CS260220B1 - A system of folded heat transfer plates - Google Patents

Abstract

The solution falls into the field of electrical engineering and concerns a system of folded heat exchange lamellas used as an exchanger for cooling switchboards. The problem of cooling switchboards located in dusty or chemically aggressive environments is solved. The essence of the device lies in the fact that the heat exchange lamellas have U-shaped bends on two adjacent edges directed to one side and an L-shaped bend directed to the opposite side on the other edge. The heat exchange lamellas profiled in this way are folded into each other oppositely and are inserted into the grooves of the lower and upper spacer plates.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plurality of heat exchange lamellas for cooling low voltage switchgear.

(In the prior art, the construction of the active part of a dual-circuit heat exchanger for cooling a closed enclosure is solved by embedding the heat exchange plates with synthetic resin. In AO No. 218 800, an exchanger formed from two parallel-arranged cover plates is connected. a series of longitudinal baffles to provide a heat exchange duct system with separate cooling and cooling air circulation for cooling the enclosure cabinet The ducts are alternately blinded at the top and at the bottom of the canopy, this heat exchanger arrangement has a low level of design with problematic blind caps. Thus, the production of the exchanger increases the laboriousness of the production of lids and the laboriousness of the assembly itself.

The above-mentioned disadvantages are overcome by the present invention, which is based on the fact that the exchange system consists of a system of profiled heat exchange lamellas which are mutually opposed and which are inserted in the grooves of the lower and upper spacer plates. The plate-shaped heat exchanger plates have U-shaped bends formed on two adjacent edges of the plate, directed to one side of the plate and an L-shaped bend directed to the opposite side of the plate at the other edge of the plate. The whole system of folded heat exchanger fins is terminated by the end heat exchanger fin,

260 220 which differs from the heat exchanger lamellas already described in that all bends are directed to one side. The resulting system of separate air circulation ducts in which warm air inside the cabinet is cooled by the outside air, the two circuits are separated from each other, thereby preventing the cooling and cooled air from coming into contact with dirt from the outside into the cabinet.

The advantage of the heat exchanger design for the switchgear according to the invention is that it allows simple production and assembly technology and guarantees sufficient tightness and required power.

BRIEF DESCRIPTION OF THE DRAWINGS In the accompanying drawings, there is shown an embodiment of an active part of an exchanger comprising a plurality of heat exchanger lamellas of the invention, wherein FIG. 1 shows the heat exchanger lamella; FIG. 2 shows the opposing folding of heat exchanger lamellae; Fig. 3 shows a bottom and an upper spacer plate; Fig. 4 is a schematic representation of a composite heat exchanger; and Fig. 5 is a schematic diagram of the flow of cooled and cooling air through a plurality of heat exchanger fins.

The stack of heat exchanger lamellas for cooling low-voltage switchgear according to the invention is formed in such a way that the heat exchanger lamella 2 shown in FIG. 1 has bends 6 and 2 formed in two adjacent edges (plate length and width) in the shape of $. the other edge (length of the plate) of an L-shaped bend 8 directed to the opposite side of the plate. As shown in FIG. 2, the heat exchanger plates 2 are mutually opposed so that each plate 8-shaped bend 8 is inserted into a U-shaped bend 6 formed along the length of the other plate.

This creates separate airflow channels. The heat exchanger plates 2 are simultaneously inserted in the grooves 6 of the lower and upper spacer plates 2 and terminated by an end heat exchanger plate that differs from the heat exchanger plates 2 in that all bends 6 »θ ^are directed to one side of the plate.

The entire system is stored in the container 1 of the exchanger, as shown in FIG. 4. FIG. 3 illustrates the upper and lower spacer plate 2 with a width of grooves formed grooves corresponds to the thickness zených number of heat exchange fins 3 ^and A ·

260 220

The function of the stack of heat exchanger fins 3 is apparent from FIG. 5. By assembling the active part of the heat exchanger fin exchanger 4, a system of channels with separate circulation of external cooling air and cooled air from the rack is created. The lamella assembly 2, which is enclosed in the exchanger housing 1, is further provided with chambers for cooling and cooling air circulation and fans, which are not shown in the accompanying drawings. The heated air generated during operation of the cabinet within its enclosed space is blown by the fan into a stack of heat exchange lamellas (inlet A.) and is cooled in the ducts by external cold air driven by the fan countercurrently in adjacent ducts (inlet B). After passing through the heat exchange ducts, the cooled internal air exits through the outlet back to the enclosed inner space of the switchboard and the external air through the outlet B to the space around the switchboard.

Said system of folded heat exchange lamellas can be used especially for cooling of switchboards placed in dusty or chemically aggressive environment, where it is necessary to use a dual-circuit heat loss heat exchanger with forced air convection.

Claims (1)

A plurality of heat exchanger lamellas inserted into a lower and upper spacer plate, characterized in that the plate-like heat exchanger plates (3) have U-shaped bends (6, 7) formed on two adjacent edges of the plate and directed to one side of the plate. the longer edges of the sheet fold (8) to _the L-shaped directed to the opposite side of the plate, the thus shaped heat transfer plates (3) are mutually opposing each other folded while being inserted in the grooves (5), lower and upper spacer plate (2), wherein the entire assembly is terminated by an end heat exchange plate (4) different from the heat exchange plate (3) in that all bends (6, 7, 8) are directed to one side.