RU168647U1 - PACKAGE OF PLATE HEAT EXCHANGER - Google Patents

Abstract

A package of plate heat and moisture exchanger, consisting of individual flat plates, frames and grids, forming channels for air flow during assembly. The plate heat exchanger package includes an odd number of frames, even of which are rotated relative to odd by 180 ° around the longitudinal axis with respect to the direction of air flow. In opposite corners of the frames, fillets and slopes are made on both sides at the fillet points. In the plane of the frames, rods are formed, equipped with spacers, which are evenly spaced along the length of the rods, the height of the spacers being equal to the thickness of the frames. Grids and the heat and moisture exchange plates supported by the salt solution are supported on the distance supports of the frames.

Description

The claimed technical solution relates to plate-type heat exchangers and is intended for use in gas heat and moisture exchangers. The inventive device can be used in ventilation and air conditioning systems in residential, administrative and public buildings, where it is necessary to carry out heat and moisture exchange between the exhaust ventilation flows (removing air from the room) and supply ventilation (supplying air to the room).

Known heat and moisture exchanger according to the patent of the Russian Federation for utility model No. 90881 (class IPC F24F 3/147, priority date 10/09/2009) [1]. According to this invention, this heat exchanger contains a package of plates with holes for the inlet and outlet of air flows installed in the housing. The plates form alternating channels for the heated and humidified air flow, as well as the cooled and drained air flows. In addition, the heat and moisture exchanger contains a capillary-porous material, the lower edge of which is placed in a tray filled with a sorbent solution. The air flows in this device are directed vertically - the cooled / drained air stream moves from top to bottom, and the heated and humidified air stream moves from bottom to top. The capillary-porous material has a fleecy structure and covers a hole with an area of 60 to 80% in the lower part of each plate, and an aqueous solution of salts containing mainly CaCl ₂ or ZnCl _{2 is} used as a sorbent.

The design flaws of the package of heat and moisture exchange plates of this heat and moisture exchanger are:

- exclusively vertical arrangement of the package of plates of the heat exchanger due to the use of the pallet, which limits the placement options;

- the design determines the relatively difficult connection of the ducts to the package of plates;

- the design does not provide a uniform distribution of air flows between the heat and moisture exchange plates.

Known heat exchange device according to the patent of the Russian Federation for utility model No. 36137 (CL IPC F24F 3/14, priority date 09/03/2003) [2]. According to this utility model, a heat exchange device comprises a housing, a stack of plates installed in it, forming through dry and wet channels with inlets and outlets, at least one transverse row located in the middle of the plate package, longitudinally arranged in wet channels of containers connected to each other, the walls of which are formed by plates, and means for supplying and discharging water into these containers, the dry channels being located crosswise to the wet channels, while the inputs of the dry channels and the outputs of the wet channels are distributed lozheny device with one hand, and the outputs of dry channels and wet channels inputs - on the opposite side thereof. The containers communicate with each other by means of tubular elements placed in dry channels.

The disadvantage of the package of heat and moisture exchange plates used in this heat and moisture exchanger is its complex design, in particular, multilayer heat transfer plates, a system for removing and supplying water, the presence of a water tank.

Known heat and moisture exchanger according to the author's certificate of the USSR No. 916909 (class IPC F24F 3/14, priority date 07/10/1980) [3], which is closest to the claimed method and therefore adopted as a prototype.

This heat and moisture exchanger contains a package of hygroscopic capillary-porous finned plates that form channels for air flow during assembly. The channels in the heat exchanger package are arranged so that the flows of cold and warm air are directed countercurrent to each other. In addition, the heat and moisture exchanger has a tray with a solution of liquid absorbent, in which a package of plates is partially immersed, and a heater of the absorbent solution.

The disadvantage of the design of the package of plates of this heat exchanger, as well as the entire heat exchanger as a whole is:

- the need to verify the concentration of salts of the sorbent in the pan;

- the presence of the pallet does not allow changing the orientation of the heat exchanger in space;

- the need to use an absorbent solution in the design of the heat and moisture exchanger;

- the need for additional heating of the solution causes additional energy costs during operation of the heat and moisture exchanger.

The objective of the claimed design of the package of the plate heat exchanger is to simplify the design of the package, increasing the manufacturability, improving the efficiency and economy of using the package of the plate heat exchanger during operation.

The solution to this problem is due to the fact that the inventive package of plate heat exchanger consists of a set of flat plates, grids and frames adjacent to each other, in which opposite corners are made rounds and slopes at the edges on both sides of the frames at the places of rounding. Assembled, a plate heat exchanger package forms channels for air flow. In the plane of the frames, rods are formed, provided with spacers that are evenly spaced along the rods, the height of each spacers being equal to the thickness of the frame. The grid and the supported heat and moisture exchange plate impregnated with saline are supported on the frame spacers.

The plate heat exchanger package includes an odd number of frames, even of which are rotated relative to odd 180 ° around the longitudinal axis with respect to the direction of flows.

Due to the claimed design of the package of the plate heat exchanger, the supply and exhaust flows at the inlet and outlet of the package are oriented along one axis.

Rounding in the plane of the frames at opposite angles and slopes at the edges along the edges can reduce the aerodynamic resistance of the incoming and outgoing air flows, which reduces energy consumption during operation of the heat exchanger as a whole with a package of plate heat exchanger of the claimed design.

The presence in the design of the framework of the rods and the spacing supports located on them prevents the possible deflection of heat and moisture exchange plates due to the pressure difference in the adjacent channels.

The inventive design of the package plate heat exchanger is illustrated by the following figures:

- in FIG. 1 shows two adjacent frames of a plate heat exchanger package;

- in FIG. 2 shows a fragment of the inventive device containing two frames, two plates and four grids;

- in FIG. 3 shows a package of plate heat and moisture exchanger of the claimed design in the collection and the direction of air flow during its operation.

The frame (1) and the frame adjacent to it (2), rotated 180 ° relative to the first one, have roundings (3) and slopes (4) in the plane at opposite angles at the edges on both sides at the places of rounding. In the plane of the frame there are rods (5) equipped with spacers (6) distributed evenly along the length of the rods (5), and the height of each spacers (6) is equal to the thickness of the frame. To connect frames (1, 2) to each other, when rotating them during assembly 180 °, two blind holes (9) are made in each frame (1, 2) on the right side (7) and on the left side (8) and two cylindrical protrusions (10). The frames (1, 2) are joined to each other by the same sides, and the cylindrical protrusion (10) of one frame (1) enters the blind hole (9) of the adjacent frame (2), and the distance supports (6) of one frame (1) rest on distance supports (6) of the adjacent frame (2). To install the assembled package of the heat and moisture exchanger into the body of the heat and moisture exchanger on the frames (1, 2), grooves (11) are made.

In FIG. 2 shows a fragment of the inventive device containing two frames, two plates and four grids.

A grid (12) is adjacent to the distance supports (6) of the first frame (1) of the plate heat exchanger from the inside, to which, in turn, is supported by the heat and moisture exchange plate (13) supported by it, impregnated with a saline solution, for example, CaCl ₂ . On the other hand, the heat-moisture exchange plate (13) is also supported by a grid (12), which, in turn, is supported by the distance supports (5) of the adjacent frame (2), rotated 180 ° relative to the first frame.

Between themselves, the frames (1, 2) of the plate heat exchanger are fastened with blind holes (9) and cylindrical protrusions (10) made in the corresponding places of the frame (1, 2).

In FIG. 3 shows the claimed design of the package plate heat exchanger assembly, as well as the direction of the supply (14) and exhaust (15) air flows during its operation. Conventionally, heat and moisture exchange plates and grids are not shown.

Package plate heat exchanger includes a certain number of frames made, for example, of polystyrene. The nets between which the heat-moisture exchange plates are located are made, for example, of polypropylene, and the heat-moisture exchange plate, for example, of cotton fabric.

The claimed package plate heat exchanger works as follows. The flows of supply and exhaust air, passing towards each other through a packet of plate heat exchanger, are in contact with each other through heat and moisture exchange plates, exchange moisture and thermal energy.

The use of the claimed design of the package plate heat exchanger allows you to:

- remove restrictions on the orientation of the heat exchanger in space;

- apply in the package design both rigid, non-bending heat and moisture exchange plates, and soft, especially thin, which, due to the difference in supply and exhaust air pressures, can bend without the support of grids and distance supports, which would cause an unacceptable imbalance of air flow;

- reduce the aerodynamic resistance of the heat and moisture exchanger;

- more rational use of the internal volume of heat and moisture exchange apparatus;

- reduce the consumption of materials and the complexity of manufacturing a heat and moisture exchanger;

- reduce the thermal resistance of the plates and increase the efficiency of heat transfer.

The design of the frame provides for its manufacture, for example, by casting or pressing.

The use of a plate configuration of a plate heat and moisture exchanger of the same configuration, oriented appropriately when assembling the package, reduces the range of parts of the heat exchanger.

Unit costs per unit area of the heat exchanger plate are reduced due to the use of high-performance equipment for the production of parts, the use of low-cost materials, the reduction in the range of materials and parts used, and the suitability of the design for assembly on the production line.

Information sources

1. RF patent for utility model No. 90881 “Heat and moisture exchanger”.

2. RF patent for utility model No. 36137 “Heat and moisture exchanger”.

3. USSR copyright certificate No. 916909 "Heat and moisture exchanger".

Claims (5)

1. The package of the plate heat exchanger, consisting of separate flat plates, frames and grids, forming during assembly the channels for air flows, characterized in that it includes an odd number of frames, even of which are rotated relatively odd 180 ° around the longitudinal axis with respect to the direction of flows air, in opposite corners of the frames, roundings and slopes are made on both sides at the places of rounding, rods are formed in the plane of the frames, provided with spacers that are evenly spaced erzhney, and the height equal to the thickness of support spacers framework for distancing the support frames and grid based teplovlagoobmennye plate supported by, impregnated with brine. 2. A package of plate heat exchanger according to claim 1, characterized in that the frames are made of polystyrene. 3. The package of plate heat exchanger according to claim 1, characterized in that the mesh is made of polypropylene. 4. The package of plate heat and moisture exchanger according to claim 1, characterized in that the heat and moisture exchange plate is made of cotton fabric. 5. A package of plate heat and moisture exchanger according to claim 1, characterized in that CaCl _{2 is} used as a saline solution.

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