RU59230U1 - HEAT EXCHANGE ELEMENT - Google Patents

Abstract

The utility model relates to heat engineering, namely, to heat exchange elements of plate heat exchangers. The heat exchange element is made in the form of a square or rectangular plate with asymmetric channels made opposite its corners, having conical flanges, at the end of each of which there is a cylindrical girdle, at least one side of the plate has grooves, and on the plate, in the other two opposite its corners, made asymmetric holes. 2 ill.

Description

The utility model relates to heat engineering, namely, to heat exchange elements of plate - tubeless heat exchangers.

Known heat exchange element made in the form of a plate, mainly rectangular or square in shape, on which channels are made with flanges of conical shape, directed in one direction. The flare taper angle is 4-8 degrees, which ensures reliable fixation of the heat-exchange elements when assembling them into the battery without the use of fixing elements. At the end of each flanging there is a cylindrical girdle. At least on one side of the plate, grooves are made to increase the rigidity of the plate and its heat transfer. The grooves are parallel to one side of the plate.

(see RF patent for utility model, No. 42301, class F 28 D 9/00, 2004) - the closest analogue.

As a result of the analysis of the design of the known heat-exchange element, it should be noted that, as practice has shown, when using heat exchangers whose heat transfer packages are formed of heat transfer elements, the main operation of which is multi-transition stamping, deformation of the heat transfer package is observed due to the uneven distribution of the plate internal stresses, expressed in twisting it (screw effect).

The objective of this utility model is to develop the design of a heat exchange element (plate) that excludes twisting of the heat exchange package during its assembly and operation.

The problem is achieved in that in the heat exchange element, representing a plate of square or rectangular shape with asymmetric channels made in its opposite corners, having flanges of a conical shape, at the end of each of which there is

a cylindrical girdle, moreover, at least on one side of the plate, grooves are made, new is that asymmetric holes are made on the plate, in its two other opposite corners.

When conducting patent research, no solutions were found that are identical to the claimed, and therefore, the claimed utility model meets the criterion of "novelty."

We believe that the information presented in the application materials is sufficient for the practical implementation of the utility model.

The essence of the utility model is illustrated by graphic materials on which:

figure 1 - heat transfer element, a view in plan;

figure 2 is a section aa in figure 1.

The heat exchange element is made in the form of a plate 1 of square or rectangular shape with asymmetric channels 2 and 3 made in its opposite angles, each of which has a flange 4 of a conical shape with a cylindrical girdle 5 at its end. Flanging 4 is directed in one direction, the angle of their taper is 4-8 degrees, which ensures reliable fixation of the heat exchange elements when assembling them in a package (battery). The cylindrical belts 5 provide the same tightness of the plates relative to each other when assembling them in a package.

In the other two corners of the plate asymmetric holes 6

On the surface of the plate, at least on one side thereof, for example, grooves (flutes) 7 are made on the flanging side. 7. The location of the grooves 7 may be different. It is most expedient to make the grooves 7 parallel to the side (s) of the plate 1. The grooves allow to increase the heat transfer area of the plate and its rigidity.

When assembling the heat exchanger, the heat exchanger element flanges 4 are inserted into the channels 2 and 3 of another heat exchanger element. The heat exchange elements are fixed relative to each other due to the deformation of the cylindrical girdle 5 and the self-braking forces of the conical connection. Other heat exchangers are inserted and fixed in the same way.

elements. The extension of the package is carried out until a package of a given thermal power is assembled.

To the extreme heat-exchange elements, collectors (fittings) of the inlet and outlet of the coolant (not shown) are connected.

The presence of holes 6 made exactly asymmetrically on the plate makes it possible to reduce the internal stresses in the plate that occur during the manufacture of the heat exchange element.

Holes 6 are used as technological. When assembling the package, the plate with these holes is put on the guide rods of the assembly device and moves along them until it contacts the previous plate, which eliminates the twisting of the package of plates during its assembly and significantly simplifies the assembly process of the package of heat-exchange elements.

The undoubted advantage of the design of the developed heat-exchange element is the fact that heat exchangers of almost any size can be assembled from these elements.

Claims (1)

A heat exchange element representing a plate of square or rectangular shape with asymmetric channels made in two opposite corners of the channel having flanges of a conical shape, at the end of each of which there is a cylindrical girdle, and at least one side of the plate has grooves, characterized in that the plate , in two other corners opposite to it, asymmetric holes are made.