CN106288072A - Electrochemistry air conditioning system - Google Patents

Abstract

The invention discloses a kind of electrochemistry air conditioning system.This electrochemistry air conditioning system includes electrochemistry hydrogen pump, first heat exchanging part, second heat exchanging part and rotation dish, first heat exchanging part, second heat exchanging part and electrochemistry hydrogen pump are arranged on rotation dish, and together rotate with rotation dish, one of them is positioned at outdoor to make the first heat exchanging part and the second heat exchanging part, another is positioned at indoor, first heat exchanging part includes the first metal hydride heat exchanger, second heat exchanging part includes the second metal hydride heat exchanger, first metal hydride heat exchanger is connected to the first electrode of electrochemistry hydrogen pump, second metal hydride heat exchanger is connected to the second electrode of electrochemistry hydrogen pump.Electrochemistry air conditioning system according to the present invention, can solve metal hydride refrigeration system of the prior art in the constantly switching inhaling heat release state, and the loss for heat and cold is quite big, efficiency and the highest problem of reliability.

Description

Electrochemistry air conditioning system

Technical field

The present invention relates to air-conditioning technical field, in particular to a kind of electrochemistry air conditioning system.

Background technology

So far, what most of air-conditionings particularly domestic air conditioning used is all steam compression type refrigeration, by refrigeration The compression of agent so that refrigerant condition constantly changes, coordinates high-performance heat exchanger to realize the cooling and warming of air-conditioning.This refrigeration System one is big energy-consuming, but mostly the coolant in system is fluoride, discharges or reveals coolant and can work the mischief environment, now Society, energy-conserving and environment-protective become themes of the times, and therefore a kind of air-conditioning refrigeration system has been imperative.

Prior art provides a kind of model electrochemical Refrigeration Technique, by hydrogen and some alloy generation reversible reaction And release substantial amounts of heat, and realize refrigeration through high-efficiency heat exchanger equipment or heat.Operation principle is as shown in Figure 1.

When electrochemistry hydrogen pump is applied forward voltage voltage, metal hydride heat exchanger 2 ' side density of hydrogen increases, with Metal hydride heat exchanger 2 ' side density of hydrogen to increase, metal hydride internal pressure increases, thus causes hydrogen at metal There is hydrogen abstraction reaction in hydride heat exchanger 2 ', thus releases heat, and metal hydride heat exchanger 2 ' uses as condenser.Simultaneously Due to hydrogen by electrochemistry hydrogen pump from metal hydride heat exchanger 1 ' pump to metal hydride heat exchanger 2 ', cause metal hydride Heat exchanger 1 ' internal hydrogen concentration and pressure reduce, thus cause metal hydride to put hydrogen in metal hydride heat exchanger 1 ' Reaction, thus absorb heat, metal hydride heat exchanger 1 ' uses as vaporizer.

Equally when electrochemistry hydrogen pump is applied negative voltage voltage, metal hydride heat exchanger 1 ' side density of hydrogen increases Greatly, along with metal hydride heat exchanger 1 ' side density of hydrogen increases, metal hydride internal pressure increases, thus causes hydrogen to exist There is hydrogen abstraction reaction in metal hydride heat exchanger 1 ', thus releases heat, and metal hydride heat exchanger 1 ' uses as condenser. Simultaneously because hydrogen by electrochemistry hydrogen pump from metal hydride heat exchanger 2 ' pump to metal hydride heat exchanger 1 ', cause metallic hydrogen Compound heat exchanger 2 ' internal hydrogen concentration and pressure reduce, thus cause metal hydride to occur in metal hydride heat exchanger 2 ' Hydrogen discharge reaction, thus absorb heat, metal hydride heat exchanger 2 ' uses as vaporizer.

Existing metal hydride refrigeration system is all to use two metal hydride forms two cover systems, two is overlapped by this The anti-phase operation of system, thus realize continuous cooling or heat.Because system is in the constantly switching inhaling heat release state, for heat Loss with cold is quite big, and the mode of intermittent duty causes refrigeration or to heat instability, efficiency and reliability the highest.

Summary of the invention

The purpose of the present invention is to propose to a kind of electrochemistry air conditioning system, to solve metal hydride of the prior art refrigeration System is in the constantly switching inhaling heat release state, and the loss for heat and cold is quite big, and efficiency and reliability are the highest Problem.

For achieving the above object, according to an aspect of the invention, it is provided a kind of

The electrochemistry air conditioning system of the present invention, including electrochemistry hydrogen pump, the first heat exchanging part, the second heat exchanging part and rotation dish, First heat exchanging part, the second heat exchanging part and electrochemistry hydrogen pump are arranged on rotation dish, and together rotate with rotation dish so that first changes Hot portion and the second heat exchanging part one of them be positioned at outdoor, another is positioned at indoor, and the first heat exchanging part includes the first metal hydride Heat exchanger, the second heat exchanging part includes that the second metal hydride heat exchanger, the first metal hydride heat exchanger are connected to electrochemical hydrogen First electrode of pump, the second metal hydride heat exchanger is connected to the second electrode of electrochemistry hydrogen pump.By by the first heat exchanging part, Second heat exchanging part and electrochemistry hydrogen pump are arranged on rotation dish, and the first heat exchanging part and the second heat exchanging part can be made selectively to be in Indoor or outdoor, consequently, it is possible to when flowing to be controlled to hydrogen by electrochemistry hydrogen pump, it is possible to according to the first heat exchange The duty of device and the second heat exchanger adjusts the first heat exchanging part and the operating position of the second heat exchanging part so that can begin in indoor It is maintained at required heat exchange state eventually, changes owing to only needing just can quickly to be realized the first heat exchanging part and second by rotary motion dish The position switching in hot portion, therefore without shutting down, it is ensured that the continuous effective of electrochemistry air conditioning system is run, and structure is more Simply, cold and thermal loss are little, and work efficiency and reliability significantly improve.

Accompanying drawing explanation

Accompanying drawing described herein is used for providing a further understanding of the present invention, constitutes the part of the application, this Bright schematic description and description is used for explaining the present invention, is not intended that inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is the fundamental diagram of electrochemistry air conditioning system；

Fig. 2 is the cut-away view of the electrochemistry air conditioning system of the embodiment of the present invention；

Fig. 3 is the external structure of the electrochemistry air conditioning system of the embodiment of the present invention.

1, electrochemistry hydrogen pump；2, rotation dish；3, the first metal hydride heat exchanger；4, the second metal hydride heat exchanger； 5, the first air inlet；6, the first air outlet；7, the first blower fan；8, the second air inlet；9, the second air outlet；10, the second blower fan； 11, the first case；12, the 3rd air inlet；13, the 3rd air outlet；14, the 4th air inlet；15, the 4th air outlet；16, the second cover Shell；17, the first air-inlet grille；18, the first air outlet grate；19, the second air-inlet grille；20, the second air outlet grate；21, curtain bar is drawn； 22, curtain frame is drawn；23, curtain.

Detailed description of the invention

In the following detailed description, a large amount of specific detail is proposed, in order to provide thorough understanding of the present invention.But, Even if it will be understood by those within the art that and not having these specific detail also can implement the present invention.In other cases, the most in detail The well-known method of thin description, process, assembly and circuit, in order to avoid affecting the understanding of the present invention.

In conjunction with seeing shown in Fig. 2 and Fig. 3, according to embodiments of the invention, electrochemistry air conditioning system includes electrochemistry hydrogen pump 1, the first heat exchanging part, the second heat exchanging part and rotation dish 2, the first heat exchanging part, the second heat exchanging part and electrochemistry hydrogen pump 1 are arranged on rotation On dish 2, and together rotate with rotation dish 2 so that the first heat exchanging part and the second heat exchanging part one of them be positioned at outdoor, another position In indoor, the first heat exchanging part includes the first metal hydride heat exchanger 3, and the second heat exchanging part includes the second metal hydride heat exchanger 4, the first metal hydride heat exchanger 3 is connected to the first electrode of electrochemistry hydrogen pump 1, and the second metal hydride is connected to electrochemistry Second electrode of hydrogen pump 1.Two heat exchangers are connected by Hydrogen Line with electrochemistry hydrogen pump 1 respectively, and necessary electric control gear is put Put the correct position on rotation dish 2.

By the first heat exchanging part, the second heat exchanging part and electrochemistry hydrogen pump 1 being arranged on rotation dish 2, first can be made to change Hot portion and the second heat exchanging part are selectively in indoor or outdoor, consequently, it is possible to flowed to hydrogen by electrochemistry hydrogen pump 1 When being controlled, it is possible to adjust the first heat exchanging part and second according to the duty of First Heat Exchanger and the second heat exchanger and change The operating position in hot portion so that indoor can remain at required heat exchange state, owing to by rotary motion dish 2 just only needing Can quickly realize the position switching of the first heat exchanging part and the second heat exchanging part, therefore without shutting down, it is ensured that electrochemistry The continuous-stable of air conditioning system effectively runs, and structure is simpler, and cold and thermal loss are little, and work efficiency and reliability are obvious Improve.

First heat exchanging part also includes the first air inlet the 5, first air outlet 6 and the first blower fan 7, and the second heat exchanging part also includes Two air inlet the 8, second air outlet 9 and the second blower fans 10, the first metal hydride heat exchanger 3 is arranged on the first air inlet 5 and Between one blower fan 7, the second metal hydride heat exchanger 4 is arranged between the second air inlet 8 and the second blower fan 10；First blower fan 7 Air outlet and the first air outlet 6 connect, air outlet and second air outlet 9 of the second blower fan 10 connect.

When electrochemistry air conditioning system is in refrigerating state, the first metal hydride heat exchanger 3 puts hydrogen heat absorption, the second metal Hydrogen heat release inhaled by hydride heat exchanger 4, and room air enters the first heat exchanging part from the first air inlet 5, then through the first metal hydride Thing heat exchanger 3 absorbs heat after sweat cooling, enters in exhaust air flue from the air outlet of the first blower fan 7, then through the second air-out Mouth 9 is blown into indoor, and indoor are carried out cooling refrigeration.Outdoor air enters the second heat exchanging part from the second air inlet 8, then through second Metal hydride heat exchanger 4, takes away the second metal hydride heat exchanger 4 and inhales hydrogen liberated heat, the second blower fan 10 suck also It is drained at the second air outlet 9, is then discharged into outdoor through the second air outlet 9 and carries out exothermic condensation.When the first metal hydride After hydrogen content in heat exchanger 3 is reduced to a certain degree, rotate by controlling rotation dish 2 so that the first heat exchanging part rotates To outdoor, the second heat exchanging part turns to indoor, controls electrochemistry hydrogen pump 1 simultaneously and changes voltage direction, now the second metal hydride Thing heat exchanger 4 is in puts hydrogen heat absorption state, and the first metal hydride heat exchanger 3 is in suction hydrogen heat release state so that indoor are still Keep refrigeration, thus realize continuous print refrigerating operaton.

First air inlet the 5, first air outlet the 6, first blower fan the 7, second air inlet the 8, second air outlet 9 and second herein Blower fan 10 is all together to rotate with rotation dish 2, therefore, it is possible to be always ensured that between all parts of the first heat exchanging part and second Preferable corresponding relation it is respectively provided with, it is ensured that the operational efficiency of air conditioning system and structural stability between all parts of heat exchanging part. Certainly, by the first air inlet the 5, first air outlet the 6, first blower fan the 7, second air inlet the 8, second air outlet 9 and the second blower fan 10 It is disposed as fixing, only by rotating first metal hydride heat exchanger the 3, second metal hydride heat exchanger 4 and electrochemistry Hydrogen pump 1 is also continuous cooling or the heating operation that can realize electrochemistry air conditioning system.

Preferably, electrochemistry air conditioning system also includes that the first case 11, the first heat exchanging part, electrochemistry hydrogen pump 1 and second change Hot portion is all fixedly installed in the first case 11, and the first case 11 is arranged on rotation dish 2, and on the first case 11, corresponding first enters Air port 5 is provided with the 3rd air inlet 12, and corresponding first air outlet 6 is provided with the 3rd air outlet 13, and corresponding second air inlet 8 is arranged The 4th air inlet 14, corresponding second air outlet 9 is had to be provided with the 4th air outlet 15.Can be by the first heat exchange by the first case 11 Portion and the second heat exchanging part are integrated on a global facility, easily facilitate and realize the structure of the first heat exchanging part and the second heat exchanging part and set Put, also allow for carrying out the adjustment of the turned position of the first heat exchanging part and the second heat exchanging part simultaneously.Additionally, by the first case 11 also So that the air intake of electrochemistry air conditioning system and air-out easily facilitate control, avoid the first heat exchanging part and the second heat exchanging part simultaneously It is exposed to the external world, the first heat exchanging part and the second heat exchanging part are formed protection.

Preferably, electrochemistry air conditioning system also includes that the second case 16, the first case 11 are set rotationally by rotation dish 2 Putting in the second case 16, on the second case 16, corresponding 3rd air inlet 12 is provided with the first air-inlet grille 17, and the corresponding 3rd goes out Air port 13 is provided with the first air outlet grate 18, and corresponding 4th air inlet 14 is provided with the second air-inlet grille 19, corresponding 4th air-out Mouth 15 is provided with the second air outlet grate 20.Second case 16 is fixedly installed at the window's position, and relative to indoor window Position does not rotates, and is more prone to ensure that electrochemistry air conditioning system is in the stationarity of the window's position mounting structure and sealing. Additionally, be arranged in the second case 16 by the first case 11, each parts that can be pointed in the first case 11 are formed preferably Protection, in effectively preventing when heat exchanging part is in outdoor rainwater etc. to enter into heat exchanging part, all parts in heat exchanging portion causes damage Bad.

Rotating drive mechanism can be arranged in rotation dish 2, and the other end is fixedly connected on the bottom of the second case 16, thus Rotation dish 2 is driven to rotate.Rotating drive mechanism can also be arranged on the bottom of the second case 16, rotates outfan fixing even It is connected on the bottom of rotation dish 2, thus drives rotation dish 2 to rotate.Rotating drive mechanism for example, motor etc..

First blower fan 7 and the second blower fan 10 are centrifugal blower.A centrifugal blower it is respectively arranged with inside two heat exchangers, two Individual exhaust air flue side the most on heat exchangers, when two centrifugal blowers are opened, will entering from the second case 16 of indoor and outdoor Air draught at style grid, wind is passed heat exchanger, and is blown out at indoor and outdoor air-inlet grille respectively by two air channels.

Being arranged with power line outside rotation dish 2, power line passes from rotation dish 2, and with the 1, first heat exchange of electrochemistry hydrogen pump Portion and the second heat exchanging part connect.By by power line around being located at outside rotation dish 2, power line can be made to have longer length, can To be extended by the rotation of rotation dish 2 or to shorten so that the length of power line can meet each portion in the first case 11 Part is length requirement to power line when rotating.

Electrochemistry air conditioning system also includes controlling electric control gear, and electric control gear electrically connects with rotation dish 2, controls rotation dish 2 Rotate.The rotation of rotation dish 2 can be controlled by electric control gear according to pre-set programs, it is also possible to according to other detection parameter Rotation to rotation dish 2 is controlled.

In the present embodiment, electrochemistry air conditioning system also includes density of hydrogen detector, and density of hydrogen detector electrically connects To electric control gear, density of hydrogen detector is for detection the first metal hydride heat exchanger 3 and the second metal hydride heat exchanger 4 Interior hydrogen content, rotation dish 2 is controlled by electric control gear according to the testing result of density of hydrogen detector.By detection hydrogen The rotation of rotation dish 2 is controlled by the mode of gas concentration, and control accuracy is higher, it is ensured that electrochemistry hydrogen pump 1 switches every time After hydrogen can obtain the utilization of maximal efficiency, improve the utilization rate of hydrogen, improve the work energy of electrochemistry air conditioning system Effect.

Changed by density of hydrogen and control rotation dish 2 and carry out 180 degree of rotations, unidirectional current while rotation dish 2 rotates Pressure commutation, makes electrochemistry hydrogen pump 1 commutation run.During initial launch, the metal hydride heat exchanger in indoor heat exchanger puts hydrogen Heat absorption, now this metal hydride heat exchanger is vaporizer, heat in absorption chamber, releases cold, and outside metal hydride changes Hydrogen heat release inhaled by hot device, as condenser；After a period of time, when detecting that rotation dish 2 is carried out after density of hydrogen changes to setting value 180 degree of rotations, meanwhile, voltage commutation, now originally metal hydride heat exchanger in outside forwards indoor to and continues to put Hydrogen absorbs heat, and this process moves in circles, it is achieved indoor continuous cooling or heat.

Second case 16 be provided with sealing curtain radially outside, sealing curtain extends to the end from the top of the second case 16 Portion.When needs natural wind, the operation of electrochemistry hydrogen pump 1 can be stopped, directly opening sealing curtain so that air can blow naturally Enter indoor, improve the experience of user, improve the functional diversities of electrochemistry air conditioning system simultaneously.

Preferably, what sealing curtain included being fixedly installed on the outer wall of the second case 16 draws curtain bar 21, is arranged on sealing curtain The drawing curtain frame 22 and be connected to draw curtain bar 21 and draw the curtain 23 between curtain frame 22 of outer end, be positioned at the same of the second case 16 The two ends of diameter are provided with sealing curtain.By drawing curtain frame 22 can pull open or close curtain 23 easily, so that window Curtain 23 seals or opens window, operates simpler convenience.

The explanation of above example is only intended to help to understand method and the core concept thereof of the present invention；Simultaneously for this The those skilled in the art in field, according to the thought of the present invention, the most all will change, In sum, this specification content should not be construed as limitation of the present invention.

Claims (10)

1. an electrochemistry air conditioning system, it is characterised in that include electrochemistry hydrogen pump (1), the first heat exchanging part, the second heat exchanging part and Rotation dish (2), described first heat exchanging part, described second heat exchanging part and described electrochemistry hydrogen pump (1) are arranged on described rotation dish (2) On, and together rotate with described rotation dish (2) so that described first heat exchanging part and described second heat exchanging part one of them be positioned at room Outward, another is positioned at indoor, and described first heat exchanging part includes the first metal hydride heat exchanger (3), described second heat exchanging part bag Including the second metal hydride heat exchanger (4), described first metal hydride heat exchanger (3) is connected to described electrochemistry hydrogen pump (1) The first electrode, described second metal hydride heat exchanger (4) is connected to the second electrode of described electrochemistry hydrogen pump (1).

Electrochemistry air conditioning system the most according to claim 1, it is characterised in that described first heat exchanging part also includes that first enters Air port (5), the first air outlet (6) and the first blower fan (7), described second heat exchanging part also includes the second air inlet (8), the second air-out Mouthful (9) and the second blower fan (10), described first metal hydride heat exchanger (3) is arranged on described first air inlet (5) and described Between first blower fan (7), described second metal hydride heat exchanger (4) is arranged on described second air inlet (8) and described second Between blower fan (10)；The air outlet of described first blower fan (7) and the first air outlet (6) connection, going out of described second blower fan (10) Air port connects with the second air outlet (9).

Electrochemistry air conditioning system the most according to claim 2, it is characterised in that described electrochemistry air conditioning system also includes One case (11), described first heat exchanging part, described electrochemistry hydrogen pump (1) and described second heat exchanging part are all fixedly installed on described In one case (11), described first case (11) is arranged on described rotation dish (2), and described first case (11) is upper corresponding described First air inlet (5) is provided with the 3rd air inlet (12), and corresponding described first air outlet (6) is provided with the 3rd air outlet (13), Corresponding described second air inlet (8) is provided with the 4th air inlet (14), and corresponding described second air outlet (9) is provided with the 4th air-out Mouth (15).

Electrochemistry air conditioning system the most according to claim 3, it is characterised in that described electrochemistry air conditioning system also includes Two cases (16), described first case (11) is rotatably arranged in described second case (16) by described rotation dish (2), Upper corresponding described 3rd air inlet (12) of described second case (16) is provided with the first air-inlet grille (17), and the corresponding described 3rd goes out Air port (13) is provided with the first air outlet grate (18), and corresponding described 4th air inlet (14) is provided with the second air-inlet grille (19), Corresponding described 4th air outlet (15) is provided with the second air outlet grate (20).

Electrochemistry air conditioning system the most according to claim 2, it is characterised in that described first blower fan (7) and described second Blower fan (10) is centrifugal blower.

Electrochemistry air conditioning system the most according to claim 1, it is characterised in that be arranged with power supply outside described rotation dish (2) Line, described power line passes from described rotation dish (2), and with described electrochemistry hydrogen pump (1), the first heat exchanging part and the second heat exchange Portion connects.

Electrochemistry air conditioning system the most according to claim 1, it is characterised in that described electrochemistry air conditioning system also includes control Electric control gear processed, described electric control gear electrically connects with described rotation dish (2), controls described rotation dish (2) and rotates.

Electrochemistry air conditioning system the most according to claim 7, it is characterised in that described electrochemistry air conditioning system also includes hydrogen Gas concentration detector, described density of hydrogen detector is electrically connected to described electric control gear, and described density of hydrogen detector is used for examining Survey the hydrogen content in described first metal hydride heat exchanger (3) and described second metal hydride heat exchanger (4), described electricity Described rotation dish (2) is controlled by control device according to the testing result of described density of hydrogen detector.

Electrochemistry air conditioning system the most according to claim 4, it is characterised in that the outside of described second case (16) is along footpath To being provided with sealing curtain, described sealing curtain extends to bottom from the top of described second case (16).

Electrochemistry air conditioning system the most according to claim 9, it is characterised in that described sealing curtain includes being fixedly installed on On the outer wall of described second case (16) draw curtain bar (21), be arranged on described sealing curtain outer end draw curtain frame (22) and even Draw curtain bar (21) and the described curtain (23) drawn between curtain frame (22) described in being connected on, be positioned at described second case (16) same always The two ends in footpath are provided with described sealing curtain.