RU2043593C1 - Heat exchanger - Google Patents

Abstract

FIELD: ventilation and conditioning of air. SUBSTANCE: heat exchanger has a set of parallel pipes 1 connected to collectors one of which is separated with baffle 2 into inlet 3 and outlet 4 sections. Uneven pipes 1 of the set are connected to inlet section 3 of the collector, and even pipes are connected to outlet section 4. Baffle 2 between sections 3 and 4 is made up as a corrugated belt, the pitch of corrugations being equal to doubled distance between pipes 1. The corrugation can be wave-like or saw-like in cross- section. EFFECT: enhanced efficiency. 2 cl, 3 dwg

Description

 The invention relates to heat exchangers and can be used in ventilation and air conditioning systems.

Known plate heaters of the type KVS-P and KVB-P, containing rows of heat exchange tubes separated by partitions into passages and united by inlet, outlet and rotary collectors [1]
The disadvantage of these air heaters is the unevenness of the air temperature field behind the front of the air heater.

The closest technical solution is a single-row heater type KSK-1, containing a series of parallel pipes connected to the collectors, one of which is divided by a partition into the input and output compartments [2]
This air heater also has an uneven field of air temperature behind the front of the air heater.

 The invention is directed to leveling the air temperature field behind the front of the heat exchanger.

 To do this, in a heat exchanger containing a series of parallel pipes connected to the collectors, one of which is divided by a partition into the input and output compartments, the odd pipes of the series are connected to the input compartment of the collector, and even pipes to the output, while the partition is made in the form of a corrugated tape with a corrugation pitch equal to twice the distance between the pipes.

 In FIG. 1 shows a heat exchanger without covers, nozzles and sealing elements; in FIG. 2 and 3 options for the shape of the partition between the input and output compartments.

 The heat exchanger contains a series of parallel pipes 1 connected to the collectors, one of which is divided by a partition 2 into the input and output compartments 3 and 4, and the odd pipes of the 1st row are connected to the input compartment 3 of the collector, and the even ones to the output compartment 4, while the partition 2 is made in the form of a corrugated tape with a step of corrugations equal to twice the distance between the pipes 1. In addition, the outputs of the odd pipes 1 and the inputs of the even pipes 1 are combined in the rotary compartment 5.

 The coolant is supplied to the supply compartment 3, which is separated by a partition 2, from where it passes through the pipes 1 of the first stroke I, passing part of the heat to the heated air, enters the rotary compartment 5, passes through the pipes 1 of the second stroke II, and, having given the remaining part of the heat to the air, enters the output compartment 4.

 Since the pipes 1 alternate along the paths I and II, the temperature field behind the heat exchanger is significantly aligned.

 The implementation of the partition wall 2 (Fig. 2) of a wave-like shape allows automatic welding to be used when assembling the heat exchanger, and the execution of the saw-shaped partition 2 allows, in addition, to reduce the metal consumption of the partition 2 itself.

Claims (2)

 1. HEAT EXCHANGER containing a series of parallel pipes connected to the collectors, one of which is divided by a partition into the input and output compartments, characterized in that the odd pipes of the series are connected to the input compartment of the collector, and even pipes to the output, while the partition between the compartments is made in the form corrugated tape with a step of corrugations equal to twice the distance between the pipes.  2. The heat exchanger according to claim 1, characterized in that the corrugations of the septum have a wave or sawtooth shape.

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