CS264798B1 - Heat exchanger plates seal joints - Google Patents

Abstract

Sealing joint used in plate-type heat exchangers for flow-through sealing spaces between adjacent plate boards volume. Problem fixing the seal in shape of the strip into the groove formed by the profile a heat transfer plate forming on it the opposite of the elevation of its area is solved in such a way that a series is adjusted in the profile through-holes, into which a series is intervening projections, seals having a basic conical shape and overlapping out of work position of the heat exchanger plate. The through holes are preferably located at the corners of the profile recesses, extending into the groove space. In working position where the heat transfer plate is clamped in the plate bundle, the projections abut to seal the adjacent plate, thereby deforming to ensure that the seal is bonded to the heat exchange plate. The solution is usable for example in plate pastes or plate coolers and heaters, but also with other plate heaters heat exchangers used in industry.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a sealing joint of heat exchanger plates of a plate heat exchanger.

The plate heat exchanger plates are arranged in series into compact bundles, forming flow spaces for their respective working media between their facing surfaces.

Sealing joints with a rubber or other, flexible, soft mass in the form of a strip extending into the groove formed by the profile of the heat exchange plate, on the opposite side of the plate, are used to limit and seal the flow spaces. Adhesives are usually used to hold the seals in the groove. This method of fastening is relatively laborious and the replacement of seals is difficult and time consuming. In other known solutions, dovetail-shaped grooves are used in which the gasket is inserted using a special fixture or the gasket is fixed to the grooves by various additional profiles. These sealing joints are labor intensive and require complex handling when assembling heat exchanger plates into a bundle.

The elimination of these disadvantages is solved by the invention which consists in providing a series of through holes in the profile of the heat exchanging plate forming a groove on one side and an elevation of its surface on the opposite side, into which a number of seals protrudes. These projections have a basic conical shape and exceed the elevation level in the non-working position of the heat exchange plate. The through holes are preferably located in the centers of the funnel recesses of the profile extending into the groove space.

The advantage of the sealing joint according to the invention is its relative simplicity compared to solutions using dovetail grooves or additional profiles created at the expense of greater material consumption. Inserting the gasket into the groove and fixing it is easy, eliminating difficult gluing or complicated handling.

BRIEF DESCRIPTION OF THE DRAWINGS In the accompanying drawing, an example of a sealing joint according to the invention is shown in cross-section, wherein FIG. 1 shows the heat exchange plate sealing joint in a non-working position. FIG.

A profile 2 is formed in the wall of the heat exchange plate 2 which forms a groove 2 on one side of the heat exchange plate 2 ^and an elevation 2 of its surface ^{on the} other side thereof. In the profile 2 in the middle of the bottom of the groove 2 is provided with a series of through holes 2 each ^of which is centered funnel recess 6 extending in the space of the groove 2 · V groove 2 is arranged a seal 2 ^{made of} rubber in the shape of strip, which on its side, facing the bottom of the groove 2 is provided with a series of protrusions 2 having a basic conical shape and extending in the out-of-working position of the heat exchange plate 2 the cant level 2 ·

In the working position, when a heat transfer plate 2 is assembled into the beam abuts cant 2 formed in the profile 2, on the opposite seal 10 adjacent plates 2 · nose 2 ^owing withdrawal volume is compressed, whereby fills the cavity funnel recess 2 · Due to the constant pressure and operating temperatures the projections 2 are permanently deformed, thereby fixing the seal 7 ^{in the} groove 2 even when the bundle is dismantled.

The sealing joints according to the invention can be applied to all or part of the heat exchange plates of a bundle. The opposing seal 10 shown in FIG. 2 may thus also have protrusions or may be provided with a seal of another heat exchanger plate (not shown), which bears ^on its other side with its profile.

The sealing joint according to the invention is applicable to plate heat exchangers of all kinds, for example pasteurizers, coolers, heaters and the like.

Claims (2)

Sealing joints of heat exchanger plates of a plate heat exchanger, arranged in a row in sequence, with a flexible, soft, ribbon-like seal extending into a groove formed by a heat exchanger plate profile forming an elevation of its surface on the opposite side of the heat exchanger plate characterized in that a plurality of through holes (5) are provided in the profile (2) into which a plurality of projections (8) of the gasket (7) having a basic conical shape and extending beyond the working position of the heat exchange plate (1) ). Sealing joint according to claim 1, characterized in that the through holes (5) are located in the centers of the funnel recesses (6) of the profile (2) extending into the space of the groove (3).