RU98116214A - DESIGN OF THE HEAT EXCHANGER ELEMENT WITH LAMINATED RIBS - Google Patents

Claims (12)

1. A method of assembling individual elements of a heat exchanger, including the steps of creating an upper plate, creating a lower plate, creating two primary ribbed elements, creating a secondary ribbed element, using a solder layer on at least one primary ribbed element, a secondary ribbed element, upper and lower plates; attaching one primary ribbed element to the first side of the upper plate, attaching the second primary ribbed element to the first side of the lower plate, joining together the upper plate, the lower plate and the secondary ribbed element, forming a sandwich-like structure with a secondary ribbed element between the upper and lower plates, the secondary ribbed the element between them is in contact with the second sides of the upper and lower plates, and between any two adjacent surfaces present a layer of added solder, welding of the peripheral edges of the upper and lower plates, and a solder of a sandwich-like construction.  2. The method of assembling individual elements of the heat exchanger according to claim 1, characterized in that the stages of using solder and soldering a sandwich-like design are used to obtain almost complete adhesion of the ribs of the secondary ribbed element to the upper and lower plates.  3. A method for assembling a heat exchanger using a plurality of assembled individual elements according to claim 1, including the steps of creating a plurality of individual heat exchanger elements comprising an inlet with a relief flange at one end and an outlet with a relief flange at the other end, and welding the relief flange of the inlet to one separate element of the heat exchanger to the relief flange of the inlet on the adjacent separate element of the heat exchanger; and welding the relief flange of the outlet on one separate element of the heat exchanger to the relief flange of the outlet on the adjacent separate element of the heat exchanger.  4. A separate heat exchanger element comprising an upper plate having an inlet at one end and an outlet at the other, a lower plate having an inlet at one end and an outlet at the other, while the peripheral edges of the lower plate are connected to the peripheral edges of the upper plate, two primary ribbed elements, one primary ribbed element attached to the first side of the upper plate, another primary ribbed element attached to the first side of the lower plate, and a secondary ribbed ment, which is between the upper and lower plates, wherein the member is attached to the second side of the top plate and the second side of the bottom plate, fins of the second finned member are substantially completely connected by adhesion to the adjacent top and bottom plates.  5. A separate element of the heat exchanger according to claim 4, characterized in that the inner surfaces of the lower plate, which are in contact with the internal surfaces of the upper plate, are attached to each other by adhesion.  6. A separate heat exchanger element according to claim 4, further comprising: two ribbed collector elements between the upper and lower plates, each ribbed collector element is attached to the second side of the upper plate and the second side of the lower plate, while one ribbed collector element is hydraulically connected to the input holes of the upper and lower plates and the first edge of the secondary ribbed element, the other ribbed collector element is hydraulically connected to the outlet holes of the upper and lower Astin and a second edge of the second finned member.  7. A separate element of the heat exchanger according to claim 4, further comprising: ribbed devices for turning gas, attached adjacent to the peripheral face of the upper and lower plates.  8. A separate element of the heat exchanger according to claim 4, further comprising means for changing the direction of flow of gaseous media entering the primary ribbed elements.  9. A separate element of the heat exchanger according to claim 4, further comprising means such as a reservoir for maintaining adhesion parameters, these means being located at the peripheral edges of the upper and lower plates.  10. A separate element of the heat exchanger according to claim 4, characterized in that the inlet and outlet openings of the upper and lower plates have embossed flanges.  11. A heat exchanger consisting of many individual elements according to claim 12, characterized in that the inlet and outlet flanges of one separate element of the heat exchanger are attached to the inlet and outlet flanges of an adjacent element of the heat exchanger.  12. A heat exchanger comprising a plurality of individual elements, each of which comprises an upper plate having an inlet at one end and an outlet at the other, a lower plate having an inlet at one end and an outlet at the other, the peripheral edges of the lower plate being attached to the peripheral edges of the upper plate, two primary ribbed elements, one of which is attached to the outer side of the upper plate, the other is attached to the outer side of the lower plate, a secondary ribbed element, located between the inlet and outlet openings, which is arranged like a sandwich between the lower and upper plates, the secondary ribbed element having an input edge and an output edge, the secondary ribbed element being attached to the inner side of the upper plate and the inner side of the lower plate, the block of primary collector ribs connecting the inlet and the input edge, the block of secondary manifold ribs connecting the hole for the output and the edge for the output, and means for resisting external pressure inside the compartment th element of the heat exchanger, wherein these means comprise fins of the second finned member, fully attached by adhesion to the adjacent top and bottom plates.