CN102052737B - Air-conditioning device - Google Patents

Abstract

The invention relates to an air-conditioning device, wherein the humidity adjustment according to the breathing space of users is easy and the miniaturization of the device is realized.Meanwhile, unnecessary power consumption is avoided.The interesting appearance of the device is provided by the housing of the device equipped with cartoon characters.The air-conditioning operation characteristics of the device can also be adjusted by the standing state of the housing.

Description

Conditioner

Technical field

The present invention relates to a kind of conditioner, at least one relating in particular in changing according to the angle of the specific region of the upright angle variation of shell and shell described above changes the conditioner of air conditioning acting characteristic.

Background technology

Conventionally conditioner is carried out the function of temperature, humidity, air-flow and the air cleanliness etc. that regulate air, so that the air of specific region meets application target.

For airborne humidity, as high in humidity, easily there is rotten, burn into condensed water phenomenon, and produce stench and bacterium, thereby in hospital, the electrical equipment that is not suitable with moisture, communication and various electronic equipments etc., need to install the device of removing this moisture.

On the contrary, if humidity is too low, indoorly become dry, produce harmful symptom, particularly dry weather or winter not only cold but also dry air and reduce body immunity, play the decisive role that makes virus wait invasion, thereby require to supply with the device of moisture.

Here, regulate the conditioner of the humidity of the interior space to be roughly divided into dehumidifier and humidifier, dehumidifier is carried out and to be removed the moisture comprising in the air being inhaled into the function of discharging dry air to the interior space, and humidifier is carried out to the air supply moisture being inhaled into the function of discharging malaria to the interior space.

Dehumidifier is formed with respectively suction inlet and outlet at the shell that forms outward appearance, in the inside of shell, forms kind of refrigeration cycle, utilizes blowing fan to get rid of dehumidified air, with the humidity in conditioning chamber.

But, dehumidifier is in the past mainly used in removing the not moisture in space local space, as rather spacious in living room, room etc., and main by utilizing the kind of refrigeration cycle of refrigerant gas to form, thereby exist power consumption very large, the drawback that installing space is large.

On the other hand, humidifier is a kind of for regulating the conditioner of humidity, provides moisture to maintain comfortable indoor design condition to dry place.

This humidifier is divided into ultrasonic wave mode, mode of heating, complex method according to the mode of manufacturing steam, is specially ultrasonic wave mode and utilizes ultrasonic wave to make water vibration and become minuteness particle spraying; Mode of heating makes water become steam spraying by heating; Complex method is used ultrasonic wave mode and heater mode simultaneously.

But heated humidifier exists power consumption large, be with the naked eye difficult for differentiating the problem of the steam spraying, thereby use the humidifiers that utilize ultrasonic wave mode more recently.

On the other hand, ultrasonic wave mode humidifier consists of the tank and the oscillator that store the water tank of water, be connected with above-mentioned water tank and maintain certain water level, and above-mentioned oscillator is located at the bottom surface of above-mentioned tank, and the hydrone in vibration tank, produces fine water particle.

If the room air of family or office etc. is contaminated, become moist or dry, can be harmful to the human body of living or working, thus dehumidifier as above and humidifier are set respectively.

But, if this dehumidifier and humidifier are set respectively, just need to arrange space respectively, cause arranging space and become large, and produce extra buying expenses.

And dehumidifier in the past and humidifier are not for user's breathing space or need the local spaces such as precision instrument of controlled humidity, but for removing the relatively moisture of wide space such as living room or office, thereby increase on foot unnecessary power consumption.

Summary of the invention

The object of the present invention is to provide a kind of conditioner, in can changing according to the angle of the specific region of the upright angle variation of shell and shell, at least one, change air conditioning acting characteristic.

Another object of the present invention is to provide a kind of conditioner, the easy humidity of metering needle to user's the local spaces such as breathing space, and have both dehumidifying and humidification function.

Another object of the present invention is to provide a kind of conditioner, can not use cold-producing medium and compressor, can realize miniaturization and can prevent unnecessary power consumption.

Another object of the present invention is to provide a kind of conditioner, can provide by cartoon figure and wait the shell of given shape to provide interesting profile to user, and can change air conditioning acting characteristic or switch dehumidifying and humidification function according to the standing state of above-mentioned shell.

In order to achieve the above object, according to the invention provides a kind of conditioner that following content is feature of take, comprising:

Shell, has air suction inlet and air outlet;

More than one air-conditioning unit, is located at above-mentioned enclosure;

Sensor, changes and the angle of the specific region of above-mentioned shell at least one angle in changing changes for detection of the upright angle at above-mentioned shell; And

Control part, according to the testing result of the sensor, changes the acting characteristic of above-mentioned air-conditioning unit.

And, the invention is characterized in, above-mentioned shell comprises the first noumenon and the second body, and this first noumenon has air suction inlet, and this second body is arranged on above-mentioned the first noumenon revolvably, and has air outlet,

Above-mentioned control part changes according to the upright angle of the first noumenon or above-mentioned the second body changes with respect to the angle of above-mentioned the first noumenon, changes the acting characteristic of above-mentioned air-conditioning unit.

And, the invention is characterized in, above-mentioned air-conditioning unit is included at least one module in humidification module, dehumidification module, cooling and warming module and air-purifying module.

And, the invention is characterized in, in the situation that above-mentioned air-conditioning unit comprises humidification module, at least one angle during above-mentioned control part changes according to the angle of the specific region of the upright angle variation at above-mentioned shell and above-mentioned shell changes to change humidification amount.

And, the invention is characterized in, in the situation that above-mentioned air-conditioning unit comprises humidification module and dehumidification module, at least one angle during above-mentioned control part changes according to the angle of the specific region of the upright angle variation at above-mentioned shell and above-mentioned shell changes to switch humidification and dehumidifying action.

According to conditioner of the present invention, it is characterized in that, comprising:

Shell, it has air suction inlet and air outlet, and has the air flow circuit that connects above-mentioned air suction inlet and air outlet;

Dehumidification module, it comprises the thermoelectric element on the air flow circuit being disposed in above-mentioned shell;

Humidification module, it comprises the water storage portion that is disposed in above-mentioned shell and is located at the oscillator in above-mentioned water storage portion;

Angular transducer, at least one angle during its angle for detection of the specific region of the standing state variation at above-mentioned shell and above-mentioned shell changes changes; And

Control part, it changes the acting characteristic of a certain module according to the testing result of above-mentioned angular transducer, or switches dehumidifying and humidification action.

And, the invention is characterized in, the standing state of above-mentioned shell comprises erectility, the state that couches, heeling condition and inversion state.

And, the invention is characterized in, above-mentioned thermoelectric element comprises endothermic section and heat unit,

Above-mentioned endothermic section and above-mentioned housing contacts.

And, the invention is characterized in, on above-mentioned shell, be respectively equipped with:

The first guide portion, guides to water storage portion by the condensed water of condensation in above-mentioned thermoelectric element;

The second guide portion, guides to air outlet by the fine water particle producing by above-mentioned oscillator.

And, the invention is characterized in, also comprise the humidity sensor for detection of the humidity of the neighboring area of above-mentioned shell.

As mentioned above, according to conditioner of the present invention, in can changing according to the angle of the specific region of the upright angle variation of shell and above-mentioned shell, at least one, change air conditioning acting characteristic.

And, according to conditioner of the present invention, do not use cold-producing medium and compressor and dehumidify, and can realize miniaturization, can prevent unnecessary power consumption.

And, according to conditioner of the present invention, by cartoon figure, wait the shell of given shape, to user, provide interesting profile, can change air conditioning acting characteristic or switch dehumidifying and humidification function according to the standing state of shell.

Accompanying drawing explanation

Consider by reference to the accompanying drawings the description of following preferred embodiment, of the present invention above and other aspects, features and advantages will become more obvious.

Fig. 1 means according to the concept map of the conditioner of first embodiment of the invention.

Fig. 2 means according to the block diagram of the conditioner of first embodiment of the invention.

Fig. 3 to Fig. 5 is for illustrating according to the concept map of a duty of the conditioner of first embodiment of the invention.

Fig. 6 to Fig. 8 is for illustrating according to the concept map of another duty of the conditioner of first embodiment of the invention.

Fig. 9 means according to the concept map of the conditioner of second embodiment of the invention.

Figure 10 means according to the block diagram of the conditioner of second embodiment of the invention.

Figure 11 means according to the concept map of the dehumidifying operating state of the conditioner of second embodiment of the invention.

Figure 12 means according to the concept map of the humidification operating state of the conditioner of second embodiment of the invention.

The specific embodiment

Below, with reference to accompanying drawing, describe conditioner according to an embodiment of the invention in detail.Accompanying drawing diagram exemplary form of the present invention, it just provides in order to illustrate in greater detail the present invention, and technical scope of the present invention not thereby limits.

And, regardless of Reference numeral, for identical or corresponding structural element, give identical label, and omit the repeat specification to this, for convenience of explanation and illustrated size and the shape that respectively forms member can zoom in or out.

On the other hand, the term that comprises the ordinal number such as first or second can be used for illustrating each structural element, but said structure key element is not limited to above-mentioned each term, and above-mentioned each term is only for being different from other structural elements by a structural element.

Fig. 1 means that, according to the concept map of the conditioner of first embodiment of the invention, Fig. 2 means according to the block diagram of the conditioner of first embodiment of the invention.

According to the conditioner 1 of first embodiment of the invention, comprise following part: the shell 10 with air suction inlet 11 and air outlet 12; Be located at the more than one air- conditioning unit 30,40,50 of above-mentioned shell 10 inside; For detection of the upright angle of above-mentioned shell 10 change and the angle of the specific region 13 of above-mentioned shell 10 change at least one sensor 63; And the control part 60 that changes the acting characteristic of above-mentioned air-conditioning unit according to the testing result of the sensor 63.

Above-mentioned air-conditioning unit can comprise at least one in humidification module, dehumidification module, cooling and warming module and air-purifying module.

In the situation that above-mentioned shell possesses an air-conditioning unit, above-mentioned control part 60 can change the acting characteristic that changes above-mentioned air-conditioning unit according to the angle of the specific region 13 of the upright angle variation of above-mentioned shell 10 and above-mentioned shell 10.

For example, in the situation that above-mentioned air-conditioning unit is humidification module, above-mentioned control part 60 can according to the upright angle of above-mentioned shell 10 change and the angle of the specific region 13 of above-mentioned shell 10 change to change humidification module air conditioning characteristic, humidification amount, add wet strength and add wet model etc.

Particularly, if above-mentioned shell 10 is from the first predetermined angle rotation to predefined the second angle, above-mentioned control part 60 increases humidification amount, and if above-mentioned shell 10 is from the first predetermined angle rotation to predefined the 3rd angle, above-mentioned control part 60 reduces humidification amount.

Similarly, in the situation that above-mentioned air-conditioning unit is dehumidification module, above-mentioned control part 60 can according to the upright angle of above-mentioned shell 10 change and the angle of the specific region 13 of above-mentioned shell 10 changes to change the air conditioning characteristic, moisture removal of dehumidification module, except wet strength and dehumidification mode etc.

Particularly, if above-mentioned shell 10 is from the first predetermined angle rotation to predefined the second angle, above-mentioned control part 60 increases moisture removal, and as above-mentioned shell 10 predefined the 3rd angle of rotation from the first predetermined angle, above-mentioned control part 60 reduces moisture removal.

Above-mentioned shell 10 can possess the given shapes such as animal, plant or various cartoon figures, and so that interesting profile to be provided to user, for example, above-mentioned shell 10 can be easily to associate the animal cartoon images such as the elephant of dehumidifying or humidification action or river horse.

As an embodiment, in the situation that above-mentioned shell 10 has elephant shape, can partly form air suction inlet 11 at elephant eyes or buttocks, at the nose of elephant, partly form air outlet 12.

Below, for convenience of description, the situation that limits above-mentioned air-conditioning unit and be humidification module describes, and limits above-mentioned shell 10 and describe for associating the situation of the elephant shape of humidification.

In the situation that above-mentioned shell 10 has elephant shape, air suction inlet 11 can be formed at buttocks and partly go up, and air outlet 12 can be formed in the nose part of elephant.

Above-mentioned humidification module comprises the water storage portion 40 being located in above-mentioned shell 10 and is disposed at the oscillator 30 in above-mentioned water storage portion 40.

Above-mentioned humidification module is humidification water to be made to steam and to spraying in air so that the indoor device being maintained in the useful humidity of human body, humidification module is roughly divided into be utilized mode, the ultrasonic wave mode of heater and uses heater and hyperacoustic mode simultaneously.

Utilize the humidification module of the mode of heater, utilize electric heater etc. that humidification water is heated to predetermined temperature to produce steam, and utilize blowing fan etc. by this steam to indoor discharge, thereby execution humidification, utilize the humidification module of ultrasonic wave mode, utilize oscillator to make humidification water become steam and by it to indoor discharge, thereby carry out humidification.

Although utilize the humidification module of mode of heating to have advantages of, can carry out sterilization to the humidification water in tank, due to the problem that also exists the energy charge of heat tracing to increase, thereby portable use or local space preferably form in ultrasonic wave mode by humidification module.

The oscillator 30 of this ultrasonic wave mode is disposed at the bottom of the water storage portion 40 that stores humidification water, makes stored water become steam, and the fine water particle producing is discharged to outside (interior space) by blowing fan 50.

Above-mentioned water storage portion 40 can be configured to can be with respect to above-mentioned shell 10 water tanks mounting or dismounting, independent etc., but also can be located in one mode a part of region of above-mentioned shell 10.

In the situation that above-mentioned water storage portion 40 is configured to independent water tank, can be formed for holding in a side of shell 10 opening (not shown) of above-mentioned water tank, in the situation that a part of region of above-mentioned shell 10 is used as to water storage portion, can form a hole (not shown), for maybe the water that is housed in water storage portion 40 being discharged to the interior water supply of water storage portion 40.

The sensor is preferably that upright angle for detection of above-mentioned shell 10 changes and the angle of the specific region of above-mentioned shell change at least one angular transducer 63.

Fig. 3 to Fig. 5 is for illustrating according to the concept map of an operating state of the conditioner of first embodiment of the invention.

Above-mentioned control part 60, according to the testing result of the sensor 63, changes the acting characteristic of above-mentioned air-conditioning unit, particularly, change humidification module humidification amount, add wet strength and add at least one in wet model.

Fig. 3 to Fig. 5 represents the situation that the upright angle of shell 10 changes.

As an embodiment, in order to change the upright angle of shell 10, above-mentioned shell 10 can combine with the substructure member B that is positioned over the installation surface of conditioner 1 by hinge h1.

Now, the angle that above-mentioned angular transducer 63 detects above-mentioned hinge h1 changes, and above-mentioned control part 60, according to the testing result of above-mentioned angular transducer 63, is controlled oscillator 30 or blowing fan 50 and changed humidification amount, adds wet strength and add at least one in wet model.

Fig. 3 illustrate shell 10 with respect to substructure member B the situation in erectility (the first angle), Fig. 4 illustrate shell 10 with respect to substructure member B the state to right handed state (the second angle), Fig. 5 illustrate shell 10 with respect to substructure member B to the state (the 3rd angle) of rotation counterclockwise.

With reference to Fig. 3 to Fig. 5, if above-mentioned shell 10 is from the first predetermined angle rotation to predefined the second angle, above-mentioned control part 60 increases humidification amount, and if above-mentioned shell 10 is from the first predetermined angle rotation to predefined the 3rd angle, above-mentioned control part 60 reduces humidification amount.

Fig. 6 to Fig. 8 is for illustrating according to the concept map of another duty of the conditioner of first embodiment of the invention.

Above-mentioned control part 60 changes according to the angle of the specific region of above-mentioned shell, changes the acting characteristic (for example, humidification amount, add wet strength or add wet model) of air-conditioning unit (for example, humidification module).

Above-mentioned shell is divided into the second body 13 that is formed with the first noumenon 10 of air suction inlet 11 and is formed with air outlet 12 and rotatably installs with respect to above-mentioned the first noumenon 10.

Above-mentioned the second body 13 can pass through hinge h2 and the first noumenon 10 combinations, and above-mentioned the first noumenon 10 can be the health of elephant, and the second body 13 can be large trunk.

Now, angular transducer 63 can be located on the hinge h2 as the boundary portion of above-mentioned the first noumenon 10 and the second body 13.

That is, user is by the specific region of rotation elephant shape shell, and for example nose, can change humidification amount, adds wet strength or add wet model.

Fig. 7 illustrates the second body 13 with respect to the situation of the first noumenon 10 inclination the first angles, Fig. 8 illustrate the second body 13 with respect to the first noumenon 10 to right handed situation (the second angle), Fig. 9 illustrate the second body 13 with respect to the first noumenon 10 to the situation (the 3rd angle) of rotation counterclockwise.

Fig. 7 to Fig. 9, if above-mentioned the second body 13 is from the first predetermined angle rotation to predefined the second angle, above-mentioned control part 60 increases humidification amount, and if above-mentioned the second body 13 is from the first predetermined angle rotation to predefined the 3rd angle, above-mentioned control part 60 reduces humidification amount.

Illustrated so far in the interior situation that a humidification module is set of shell 10, but the invention is not restricted to this, in above-mentioned shell 10, not only humidification module can be set, dehumidification module can also be set simultaneously.

Above-mentioned dehumidification module can be comprised of porous dehumidifying filter or thermoelectric element etc.

At least one during above-mentioned control part 60 can change according to the angle of the specific region of the upright angle variation of above-mentioned shell and above-mentioned shell, switches humidification and dehumidifying action.

With reference to Fig. 6 to Fig. 8, as an embodiment, at above-mentioned the second body 13, with respect to the first noumenon 10, maintain under the state of the first angle, can not carry out humidification action and dehumidifying action.

Now, if above-mentioned the second body 13 is from the first predetermined angle rotation to predefined the second angle, above-mentioned control part 60 controllable power portions 61, to drive humidification module, if above-mentioned the second body 13 is from the first predetermined angle rotation to predefined the 3rd angle, above-mentioned control part 60 is controlled power supply unit 61, to drive dehumidification module.

Unlike this, also can be as Fig. 3 to Fig. 5, if the upright angle of shell 10 changes, above-mentioned control part 60 switches dehumidifying and humidification action, as Fig. 7 to Fig. 9, when if the angle of the specific region 13 of above-mentioned shell 10 changes, the acting characteristic that changes dehumidification module or humidification module is mathematical.

And above-mentioned conditioner 1 can also comprise the filter (not shown) that is located at air suction inlet 11 sides, also can comprise for measuring the humidity sensor 62 of the humidity of shell 10 neighboring areas.

Fig. 9 means that, according to the concept map of the conditioner of second embodiment of the invention, Figure 10 means according to the block diagram of the conditioner of second embodiment of the invention.

According to the conditioner 100 of second embodiment of the invention, comprise following part: shell 110, it has air suction inlet 111 and air outlet 112, and has the air flow circuit that connects above-mentioned air suction inlet 111 and air outlet 112; Dehumidification module, it comprises the thermoelectric element 120 on the air flow circuit being disposed in above-mentioned shell 110; Humidification module, it comprises the water storage portion 140 being disposed in above-mentioned shell 110 and is arranged at the oscillator 130 in above-mentioned water storage portion 140; Angular transducer 163, its standing state for detection of above-mentioned shell 110 changes and the angle of the specific region of above-mentioned shell 110 change at least one; And control part 160, it changes the acting characteristic of a certain module according to the testing result of above-mentioned angular transducer 163, or switches dehumidifying and humidification action.

Above-mentioned shell 110 forms the outward appearance of conditioner 100, and above-mentioned thermoelectric element 120 is removed the airborne moisture being inhaled into and dehumidified to carry out.

And the condensed water by above-mentioned thermoelectric element 120 condensations can be stored in above-mentioned water storage portion 140, at the oscillator 130 of above-mentioned water storage portion 140 interior settings, utilize ultrasonic wave to make hydrone vibration, produce fine water particle to carry out humidification.

Above-mentioned shell 110 forms outward appearance, as mentioned above, at internal heat electric device 120, oscillator 130 and water storage portion 140 philosophies along air flow circuit, humidification stream or dehumidifying flow arrangement, due to for dehumidifying or each structural element of humidification can be installed with simple structure, thereby above-mentioned shell 110 is so long as can form air suction inlet 111 and the shape of air outlet 112, just can have various outward appearances.

Particularly, above-mentioned shell 110 can have animal, plant or various cartoon figures' etc. given shape, can provide interesting profile to user thereupon.For example, above-mentioned shell 110 can be easily to associate the zoomorphisms such as the elephant of dehumidifying or humidification action or river horse.

As an embodiment, in the situation that above-mentioned shell 110 has elephant shape, can partly form air suction inlet at elephant eyes or buttocks, at the nose of elephant, partly form air outlet.

Above-mentioned water storage portion 140 can be configured to can be with respect to the independent water tank of above-mentioned shell 110 mounting or dismounting etc., also can be located in one mode a part of region of above-mentioned shell 110.

In the situation that above-mentioned water storage portion 140 is configured to independent water tank, can be formed for holding in a side of shell 110 opening (not shown) of above-mentioned water tank, as shown in Figure 9, in the situation that a part of region of above-mentioned shell 110 is used as to water storage portion, can form more than one hole (not shown), for maybe the water that is housed in water storage portion 140 being discharged to outside for feedwater to water storage portion 140 is interior.

Above-mentioned control part 160 can change the acting characteristic of dehumidification module and humidification module, for example moisture removal, except wet strength, dehumidification mode, humidification amount, add wet strength, add wet model, or switch dehumidifying and humidification action.Above-mentioned control part 160 can carry out the change of above-mentioned acting characteristic and the switching of dehumidifying and humidification action according to the temperature of user's input or the interior space and/or damp condition, this control part 160 is connected with power supply unit 161, by optionally, to thermoelectric element 120 or oscillator 130 power supplies, carry out switching action as above.

According to the conditioner 100 of second embodiment of the invention, in order to detect temperature and the damp condition of this interior space, can also comprise temperature sensor (not shown) and/or humidity sensor 162.

Particularly, can switch dehumidifying and humidification action according to the standing state of shell 110, the standing state of above-mentioned shell 110 comprises erectility, the state that couches, heeling condition and inversion state.

For example, in the situation that the STA representation that one side of above-mentioned shell 110 is contacted with installation surface is erectility, the state that the face adjacent with an above-mentioned side of the above-mentioned shell 110 of the above-mentioned STA representation that couches contacts with installation surface, angle tilt and above-mentioned adjacent face with installation surface do not contact the state of the side that heeling condition represents above-mentioned shell to be scheduled to, inversion state represents the state contacting with installation surface with a side of above-mentioned shell 110 face in opposite directions.

As mentioned above, above-mentioned shell 110 is owing to can having the given shapes such as animal, plant or various cartoon figures, and according to standing state, change the acting characteristic of certain module, or switching dehumidifying and humidification action, thereby can provide various operation senses and happy to user, not only carry out dehumidifying and humidification action thereupon, can also build and coordinate atmosphere with the setting of the interior space.

The various sensors that can also comprise the standing state that detects above-mentioned shell 110 according to the conditioner 100 of second embodiment of the invention, for example, can also comprise and detect shell 110 with respect to the angular transducer 163 of the arrangement angles of the configuration plane of the above-mentioned shell 110 of configuration.

And, as mentioned above, in the situation that above-mentioned shell 110 comprises the second body that is formed with the first noumenon of air suction inlet and is formed with air outlet and rotatably installs with respect to above-mentioned the first noumenon, can for example, in the boundary portion (, hinge part) of above-mentioned the first noumenon and the second body angular transducer be set.

And, according to the conditioner 100 of second embodiment of the invention, also comprising filter module 150, this filter module 150 is arranged on air suction inlet 111 1 sides of above-mentioned shell 110, purifies the air sucking.

Above-mentioned filter module 150 comprises the filter house (not shown) that can install and remove the filter housings (not shown) of air suction inlet 111 sides that are arranged on above-mentioned shell 110 and be housed in above-mentioned filter housings and purify air.

In addition, at above-mentioned filter housings, be formed with suck the suction inlet of room air, for taking into the outlet of taking out the filter gateway of above-mentioned filter house and discharging the air having purified at above-mentioned filter house.

On the other hand, the above-mentioned filter house that is housed in above-mentioned filter housings comprises at least one filter.

Above-mentioned filter can be high efficiency particle air filter, antibacterial air filter, odor removal filter, anti-allergen filter, plasma filter, prefilter etc., by the stacked one kind or two or more structure of this filter, forms above-mentioned filter house.

Above-mentioned prefilter is located at the front side of the direction that flows into air, the effect of the larger dust in its performance filtered air, and carry out antibacterial action and utilize the anti-mildew of copper to process.

(-) of electric current band that above-mentioned plasma filter utilization applies, the electric charge of (+) can remove the pollutant of macroparticle shape, and can collect acarid corpse, pollen, flue gas, mould etc.

Above-mentioned antibacterial air filter is photochemical catalyst antibacterial air filter, and it removes pollutant, the malodor molecule of relatively large particle, and and then above-mentioned prefilter is brought into play secondary antibacterial functions, also except disallergization particle, mould.

Above-mentioned anti-allergen filter is that absorption causes the anti-allergen of allergy (Allergy) and by the filter of its decomposition.

Above-mentioned high efficiency particle air filter is a kind of air cleaner, not only removes airborne fine dust, the effect that also minuteness particles such as dust, acarid corpse, pollen, flue gas (particle), floating mould, animal hair are removed in performance.

Above-mentioned odor removal filter is provided in a side of the comprehensive deodorization filter of the rear side of above-mentioned high efficiency particle air filter, and it is carbon filter a kind of who removes the various tastes such as airborne smoke smell, life stench, changing food waste taste, lavatory stench.

As mentioned above, the various filters of multiple kind can be all installed in above-mentioned shell 110, can form a plurality of filters that are layer structure, putting in order of each filter also can be varied.

And, according to the conditioner 100 of second embodiment of the invention, also comprise blowing fan (not shown), to outside (interior space), discharge the air of dehumidifying or humidification.

Said fan can be used the various fans such as Sirocco fan (sirrocco fan), aerofoil fan, turbofan or cross flow fan, can use applicable fan according to the shape of shell 110 and air flow circuit.

Below, to carrying out the thermoelectric element 120 of dehumidifying action, be specifically described.

Thermoelectric element roughly have as utilize resistance variations in temperature element thermistor (Thermistor), utilize the phenomenon that produces electromotive force because of temperature difference be Seebeck effect (SeebeckEffect) element, to utilize the phenomenon that produces (or generation) heat absorption because of electric current be the element etc. of peltier effect (Peltier Effect).

Wherein, using maximum is the thermoelectric element that has utilized peltier effect, and this thermoelectric element has utilized following phenomenon: the end of 2 kinds of metals is connected, and while switching on, along the sense of current one side terminal heat absorption, the heat release of opposite side terminal.

Now, replace 2 kinds of metals, use the semiconductors such as the different bismuth (Bi) of electrically conducting manner, tellurium (Te), just can obtain bringing into play the Peltier element of efficient heat absorption, exothermic effects.

In thermoelectric element 120, above-mentioned 2 kinds of metals are carried out respectively the function of endothermic section 121 and heat unit 122, at above-mentioned thermoelectric element, generate heat energy from endothermic section 121 the flowing to heat unit 122 of power supply, above-mentioned endothermic section 121 is cooled to below uniform temperature thus, and the humidity condensed in above-mentioned shell 110 is in above-mentioned endothermic section 121 thereupon.

Now, form and can be configured with the state that above-mentioned shell 110 contacts with above-mentioned endothermic section 121 according to the thermoelectric element 120 of the conditioner 100 of second embodiment of the invention.

Thus, in dehumidification process, airborne moisture is condensed in the endothermic section 121 of thermoelectric element 120, and this condensation water collection is also stored in water storage portion 140.

With reference to Fig. 9, the condensed water generating is thus 121 the downward side direction drippage of outer peripheral face along endothermic section, and collects water storage portion 140.

And, because above-mentioned endothermic section 121 contacts with shell 110, thereby condensed water is mobile along shell 110, and because it can flow along the outer peripheral face of shell 110, in the situation that above-mentioned shell 110 has animal or various cartoon figure's shape, build the visual effect of similar perspiration.

According to the conditioner 100 of second embodiment of the invention, also comprise the first guide portion 113, this first guide portion 113 is located in above-mentioned shell 110, and the condensed water in above-mentioned thermoelectric element 120 condensations is guided to water storage portion 140.

Above-mentioned the first guide portion 113 can have various structures, as an embodiment, as shown in Figure 9, can be at the upper osculum forming of the member that is provided with thermoelectric element 120 (not marking Reference numeral).

And the heat unit 122 of above-mentioned thermoelectric element 120 can be configured near water storage portion 140.

As mentioned above, during to thermoelectric element 120 power supply, generate heat energy from endothermic section 121 to the flowing of heat unit 122, the condensation of carrying out for dehumidifying in above-mentioned endothermic section 121, carries out transmitted hot energy release in above-mentioned heat unit 122.

So, the heat energy being released makes the condensate evaporation that is collected and stores, thereby extends between the stage of replacement of water storage portion 140.

On the other hand, as shown in Figure 9, also can be configured to shell 110 inner space can for member (not marking Reference numeral) that thermoelectric element 140 is set for benchmark is divided into a plurality of regions, can form air flow circuit at the upper area of above-mentioned member thereupon, lower area at above-mentioned member forms water storage portion 140, prevents that thus upper area and lower area from occurring mutually to interfere in dehumidification process.

To carrying out the thermoelectric element 120 of humidification action, be specifically described below.

Due to more than 70% being formed by moisture of constitute in human body, if thereby there is no in daily life moisture, can cause a lot of health problems.For example be exposed to for a long time in the situation of dry environment, skin is easily aging and split, and respiratory apparatus becomes dry and easy edema.Particularly, the importance that is exposed to electromagnetic working space humidification in all day becomes large.

Thus, for healthy health, and for efficient processing business, in air, need the moisture that contains appropriate amount.But, recently since summer the long-time situation of conditioner of using become many, thereby it is dehumidified to be included in airborne moisture, is in the winter time to use heating combined equipment due to long-time, not enough thereby airborne moisture becomes.For these reasons, for the humidity regulation under dry environment, use the humidification module of supplying with moisture.

The oscillator 130 of ultrasonic wave mode is disposed at the bottom of the water storage portion 140 that stores humidification water, makes stored water become steam, and the fine moisture particle producing is discharged to outside (interior space) by blowing fan.

And, according to the conditioner 100 of one embodiment of the invention, also comprising the second guide portion 114, this second guide portion 114 is formed in above-mentioned shell 110, and the fine moisture particle being produced by above-mentioned oscillator 130 is guided to air outlet 112.

Above-mentioned the second guide portion 114 can have various structures, can form as illustrated in fig. 9 inside and be formed with pipe of moisture stream etc., and the sectional area that above-mentioned the second guide portion 114 can form the inflow entrance side of moisture is greater than the nozzle of the sectional area of outlet side.

Figure 11 means according to the concept map of the dehumidifying operating state of the conditioner of second embodiment of the invention.

With reference to Figure 11, conditioner 200 comprises shell 210, thermoelectric element 220, oscillator 230 and water storage portion 240.

Above-mentioned shell 200 can have the given shapes such as various animals, plant or cartoon figure as described above, in Figure 11, for convenience of description, illustrates the situation that shell 200 has elephant shape.

Above-mentioned shell 200 has air suction inlet 211 and air outlet 212, as mentioned above, also has the air flow circuit that connects air suction inlet 211 and air outlet 212.

On above-mentioned air flow circuit, configure thermoelectric element 220, the endothermic section of above-mentioned thermoelectric element is configured in the mode contacting with above-mentioned shell 210.

Although not shown at Figure 11, but can be provided with thermoelectric element 220 member near formation osculum, so that the condensed water in thermoelectric element 220 condensations is guided to water storage portion 240, the heat unit of thermoelectric element 220 is configured in the mode near above-mentioned water storage portion 240.

And in the conditioner 200 shown in Figure 11, above-mentioned water storage portion 240 is not configured to independent water tank, and utilizes the bottom shape of shell 210, is integrally formed water storage portion 240.

When carrying out dehumidifying action according to the temperature of user input or the interior space and/or damp condition, the air that flows into air suction inlet 211 along the air flow circuit of shell 210 inside by thermoelectric element 220.

In the process by above-mentioned thermoelectric element 220, airborne moisture is seized by the endothermic section of thermoelectric element 220, thereby becomes the air of relatively dry and discharge to outside by air outlet 212.

At this, condensed water is directed to water storage portion 240 and is collected and stores, and by the heat unit of above-mentioned thermoelectric element 220, a part of condensed water is evaporated.

Figure 12 means according to the concept map of the humidification operating state of the conditioner of second embodiment of the invention.

As mentioned above, control part can be according to the acting characteristic of certain module of the temperature of user's input or ambient air and moisture condition change conditioner 200, or switch humidification and the action that dehumidifies, particularly, can switch according to the standing state of shell 210 humidification and the dehumidifying action of conditioner 200.

Conditioner 200 shown in Figure 12 represents the inversion state of the conditioner 200 shown in Figure 11, and as mentioned above, it represents by switch to the state of humidification action after the standing state of angular transducer 163 detection shells 210 from dehumidifying action.

With reference to Figure 12, the upper area of the shell 210 shown in Figure 11 is carried out the function of water storage portion 241, and this water storage portion 241 can be configured to independent water tank as described above, also can directly utilize the shape of shell 210 to form.

When being disposed at above-mentioned oscillator 230 power supply of above-mentioned water storage portion 241, above-mentioned oscillator 230 switches to mechanical energy by electric energy, produces ultrasonic wave and produces fine water particle.Then, above-mentioned fine water particle guides to air outlet 211 by the second guide portion 214, to outside, discharges.

On the other hand, in the conditioner 200 shown in Figure 11 and Figure 12, each air suction inlet 211 and air outlet 212 can be used separately as air outlet and air suction inlet is mathematical.

So, for carrying out the conditioner 100,200 of humidification and dehumidifying action, there is simple structure, thereby power consumption is low, is convenient to regulate user's zone of action, i.e. the humidity of regional area, good portability.

As described above, according to conditioner of the present invention, easily carry out the humidity regulation for user's the local spaces such as breathing space, particularly do not use cold-producing medium and compressor just can dehumidify, can realize miniaturization, and can prevent unnecessary power consumption.

And, according to conditioner of the present invention, by cartoon figure, wait the shell of given shape to provide interesting profile to user of service, can change air conditioning acting characteristic according to the standing state of shell, maybe can switch dehumidifying and humidification function and use.

Although embodiment is described with reference to its a plurality of illustrative embodiment, but it should be understood that, those skilled in the art can design multiple other modification and embodiment, and these are revised and embodiment will fall in the spirit and scope of principle of the present disclosure.More particularly, in the scope of the disclosure, accompanying drawing and claims, can make various changes and modifications the parts of subject combination setting and/or setting.Change except parts and/or in arranging and revise, purposes that can alternative is also obvious for those skilled in the art.

Claims (7)

1. a conditioner, is characterized in that, comprising:

Shell, has air suction inlet and air outlet;

More than one air-conditioning unit, is located at above-mentioned enclosure;

Sensor, changes and the angle of the specific region of above-mentioned shell at least one angle in changing changes for detection of the upright angle at above-mentioned shell; And

Control part, according to the testing result of the sensor, changes the acting characteristic of above-mentioned air-conditioning unit;

Above-mentioned shell comprises the first noumenon and the second body, and this first noumenon has air suction inlet, and this second body is arranged on above-mentioned the first noumenon revolvably, and has air outlet,

Above-mentioned control part changes according to the upright angle of the first noumenon or above-mentioned the second body changes with respect to the angle of above-mentioned the first noumenon, changes the acting characteristic of above-mentioned air-conditioning unit.

2. conditioner as claimed in claim 1, is characterized in that,

Above-mentioned air-conditioning unit is included at least one module in humidification module, dehumidification module, cooling and warming module and air-purifying module.

3. a conditioner, is characterized in that, comprising:

Shell, it has air suction inlet and air outlet, and has the air flow circuit that connects above-mentioned air suction inlet and air outlet;

Dehumidification module, it comprises the thermoelectric element on the air flow circuit being disposed in above-mentioned shell;

Humidification module, it comprises the water storage portion that is disposed in above-mentioned shell and is located at the oscillator in above-mentioned water storage portion;

Angular transducer, at least one angle during its angle for detection of the specific region of the standing state variation at above-mentioned shell and above-mentioned shell changes changes; And

Control part, it changes the acting characteristic of a certain module according to the testing result of above-mentioned angular transducer, or switches dehumidifying and humidification action.

4. conditioner as claimed in claim 3, is characterized in that,

The standing state of above-mentioned shell comprises erectility, the state that couches, heeling condition and inversion state.

5. conditioner as claimed in claim 3, is characterized in that,

Above-mentioned thermoelectric element comprises endothermic section and heat unit,

Above-mentioned endothermic section and above-mentioned housing contacts.

6. conditioner as claimed in claim 3, is characterized in that,

On above-mentioned shell, be respectively equipped with:

The first guide portion, guides to water storage portion by the condensed water of condensation in above-mentioned thermoelectric element;

The second guide portion, guides to air outlet by the fine water particle producing by above-mentioned oscillator.

7. conditioner as claimed in claim 3, is characterized in that,

Also comprise the humidity sensor for detection of the humidity of the neighboring area of above-mentioned shell.

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