CN2600751Y - Cylinder energy-saving air-air tatal heat exchanger - Google Patents

Abstract

The utility model provides a cylinder-shaped energy-saving air-air total heat exchanger and is characterized in that a plurality of layers of cylinder-shaped total heat exchanging used sheet are arranged along the axial direction inside a cylinder-shaped shell. A gap for ventilation channel is formed between the adjacent dual-layer cylinder-shaped sheets. The shell is divided into a plurality of independent channels by a separator which is arranged in the shells positioned at the two ends of the cylinder-shaped sheet along the axial direction. The end face of the ventilation gap which is arranged between each cylinder-shaped sheet inside the shell is interval sealed and plugged. The end faces of the sealed and plugged ventilation gaps positioned between each cylinder-shaped sheet of the two sides of the separator are staggered, and the other end face corresponding to the end face of the sealed and plugged ventilation gap of the cylinder-shaped sheet inside the shell is opened. The utility model can be used in the room with an air conditioner or the similar occasions. The utility model can not only discharge the polluted air and also can introduce the outdoor fresh air for the operation of the air exchanging, and make filter processing for the accessed indoor air and also can recycle the energy of the discharged air to achieve the purpose of the energy conservation.

Description

Tubular energy-saving air-air all heat-exchanger

Technical field

The utility model relates to air exchanging apparatus, relates in particular to a kind of tubular energy-saving air---air all heat-exchanger.

Background technology

Existing air-conditioned room or similar applications had both needed to discharge indoor foul atmosphere, introduce outdoor fresh air again, carry out ventilation work, when ventilation, tend to a large amount of losses of occurrence temperature or humidity, especially for the physical and chemical experiment chamber that produces a large amount of pernicious gases, because ventilation volume is big, to such an extent as to air-conditioning temperature-reducing can not be used in south in full summer, heating installation heating can not be used in the north in midwinter, and the temperature in the laboratory can not be regulated, and working environment can not get improving.

In the existing similar air heat exchanger, its sheet material mostly is homogenous material, constitute as metal or nonmetallic materials, if only use metal material, then this interchanger can only carry out sensible heat exchange (no aqueous vapor exchange capacity), as only using nonmetallic materials, though water-vapor exchange ability and sensible heat exchange capacity are arranged, efficient and performance can be subjected to some restriction.

Summary of the invention

The purpose of this utility model is in order to solve the deficiency that the above-mentioned background technology exists, to propose a kind of tubular energy-saving air---air all heat-exchanger that has water-vapor exchange ability and sensible heat exchange capacity concurrently.

For achieving the above object, the utility model adopts following technical scheme: a kind of tubular energy-saving air---air all heat-exchanger, it is characterized in that in barrel-type casing, being provided with vertically the full heat exchange sheet material of multilayered cylindrical, the gap that forms vent passages is arranged between the adjacent two layers tubular sheet material, in the housing at tubular sheet material two ends, be provided with the dividing plate that housing is divided into several autonomous channels vertically, the ventilation gap end face compartment of terrain that is arranged between interior each the tubular sheet material of housing is blocked, be staggered by the ventilation gap end face that blocked between each tubular sheet material of dividing plate both sides, the other end of the ventilation gap end face that is blocked corresponding to housing inner cylindrical sheet material is opened wide.

In such scheme, adjacent two layers tubular sheet material adopts sheet metal and nonmetal plate respectively, and described nonmetal plate adopts has the plastics or the sponge of leading wet micropore.

In such scheme, the described radial arrangement that is positioned at housing inner cylindrical sheet material two endplates is identical.

In such scheme, be provided with the porous wavy metal plate in the ventilation gap in the described housing between each tubular sheet material.

In such scheme, in the autonomous channel at tubular sheet material two ends, be provided with the thermo hydrograph regulator of porous matter.

The utility model is introduced two strands of air-flows that will exchange separately the ventilation gap from the staggered passage in barrel-type casing two ends respectively in the mode of reverse flow, when these two strands of air-flows have temperature, when psychrometric difference exists, the transfer by high side direction downside of the heat (temperature) between metal level and the non-metallic layer just takes place, the transfer by high side direction downside of moisture content (water vapour) also takes place simultaneously, and be accompanied by the transfer of energy, and reach the purpose of full heat exchange, do not mix mutually with the air (fluid) of non-metallic layer both sides but branch is in metal level, this interchanger body does not need to do any mechanical movement during work.

The utility model can be used for air-conditioned room or similar occasion, it can discharge indoor foul atmosphere, can introduce outdoor fresh air again, carries out ventilation work, air in the inlet chamber is carried out filtration treatment, also can reclaim the purpose that energy in the exhaust reaches energy savings.This apparatus structure is simple, and is easy to use, drives without any need for power set.

Description of drawings

Fig. 1 is a structure chart of the present utility model.

Fig. 2 is the A-A cutaway view of Fig. 1.

Fig. 3 is the B-B cutaway view of Fig. 1.

The specific embodiment

Referring to figs. 1 through Fig. 3, the utility model comprises a barrel-type casing 4, in barrel-type casing 4, be provided with the full heat exchange of multilayered cylindrical sheet material 5 vertically, the gap 6 that forms vent passages is arranged between the adjacent two layers tubular sheet material, in the housing 4 at tubular sheet material 5 two ends, be provided with the dividing plate 1 of two autonomous channels about housing is divided into vertically, the ventilation gap 6 end face compartment of terrains that are arranged between housing 4 interior each tubular sheet material 5 are blocked, be staggered by the ventilation gap end face 2 that blocked between each tubular sheet material 5 of dividing plate 1 both sides, the other end of the ventilation gap end face 2 that is blocked corresponding to housing 4 inner cylindrical sheet materials 5 is opened wide.

Above-mentioned adjacent two layers tubular sheet material 5 adopts sheet metal 5-1 and non-metallic layer sheet material 5-2 respectively, and described nonmetal plate 5-2 adopts has the plastics or the sponge of leading wet micropore.Be provided with porous wavy metal plate 3 in the ventilation gap 6 in described housing 4 between each tubular sheet material 5.Be covered with the aperture that diameter 2-3 millimeter is arranged on the described porous wavy metal plate 3.

In the autonomous channel at tubular sheet material 5 two ends, be provided with porous matter thermo hydrograph regulator 7, can introduce cold (heat) water by water pipe 8 in necessary occasion, it is invaded moisten in porous matter thermo hydrograph regulator 7, thus the function that realization is dried to heating, humidification or the cooling of two strands of air-flows.In the autonomous channel at tubular sheet material 5 two ends, also can be provided with fan 9, so that ventilation.

Claims (7)

1, a kind of tubular energy-saving air---air all heat-exchanger, it is characterized in that in barrel-type casing, being provided with vertically the full heat exchange sheet material of multilayered cylindrical, the gap that forms vent passages is arranged between the adjacent two layers tubular sheet material, in the housing at tubular sheet material two ends, be provided with the dividing plate that housing is divided into several autonomous channels vertically, the ventilation gap end face compartment of terrain that is arranged between interior each the tubular sheet material of housing is blocked, be staggered by the ventilation gap end face that blocked between each tubular sheet material of dividing plate both sides, the other end of the ventilation gap end face that is blocked corresponding to housing inner cylindrical sheet material is opened wide.

2, according to the described tubular energy-saving air of claim 1---air all heat-exchanger, it is characterized in that adjacent two layers tubular sheet material adopts sheet metal and non-metallic layer sheet material respectively, described nonmetal plate adopts has the plastics or the sponge of leading wet micropore.

3,, it is characterized in that the described radial arrangement that is positioned at housing inner cylindrical sheet material two endplates is identical according to claim 1 or 2 described tubular energy-saving air---air all heat-exchangers.

4, according to claim 1 or 2 described tubular energy-saving air---air all heat-exchangers, it is characterized in that tubular sheet material two ends central authorities be provided with housing is divided into about the dividing plate of two autonomous channels.

5, according to claim 1 or 2 described tubular energy-saving air---air all heat-exchangers, it is characterized in that in described housing, being provided with the porous wavy metal plate in the ventilation gap between each tubular sheet material.

6,, it is characterized in that on described porous wavy metal plate, being covered with the aperture that diameter 2-3 millimeter is arranged according to the described tubular energy-saving air of claim 5---air all heat-exchanger.

7,, it is characterized in that in the autonomous channel at tubular sheet material two ends, being provided with the thermo hydrograph regulator of porous matter according to claim 1 or 2 described tubular energy-saving air---air all heat-exchangers.