RU2043592C1 - Multi-path heat exchanger - Google Patents

Abstract

FIELD: ventilation. SUBSTANCE: heat exchanger has two sets of parallel pipes 1 mounted perpendicular to inflowing air and connected in series to collectors separated by baffles 2 into inlet 3, outlet 4, and rotatable 5 sections. Each rotatable section 5 of the collectors is connected to the outlet end of pipe 1 of the previous path of one set of pipe 1 and the inlet end of pipe 1 of subsequent path of the other set. EFFECT: enhanced efficiency. 1 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 heaters is the low efficiency of using heat (cold) media, since the pipes of both rows are connected in parallel to the heat carrier.

The closest technical solution is a two-row air heater of the KSK-2 type, containing two rows of parallel pipes installed perpendicular to the air flow washing them and connected to the collectors, one of which is divided by a partition into the input and output compartments [2]
The disadvantage of these heaters is also the low efficiency of using heat (cold) media, since the pipes of both rows are connected in parallel to the coolant.

 The invention is directed to the intensification of heat transfer.

 To do this, in a heat exchanger containing two rows of parallel pipes installed perpendicularly to the air flow washing them and connected in series to collectors separated by partitions into the inlet, outlet and rotary compartments, the outlet end of the previous pipe from one row of pipes and the inlet is connected to each rotary compartment of the collectors end of the pipe of the subsequent stroke of another row.

 The drawing shows a heat exchanger without covers, pipes and sealing elements.

 The heat exchanger contains two rows of parallel pipes 1 installed perpendicularly to the air flow washing them and connected in series to the collectors separated by partitions 2 on the input, output and rotary compartments 3, 4 and 5, and the output end of the pipe 1 of the previous stroke is connected to each rotary compartment 5 of the collectors from one row of pipes 1 and the inlet end of the pipe 1 of the subsequent stroke from another row.

 A heat exchanger, for example, as an air cooler operates as follows.

 The coolant is fed into the supply compartment 3, which is separated by a partition 2, from where it passes through the pipe 1 of the first row of stroke 1, taking part of the heat from the cooled air, enters the first rotary compartment 5, passes the pipe 1 of the second row of stroke 11 and, taking another part of the heat, enters the second rotary compartment 5 and so on, until successively from the bottom up it passes through the pipes 1 of the turns III-VIII, when, having taken the heat of the cooled air, it will enter the outlet compartment 4.

 The heat exchanger can equally well be used as an air heater, only in this case the heat carrier is supplied to compartment 4, and it returns to compartment 3, while the strokes are calculated in the reverse order, and the heat carrier, which is very important, passes the entire heat exchanger sequentially from top to bottom .

 Due to the fact that the output compartment 4 (3) does not have a common partition 2 with the inlet manifold 3 (4), the heat exchanger has an increased intensification of heat transfer both during cooling and heating.

Claims (1)

 A MULTI-WAY HEAT EXCHANGER containing two rows of parallel pipes installed perpendicularly to the air flow washing them and connected in series to the manifolds, divided by partitions into the inlet, outlet and rotary compartments, characterized in that the outlet end of the previous pipe from one row of pipes is connected to each rotary compartment of the collectors and the inlet pipe end of the subsequent stroke from another row.