the two flows on Heat exchange involved media to and from. The direction of flow is indicated by arrows The connecting walls 5 provide a parallel arrangement in terms of the impact Heat exchanger elements 1 reached.

From the vertical longitudinal section of Fig.3 is likewise the parallel flow through the individual heat exchanger elements spatially one behind the other 1 can be seen. The direction of flow and the inflow and outflow of those involved in the heat exchange Medium is indicated by arrows in the inflow and outflow channels 3 The connecting walls 6 between the individual heat exchanger elements form part of the inflow and outflow channels 3. Not detailed in the The end faces shown of the heat exchanger can have separate connection points for the inflow and outflow the media involved in the heat exchange must be arranged.

Deviating from the illustration, the heat exchanger elements can depending on the used Mediun may be modified in its form, wob "; i depending on Flow resistance the flow paths can be designed longer or shorter. You can also use Taking into account the media used, the channel cross-sections are due to the square shape of the heat exchanger elements can be changed to a rectangular shape. A square cross section of the heat exchange shear elements, which is much smaller than the circumscribed circle of the cylindrical housing, could particularly large because of the X-shaped partition walls that extend radially from the corners of the square Channel cross-sections result.

4 shows a heat exchanger installed in the machine housing 7 of a reciprocating piston machine in V-design. The inlet and outlet channels 3 for the liquid coolant are formed by the machine housing 7 Conveniently arranged connections 8 to the cylinder surfaces to be cooled. The cylindrical shape of the heat exchanger results in an easy-to-manufacture cylindrical shape with good sealing options for the cooling media to be separated. Hole in the machine housing.

Deviating from the illustration, the heat exchanger built into the machine housing can also do the same piausparend can be used for cooling the lubricating oil or the charge air. For this purpose, the access or Discharge channels of the media involved in the heat exchanger to achieve short connections, deviating from the drawing, appropriately short-circuited or arranged in a compact, compact design.

For this purpose 2 sheets of drawings

Claims (5)

Patent claims: 1. Heat exchanger with the external design a ··? elongated cylindrical housing, thereby characterized in that in the cylindrical housing (2) several, in the direction of the longitudinal center axis of the Housing (2) seen block-shaped heat exchanger elements (I) with a square cross-section Distance from each other and used one behind the other and their longitudinal edges with the housing (2) tight to are connected, and that between the housing (2) and the outer boundary walls of the Heat exchanger elements (1) formed by the arrangement of connecting walls (6) between the individual heat exchanger elements (1) to sections of inflow and outflow channels (3, 4) are designed for two heat-transferring media. 2. Heat exchanger according to claim 1, characterized gekennzescnnet that between the heat exchanger elements (I) further connecting walls (5) are provided and the block-shaped heat exchanger elements (1) with respect to the flow through both Media are arranged parallel to each other. 3. Heat exchanger according to claims 1 and 2, characterized in that in the housing (2) a and outlet openings are provided for both media. 4. Heat exchanger according to claims 1 to 3, characterized in that the heat exchanger elements (1) have a rectangular cross-section. 5. Heat exchanger pech eircm of claims 1 to 4, which in a reciprocating internal combustion engine in V-type between the cylinders ^ 'rows arranged is, characterized in that the heat exchanger is surrounded by the machine housing (7) and the inlet and outlet channels (3, 4) are formed by the machine housing (7).