CZ306904B6 - A stacked plate exchanger - Google Patents

Abstract

A plate type heat exchanger of the present invention includes a heat exchange assembly formed by a plurality of interconnected heat exchange plates in stacked relationship. Each of the heat exchange plates includes longitudinal side webs terminating in seating rims extending toward a longitudinal center axis of the heat exchange plate. The heat exchange plates are disposed between a bottom cover and a top cover of the exchanger. The top cover is provided with couplings at opposite ends for an inlet and an outlet of refrigerant. Each end of the heat exchange assembly, with longitudinal openings of passageways formed between the heat exchange plates, is provided with a manifold having an aperture for a passage of cooled air therethrough.

Description

Technical field

BACKGROUND OF THE INVENTION The present invention relates to a folded plate heat exchanger, in particular for cooling compressed air in motor vehicles.

BACKGROUND OF THE INVENTION

At present, US 2006/0011333 A1 discloses a stacked plate heat exchanger whose heat exchanger block is composed of a system of two different types of interconnected heat exchanger plates. The first heat transfer plate is a plate with low longitudinal side uprights terminated with abutting flanges oriented towards the longitudinal centerline of the heat exchange plate. The second heat exchange plate is a planar plate having a width corresponding to the width of the first plate. The second plate is mounted on the abutment edges of the first heat exchange plate and is connected to the first plate in these parts. The stack is then placed between the bottom cover and the upper shell of the exchanger, the upper cover of which is provided at its mutually opposite ends of the sleeve, for coolant inlet and outlet, each of the opposite ends of the heat exchanger block. , with longitudinal orifices of passages between its heat exchange plates, is provided with a front box with an opening for the passage of cooling air.

A disadvantage of the stacked plate heat exchanger thus formed is that two different types of heat exchanger plates need to be manufactured in order to form its heat exchanger.

SUMMARY OF THE INVENTION

The above-mentioned drawback removes the stacked plate heat exchanger, especially for motor vehicles, consisting of a heat exchange block formed of stacked and interconnected heat exchange plates with low longitudinal side uprights terminated to the longitudinal centerline of the heat exchange plate oriented flanges and interposed between the bottom cover and a heat exchanger top, of which the top cover is provided at its mutually opposed ends with a coolant inlet and outlet, each of the opposite ends of the heat exchange block, with longitudinal orifices of the passages between its heat exchange plates, having a front box with an aperture therethrough chilled air according to the invention, characterized in that the heat exchange block is formed of an even number of identical heat exchange plates assembled into closely adjacent pairs of heat exchange plates, in which the heat exchanger plates are connected by their flanges on their longitudinal side uprights, each of the covers formed by the outer circumferential skirt having a width greater than the width of the heat exchanger block and only in the regions at the faces of the heat exchanger block to attach the front boxes to the fronts parts of the covers and their tight fit on the sides of the heat exchange block, the width of the covers equal to the width of the heat exchange block.

The essence of this stacked plate heat exchanger is also that each faceplate has a height corresponding to the distance between the free edge of the peripheral skirt of the bottom shell and the free edge of the skirt of the top shell, each coupled to the opposing ends of the heat exchanger. circumferential flanges on respective front parts of the covers.

It is also essential for this solution that the faceplate has, in the form of, for example, a truncated truncated pyramid, between the housing part for connection to the heat exchange block with covers and the chilled air inlet.

- 1 GB 306904 B6

The advantage of the stacked plate heat exchanger according to the invention is that only one type of plate, one type of cover and one type of front box need to be manufactured. The advantage is furthermore a simpler method of sealing and connecting the front boxes to the opposite ends between the covers of an arranged plate heat exchange block. It is also unnecessary to use side covers (not shown) in this design, as is the case with existing exchanger assemblies.

Clarification of drawings

An example of a possible embodiment of a folded plate heat exchanger according to the invention is apparent from the accompanying drawings, in which FIG. 1 is an axonometric view of an assembled plate heat exchanger, FIG. 2 is an exploded perspective view of a plate heat exchanger; FIG. 3 shows two axonometric views of two mutually opposed heat exchanger plates which are ready to be connected to each other by means of their longitudinal flanges shown in detail; FIG. 4 shows a cross-section of a heat exchange plate, FIG. Fig. 5 is an axonometric view of the heat exchanger block arranged between the upper cover and the bottom cover, supplemented with a detail of the corner of the heat exchanger block; 6 is a perspective view of the top cover seen from above and below, with details of the fitting of the covers to abut the edge of the front box; FIG. 7 is a section along line A - A of FIG. 1, supplemented with a detail of the upper corner part of the exchanger at the cut point, and FIG. 8 are axonometric views of the bottom plate as seen from above and below.

DETAILED DESCRIPTION OF THE INVENTION

As can be seen from FIG. 2, the folded plate heat exchanger according to the invention, particularly for motor vehicles, consists of a heat exchange block 1 formed of stacked and interconnected heat exchange plates 2 (see Fig. 3 and Fig. 4) with low longitudinal side uprights 3 terminated to longitudinal center axis of the heat exchange plate 2 by facing flanges 4. The heat exchange block 1 is positioned between the lower housing 5 and the heat exchanger upper housing 6 (see Fig. 5), of which the upper housing 6 is provided at its mutually opposite ends with and a coolant outlet. Each of the opposite ends of the heat exchange block 1, with longitudinal orifices of the passages between its heat exchange plates 2, is provided with a front box 8 with an opening for the passage of cooled air.

The heat exchanger block 1 is in this case formed of an even number of identical heat exchanger plates 2 assembled (brazed) into closely successive pairs of heat exchanger plates 2, in which the heat exchanger plates 2 are connected to each other by their abutment flanges 4 on their longitudinal side webs 3 ( see Fig. 5). Each of the covers 5, 6, formed by a plate with an outwardly oriented peripheral skirt 9 (see Fig. 6), has a width greater than the width of the heat exchange block 2. Only in the regions near the faces of the heat exchange block 2 is the front parts of the housings 5,6 and their tight abutment on the sides of the heat exchange block 1, the width of the housings 5, 6 being the same as the width of the heat exchange block 2.

Each faceplate 8 then preferably has, in the form of a substantially polygonal truncated pyramid, between the portion for connecting it to the heat exchange block 1 with the covers 5, 6 and the chilled air passage opening.

Claims (2)

PATENT CLAIMS A folded plate heat exchanger, particularly for motor vehicles, consisting of a heat exchange block (1) formed of stacked and interconnected heat exchange plates (2) with low longitudinal side uprights (3) terminating on the longitudinal centerline of the heat exchange plate (2) ) facing abutments (4), and located between the lower casing (5) and the upper casing (6) of the exchanger, the upper casing (6) being provided at its mutually opposite ends with a sleeve (7) for the coolant inlet and outlet, wherein each of the opposite ends of the heat exchange block (1), with longitudinal orifices of the passages therebetween, is provided with a front box (8) with a chilled air passage opening, wherein the heat exchange block (1) is formed of an even number of equal heat exchangers plates (2) assembled in closely consecutive pairs of heat exchange plates (2) in which the heat exchange plates are (2) connected by their abutment flanges (4) on their longitudinal side webs (3), characterized in that each of the covers (5, 6) formed by a plate with an outwardly oriented peripheral flange (9) has a width greater than the width of the heat exchanger block (1) and only in the regions of the faces of the heat exchanger block (1), in order to attach the front boxes (8) to the fronts of the covers (5, 6) and fit them tightly to the sides of the heat exchanger block (1) 5, 6) equal to the width of the heat exchange block (1), wherein each faceplate (8) has a height corresponding to the distance between the free edge of the peripheral rim (9) of the bottom cover (5) and the free edge of the peripheral rim (9) of the top cover (6) wherein each front box (8) is provided with a plurality of catches (10) cooperating with peripheral flanges (9) on respective front portions of the housings (5, 6) for connection to opposite ends of the heat exchange block (1). A composite plate heat exchanger according to claim 1, characterized in that the front box (8) has a substantially polygonal truncated pyramid between the part for connection to the heat exchange block (1) with the covers (5, 6) and the cooling air passage.