CN205783538U - A kind of Total heat exchange structure of new blower fan - Google Patents

Abstract

The utility model discloses the Total heat exchange structure of a kind of new blower fan, new blower fan includes casing, the outdoor fresh wind port being located at side, casing outdoor, outdoor exhaust outlet, is located at the indoor air outlet of side, casing indoor, indoor return air mouth and the total-heat exchanger being located in casing；Described total-heat exchanger includes at least one heat exchange core body, described heat exchange core body includes indoor turbid wind heat exchanger channels and the outdoor new air heat-exchange passage being separated to form by splitter plate, and described indoor turbid wind heat exchanger channels and outdoor new air heat-exchange passage are arranged in the way of orthogonal；The indoor turbid wind heat exchanger channels that this utility model is arranged with orthogonal form by arranging splitter plate to be formed in the heat exchange core body of total-heat exchanger and outdoor new air heat-exchange passage, indoor turbid wind and the new wind in outdoor form heat and mass phenomenon by demarcation strip, cause Total heat exchange process, reclaim the discharge energy of new blower fan, save energy, reduce the operating cost of new blower fan, and simple in construction.

Description

A kind of Total heat exchange structure of new blower fan

Technical field

This utility model relates to heat exchange structure, is specifically related to a kind of being applied on new blower fan for reclaiming indoor turbid wind The Total heat exchange structure of energy.

Background technology

Along with expanding economy, and the problem of environmental pollution becomes increasingly conspicuous, and has badly influenced the living environment of the mankind, Its Air Contamination particularly problematic, owing to having the atomic i.e. PM2.5 of little granule and poisonous in the contaminated air of air Harmful gas, such as formaldehyde etc., in addition to discharge chamber outside air in energy can not get recycling, if needing indoor winter Temperature is higher, and the particularly north often has warmer in outdoor, and indoor heat energy can be discharged to room by the most traditional new blower fan Outward, cause warmer to need to expend more energy and carry out heating；On the contrary, and at hotter weather, it is whole that indoor offer air-conditioning, but If being simultaneously used traditional new blower fan, cold air will be discharged to outdoor, this again results in air-conditioning needs to expend more Energy freezes.

Utility model content

The purpose of this utility model is to propose a kind of to be applied to new blower fan to recover energy for above-mentioned technical problem The Total heat exchange structure of new blower fan.

The technical scheme that the above-mentioned technical problem of this utility model solution is used is: the Total heat exchange knot of a kind of new blower fan Structure, new blower fan includes casing, the outdoor fresh wind port being located at side, casing outdoor, outdoor exhaust outlet, is located at side, casing indoor Indoor air outlet, indoor return air mouth and the total-heat exchanger being located in casing；

Described total-heat exchanger includes that at least one heat exchange core body, described heat exchange core body include being separated shape by splitter plate The indoor turbid wind heat exchanger channels become and outdoor new air heat-exchange passage, and described indoor turbid wind heat exchanger channels and outdoor new air heat-exchange Passage is arranged in the way of orthogonal；

Described indoor turbid wind heat exchanger channels is connected with described indoor return air mouth by indoor return air passage, the turbid wind in described indoor Heat exchanger channels is connected with described outdoor exhaust outlet by outdoor air exhaust passage；

Described outdoor new air heat-exchange passage is connected with described indoor air outlet by indoor air-supply passage, the new wind in described outdoor Heat exchanger channels is connected with described outdoor fresh wind port by outdoor fresh air channel.

In this utility model, described outdoor fresh air channel is provided with the first air-valve, and described indoor return air passage is with indoor The second air-valve it is provided with between air-supply passage；

When described first air-valve is opened, described outdoor fresh air channel is opened, and when described first air-valve cuts out, described outdoor is new Wind pathway closure；

When described second air-valve cuts out, described indoor return air passage wind turbid with described indoor heat exchanger channels connects and with described Indoor air-supply passage isolation, when described second air-valve is opened, described indoor return air passage and described indoor turbid wind heat exchanger channels every Connect absolutely and with described indoor air-supply passage.

In this utility model, described indoor air-supply passage is sequentially provided with filter and pressure fan, described outdoor air draft Passage is provided with exhaust blower.

In this utility model, described filter includes the set gradually along the air supply direction of described indoor air-supply passage One primary efficient filter screen, activated carbon adsorption layer, high-efficient filter ply of paper.

In this utility model, described pressure fan is adjustable blower fan.

In this utility model, described exhaust blower uses ventilation and negative pressure ventilation machine.

This utility model is formed by arranging splitter plate in the heat exchange core body of total-heat exchanger with orthogonal form The indoor turbid wind heat exchanger channels arranged and outdoor new air heat-exchange passage, the new wind of indoor turbid wind and outdoor forms heat transfer by demarcation strip Transport phenomenon, causes Total heat exchange process, reclaims the discharge energy of new blower fan, saves energy, reduces the operating cost of new blower fan, And simple in construction.

Accompanying drawing explanation

Fig. 1 is the structural representation that the new blower fan in this utility model one embodiment purifies mode of operation at new wind Total heat exchange Figure；

Fig. 2 is the structural representation of circularly purifying mode of operation in return air of the new blower fan in this utility model one embodiment Figure；

Wherein, the arrow in Fig. 1 and Fig. 2 represents air current flow path.

Detailed description of the invention

In order to be illustrated more clearly that the technical solution of the utility model, below in conjunction with drawings and Examples, new to this practicality The technical scheme of type is further elaborated, it should be apparent that, describing below is only enforcements more of the present utility model Example, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to according to these embodiments Obtain other embodiment.

With reference to Fig. 1, Fig. 2, the Total heat exchange structure of a kind of new blower fan, new blower fan includes casing 1, is located at casing 1 outdoor one The outdoor fresh wind port 2 of side, outdoor exhaust outlet 3, it is located at the casing 1 indoor indoor air outlet 4 of side, indoor return air mouth 5 and sets Total-heat exchanger 6 in casing 1；

Total-heat exchanger 6 includes at least one heat exchange core body, and heat exchange core body includes the room being separated to form by splitter plate Interior turbid wind heat exchanger channels and outdoor new air heat-exchange passage, and indoor turbid wind heat exchanger channels and outdoor new air heat-exchange passage are with orthogonal The mode of fork is arranged；

Indoor turbid wind heat exchanger channels is connected with indoor return air mouth 5 by indoor return air passage, and indoor turbid wind heat exchanger channels leads to Cross outdoor air exhaust passage to connect with outdoor exhaust outlet 3；

Outdoor new air heat-exchange passage is connected with indoor air outlet 4 by indoor air-supply passage, and outdoor new air heat-exchange passage leads to Cross outdoor fresh air channel to connect with outdoor fresh wind port 2.Preferably, indoor air-supply passage is sequentially provided with filter 9 and pressure fan 10, outdoor air exhaust passage is provided with exhaust blower 11.

Concrete, it is provided with as a example by a heat exchange core body by total-heat exchanger 6 and illustrates, indoor turbid wind heat exchanger channels and room Outer new air heat-exchange passage is arranged in heat exchange core body with the form of orthogonal, and indoor turbid wind heat exchanger channels and outdoor new air heat-exchange lead to Being separated by splitter plate between road, form respective gas channel, the turbid wind in indoor that indoor turbid wind separates version from air-flow leads to Side, road is passed through, and the outdoor fresh air channel side that outdoor new wind separates version from air-flow is passed through, owing to air-flow separates the gas of version both sides Temperature and the vapor partial pressure of stream are the most different, there is the temperature difference and vapor partial pressure is poor, and two strands of air-flows are passed by splitter plate Hot mass transfer phenomenon, causes Total heat exchange process.New blower fan is when summer operation, and outdoor new wind obtains cold from indoor turbid wind, makes Temperature reduces, simultaneously turbid air-dried dry by indoor, makes outdoor new wind water capacity reduce；During winter operation, outdoor new wind is turbid from indoor Wind obtains heat, and temperature raises.So, by the complete hot heat transfer process of heat exchange core body, outdoor new wind is allowed to return from indoor turbid wind Receive energy, reduce energy consumption, save energy.

In one embodiment, circularly purifying two kinds work in new blower fan has the purification of new wind Total heat exchange and return air Pattern, for realizing the switching between two kinds of mode of operations of the new blower fan, outdoor fresh air channel is provided with the first air-valve 7, and indoor are returned It is provided with the second air-valve 8 between wind passage and indoor air-supply passage；

When first air-valve 7 is opened, outdoor fresh air channel is opened, and when the first air-valve 7 cuts out, outdoor fresh air channel is closed；

When second air-valve 8 cuts out, indoor return air passage wind turbid with indoor heat exchanger channels connect and with indoor air-supply passage every Absolutely, when the second air-valve 8 is opened, indoor return air passage wind turbid with indoor heat exchanger channels completely cuts off and connects with indoor air-supply passage.

Concrete, concrete, new blower fan is when new wind Total heat exchange purifies mode of operation, and the first air-valve 7 is opened, the second wind Valve 8 cuts out, and outdoor fresh air channel is opened, indoor return air passage wind turbid with indoor heat exchanger channels connect and with indoor air-supply passage every Absolutely；Outdoor fresh air passes through outdoor fresh wind port 2, total-heat exchanger 6, filter 9, indoor air-supply under the effect of pressure fan 10 Mouth 4 sends into indoor, and foul indoor air passes through indoor return air mouth 5, total-heat exchanger 6, room under the effect of exhaust blower 11 simultaneously Outside outer exhaust outlet 3 discharge chamber.

New blower fan is in return air during circularly purifying mode of operation, and the first air-valve 7 cuts out, and the second air-valve 8 is opened, outdoor new wind Pathway closure, indoor return air passage wind turbid with indoor heat exchanger channels completely cuts off and connects with indoor air-supply passage, foul indoor air Circulate clean between indoor and new blower fan by indoor return air mouth 5, filter 9, indoor air outlet 4 under the effect of pressure fan 10 Change, it is ensured that IAQ (indoor air quality).

In one embodiment, at the beginning of filter 9 includes the air supply direction of the indoor air-supply passage in edge sets gradually first Effect drainage screen, activated carbon adsorption layer, high-efficient filter ply of paper.Absorbed by above-mentioned several roads defecator that formaldehyde in air etc. is poisonous to be had Do harm to the microparticle pollutant things such as organic pollution, the dust in mistake air filtering, it is ensured that IAQ (indoor air quality).

Concrete, the first primary efficient filter screen is made up of effect filter pulp in two-layer initial effect net collection unification layer, and initial effect net can be the most clear Wash.The air entering new blower fan is carried out just by the first primary efficient filter screen, medium air filtration, intercepts the dust of greater particle size, fiber etc. Impurity, carries out pretreatment, protection rear end cleaning module, increases the service life next step air cleaning.

Activated carbon adsorption layer is to utilize Linesless charcoal, wood flour, the solid shell of Exocarpium cocois (Cocos nucifera L) one class, and pit and fat coal etc. do former Material, through high temperature carbonization, and by physics and chemical method, use the series of process such as activation, acidity, rinsing and make black Color, nontoxic, tasteless material are constituted.Activated carbon adsorption layer has highly developed pore structure capillary tube and constitutes one by force Adsorb greatly the field of force.When gas pollutant encounters capillary tube, gas can be divided by the absorption field of force immediately powerful around activated carbon hole In sub-inlet hole, reach to purify the effect of air.

High-efficient filter ply of paper is interwoven by the most tiny organic fiber, and relatively strong to the capturing ability of microgranule, aperture is small, Adsorption capacity is big, and purification efficiency is high, and possesses water absorption, to PM2.5 purifying rate > 95%.

In one embodiment, pressure fan 10 and exhaust blower 11 all use adjustable blower fan, can be according to room air Regulation need to adjust pressure fan 10 and the wind speed of exhaust blower 11；Concrete, pressure fan 10 can use converter adjustable pneumatic Machine, exhaust blower 11 can use ventilation and negative pressure ventilation machine 11.

This utility model is formed by arranging splitter plate in the heat exchange core body of total-heat exchanger with orthogonal form The indoor turbid wind heat exchanger channels arranged and outdoor new air heat-exchange passage, the new wind of indoor turbid wind and outdoor forms heat transfer by demarcation strip Transport phenomenon, causes Total heat exchange process, reclaims the discharge energy of new blower fan, saves energy, reduces the operating cost of new blower fan, And simple in construction.

The above is only preferred implementation of the present utility model, it is noted that for the common skill of the art For art personnel, on the premise of without departing from this utility model principle, it is also possible to make some improvements and modifications, these improve and Retouching also should be regarded as protection domain of the present utility model.

Claims (4)

1. the Total heat exchange structure of a new blower fan, it is characterised in that new blower fan includes casing, is located at the room of side, casing outdoor Outer fresh wind port, outdoor exhaust outlet, be located at the indoor air outlet of side, casing indoor, indoor return air mouth and be located in casing complete Heat exchanger；

Described total-heat exchanger includes what at least one heat exchange core body, described heat exchange core body included being separated to form by splitter plate Indoor turbid wind heat exchanger channels and outdoor new air heat-exchange passage, and described indoor turbid wind heat exchanger channels and outdoor new air heat-exchange passage Arrange in the way of orthogonal；

Described indoor turbid wind heat exchanger channels is connected with described indoor return air mouth by indoor return air passage, the turbid wind heat exchange of described indoor Passage is connected with described outdoor exhaust outlet by outdoor air exhaust passage；

Described outdoor new air heat-exchange passage is connected with described indoor air outlet by indoor air-supply passage, described outdoor new air heat-exchange Passage is connected with described outdoor fresh wind port by outdoor fresh air channel；

Being sequentially provided with filter and pressure fan on described indoor air-supply passage, described outdoor air exhaust passage is provided with exhaust blower.

2. the Total heat exchange structure of new blower fan as claimed in claim 1, it is characterised in that described filter includes along described room The first primary efficient filter screen that the air supply direction of interior air-supply passage sets gradually, activated carbon adsorption layer, high-efficient filter ply of paper.

3. the Total heat exchange structure of new blower fan as claimed in claim 1, it is characterised in that described pressure fan is adjustable pneumatic Machine.

4. the Total heat exchange structure of new blower fan as claimed in claim 1, it is characterised in that described exhaust blower uses ventilation and negative pressure ventilation Machine.