This invention according to one aspect relates to a heat exchanger, and according to a further aspect relates to a method of forming a sleeve which is particularly although not exclusively a sleeve intended to be used as a side wall of a casing for a heat exchanger for automotive use.
Such a heat exchanger is used as, for example, an oil cooler incorporating a heat exchanger core which comprises a plurality of plate pairs with each plate pair being constituted by two identical plates one of which is disposed in an inverted orientation relative to the other plate of the plate pair. In the heat exchanger core the plate pairs are disposed in stacked relationship, with a space between the plates of each plate pair constituting a flow path for, for example, engine oil between an oil inlet and an oil outlet, and with a space between each adjacent pair of plate pairs constituting a flow path for coolant between a coolant inlet and a coolant outlet. The heat exchanger core is disposed within the casing which may be of rectangular, such as substantially square, form and which comprises top and bottom cover walls mounted on the side wall, one or both of the cover walls having oil inlet and outlet openings in communication, respectively, with the oil inlet to the oil flow path between the plates of each plate pair and with the oil outlet from the oil flow path between the plates of each plate pair. The side wall of the casing has coolant inlet and outlet openings in communication, respectively, with the coolant inlet to the coolant flow path between the adjacent plates of each adjacent plate pair and with the coolant outlet from the coolant flow path between the adjacent plates of each adjacent plate pair.
According to one aspect of the present invention, there is provided a heat exchanger comprising a plurality of substantially identical heat exchanger plates disposed in stacked relationship, with alternate plates in the stack of plates being in inverted orientation, and with a space between each plate and the plate adjacent thereto. Alternate spaces each constitute a flow path for a first fluid and the remaining spaces constitute a further flow path for a second fluid, each plate having a plurality of ribs each of anticlastic form, whereby the stack of plates includes adjacent plates in which the ribs thereof are in intersecting, interengaged relationship to ensure accurate alignment between said adjacent plates.
According to a further aspect of the present invention, there is provided a method of forming a sleeve comprising the steps of providing a plate of bendable material having a length and a width, with the length of the plate extending between two opposed edges thereof, and bending the plate transversely to form the plate into a sleeve, with said edges in spaced apart, confronting relationship, the plate between said edges thereof being formed with an inwardly projecting, transversely extending deformation. The deformation is disposed between a pair of press members, with one of the press members being transversely inserted within the sleeve, and by relative movement together of the press members the deformation is removed with resultant pivoting of said edges into substantially abutting contact or overlapping relationship. The press members are then separated, and the sleeve is removed.
According to a still further aspect of the present invention, there is provided a sleeve formed by the method according to the invention.
In order that the invention may be more clearly understood and more readily carried into effect the same will now, by way of example, be more fully described with reference to the accompanying drawings in which
FIGS. 7 to 13, inclusive, show diagrammatically the method according to a preferred embodiment of said further aspect of the invention of forming the side wall of the heat exchanger casing of the heat exchanger shown in
Referring particularly to
Relative to each plate pair 11, each plate 10 thereof has an inwardly disposed peripheral flange 12, an inlet opening 13 for a first fluid such as, for example, engine oil and which is surrounded by an outwardly disposed flange 14, an outlet opening 15 for the engine oil and which is likewise surrounded by an outwardly disposed flange 16 in the same plane as the flange 14, and a central opening 17 which is also provided in the flange 16. 18 represents an inwardly disposed portion of the plate 10 which is in the same plane as the flange 12, and 19 represents each of two outwardly disposed portions which are in the same plane as the flanges 14 and 16. Outwardly disposed dimples 20 which are in the same plane as the flanges 14 and 16 and the portions 19 may be provided in the plate 10, with the dimples 20 which for clarity have been omitted from
Each plate 10 of each plate pair 11 has a plurality of inclined ribs 29 which, as more clearly shown in
Alternatively, or in addition, each plate 10 of each plate pair 11 may have a further plurality of inclined ribs (not shown) which are each of anticlastic form, with these further inclined ribs of each plate 10 of each plate pair 11 projecting inwardly of said plate pair 11 and being in intersecting, interengaged relationship with the further inclined ribs of the other plate 10 of said plate pair 11. The ribs 29 and the further ribs are preferably inclined substantially at 45° so that interengaged ribs intersect at substantially 90°.
Instead of the ribs 29 being inclined, it will be appreciated that, as viewed in
The plates 10 are of aluminum or other heat conducting material provided with a coating of brazing material, so that the plate pairs 11 in stacked relationship as hereinbefore described, may be treated in a brazing furnace to secure the plates 10 together as the heat exchanger core. Alternatively, the heat exchanger casing 24 and the reinforcement plate 44 may also be provided with a coating of brazing material with the plate pairs 11 in stacked relationship disposed within the casing 24 so that the complete heat exchanger may be treated in the brazing furnace.
With reference to FIGS. 7 to 13, inclusive, a plate 30 of bendable material such as aluminum is formed with two openings 31 adjacent to edges 32 thereof at the ends of the length of the plate 30, the plate 30 then being formed into a sleeve 33 by bending the plate 30 between a male press member 34 and a female press member 35 (
It will be appreciated that, as shown in
It will be understood that the sleeve 33 may be used as the side wall of a heat exchanger casing in a heat exchanger of a type different from that hereinbefore described with reference to the accompanying drawings, or may be used for other than a side wall of a heat exchanger casing in a heat exchanger, and while as hereinbefore described with reference to the accompanying drawings the sleeve is of rectangular, and more specifically approximately square, shape the sleeve may if desired be of other shapes.