CN107514715A - Air-conditioning device - Google Patents

Abstract

The present invention discloses a kind of air-conditioning device, including multiple air channel modules and power supply module, respectively the air channel module includes thermostat unit, air-flow guide unit and energy conduction module, the thermostat unit is arranged at the second end of the air channel module, it has first side and second side, the air-flow guide unit is arranged at the air channel module, the energy conduction module is arranged between the thermostat unit and the air-flow guide unit, the power supply module provides the power supply operated needed for the air channel module, wherein, the air-flow guide unit makes air-flow be flowed into from the first end of the air channel module, strengthen energy conduction intensity by the energy conduction module, after the first side or second side of the thermostat unit, flowed out again from the second end of the air channel module.

Description

Air-conditioning device

Technical field

The present invention relates to a kind of air-conditioning device, and more specifically, relate to one kind increases air-out humidity using water smoke, with Promote the air-conditioning device of antipyretic response.

Background technology

Traditional air-conditioning device, needs to expend substantial amounts of electric power and can be only achieved the " cold of needed by human body often in heat Degree ", can at this time utilize increases moisture in air to strengthen endothermic effect, atomization fan or water cooling fan such as in the streets Deng, be exactly using this reason, utilize wind-force sprinkling aqueous vapor.

However, it is not real refrigeration water smoke to be in the streets atomized water smoke caused by fan or water cooling fan, the water smoke of refrigeration is imitated Fruit is taken out of via the natural wind of fan blowout, and water smoke is only for natural wind sprinkling of arranging in pairs or groups, and actual antipyretic response is extremely It is limited.

Therefore, the antipyretic response of water smoke how has been given play to, and has been applied in air-conditioning device, has been that current industry is still waited to solve Problem certainly.

The content of the invention

To solve the variety of problems of prior art, the present invention provides a kind of air-conditioning device, including multiple air channel modules and Power supply module, respectively the air channel module has relative first end and the second end, and respectively the air channel module includes:Temperature adjustment list Member, it is arranged between the second end of the air channel module, the thermostat unit has to produce the first side of the first temperature range Face, and relative to the first side, to produce the second side of second temperature scope；Air-flow guide unit, it is arranged at this Between the first end of air channel module, the second end or first end and the second end, to make air-flow be flowed into from the first end of the air channel module； And energy conduction module, it is arranged between the thermostat unit and the air-flow guide unit, to strengthen the air-flow Energy conduction intensity, to make the air-flow by the first side or second side of the thermostat unit and then from the air channel The second end outflow of module；And power supply module, its to provide respectively the thermostat unit, the air-flow guide unit and should Power supply needed for the running of energy conduction module.

In a kind of implementation kenel of the present invention, the energy conduction module includes again：Storage element, it is to storing liquid Body；Atomization unit, it is will be stored in the liquid transition of the storage element into gaseous molecular；And eruption unit, its to The gaseous molecular is spilt into the air channel module internal.

In a kind of implementation kenel of the present invention, in addition to liquid energy conducting element, it is arranged on the air channel module Between first end and the air-flow guide unit, wherein, the power supply module also operates institute to provide the liquid energy conducting element The power supply needed.

In a kind of implementation kenel of the present invention, the liquid energy conducting element is cascade module.

A kind of in the present invention implements kenel, includes controlling module, and it is controlling the liquid energy conducting element Keying or configuration, wherein, the power supply module also to provide the control module running needed for power supply.

In a kind of implementation kenel of the present invention, air-conditioning device of the invention is multiple to be included controlling module, and it is each to control The keying of the thermostat unit or air-flow guide unit or configuration, wherein, the power supply module is also providing the control module Power supply needed for running.

In a kind of implementation kenel of the present invention, the configuration includes the respectively load of the thermostat unit or air-flow guiding is single The running speed of member or working time.

In a kind of implementation kenel of the present invention, the control module includes setup unit, and the setup unit is to set The respectively critical-temperature of the air channel module, and export the first corresponding control signal according to this and give the respectively thermostat unit or air-flow Guide unit, and wherein, respectively the thermostat unit or air-flow guide unit also open to be performed according to first control signal Close or configuration.

In a kind of implementation kenel of the present invention, in addition to detecting module, it flows to detect the air-flow from second end The temperature gone out, and to produce corresponding temperature signal, then transmit and give the control module, wherein, the control module also to According to the critical-temperature set by the setup unit and the temperature signal, export the second corresponding control signal and give the respectively temperature Adjustment unit or air-flow guide unit, and wherein, respectively the thermostat unit or air-flow guide unit also to according to this second Control signal performs keying or configuration.

In a kind of implementation kenel of the present invention, in addition to collection wind unit, the collection wind unit have air intake vent and air outlet, The air intake vent is directed towards the second end of the respectively air channel module, wherein, the detecting module is disposed on the air outlet.

Compared to prior art, atomising device is configured the input in refrigerating system by air-conditioning device of the invention, by Air channel module is flowed through by air water molecule so that the further refrigeration of gas moisture, and export in air outlet, allow air-out humidity to increase Add, promote the conduction of heat of human body, reach quick antipyretic effect.

Brief description of the drawings

Fig. 1 is the structural representation of the air-conditioning device of the present invention.

Fig. 2 is the functional block diagram of the air-conditioning device of the present invention.

Fig. 3 is the multiple duct module schematic diagram of the air-conditioning device of the present invention.

Fig. 4 is the multiple duct module operation workflow figure of the air-conditioning device of the present invention.

Symbol description：

1 air channel module

11 first ends

12 second ends

1A air channels module

1 B air channels module

1n air channels module

2 thermostat units

21 first sides

22 second sides

3 air-flow guide units

3A air-flow guide units

3B air-flow guide units

3n air-flow guide units

4 energy conduction modules

41 storage elements

42 atomization units

43 eruption units

5 power supply modules

6 liquid energy conducting elements

7 control modules

71 setup units

8 detecting modules

9 collection wind units

91 air intake vents

92 air outlets

D1 airflow directions

D2 atomization aqueous vapors direction

S1~S11 steps

Embodiment

Illustrate embodiments of the present invention by particular specific embodiment below, people skilled in the art can be by this theory Bright book disclosure of that understands other advantages and effect of the present invention easily.

It should be clear that structure, ratio, size depicted in this specification institute accompanying drawings etc., only coordinating specification institute public The content opened, for the understanding and reading of people skilled in the art, the enforceable qualifications of the present invention are not limited to, Therefore do not have technical essential meaning, the modification of any structure, the change of proportionate relationship or the adjustment of size, do not influenceing this hair Under bright the effect of can be generated and the purpose that can reach, it all should fall and obtain the model that can cover in presently disclosed technology contents In enclosing.Meanwhile in this specification it is cited such as " on ", " interior ", " outer ", the term of " bottom " and " one ", be merely convenient to chat That states understands, and is not used to limit the enforceable scope of the present invention, and its relativeness is altered or modified, and skill is being changed without essence Held in art, when being also considered as the enforceable category of the present invention, conjunction is first chatted bright.

Referring to Fig. 1, its structural representation for the air-conditioning device of the present invention.As illustrated, the present invention provides a kind of sky Device is adjusted, main to include multiple air channel modules 1 with the relative end 12 of first end 11 and second, respectively the air channel module includes temperature Degree adjustment unit 2, air-flow guide unit 3, energy conduction module 4 and power supply module 5, thermostat unit 2 are arranged at air channel Second end of module 1, thermostat unit 2 have to produce the first side 21 of the first temperature range, and relative to first Side 21, to produce the second side 22 of second temperature scope, air-flow guide unit 3 is arranged at air channel module 1, can be between Between the end 12 of one end 11 and second, energy conduction module 4 is arranged between thermostat unit 2 and air-flow guide unit 3, power supply Module 5 provides each thermostat unit 2, air-flow guide unit 3 and energy conduction module 4 and operates required power supply.

Air-flow guide unit 3 can be fan, first end 11 that the position set by it can be in air channel module 1, the second end 12 Or it is to be arranged between the end 12 of first end 11 and second as saying in the present embodiment between the end 12 of first end 11 and second It is bright, air-flow is produced when fan rotates, the flow direction of air-flow is that the arrow in Fig. 1 and aftermentioned Fig. 3 such as points to D1, makes air-flow Flowed into from the first end 11 of air channel module 1, through that can meet energy conduction module 4 after passing through fan, energy conduction module 4 can add Strong energy conduction intensity, is then passed through after the first side 21 or second side 22 of thermostat unit 2, thermostat unit 2 can be cooling wafer, and first side 21 or second side 22 can be refrigeration end or pyrogenicity end, and air-flow passes through thermostat unit 2 Cold air or heating can be formed according to user's demand, then be flowed out from the second end 12 of air channel module 1.

Energy conduction module 4 may include storage element 41, atomization unit 42 and eruption unit 43, and storage element 41 can be storage Water tank, atomization unit 42 can be atomizer, and the function of atomizer is will to be stored in the liquid of storage element 41, mainly liquid Water, gaseous molecular is converted into, that is, the aqueous vapor being atomized, is spilt into afterwards through eruption unit 43 by aqueous vapor is atomized in air channel module 1 Portion, its loss direction are that the arrow in Fig. 1 such as is pointed to shown in D2, and in one embodiment of this invention, this air-conditioning device can also wrap Liquid energy conducting element 6 is included, liquid energy conducting element 6 can be cascade module, and liquid energy conducting element 6 may be provided at wind Between the first end 11 and air-flow guide unit 3 of road module 1, mainly to purify to enter from the first end 11 of air channel module 1 in advance The air come, and also have the effect for reducing the air themperature introduced from the first end 11 of air channel module 1.

In other words, the embodiment shown in Fig. 1 is that air is via air-flow guide unit 3 with the concept to cool twice Drive form air-flow and entered by the first end 11 of air channel module 1 inside air channel module 1, entered by liquid energy conducting element 6 Row cools for the first time, then the second end 12 of air channel module 1 is from bottom to top oriented to by air-flow guide unit 3, central to first pass through energy Amount conducts module 4 and adds the aqueous vapor through atomization so that the humidity increase in air, can increase air themperature in the environment of heat Endothermic effect, it can then increase in cold environment and inhale cold effect, finally by the refrigeration or pyrogenic action of thermostat unit 2, It is to carry out refrigeration in the present embodiment, therefore air-flow carries out second together with the conditioned unit 2 of stream of water molecule in air Secondary cooling, cold degree in Water Molecular Adsorption air channel and export in the second end 12.

Referring to Fig. 2, its functional block diagram for the air-conditioning device of the present invention.The air-conditioning device of the present invention may include to control again Module 7, to control keying or the configuration of each thermostat unit 2 or air-flow guide unit 3.Preferably, described keying or Configuration, may be, for example, the switch and intensity of load for controlling thermostat unit 2 (such as cooling wafer), or air-flow guiding Switch, duration of runs length and the regulation of rotating speed speed of unit 3 (such as fan).Described power supply module 5 can also provide Control module 7 operates required power supply.

In one embodiment of this invention, preferably, control module 7 may include setup unit 71, setup unit 71 to The critical-temperature of each air channel module 1 is set, and exports the first corresponding control signal according to this and gives each thermostat unit 2 or gas Guide unit 3 is flowed, each thermostat unit 2 or air-flow guide unit 3 perform keying or configuration according to first control signal again.

In the embodiment shown in fig. 2, air-conditioning device of the invention may include to detect module 8 again, to detect air-flow Air-flow caused by guide unit 3 is from the temperature during outflow of the second end 12 of air channel module 1, and temperature signal passes corresponding to generation Control module 7 is delivered to, control module 7 is corresponding according to the critical-temperature set by setup unit 71 and the temperature signal, output again The second control signal to each thermostat unit 2 or air-flow guide unit 3, each thermostat unit 2 or air-flow guide unit 3 Described keying or configuration will be performed according to second control signal.

More specifically, the multiple duct module signal for the air-conditioning device for being the present invention and please be closed refering to Fig. 3 and Fig. 4, Fig. 3 Figure, Fig. 4 are the multiple duct module operation workflow figure of the air-conditioning device of the present invention.For possessing the present invention of multiple air channel modules 1 Air-conditioning device for, the distribution of running efficiency in each air channel module 1 largely determines the whole of the air-conditioning device of the present invention Body delivery efficiency, can also be issued to the refrigeration intensity of maximum in fixed energy load, and the present embodiment shows two air channels Module 1A and 1B operation steps S1 to S11, but not limited to this, can be easily for the personage for possessing usual knowledge in this area Spread to the running of more air channel modules 1.

It is step S1 first, two air channel module 1A and 1B critical-temperature, the critical-temperature is set through setup unit 71 It is each target temperature value to be reached in the running of air channel module 1, and starts the thermostat unit 2 and gas of each air channel module Guide unit 3 is flowed, then, carries out step S2 and S3, air channel module 1A and 1B air-flow guide unit are adjusted through control module 7 3A and 3B are low-load (such as 30% load, rotation speed of the fan are relatively low) or zero load, and now two air channel modules are all being stored Cold, control module 7 can apply such as inverter motor technology, allow air-flow caused by air-flow guide unit 3 not to be merely on or off, and It is the adjustment that can have air-flow size.

Afterwards, step S4 to S7 is carried out, air channel module 1A and 1B real-time temperature are sensed through detecting module 8, works as air channel When module 1A real-time temperature is less than or equal to refrigeration critical-temperature threshold, switch air-flow guide unit 3A through control module 7 Enter behavior high capacity (such as 70% load, rotation speed of the fan are higher) or full load, allow air channel module 1A to carry out cold scattering, detect mould Group 8 can't perform first time temperature detecting for air channel module 1B, allow air channel module 1B to continue cold-storage, it is therefore an objective to and air channel Module 1A time sequences stagger, and afterwards when air channel module 1B real-time temperature is greater than or equal to cold scattering critical-temperature threshold When, switch air-flow guide unit 3B through control module 7 and enter behavior low-load or zero load.

Then it is that repeat step S4 and S5 order detecting modules 8 sense air channel mould to carry out step S8 to S11, step S8 and S9 again Group 1A and 1B real-time temperature, when air channel module 1A real-time temperature is greater than or equal to cold scattering critical-temperature threshold, through control Molding group 7 switches air-flow guide unit 3A and enters behavior low-load or zero load, allows air channel module 1A to carry out cold-storage, and works as air channel mould When group 1B real-time temperature is less than or equal to refrigeration critical-temperature threshold, switches air-flow guide unit 3B through control module 7 and enter Behavior high capacity or full load, air channel module 1B is allowed to carry out cold scattering.

In this way, by the repetitive cycling mode of so alternately refrigeration, the output of this air-conditioning device is allowed to be able to maintain that stabilization Low temperature, and effectively save the energy, in addition, except allowing control module 7 to control the load of air-flow guide unit 3, it can also allow control Module 7 adjusts the load of thermostat unit 2, via the concept effectively distributed, the efficiency of lifting refrigeration or pyrogenicity.

Please referring back to Fig. 1 to Fig. 3, as illustrated, the air-conditioning device of the present invention is in multi-air duct structure or single air channel Under the embodiment of structure, it all may include to collect wind unit 9, collection wind unit 9 has air intake vent 91 and air outlet 92, the direction of air intake vent 91 Second end 12 of each air channel module 1, and detect module 8 and may be provided at air outlet 92.Preferably, air-conditioning device of the invention can The air-flow of multiple 1 output of air channel module can be collected using single collection wind unit 9, to increase refrigeration or pyrogenicity efficiency.

In summary, air-conditioning device of the invention is to be different from traditional air-conditioning device, is to add the aqueous vapor after atomization The air-flow as caused by fan, in the lump by the refrigeration air channel of cooling wafer, allow the air-flow with humidity can be because gas moisture Refrigeration reason increase heat conduction velocity so that human body feels colder, allow user without need for cold air temperature again and again Continue to adjust to low temperature, there is the effect of relative energy-conservation.

Above-described embodiment is to the principle and its effect of the illustrative present invention, not for the limitation present invention.Appoint What those skilled in the art can modify under the spirit and scope without prejudice to the present invention to above-described embodiment.Cause This scope of the present invention, should be as listed by claims.

Claims (10)

1. A kind of 1. air-conditioning device, it is characterised in that including：

   Multiple air channel modules, respectively the air channel module there is relative first end and the second end, respectively the air channel module includes：

   Thermostat unit, it is arranged at the second end of the air channel module, and the thermostat unit has to produce the first temperature The first side of scope is spent, and relative to the first side, to produce the second side of second temperature scope；

   Air-flow guide unit, it is arranged between the first end of the air channel module, the second end or first end and the second end, to make gas Flow and flowed into from the first end of the air channel module；And

   Energy conduction module, it is arranged between the thermostat unit and the air-flow guide unit, to strengthen the air-flow Energy conduction intensity, to make the air-flow by the first side or second side of the thermostat unit and then from the air channel The second end outflow of module；And

   Power supply module, it is operated to provide the respectively thermostat unit, the air-flow guide unit and the energy conduction module Required power supply.
2. 2. air-conditioning device according to claim 1, it is characterised in that wherein, the energy conduction module includes again：

   Storage element, it is storing liquid；

   Atomization unit, it is will be stored in the liquid transition of the storage element into gaseous molecular；And

   Unit is erupted, it by the gaseous molecular spilling into the air channel module internal.
3. 3. air-conditioning device according to claim 1, it is characterised in that also including liquid energy conducting element, it is arranged on Between the first end of the air channel module and the air-flow guide unit, wherein, the power supply module also passes to provide the liquid energy Power supply needed for guiding element running.
4. 4. air-conditioning device according to claim 3, it is characterised in that wherein, the liquid energy conducting element is cascade mould Group.
5. 5. air-conditioning device according to claim 3, it is characterised in that also include control module, it is controlling the liquid The keying of energy conducting element or configuration, wherein, the power supply module also operates required power supply to provide the control module.
6. 6. the air-conditioning device according to claim 1, it is characterised in that also include control module, it respectively should to control The keying of thermostat unit or air-flow guide unit or configuration, wherein, the power supply module is also transported to provide the control module Power supply needed for making.
7. 7. air-conditioning device according to claim 6, it is characterised in that wherein, the configuration includes the respectively thermostat unit Load or the air-flow guide unit running speed or working time.
8. 8. air-conditioning device according to claim 7, it is characterised in that wherein, the control module includes setup unit, and this sets Order member exports the first corresponding control signal and gives the respectively temperature according to this to set the critical-temperature of the respectively air channel module Adjustment unit or air-flow guide unit, and wherein, respectively the thermostat unit or air-flow guide unit also to according to this first Control signal performs keying or configuration.
9. 9. air-conditioning device according to claim 8, it is characterised in that also include detecting module, it is detecting the air-flow From the temperature of second end outflow, and to produce corresponding temperature signal, then transmit and give the control module, wherein, the control Molding group is according to the critical-temperature set by the setup unit and the temperature signal, exporting the second corresponding control signal Give the respectively thermostat unit or air-flow guide unit, and wherein, respectively the thermostat unit or air-flow guide unit also to Keying or configuration are performed according to second control signal.
10. 10. air-conditioning device according to claim 9, it is characterised in that also include collection wind unit, the collection wind unit have into Air port and air outlet, the air intake vent towards the second end of each air channel module, wherein, the detecting module is arranged at the air outlet.