TW201038891A - Air conditioner - Google Patents

Abstract

An air conditioner comprises a housing, a main fan, a heat exchanger, and a discharge generator. The housing is formed with an inlet, an outlet, a main airflow path. The inlet is provided for introducing outside air. The main airflow path extends from the inlet to the outlet. The main fan is disposed in the housing. The main fan is provided for generating a forced flow of the air through the main airflow path. The heat exchanger is disposed in the housing to heat and/or cool the air which flows through the main airflow path. The discharge generator has a casing, an emitter electrode, and an electrical insulator. The casing is formed with an intake, an outtake, and a second airflow path. The intake is provided for taking in the air into the casing. The outtake is communicated with the intake via the second airflow path within the casing in order to pass airflow through the casing. The electrical insulator is made of an electrical insulating material. The emitter electrode and the electrical insulator are disposed within the casing so as to form a discharge space. The emitter electrode is configured to apply high voltage to the discharge space. The emitter electrode has a circumferential surface. The circumferential surface is spaced from an inside surface of the casing by a clearance. The inside surface of the casing is opposed to the circumferential surface of the emitter electrode. The second airflow path is shaped to flow the airflow both through the clearance and the discharge space.

Description

201038891, invention description: TECHNICAL FIELD OF THE INVENTION The present invention relates to an air conditioner. In particular, the present invention relates to an air conditioner comprising a discharge generator that is assembled to generate a corona discharge' for generating an active material such as a free radical. [Prior Art] A conventional air conditioner is disclosed in Japanese Laid-Open Patent Publication No. 2005-138034A. The air conditioner includes a fan and a discharge generator. The fan is assembled to create a forced air flow. The discharge generator has a emitter electrode and an opposite electrode, the opposite electrode being separated from the emitter electrode by a discharge space. The emitter electrode is configured to apply the voltage to the discharge space upon receipt of a voltage, whereby the emitter electrode produces a corona discharge in the discharge space to generate an active substance, such as a radical, in the corona. The forced gas stream carries the active material. However, this corona discharge does not produce a large amount of active material such as a radical. Therefore, conventional air conditioners are difficult to sufficiently deodorize and sterilize a room by a forced air flow carrying an active material. SUMMARY OF THE INVENTION The present invention has been made to solve the above problems. SUMMARY OF THE INVENTION An object of the present invention is to provide an air conditioner having a discharge discharge which is assembled to produce a large urethane substance and which is also assembled to stably generate an active material. In order to solve the above problems, the air conditioner of the present invention comprises a housing, a main fan, a heat exchanger and a discharge generator. The housing is provided with a main air flow path. This inlet is used to introduce outside air. A gas hunger road extends from the entrance to the exit. The main fan is disposed in the housing. The primary fan is configured to generate a forced air 4/36 201038891 flow through the primary airflow path. The heat exchanger is disposed in the housing to heat and/or cool air flowing through the main air flow path. The discharge generator has a housing, a transmitting electrode and an electrical insulator. The casing is provided with an air inlet, an exhaust port and a second air flow path. The air inlet is for drawing air into the casing. The exhaust port communicates with the air inlet through a second air flow path in the housing to allow airflow through the housing. The electrical insulator is made of an electrically insulating material. The emitter electrode and the electrical insulator are disposed in the housing to form a discharge space. The emitter electrode is assembled to apply a high voltage to the discharge space. The hair emitting electrode has a circumferential surface. The circumferential surface is spaced from the inner surface of one of the casings by a gap. The inner surface of the casing is opposite to the circumferential surface of the emitter electrode. The second airflow path is shaped to flow airflow through the gap and the electrical space. The air conditioner under this condition is assembled to generate a large amount of active material by generating a discharge in the discharge space. Further, the active material generated in the discharge space is immediately carried by the air flowing through the discharge space. Further, the emitter electrode is cooled by the air flowing through the S-H discharge space. Therefore, this 〇 〇 makes it possible for the air conditioner to generate a large amount of active material stably and for a long time. Preferably, the discharge space is defined by a first space and/or a second space. The electrical insulator is spaced from the emitter electrode by a gap that defines the first space. The electrical insulator is provided with an opening that extends through the electrical insulator and defines the second space. Preferably, the air conditioner further includes a filter, the filter being located downstream of the inlet. The vent is located downstream of the filter. Preferably, the air conditioner further includes a filter located downstream of the inlet. The air vent is located at the upstream of the filter to the damper. Preferably, the air conditioner further includes a filter located downstream of the 5/36 201038891 filter. The discharge generator is further configured to be operable in a - - position and - a second positioner, the exhaust being moved when the selector is placed in the first position. When the selector is in the second position, the ^ has a first tuyere. When the air outlet. The first tuyere is located at the filter port shaped to have a second filter upstream or directed downstream of the filter. Preferably, the second tuyere further includes a filter downstream. The vent is divided into 1 ^ 11 ' 5 彡 filters located at the first air plenum downstream of the filter. ^ mouth and - the second air outlet. Or upstream of the filter. w The first tuyere is located in the filtration. Preferably, the heat exchanger is assembled to be water. The air conditioner further includes a water supply device = condensed into a gas supply to the casing - (d). Λ', the assembly is made to water, and the discharge generator further includes - from the bucket, the water benefit and the water diffusion component are estimated. §Hui% water is positioned between the +', ^^/, and side insulators of the vent plate. The water diffusion device is configured to evaporate and/or atomize water on the reservoir. [Embodiment] 7 . First Embodiment First, an air conditioner in the present invention will be described with reference to the accompanying drawings. Figure 1 is a side cross-sectional view showing the air conditioner. Head 2 shows the front view of the air conditioner. The air conditioner 100 of the present invention comprises a housing 110, a main fan 200, a heat exchanger 300, a filter 400 and a discharge generator 5A. In addition, the air conditioner 100 further includes a power source not shown. The cover 形成 is formed with an inlet 120, a main outlet 130, an auxiliary outlet 131, a partition wall 150, a main air flow path 140 and an auxiliary air flow path 141. The primary airflow path 140 extends from the inlet 120 to the primary outlet 13A. The partition wall 6/36 201038891 150 is disposed in the outer cover 110. The dividing wall 150 is shaped to separate the second air flow path 141 from the main air flow path 140. Therefore, the auxiliary air flow path 141 branches off from the main air flow path 140. The main fan, the heat exchanger 300, the damper 400, and the discharge generator are disposed in the housing 110. Specifically, the main fan 200 is positioned within the primary airflow path 14A. Thus, when the main fan 200 is activated, the main fans 2 (8) establish a forced air flow. The forced air flow is directed through the main air flow path 14 from the inlet 120 to the main outlet 130. According to one of the directions of the force flow, 上游 upstream is defined as one of the upstream positions of the forced air flow. Similarly, "downstream" is defined as the downstream location of one of the forced airflows. The heat exchanger 3 is located upstream of the main air flow path 140 and the auxiliary air flow path 141. The main fan 2〇〇 and the heat exchanger 300 are both driven by electric power from the power source. The filter 400 is positioned between the heat exchanger 300 and the inlet 12A. Therefore, the filter 400 is disposed downstream of the inlet port 20. The discharge generator 5 is positioned in the auxiliary outlet 131 so as to be positioned within the second air flow path 54A. The 玄 5 main fan 200 is assembled to generate a forced air flow from the inlet 120 through the main air flow path to the main outlet 13 。. Therefore, the inlet 12 is charged to the upstream side of the main rolling flow path 140. The main outlet 130 acts as a downstream side of one of the main air flow paths 140. The heat exchanger 300 includes an evaporator and a condenser. The evaporator is assembled to condense the air vapor in the outer casing into water. The heat exchanger 3'' is assembled to heat and/or cool the air in the outer casing 110 to send a cool air and/or a hot air from the main outlet 130 to the outside of the outer casing n. Therefore, the cooling air and/or a hot air flows through the main air flow path. 7/36 201038891 The filter 400 is assembled to filter air flowing from the outside of the outer cover lio to the inside. Therefore, the filter captures the odor of the air and the pathogenic substance of the fungus. Xiang should not discharge. The circle... is called Xiaotu. The discharge generator 500 has a casing 510, an emitter electrode 56, an electrical insulator 570, a high voltage source 580, and an auxiliary fan 550. The casing is formed with an inner circumferential surface 5n. The casing 51 is formed with a -= port 520, an exhaust port 53A, and a second air flow path 54, whereby the port communicates with the air inlet 520 through the second air flow path 540. The second airflow path 54G extends from the air inlet 52〇 to the exhaust D: = the fan 550 is positioned in the intake port 52〇. The air inlet 52 is used for the two:::: shell. Therefore, the air inlet 52 〇 serves as the second air flow path. The exhaust port 530* is on the downstream side of the second air flow path 540. The exhaust port 530 is located below the filter 4, such as in the casing 51. The hair is made of materials that are known by the genus, the genus, and the ν-Yuanshu. The emitter electrode 56 〇 ::= 5: 嶋 electrode is formed with an outer circumferential surface 2 561 in the casing 510 so that the outer circumferential surface 511 of the outer circumferential surface is opposed. Therefore, the emitter electrode 560 is separated by a gap; From the inner circumferential surface 511 of the casing 510, wherein == is formed in a plate shape. The electrical insulator - too thick 2, the opening 572 extending through the electrical insulator 570 from the "_°°$$ opening 572 having a diameter of several hundred microns. The electrical insulation is made of a conventional material. The electrical insulator is made of a ceramic material of aluminum. The electrical insulator 570 has an outer circumferential surface 571 of 8/36 201038891. The electrical insulator 570 is disposed within the housing 510 such that the outer circumferential surface 571 is opposite the inner circumferential surface 5ι. Therefore, the outer circumferential surface 571 of the electrical insulator 570 is spaced apart from the inner circumferential surface 511 of the casing 510 by a gap 512. The electrical insulator 5 is separated from the germanium emitter electrode 560 by a gap 573 of several hundred microns. The gap 573 and the opening 572 serve as a discharge space. This gap 573 is defined as a first space. The void 512 is defined as a second space.

The voltage source 580 is further configured to apply a high voltage to the emitter electrode 560 such that the emitter electrode 56 applies the high voltage to the discharge space. The auxiliary fan 550t is configured to allow the contact gas to flow through the second gas flow path. The air flowing from the port 52 to the exhaust port 53 flows through the 540' and the second air path 540 includes the gap 512, the gap 573, and the opening 572. The operation of the daily air machine 1〇0 is as follows. When the air conditioner 100 starts the day* fan and the heat exchange 11 is powered by the power source. When receiving, enter into 'the main wind belongs to 2. The forced air flow is generated by the forced air flow 1W. According to the forced air flow, the outer cover 1 nrv 入口 inlet 120 and the filter 400 are introduced into the outer unit 4. . When, the gamma. . Clean air is generated from this. The pathogenic substance of the cockroach fungus 'by means of the cleaning device in the 働 働 : , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , . The Lord then flows through the community along the community (10) and outside. Thus, #, "the air of the domain section is sent to the work machine 100 of the outer cover to generate the conditioned air, and 9/36 201038891 provides the adjusted air to the room. When the machine 100 starts up The discharge generator 500 is also activated. When the generator 5 (8) is started, the high voltage source is started to be finely applied to the (four) pole 56G, and the auxiliary fan. When the voltage is received from the high voltage source, the transmitting electrode is $ &_milk and discharge space 574 of the gap 573. Change =: Γhai high voltage is applied to the discharge space 574 in response to the application of ι; Π7!! Γ to generate hundreds of discharges. Preferably, the The emitter electrode 560 is assembled to discharge a discharge of several hundred ampere to several tens of milliamperes. However, since the discharge package '^the emitter electrode 560 and the electrical insulator 570 are to be twisted, the discharge generated between the specific 570 is 570. Therefore, the active material of the nitrogen oxides::: radicals, nitrate ions and, in addition, when the high voltage is applied to the transmitting electricity; the second wheel 560 generates - high-density fine electricity. Therefore, the electric power occurs in Short coffee shouts a lot of activity fresh. Fan assist fan 550 receives high When the pressure is applied, the auxiliary port 53 is 〇. According to the 'money flow, the exhaust gas 30 is guided from the air inlet 52〇, and the air is transmitted from the outside through the air inlet {Π1:, and the vent 510 passes through the air outlet. 530 is transferred to the outside of the air flowing through the gap, the opening said that the air in the casing 510 is blown to the ==== hair, and the air flow of the air flow 1 512 is divided into - the first airflow 10/36 201038891 • and: the first air flow, the first air flow flows through the gap 573 and the opening 572, and the airflow flows through the surface of the electric barrier 570 and the casing 51〇 a gap between the inner surfaces. The first air stream is then added to the second air stream and sent to the outside of the housing 510. According to the air flow, the opening remains with the active material in the gap 573. The air is carried. Therefore, the active substance is sent to the outside of the casing 510. Further, the air flows through the two gaps 512, and the emitter electrode 560 and the electrical insulator 57 are cooled by the airflow. The generated heat is cooled by the air flow. In this manner, the assist fan 550 generates the air flow, which cools the air flow. The emitter electrode 56 and the electrical insulator 57G carry an active material. The nitroxides and peroxide radicals of the active substance deodorize and sterilize the room, extinguish the allergen, and make the agricultural chemicals and The organic matter is degraded. The nitrate ions and nitrogen oxides of the active material keep the hair and skin weakly acidic, and also make the hair and skin moist. As described above, the air conditioner of the present invention includes a cover, a fan, and a heat exchange. And a discharge generator. The housing is provided with an inlet, an outlet, and a primary air flow path for introducing the air from the outer side of the outer cover 110. The outlet is for sending the air to the outside of the housing U〇. The primary airflow path extends from the inlet 120 to the primary outlet 130. The fan is disposed in the housing. The main fan is assembled to generate a forced air flow through the primary airflow path. The heat exchanger is disposed in the housing to heat and/or cool air flowing through the main air flow path. The discharge generator has a casing, an air inlet, an exhaust port and a second air flow path. The air inlet is for drawing air into the casing 510. The exhaust port is for transmitting the air to the outside of the casing 510. The second airflow path communicates the air inlet 520 with the air outlet 530. The second airflow path is for passing the airflow through the second 11/36 201038891

Airflow path. The discharge body, and the high-voltage source: the 235-wave emitter electrode 560, the electrically-insulated emitter electrode, and the electrically-insulated two-two edge body are made of an electrically insulating material. This space is not. The two bodies are placed in the casing to have a discharge 574. The transmitting electrode: two: applying a rolling pressure to the gap between the children in the discharge space. The internal surface of the age: picking the political surface relative. The circumference of the second air jet and the discharge space 574. The flow of the active material is provided to be formulated to deodorize and sterilize the room. In addition, the %c air-machine is equipped with the airflow to cool the emitter electrode 5: it is possible to stably produce a large amount of active material through the shell. This assembly, in addition, allows the fan generator to force the airflow to be established. The supplement is followed by the delivery of the active substance. In addition, this === may immediately cool the emitter electrode. The heart also makes it possible to note that the main fan 2 is downstream of the device 300. However, visible 4 = 400 and the position within the heat exchange hood no. That is, there is ^; = text = the main fan is fine in the outer fan 200 located in the over-the-top crying two 200, so that the main wind may be 1W π: heat exchanger_upstream. In addition, the port is again provided with a fan 2〇〇, which is positioned between the state 300 and the filter 4〇〇. In addition, the outer cover is formed with the auxiliary air flow path partition wall __ air flow path and the main air flow path. = ςηδ The internal noise generator is capable of supplying the active material to the outside of the outer 12/36 201038891 cover. In addition, the discharge generator further includes an auxiliary fan. Thus, the release occurs as soon as the active material is provided to the outside of the outer cover. Figure 4 shows a variant of the air conditioner. The position where the discharge of the air conditioner 1 此 in this modification is different from that of the air conditioner 100 of the first embodiment. In this variation, the discharge generator 5 is disposed in the housing 11A such that the discharge generator is located in the main air flow path 14A. The discharge generator 500 in this modification also produces the active material. The active material is carried by a forced air flow from the main fan 200 through the primary airflow path 140. Further, the forced airflow cools the emitter electrode 56A. Therefore, this configuration also makes it possible to stably generate a large amount of active material. Figure 5 shows another variant of the §Hai air conditioner. The position of the discharge generator 500 of the air conditioner 100 in this modification is different from that of the air conditioner 100 of the first embodiment. In this variation, the discharge generator 5 is disposed upstream of the filtered state 400 and downstream of the inlet 120. In particular, in this variation, the discharge generator 500 is disposed within the housing 11 , such that the discharge 发生器 generator 500 is positioned between the filter 400 and the inlet 12 。. Therefore, the discharge generator 500 has the exhaust port 53A located upstream of the helium filtration state 400. With this configuration, the discharge generator 5 generates an active substance and sends the active material to the upstream side of the filter 4〇〇. The active material is carried by the air and flows through the filter 4 to the inside of the outer casing 110, and is transmitted to the outer side of the outer casing n0 through the main outlet 13〇. In this way, the active substance is supplied to the room. Further, when the active material flows through the outer cover 110, the active materials such as hydroxyl radicals and pervaporated radicals are sprayed to the filter 400. Therefore, the filter 400 is deodorized and sterilized by the active material, and the active material 13/36 201038891 deactivates the odor and the pathogenic substance of the fungus extracted by the filter 400. In addition, the active material from the discharge generator 500 also deactivates the allergen extracted by the filter 400. Therefore, the air conditioner 100 having this configuration can have a cleaning filter. It should be noted that in this modification, the air conditioner 100 includes the discharge generator 5A having the exhaust port 530. The exhaust port 530 is located upstream of the filter 400 such that the exhaust port 53 has an exhaust port upstream of the filter 400. However, the air conditioner

A discharge generator 500 having an exhaust port 530 directed to the filter 4 can be used. X Fig. 6(a) and Fig. 6(b) show still another modification of the air conditioner. The discharge generator 5 of the air conditioner 100 in this modification is located differently from the air conditioner 1 of the first embodiment. In this modification, the discharge generator 5 (8) further includes a selector 531. The selector 531 is configured to be movable between a first position and a second position. Fig. 6(a) shows the air conditioner 1〇〇, which includes a β mystery helmet and a discharge generator 500' having a selected state 531 at the first position. As shown in Fig. 6 (8), when the discharge generator 5 (10) includes a selector 531 positioned in the first position, the exhaust port 53 has a first tuyere 532. The first tuyere 532 is located below the filter 4〇〇. Therefore, the discharge generator 500 supplies the active material to the downstream of the over-state 400. Therefore, the active material is sent to the outside of the outer casing (10) without passing through the filter 4〇〇. On the other hand, when the discharge generator of the figure includes the selector 531 positioned in the second position, the exhaust port 53 has a second tuyere 533. The second tuyere is located at the upstream of the filter. Therefore, the discharge generator _ responds to the upstream side of the transition. Therefore, the active material is sent to the outside of the outer cover m through the filter. With this configuration, 14/36 201038891 the air conditioner has the _-, and the wire is configured to provide the active material to the room. It should be noted that this second wind σ 533 can be directed to the destroyer. </ RTI> Figure 7 shows a further variation of the air conditioner 100. The position of the discharge generator 500 of the air conditioner 100 in this modification is different from that of the air conditioner 100 of the first embodiment. In this variation, the air conditioner 1A includes a first discharge generator 501 and a second discharge generator 5〇2. The first discharge generator 5〇1 and the second discharge generator 5〇2 are substantially the same as the discharge generator 500 of the first embodiment, respectively, except for the auxiliary fan. That is, each of the first discharge generator 501 and the second discharge generator 5〇2 includes the casing 510, the emitter electrode 56〇, the electrical insulator 57〇, and the high voltage source alone. The first discharge generator 5〇1 is disposed between the inlet 12〇舆=filter 400. Therefore, the first discharge generator 5〇1 is assembled to produce the active material, and then a large amount of active material is supplied to the (four) crying willow. Therefore, the first discharge generator 5() 1(10) air conditioner (10) is always assembled to generate conditioned air from the clean air. Another electric generator 502 is disposed between the main outlet 13 〇 and the main fan lion. Therefore, the second discharge occurs!| 5G2 is assembled to generate an active material, and then a large amount of active material is supplied to the outer casing (10). Therefore, the air conditioner 100 of the (four) generator 502 is always assembled to supply a large amount of active matter to the room. FIG. 8 shows another modification of the air conditioner 100. The position of the discharge generator of the air conditioner in this modification is different from that of the air conditioner of the first embodiment. Further, the component of the discharge generator in this modification is different from the discharge of the first embodiment. In the middle, the air conditioner (10) includes the discharge generator, and the discharge occurs. 15/36 201038891 500 includes the casing 510', the transmitting electrode 560, the electrical insulator 570, the auxiliary fan 550, and a shunt 534. The flow splitter 534 is configured to divide the exhaust port 530 into the first tuyere 532 and the second tuyere 533. The first tuyere 532 is located downstream of the filter 400. In particular, the first tuyere 532 is positioned between the filter 4〇〇 and the main outlet 3〇 so as to be positioned downstream of the 5th filter 400. On the other hand, the second tuyere 533 is located upstream of the filter 400. In particular, the second tuyere 533 is positioned between the filter 400 and the inlet 12A for positioning upstream of the filter 4 (8). Therefore, when the active material is generated by the g 5 hai discharge generator 5, the active material is sent to the inside of the outer casing 11 through the first tuyere 532 and the second tuyere 533. The active material is supplied to the upstream of the transition vessel 400 through the second tuyere 533 and then sprayed to the filter 4''. Further, the active material supplied to the downstream side of the filter 4 through the first tuyere 532 is sent to the outside of the outer cover 1 through the main outlet 130. According to this variant, the exhaust gas d 530 is further divided into the first tuyere and the second tuyere by the diverter. Therefore, the active material is supplied to the upstream side of one of the transitioners 4 and the downstream side of the filter 4GG. Thus, the air conditioner 100 of this variation has a core 4 filter, $, and is assembled to provide a large amount of the outer side of the active material cover 110. , '' Γ Figure 9 (8) shows the re-model of the air conditioner 100. The position of the discharge generator 500 of the machine 100 in this modification is different from that of the first air conditioner. In addition, the discharge in this variant occurs. Please implement the discharge generator for the specific implementation. In this variant, the two discharge I generator comprises the casing 51G, which is provided with a -first aperture 513. The first aperture 513 is located at the bottom of the pole 560 and the electrical insulator 57. In other words, package 16/36 201038891 is positioned between the exhaust port 530 and the electrical insulator 570. Further, the air conditioner 100 further includes a water supply device composed of a pool (10) and a water supply passage 161. The pool 16 is assembled to receive water dripping from the heat exchange 300. The pool 16 passes through the water supply passage I. Connected to the housing 510. The water supply passage is made of a material such as a felt to cause a capillary action. The water supply passage connects the pool (10) to the casing 51A to supply water to a first portion between the electrical insulator 57 and the exhaust port 53. 〇 *The operation of this air conditioner (10) is as follows. When the air conditioner (10) is started, the main fan 200 and the heat exchanger 3 are powered by a power source. When the power is received, the main fans generate the forced air flow, and the forced air flow is directed from the inlet 120 to the main outlet 13A. According to the forced air flow, the air outside the outer cover n is introduced into the outer cover 11 through the filter 400. When the air flows through the filter 400, the filter 4 filters the air to capture the odor and the true H disease f, which thereby produces clean air. The heat exchanger 300 heats and/or cools the clean air in the outer casing 11 , whereby the heat exchanger produces conditioned air. Further, the heat exchanger 300 condenses the air vapor into the water. In the heat exchanger, the pool 160 is dropped. The main fan 2 causes the conditioned air to flow along the f airflow path UG and then transmits the conditioned air to the outer side of the outer casing through the main outlet m. In this way, the air conditioner just produces the silk of the crepe and supplies the air of _(d) to the room. When the Tian Dhai air conditioner is started, the discharge generator 5 (9) is also activated. When the Tianhaohai discharge generator is turned on, the high-power source starts to apply high voltage to the emitter electrode 560 and the auxiliary fan 55A. The emitter electrode 560 applies the high voltage to the discharge space 574 of the 17/36 201038891 gap 573 from the high voltage. In other words, the emission center is emitted: a return voltage is applied to the discharge f space 574, and (4) is applied to a high voltage of ^ 5 "$ 560, whereby the emission electrode 560 generates a discharge in the discharge two 574. The discharge generated by the electrode 560 and the electrical insulator 570 is U meters, which is a fine recording. Therefore, the discharge generates active substances such as hydrogen peroxide free earth peroxide radicals, nitrate ions and nitrogen oxides. When the turtle pressure is applied to the emitter electrode 560, the emitter electrode 560 produces a high-density fine plasma. Therefore, the discharge generator 500 generates a large amount of active material in a short time. In addition, the 5 Xuanzhu water supply passage 161 uses the pool. "The water in ο is transferred to the discharge generator 5〇〇. Water supplied to a portion between the electric insulator 57 and the exhaust port 53 is evaporated in the casing 51. The discharge generated between the emitter electrode 560 and the electrical insulator 570 reaches a position downstream of one of the electrical insulators. Therefore, the discharge generator 5 (8) efficiently generates an active material by applying the discharge to the steam. Specifically, when the discharge is applied to the vapor in the casing 510, the oxygen molecules (?2) react with water molecules to form hydroxyl radicals. Similarly, when the discharge is applied to the vapor in the casing 510, the nitrogen molecules (?2) react with water molecules to form helium radicals. Further, according to the reaction, the generation of oxygenated water is accelerated. Therefore, the air conditioner having this configuration is assembled to generate a large amount of active material. It should be noted that in this variation, the water supply device is composed of the water pool and the water supply passage. However, the water supply device only needs to include the water supply passage, and the water supply passage is assembled to supply the water of the heat exchanger to the first portion of the casing. Fig. 9(b) shows still another modification of the air conditioner. In this variation, 18/36 201038891, the discharge generator 500 is provided with a second aperture 514 around it. The second aperture 514 is located upstream of the soil and the f-edge. In other words, the first aperture M3 is defined between the money outlet 520 and the emitter electrode 56A. , the air conditioner 1 〇〇. Included by the pool 16Q and the water supply passage 161 is supplied with water that is received from the heat exchanger 300 by 7' and 16'.

The 16G is connected to the casing 510 through the water supply passage 161. The water supply = is made of materials from various domains to create a capillary action. The channel connects the pool 16G to the trace to supply water to the second portion between the 5 watt emitter electrode 560 and the inlet 520. Under this condition, the water in the pool 16 is transferred to the discharge to occur 500. Water supplied between the emitter electrode 56A and the inlet port is evaporated in the casing 510. —&quot; Haixin 1 flows through the discharge space 574 to the outside of the casing. When the gas flows to the discharge space 574, the steam is discharged. Therefore, the ^ electric generator ' is effective _, /1 substance by applying the discharge to the steam. Specifically, when the discharge is applied to the vaporization in the casing 510, the oxygen molecules (02) react with water molecules to form hydroxyl radicals. Similarly, when the discharge is applied to the steam in the casing 51, the nitrogen molecules (A) react with water molecules to form hydroxyl radicals. Further, according to the reaction, the generation of oxygenated water is added. Therefore, this air conditioner is assembled to produce a large amount of active material. In the first embodiment of the invention, the discharge generator 500 includes the emitter electrode 560 and the electrical insulator 570. The electrical insulator 57 is formed with an opening extending through the electrical insulator 57. Further, the electrical insulator 57〇 is spaced apart from the brush electrode 560 by a gap 573. However, the configuration of the emitter electrode 56 and the 19/36 201038891 electrical insulator 570 is not limited to the above configuration. Therefore, the emitter electrode 5 60 and the corresponding The configuration and configuration of the electrical insulator 5 〇 "", that is, the discharge generator 500 requires the emitter electrode and the predetermined condition, that is, when the emitter electrode 560 receives a high voltage to satisfy a predetermined condition 'the emitter electrode 560 And the 〇, 邑, 邑 体 570 is configured to facilitate the formation of the discharge electrode % 570 to form the discharge space 5 # 袼 + 可 can be utilized the electrical insulator 57G, l ^ f generator 500 molybdenum ^ ^ ά eight by '5 Further, the emitter electrode 560 is connected to the emitter electrode 560, and the (four) electrode 560 is spaced apart from the gap 573. In this case, the electrical insulator, the axial extension (four) of the Wei Lai opened two 574. In addition, the discharge generator 500 can also utilize the electrical insulator 570, which is still two or two. In this case, the discharge generator 5GG can utilize the snow r = 9 inter-work. In addition, the gap 573 is spaced apart by 560 and is brought into the opening of the electrical insulator 570 with the five-high emitter electrode formed by the two 570's! ) /2. It should be considered that Fig. 9(a) shows that the water supply channel (6) is downstream of the electrical insulator 570, and the lamp X扒仏 is to the channel (6), which is wide; Figure 9 (cognitively, the water supply should be placed at the position of the casing 51 upstream of the transmitting electrode 560), and (10) the water can be supplied to the electrical insulator, and the two casings such as °H. That is, upstream of the lower ant recording electrode, the air conditioner includes a first portion and a second portion to supply water to the upstream of the casing 510 electrical insulator 570. The first knife. The first part is located in the special part, the water supply/spooning value is downstream of the transmitting electrode 560. The N-suit includes the water tank 16〇 and the water supply passage 20/36 201038891 161. The water supply passage_-main passage and branch The channel 1 water supply channel is configured to be the main channel to supply the water in the pool pair to the fourth knife. The water supply light 161 is assembled into the water supply 160 to supply the second portion. ^The far pool is on the other hand, Preferably, the water supply device comprises the water pool and a second water supply passage. The first water supply passage is assembled to supply water in the water tank (9) to the first portion. The second water supply passage is assembled to The water of the pool 16 is supplied to the second part.

The air conditioner 100 described above includes the discharge generator. The discharge generator 500 has the electrical insulator 57 and the emitter electrode 560 shown in FIG. However, in the present invention, the emitter electrode 560 and the electrical insulator 570 shown in Fig. 16 can be used for the discharge generator 5A. It should be noted that in this variant, the water supply device is composed of the water pool and the water supply passage. The water supply assembly needs to include the water supply passage; and the water supply passage shouts the heat exchange water to a part of the casing. . Figure 10 shows a variant of the discharge generator 5〇〇. In this modification, the emitter electrode 56G of the discharge generator 5GG is different from the discharge generator of the first embodiment. That is, the discharge generator 500 includes the emitter electrode and the electrical insulator 570. The emitter electrode 56 is formed at its center - an opening σ 562 extending through the emitter electrode 56. Therefore, the emitter electrode 56A and the electrical insulator 57 are formed with openings s62, 572, respectively. The opening 562 of the emitter envelope 560 is aligned with the opening 572 of the electrical insulator 57. In this case, the air in the stage 510 flows through the opening 562 in addition to the gap 丨2, the opening 572 and the gap 573. Therefore, air flows directly through the opening 562 to the opening 572. Therefore, flowing through the opening 21/36 201038891 572, the opening 562, the cooling, the cooling of the emission 1 (10) and the air kinetic state 500 of the gap 573 can utilize the poor ρ ^ pole 56 ί) The body 570, which is arranged to emit electricity, in this case, the electrical insulator 570 acts as a heat sink for the emitter electrode 560. Figure 11 shows another variation of the discharge generator. The emission electrode 5 (9) in which the H discharge occurs H is different from the first specific: the discharge generator of the application: that is, the Fina 560 is formed with a plurality of the electric wipes 562. The mouth 562 is offset from the mouth 572 m. The openings 562 are offset from the opening. With this configuration, the air is opened;; f2 is not obliquely spaced from the openings 562, but also flows ttr, the gap 512, and the claws, The sinusoidal opening 562. Therefore, the openings 562 can effectively cool the (four) emitter poles. The material, the pole, can be advantageously provided with a grid-shaped emitter electrode. Figure 12 shows a further variation of the discharge generator 500. In this variant: the emission of the emitter electrode is less than 5 及 and the electrical insulator is different from the A modified discharge generator 5G0. As shown in Fig. 12, the deposition electrode 560 is formed with a plurality of such openings 562. Similarly, the edge body is also formed with a plurality of such openings 572. ^ The gap 573 is aligned with the turn-off σ Μ 2. Therefore, a plurality of such openings 572 serve as the discharge space 574. Therefore, the discharge generator 500 having the configuration is assembled to generate a large amount of active material in a short time. The heat of the emitter electrode is effectively radiated to the air flowing through the openings 562. At the same time, the discharge generator 500 can utilize the electrical insulator 57 to be placed in contact with the emitter. Then, the emitter 22/38 201038891 is transferred to the electrical insulator 57〇 and then lightly radiated to the air flowing through the openings 572. Therefore, the emitter electrode 560 is now also used here. In the case, two: more effectively cold ^ Γ田 0 electric insulator 570 is placed in the casing 51 以 to contact the emitter electrode 570 is also filled with fresh recording. 4,,, 彖, 彖 Figure 13 One of the discharge generators 500 Ο ❹ = a bribe 57 发生 and the emitter electrode 56 〇 is different from the discharge generator 5 苐 of the 施 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 Mouth mud. The electrical insulator is formed with a plurality of such openings, ::: 57° center from the body. In other words, the electrical insulator 2 = an interesting number _ mouth 572, which is a Wei _ body line. Therefore, such The opening 572 does not increase the amount of material with the opening, and effectively cools the emission == also 5 〇〇 one of the other variants. The discharge generator 59 includes an auxiliary fan 550, a first-emission electrode-pole 592, an electrical insulator 57(), and a valve 519. The first emitter electrode 591 is formed at its center by an opening 5 extending through the first emitter electrode 591, and is formed at a center thereof through the second emitter electrode 591 and the second emitter electrode 591. And disposed between the second transmitting electrical (four) two transmitting electrodes 592. In particular, both im and the second emitter electrode 592 are in contact with the electrical insulator. The electrical source is assembled to apply a voltage to the first emitter 23/36 201038891 pole 591 and 5 hai-first emitter electrode 592 between. The first emitter electrode 591 is formed with an opening 562 extending through the first emitter electrode 59. The second transmitting electrode 592 is formed with an opening 593 extending through the second transmitting electrode 592. The electrical insulator 57 is formed with an opening 572 extending through the electrical insulator. The opening 572 communicates with the opening 562 and the opening 593. The first wall 515 is shaped into a cylindrical shape whereby a first passage 517 is formed in the first wall 515. The first wall 515 is for separating the first passage 517 from the second air flow path 141. Therefore, the first wall is disposed in the casing 510 and between the air inlet 52 〇 and the first transmitting electrode 59 , so that the first passage 517 communicates with the opening 562 and the air inlet 52 〇. The first air passage 17 is formed at one end thereof with an auxiliary air inlet 521 which is away from the first transmitting electrode 59. A shut-off 519 is provided in the auxiliary intake "21." The valve 519 is assembled to be adjusted to be introduced into the first passage 3 = the female, and a certain amount of air is continuously introduced into the first passage. The second wall 516 is formed into a cylindrical miscellaneous Thereby, a second passage 518 is formed in the second wall 516. The second wall 516 is used to separate (four) two, 迢 518 and the second air flow path (4). Therefore, the first &quot; == is in the row The gas port 530 and the second emitter electrode communicate with the opening 593 and the exhaust port 5 by /kif 518. In the modified discharge generator shown, when the air conditioner is just moving, the discharge generator 500 is also Startup. Each of the high-voltage sources 580 starts to pick up the high-class 500 and the auxiliary fan 55 (). Since the high,: _ at the transmitting electrode, the launch of the NVC ^ electric soil / original 580 Receiving the high voltage gshi A-electrode 560 applies the high voltage to the discharge space 574 of the gamma. In other words, the squeezing tape 歼 and the gap 573, the discharge spaces 574, X, and the electrode 560 are used for the high voltage library. Between 574' in response to the height applied to the emitter electrode: at 24/36 201038891 by the emitter electrode 560 A discharge is generated in the 5 Hz discharge space 574. The steam is generated by the electrode 560 and the electrical insulator 570. Therefore, the discharge generates a free radical such as chlorine and oxygen free. The active material of nitrate ions and nitrogen oxides is applied to the emitter electrode 560, and the emitter electrode has a fine density. Therefore, the discharge generator 500 generates a large amount of active material in a short time.

The gap 2 is outside because the air that introduces the second air flow path 141 flows through the air, and the first emitter electrode 591, the electrical insulator, and the second emitter electrode 592 are immediately cooled. In addition, since the air of the first passage milk flows through the openings 562, 571 and the other, the live J. bioshell produced at the opening 572 is immediately carried by the air to the exhaust port. Therefore, a discharge is generated in the opening 562 without being affected by the amount of air flowing through the second air flow path k 141. Fig. 15 shows still another modification of the discharge generator 5''. In this variation, the emitter electrode 560 of the 忒discharge generating state 500 and the electrical insulator 57 不同于 are different from the discharge generator 5 该 in the first embodiment. The discharge generator 500 includes the casing 51, the auxiliary fan 55, a first emitter electrode 591, a second emitter electrode 592, and the electrical insulator 57. The first-emission electrode 591 is the same as the emitter electrode 56A in the first embodiment. The first emitter electrode 591 is spaced apart from the second emitter electrode 592. The first emitter electrode 591 is disposed upstream of the second emitter electrode 592 and the electrical insulator 570. The electrical insulator 57 is disposed between the first emitter electrode %丨 and the second emitter electrode 592. The first emitter electrode 591 is formed with an opening 562 that extends through the first emitter electrode. The second emitter electrode 592 is formed with an opening 593 extending through the second emitter electrode 592. The diameter of the opening 593 25/36 201038891 is greater than the diameter of the openings 572 and 562. In this case, the air introduced into the casing 5H) flows through the ports = 3 and 3, the _ 573 and the gap 512. Therefore, when the air/melon, the airflow path 141, the air introduced into the casing immediately cools the first-emitter electrode 59 and the second emitter 592. In addition, the diameter of the opening 593 is larger than the diameter of the opening 562. Therefore, y prevents the active material from adhering to the second emitter electrode 592. This configuration can send a large amount of active material to the second emitter electrode 592, while the continuous active material does not adhere. Λ Figure 16 shows a further variation of the discharge generator 5〇〇. In this modification, the first emitter electrode 591 and the electrical insulator 570 are different from the discharge generator of Fig. 15. That is, the first emitter electrode is in contact with the crucible: insulator 370. This configuration allows the discharge generator 5 to produce a large amount of active material. Further, this configuration can immediately cool the first-emitter electrode 59 and the second emitter electrode 592 by introducing air into the casing 51. Figure Π shows a further variation of the discharge generator 5〇〇. In this variation, the components of the discharge generator 500 differ from the discharge shown in Figure 14 as 500. That is, the discharge generator 5A includes a water reservoir, a water generating device 620 and a water diffusion device (4), and a water flow path 64A. The reservoir 61 is provided for holding the water. The water reservoir 610 is disposed between the second emitter electrode 592 and the exhaust port 53A. Therefore, the reservoir 610 is positioned between the electrical insulator 57 and the exhaust port 53A. The reservoir 610 communicates with the opening 593. A sputum water generating device 62 is used to generate the water. The water generation 26/36 201038891 device 620 is disposed between the water reservoir 610 and the air inlet 52〇. The water generating device includes a cooling device 621. The cooling device 62i is a so-called Peltier module. The cooling device 621 is provided with a cooling plate 622, a heat radiating plate 623, and a plurality of thermoelectric elements 624. When the thermoelectric elements are energized, the 4 thermoelectric elements transfer heat from the cooling plate 622 to the heat radiating plate 623. Therefore, the thermoelectric elements 624 cool the cooling plate 622. When the cooling plate 622 is cooled, the cooling plate 622 cools the air vapor surrounding the cooling plate 622 into water. The water flow path 640 is for 〇 to send the water from the cooling plate 622 to the water diffusion device 630. The water flow path 640 extends from the cooling plate 622 to the water reservoir 61. The water on the cooling plates 622 receives a wind pressure caused by the air inside the casing 51. Accordingly, the water flow path 640 transports the water from the cooling plate 622 to the water reservoir 61A located downstream of the opening 593. In this way, the water is supplied to the water reservoir from the water generating device 620. The water diffusing device 630 is for evaporating and/or atomizing water held on the water reservoir 610. The water diffusing device 63A includes an ultrasonic transducer 〇 63. The ultrasonic transducer 631 is assembled to vibrate the water reservoir for evaporation

And/or atomizing the water on the water reservoir 610. ...X The discharge generator of Figure 17 also produces a discharge, thereby producing an active substance. The active material is carried by air flowing through the second passage. The active material reaching the water reservoir 61G is dissolved in water stored on the fineness of the water reservoir. In addition, the water on the water reservoir 610 receives the wind. This wind pressure causes bubbles to be generated in the water on the water reservoir 610. The water containing the bubbles receives the discharge to the reservoir 610. When the water containing the bubbles receives the discharge, the active material is added. The water diffusing device 63 oscillates the water reservoir and/or atomizes water containing the active material, whereby the water diffusing device 63 〇 27/36 201038891 generates a mist including an active material. The mist containing the active material is sent to the outside of the casing 510 through the exhaust port 530. In this manner, the discharge generator 500 in this modification is assembled to generate a mist containing an active material on the outer side of the air conditioner. It should be noted that the water flow path 640 is not limited thereto. That is, a fibrous member such as a felt can be used as the water flow path 64A. Similarly, a porous member made of a ceramic bubble material can be used as the water flow path 640. In addition, a water reservoir having a groove can be used as the water reservoir 010. Further, the water generating device is not limited to the Peltier module. Namely, an absorbent member such as Shiqi gum and a shirt can be used as the raw silk. In this case, the _ and _ stones absorb water in the air and discharge the water to the water flow path 640. Further, in this modification, II is implemented by the ultrasonic transducer 631. However, the water diffusion device (4) is not limited to the conversion of the ultrasonic wave to 631. #, It is also possible to assemble the water diffusion device by using surface acoustic wave evaporation and/or misting the water. The water diffusion device can be assembled to apply pressure to blow water to the wall, which can also be achieved. In this case, when water is blown into the wall, water particles are generated. The water diffusion display can also scream water to atomize the water to achieve the water diffusion device. Further, the water diffusion device can be assembled into electrostatically atomized water to produce a water diffusion device. Further, as the water diffusion device, an evaporation device for airflow and heat generation is available. Figure 18 shows the re-variation of this discharge. In this variant, the neon generator 50G includes a water diffusion device, and the water diffusion device is configured to atomize the water on the water reservoir by electrostatic atomization. That is, in the above (d), the water diffusing device 63G includes the first transmitting electrode 591, the electric 28/36 201038891 insulator 570, the second transmitting electrode 592, and the water reservoir 76. The first emitter electrode 591 is disposed in contact with the electrical insulator 570. The reservoir 61 is shaped to store the water. The reservoir 610 is disposed downstream of the electrical insulator such that the reservoir 610 is in contact with the electrical insulator 570. The opening 572 of the electrical insulator 57 is connected to the inside of one of the reservoirs 610. The second emitter electrode 592 is disposed in the reservoir 610. The high voltage source 58 is assembled to permeate water to apply a voltage between the first emitter electrode 591 and the second emitter electrode 592. Therefore, when the voltage is applied between the first emitter electrode 591 and the second emitter electrode 592, the first emitter electrode 591 generates fine plasma and is emitted to the opening 572 serving as the discharge space 574. Further, in this variation, the second emitter electrode 592 also functions as an electrode for electrostatic atomization. The shellfish water hopper 610 has a water carrying path 611. The water of the water reservoir 61 is supplied to a tip end of the water carrying path 611 by a capillary action. ^ When the second transmitting electrode 592 receives a high voltage from the high voltage source, the second transmitting electrode 592 applies the voltage to the water on one of the tips of the water carrying path. 〇 * When the high voltage is received from the voltage source, the water on the hole of the water carrying path 011 is shaped into a taper. This tapered water is the so-called Taylor cone. When the Taylor cone is broken by Ruili crushing (R-machi breakbreak), the tapered water is electrostatically atomized, whereby the tapered water generates a mist, and has nanometer-sized charged fine water particles and contains Active substance. The air flowing through the outside of the casing 510 carries the mist. In this variation, the second emitter electrode 592 is used to generate the discharge as well as for electrostatic atomization. However, in addition to the second emitter electrode 592, electrostatic atomization can be performed using an electrode. While the present invention has been specifically described with reference to the above Illustrated 29/36 201038891, the present invention is not limited thereto, and should be construed as covering the specific embodiments and the individual modifications Any combination of features. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a side cross-sectional view showing an air conditioner of a first embodiment of the present invention. Figure 2 is a front elevational view of the air conditioner of the first embodiment. Figure 3 is a side cross-sectional view of a discharge generator mounted to the air conditioner. Fig. 4 is a side cross-sectional view showing the air conditioner of the modification of the first embodiment. Fig. 5 is a side cross-sectional view showing the air conditioner of the modification of the first embodiment. Fig. 6 (a) and (b) are side cross sectional views showing the air conditioner of the modification of the first embodiment. Fig. 7 is a side cross-sectional view showing the air conditioner of the modification of the first embodiment. Fig. 8 is a side cross-sectional view showing the air conditioner of the modification of the first embodiment. Fig. 9 (a) and (b) are schematic side sectional views of the air conditioner of the modification of the first embodiment. Fig. 10 is a cross-sectional view showing a discharge generator of a modification of the first embodiment. Figure 11 is a cross-sectional view showing a discharge generator of a modification of the first embodiment. Fig. 12 is a cross-sectional view showing a discharge generator of a modification of the first embodiment. 30/36 201038891 Figure 13 is a cross-sectional view of a discharge generator of a variation of the first embodiment. Fig. 14 is a cross-sectional view showing a discharge generator of a modification of the first embodiment. Figure 15 is a cross-sectional view showing a discharge generator of a modification of the first embodiment. Figure 16 is a cross-sectional view showing a discharge generator of a modification of the first embodiment. Figure 17 is a cross-sectional view showing a discharge generator of a modification of the first embodiment. Figure 18 is a cross-sectional view showing a discharge generator of a modification of the first embodiment. [Main component symbol description] 100 air conditioner 110 housing 120 inlet Q 130 main outlet 131 auxiliary outlet 140 main air flow path 141 auxiliary air flow path 150 partition wall 160 pool 161 water supply passage 200 main fan 300 heat exchanger 400 filter 31/36 201038891 500 discharge generator 510 housing 511 inner circumferential surface 512 clearance 513 first aperture 514 second aperture 515 first wall 516 second wall 517 first channel 518 second channel 519 valve 520 air inlet 530 exhaust port 531 selector 532 first tuyere 533 second tuyere 534 shunt 540 second airflow path 550 auxiliary fan 560 transmitting electrode 561 outer circumferential surface 562 opening 570 electrical insulator 571 opening 572 opening 573 gap 201038891 discharge space high voltage source first transmitting electrode second emission Electrode opening Ο water reservoir water carrying path water generating device cooling device cooling plate heat lucky plate radiation element thermoelectric device water diffusion device water flow path 33/36

Claims (1)

201038891 VII. Patent application scope: 1. An air conditioner comprising: an outer cover provided with an inlet, an outlet, and a main air flow path extending from the inlet to the outlet, the inlet for introducing outside air; a fan disposed in the housing to generate a forced air flow through the main air flow path; a heat exchanger disposed in the outer cover to heat and/or cool air flowing through the main air flow path; The device has a casing and an exhaust port, and the casing is provided with an air inlet for drawing air into the casing, and the exhaust port transmits a second airflow path and the intake air through the casing The port is connected for passing a gas stream therethrough. The discharge generator comprises an emitter electrode and an electrical insulator. The electrical insulator is made of an electrically insulating material, and the emitter electrode and the electrical insulator are disposed in the casing. In order to have a discharge space, and the emitter electrode is assembled to apply a high voltage to the discharge space; wherein the emitter electrode has a circumferential surface from one of the housings The surface of the portion is spaced apart by a gap, the inner surface being opposite the circumferential surface of the emitter electrode, and the second air flow path being shaped to flow the gas flow through the gap and the discharge space. 2. The air conditioner of claim 1, wherein the discharge space is defined by a first space and/or a second space, the first space being defined by a gap, the electrical insulator being disposed on the a second air flow path and spaced apart from the transmitting electrode such that the gap is formed between the transmitting power 34/36 201038891 and the electrical insulator. The second space is defined by the opening of the electrical insulator. The opening extends through the electrical insulator. 3. The air conditioner of claim 1 or 2, wherein the air conditioner further comprises a filter, the filter being disposed downstream of the inlet, the exhaust port being located downstream of the filter. 4. The air conditioner according to claim 1 or 2, wherein the air conditioner further comprises a helium filter, the filter is disposed downstream of the inlet, and the exhaust port is located upstream of the filter or Guide the filter. 5. The air conditioner according to claim 1 or 2, wherein the Xuanqi air machine further comprises a filter disposed downstream of the inlet, the discharge generator further comprising a selector, the discharge generator further comprising a selector, The selector is configured to be movable between a first position and a second position, the exhaust ο being shaped to have a first when the selector is in the first position and when the selector is in the second position There is a second tuyere, the manhole is located downstream of the filter, and the first tuyere is located upstream of the filter or directed to the filter. 6. The air conditioner according to Item 1 or 2 of the patent scope of the invention, wherein the machine further comprises a filter, the filter is disposed downstream of the inlet, and the gas is divided into a first air outlet and a first air outlet. Two air outlets: the air vent is located downstream of the filter, and the ventilating air outlet is located upstream of the filter or directed to the filter. The air conditioner of the first or second item of the second aspect of the invention, wherein the second and second converters are arranged to condense the air vapor in the outer cover into water. The air conditioner further includes a water supply device, and the water supply device Assembled to supply water to the machine ^ sigh part and/or - second part, 35/36 201038891 The first part is located downstream of the electrical insulator and the second part is located upstream of the electrical insulator. 8. The air conditioner according to claim 1 or 2, wherein the discharge generator further comprises a water reservoir and a water diffusion device, the water reservoir being positioned between the exhaust port and the electrical insulator. And assembled into stored water, the water diffusion device is assembled to evaporate and/or atomize the water on the reservoir. 36/36