CN206001959U - Fresh air ventilator total-heat exchanger - Google Patents

Abstract

The utility model discloses a kind of fresh air ventilator total-heat exchanger, including top coat, bottom surface layer and full heat exchange unit；Full heat exchange unit includes support frame, demarcation strip and rectification and guide fins set；Support frame is diamond structure, and the divides being uniformly arranged by more than one piece from top to bottom inside support frame are multiple structure；Rectification and guide fins set is fixedly mounted on multiple structure between layers, including multiple fin plates, along the setting of demarcation strip plate face direction corresponding tilt and head and the tail connection is continuous W shape structure in end face to multiple fin plates, multiple fin plates constitute gas channel, and the gas channel of last layer is orthogonal with the gas channel of next layer arranged in a crossed manner.This fresh air ventilator total-heat exchanger can be realized air blow and return is carried out with effective rectification and water conservancy diversion on the basis of increasing heat exchange area further, prevent air entering and returning air-flow from forming disorderly air-flow, reducing heat exchange power consumption, be particularly well-suited to the bidirectional flow recuperation of heat work of fresh air ventilator.

Description

Fresh air ventilator total-heat exchanger

Technical field

This utility model is related to a kind of heat exchange core body, specifically a kind of total-heat exchanger being applied to fresh air ventilator, belongs to In new blower fan technical field.

Background technology

The referred to as new blower fan of fresh air ventilator, is a kind of effective air cleaning facility, room air can be made to produce circulation, On the one hand outdoor for the air discharge of foul indoor, on the other hand outdoor ozone through sterilizing, sterilization, filtration etc. are arranged Shi Hou, then be input to interior, allowing in room is all the air of fresh clean all the time, and new blower fan passes through independently to blow and draw Wind, makes room air realize convection current, thus farthest carrying out room air displacement, the built-in multifunctional purifying system of new blower fan Ensure the air cleaning health getting in.

Total-heat exchanger is a heat reclaim unit, refers to that fresh air ventilator carries out heat while air-supply and air draft The device reclaiming, total-heat exchanger can make indoor energy reach balance with outdoor energy, realizes bidirectional flow recuperation of heat.

Total-heat exchanger is realized carrying out to through the air-supply of total-heat exchanger and air draft typically by hot heat exchange core body entirely Heat exchange, during fresh air ventilator work, indoor exhaust wind and air intake respectively orthogonal thereto fork mode flow through entirely hot heat exchange core body when, by There is the temperature difference in splitter plate two sidewind and vapor partial pressure is poor, assume heat and mass when two strands of air-flows are by demarcation strip existing As causing Total heat exchange process.

Existing entirely hot heat exchange core body generally adopts fin structure, that is, using arranging multiple wings being arranged side by side in passage Piece is to increase contact heat-exchanging area, but the heat exchanger effectiveness of the entirely hot heat exchange core body of this traditional fin structure side by side is not high； And the entirely hot heat exchange core body of traditional fin structure side by side carries out the DeGrain of rectification and water conservancy diversion to air blow and return, easily make into Return air stream is internally formed disorderly air-flow, the increase of heat exchange power consumption in total-heat exchanger.

Content of the invention

For the problems referred to above, this utility model provides a kind of fresh air ventilator total-heat exchanger, can increase further Realize on the basis of big heat exchange area air blow and return is carried out effective rectification and water conservancy diversion, prevent air entering and returning air-flow formed disorderly air-flow, Reduce heat exchange power consumption, be particularly well-suited to the bidirectional flow recuperation of heat work of fresh air ventilator.

For achieving the above object, this fresh air ventilator total-heat exchanger includes top coat, bottom surface layer and Total heat exchange list Unit；Described full heat exchange unit includes support frame, demarcation strip and rectification and guide fins set；Described support frame is tied for rhombus Structure, the divides being uniformly arranged by more than one piece from top to bottom inside support frame are multiple structure；Rectification and guide fins set is solid Dingan County is contained in multiple structure between layers, and including multiple fin plates, multiple fin plates incline along demarcation strip plate face direction correspondence Tiltedly simultaneously head and the tail connection is continuous W shape structure in end face for setting, multiple fin plates composition gas channels of continuous W shape structure, And the gas channel of last layer is orthogonal with the gas channel of next layer arranged in a crossed manner.

As further improvement of the utility model scheme, described demarcation strip is provided with heat exchange membranes.

As further improvement of the utility model scheme, the position setting that described fin plate head and the tail connect is in the arc-shaped Structure.

As further improvement of the utility model scheme, the described arc-shaped structure of fin plate head and the tail link position Central angle is set to 60 °.

As further improvement of the utility model scheme, the surface of described fin plate sets along along bar hole length direction There is the concavo-convex slot structure perpendicular to fin plate plate face.

As preferred version of the present utility model, described demarcation strip and rectification and guide fins set are all using aluminum material.

As further improvement of the utility model scheme, described fin plate is the aluminium sheet that thickness is 1mm.

Compared with prior art, this fresh air ventilator fin plate of the rectification and guide fins set of total-heat exchanger is due to being Along the setting of demarcation strip plate face direction corresponding tilt and head and the tail connect in end face be continuous W shape structure, continuous W shape structure many Individual fin plate constitutes gas channel, therefore can not only increase heat exchange area and air blow and return can also be played with rectification and guide functions, prevent Air entering and returning air-flow forms disorderly air-flow, reduces heat exchange power consumption；Because the position that fin plate head and the tail connect is arranged to arc-shaped structure, The air loss in passage therefore can be reduced；Because the central angle of arc-shaped structure is set to 60 °, 60 ° of angle is both arranged Can ensure that air loss controls in 30pa, can ensure sufficient heat exchange area enough simultaneously again；Surface due to fin plate It is provided with the concavo-convex slot structure perpendicular to fin plate plate face along bar hole length direction, therefore can realize compound intensified heat-transfer, It is particularly well-suited to the bidirectional flow recuperation of heat work of fresh air ventilator.

Brief description

Fig. 1 is the three dimensional structure diagram of this utility model full heat exchange unit；

Fig. 2 is the positive structure schematic of this utility model full heat exchange unit；

Fig. 3 is the A-A sectional view of Fig. 2.

In figure：1st, demarcation strip, 2, rectification and guide fins set, 21, fin plate.

Specific embodiment

Below in conjunction with the accompanying drawings this utility model is described further.

This fresh air ventilator total-heat exchanger includes top coat, bottom surface layer and full heat exchange unit.

Described full heat exchange unit includes support frame, demarcation strip 1 and rectification and guide fins set 2；Described support frame For diamond structure, as shown in Figure 1 and Figure 2, the demarcation strip 1 being uniformly arranged by more than one piece from top to bottom inside support frame is divided into many Rotating fields；Rectification and guide fins set 2 is fixedly mounted on multiple structure between layers, including multiple fin plates 21, multiple wings Along demarcation strip 1 plate face direction corresponding tilt setting and head and the tail connection is continuous W shape structure in end face to sheet 21, continuous W shape Multiple fin plates 21 of structure constitute gas channel, and the orthogonal friendship of gas channel of the gas channel of last layer and next layer Fork setting, multiple fin plates 21 of continuous W shape structure can not only increase heat exchange area and can also play rectification and guide to air blow and return Act on, prevent air entering and returning air-flow from running helter-skelter inside total-heat exchanger.

This fresh air ventilator total-heat exchanger when using, indoor exhaust wind and the air intake multiple fins through adjacent layer respectively Plate 21 constitute orthogonal thereto fork mode gas channel turnover total-heat exchanger, airflow passes entirely hot heat exchange core body when due to separate 1 liang of sidewind of plate there is the temperature difference and vapor partial pressure is poor, and two strands of air-flows assume heat and mass phenomenon when demarcation strip 1, realizes Total heat exchange process.

In order to improve the heat and mass efficiency of air-flow, as further improvement of the utility model scheme, described separation Plate 1 is provided with heat exchange membranes, and heat exchange membranes can quickly realize heat conduction, and then improves the heat and mass efficiency of air-flow.

In order to reduce the air loss in gas channel, as further improvement of the utility model scheme, as Fig. 2 institute Show, the position that described fin plate 21 head and the tail connect is arranged to arc-shaped structure, and arc-shaped structure can reduce the wind in passage Crushing loses.

In order to reduce the air loss in gas channel further, as further improvement of the utility model scheme, institute The central angle of the arc-shaped structure of fin plate 21 head and the tail link position stated is set to 60 °, and 60 ° of angle setting both can ensure wind Press the damage control in 30pa, sufficient enough heat exchange area can be ensured simultaneously again.

In order to realize augmentation of heat transfer, as further improvement of the utility model scheme, as shown in figure 3, described fin The surface of plate 21 is provided with the concavo-convex slot structure perpendicular to fin plate 21 plate face along bar hole length direction, when air-flow is through fin Can cause the forced vibration of heat and mass material during plate 21, and then realize the low-speed turbulent of gas, make heat exchange surface simultaneously Dirt reduces, reduction dirtiness resistance, and then realizes the purpose of compound intensified heat-transfer, adds in the when Oscillation Amplitude that face velocity is higher Greatly, heat conduction reinforced put more effort, even if when wind speed is higher it is also ensured that heat exchange effect.

Because the thermal conductivity of aluminum is 236W/mk, fusing point is 663 DEG C, and heat conductivility is preferable, accordingly, as this utility model Preferred version, described demarcation strip 1 and rectification and guide fins set 2 are all using aluminum material.

In order to ensure enough heat-exchange capacities and firm deformability, as further improvement of the utility model scheme, Described fin plate 21 is the aluminium sheet that thickness is 1mm.

This fresh air ventilator fin plate 21 of the rectification and guide fins set 2 of total-heat exchanger is due to being along demarcation strip 1 plate Simultaneously head and the tail connection is continuous W shape structure, multiple fin plates 21 of continuous W shape structure in end face to the corresponding tilt setting of face direction Constitute gas channel, therefore can not only increase heat exchange area and air blow and return can also be played with rectification and guide functions, prevent air entering and returning gas Stream forms disorderly air-flow, reduces heat exchange power consumption；Because the position that fin plate 21 head and the tail connect is arranged to arc-shaped structure, therefore may be used To reduce the air loss in passage；Because the central angle of arc-shaped structure is set to 60 °, 60 ° of angle setting both can ensure Air loss controls in 30pa, can ensure sufficient heat exchange area enough simultaneously again；Because the surface of fin plate 21 is along bar Shape hole length direction is provided with the concavo-convex slot structure perpendicular to fin plate 21 plate face, therefore can realize compound intensified heat-transfer, special It is not applied to the bidirectional flow recuperation of heat work of fresh air ventilator.

Claims (7)

1. a kind of fresh air ventilator total-heat exchanger, including top coat, bottom surface layer and full heat exchange unit；Described heat entirely is handed over Change unit and include support frame, demarcation strip（1）With rectification and guide fins set（2）；Described support frame is diamond structure, supports The demarcation strip that lower portion is uniformly arranged by more than one piece from top to bottom（1）It is divided into multiple structure；Rectification and guide fins set（2）Fixing It is arranged on multiple structure between layers, including multiple fin plates（21）；It is characterized in that,

Described multiple fin plates（21）Along demarcation strip（1）Simultaneously head and the tail connection is continuous in end face to the corresponding tilt setting of plate face direction W shape structure, multiple fin plates of continuous W shape structure（21）Constitute gas channel, and the gas channel of last layer and next The gas channel of layer is orthogonal arranged in a crossed manner.

2. fresh air ventilator total-heat exchanger according to claim 1 is it is characterised in that described demarcation strip（1）On It is provided with heat exchange membranes.

3. fresh air ventilator total-heat exchanger according to claim 1 and 2 is it is characterised in that described fin plate （21）The position that head and the tail connect is arranged to arc-shaped structure.

4. fresh air ventilator total-heat exchanger according to claim 3 is it is characterised in that described fin plate（21）First The central angle of the arc-shaped structure of tail link position is set to 60 °.

5. fresh air ventilator total-heat exchanger according to claim 1 and 2 is it is characterised in that described fin plate （21）Surface be provided with perpendicular to fin plate along bar hole length direction（21）The concavo-convex slot structure of plate face.

6. fresh air ventilator total-heat exchanger according to claim 1 and 2 is it is characterised in that described demarcation strip（1） With rectification and guide fins set（2）All using aluminum material.

7. fresh air ventilator total-heat exchanger according to claim 6 is it is characterised in that described fin plate（21）It is Thickness is the aluminium sheet of 1mm.