JP2013092285A - Electrical appliance equipped with generating unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow an ion-generating unit to be attached/detached so as not to be obstructed by a louver within an air outlet.SOLUTION: Within a cabinet 2, the ion-generating unit 15 is attached at a predetermined position facing the louver 10 within the air outlet 4. An insertion path 22 that leads to the predetermined position is formed above the air outlet 4 at a front face of the cabinet 2. The ion-generating unit 15 is attached and detached via the insertion path 22.

Description

  The present invention relates to an electrical apparatus such as an air conditioner equipped with a generation unit such as an ion generation unit.

  An indoor unit of an air conditioner is equipped with an ion generation unit that generates ions for indoor sterilization and deodorization. The ion generation unit is detachably mounted so as to face the air outlet, and the generated ions are released from the air outlet by wind. A louver is provided in the air outlet, and the direction of the wind blown out by the louver is switched between the left and right directions.

  The ion generation unit is attached and detached for maintenance such as cleaning and replacement. The ion generating unit is attached and detached from the air outlet. At this time, the louver hinders attachment / detachment. Therefore, in the air conditioner described in Patent Document 1, the blowing unit to which the louver is attached can be opened and closed. When the blowing unit is opened, the ion generating unit is exposed and can be easily cleaned with a brush.

JP 2003-65557 A

  By the way, in order to be able to blow air to every corner of the room, the size of the louver at the air outlet is increased. Along with this, ions can be widely distributed. In such a case, when the blowout unit is opened and the ion generation unit is attached or detached, the ion generation unit or the hand may come into contact with the large louver. Therefore, attachment / detachment cannot be performed smoothly, or the louver may be damaged. Therefore, the enlargement of the louver is limited, and the merit of the large louver cannot be obtained sufficiently.

  In view of the above, the present invention provides an electric device having a generation unit such as an air conditioner that can attach and detach a generation unit such as an ion generation unit without being affected by the louver even if the size of the louver in the air outlet is increased. Objective.

  According to the present invention, a generation unit that generates a useful substance useful for an environment such as ions is detachably provided in a cabinet in which an air outlet is formed, and the generation unit is attached to a louver provided in the air outlet. It is mounted at a predetermined position facing the air outlet so as to face each other, and an insertion path for attaching and detaching the generating unit is formed around the air outlet so as to communicate with the predetermined position.

  The generation unit is attached and detached through an insertion path formed around the outlet. Since the generating unit is not attached / detached through the outlet, the louver does not interfere with the attaching / detaching of the generating unit. Thereby, the enlargement of a louver is attained.

  The generating unit is provided with a plurality of discharge openings for useful substances, the louver has a plurality of blades for changing the wind direction, and the discharge openings are positioned so as not to overlap the opposite blades. The useful substance from the discharge port is discharged without interference with the blade. Combined with a large louver, useful substances can be diffused over a wide range without waste.

  The generating unit is used as a wall member that forms a blowout port. Usually, in order to discharge the useful substance generated from the generating unit into the outlet, a part of the surface of the generating unit is provided facing the outlet. Therefore, if the entire surface of the generating unit faces the air outlet, the generating unit substitutes for the wall member.

  The insertion path guides the inserted generation unit to a predetermined position. When the generation unit is inserted into the insertion path, the generation unit moves along the insertion path and reaches a predetermined position. Thereby, the generating unit can be reliably positioned at a predetermined position.

  A panel covering the periphery of the outlet is provided so as to be openable and closable. When the panel is opened, the insertion path is exposed to the outside. When the panel is closed, the panel comes into contact with the generation unit and pushes the generation unit inserted into the insertion path. When the generating unit is mounted, the insertion path is covered by the panel, so that the generating unit is concealed and can be protected from external impacts and foreign matters. Further, when the generating unit is inserted, the generating unit is pushed in by the panel, so that the generating unit can be securely mounted at a predetermined position.

  A cleaning member for cleaning the generating unit is provided in the insertion path. When the generating unit is attached or detached, the cleaning member comes into contact with the generating unit to clean the generating unit. This saves the trouble of cleaning the generating unit.

  According to the present invention, when the generating unit is detached from the cabinet, the louver does not get in the way because the air outlet is not used. As a result, the louver can be enlarged, and the air can be efficiently distributed to the left and right. In addition, useful substances such as ions can be spread to every corner of the room, the action of the useful substances can be fully exhibited, and a comfortable environment can be obtained.

The perspective view of the indoor unit of the air conditioner of this invention Cross section of indoor unit Perspective view of indoor unit with makeup panel open Perspective view of indoor unit when attaching / detaching ion generating unit The figure which shows the positional relationship of the louver in a blower outlet, and an ion generation unit The figure which shows the position of the blade | wing with respect to the ion generation unit before and behind the direction change of a louver Perspective view of indoor unit to which ion generation unit can be directly attached / detached Cross section of the indoor unit when the ion generation unit is incompletely installed Sectional drawing of the indoor unit which has the ion generating unit of another form The perspective view of the ion generating unit of other forms A perspective view of another form of indoor unit when the decorative panel is opened Front view of another form of indoor unit when the decorative panel is removed

  The indoor unit of the air conditioner of this embodiment is shown in FIGS. The indoor unit includes a heat exchanger 1 and a blower fan (not shown), and these are housed in the cabinet 2. A curved surface is formed from the front surface to the bottom surface of the cabinet 2. A suction port 3 is formed on the upper surface of the cabinet 2, and an air outlet 4 is formed from the curved surface to the inside of the cabinet 2.

  The air outlet 4 is an air passage surrounded on all sides by upper, lower, left and right wall members extending in the front-rear direction inside the cabinet 2, and communicates with the inlet 3. A drain pan 5 is provided on the front side of the cabinet 2. The drain pan 5 is located above the air outlet 4. The upper wall member 6 is formed integrally with the drain pan 5 and is unitized.

  An air guide panel 7 that opens and closes the air outlet 4 is provided on the curved surface of the cabinet 2. The wind guide panel 7 is supported by the cabinet 2 so as to be opened and closed. A decorative panel 8 that covers the front surface of the cabinet 2 is provided around the air outlet 4. When the upper part of the decorative panel 8 is supported by the cabinet 2 so as to be freely opened and closed, and the decorative panel 8 opens upward, a filter and a filter cleaning device arranged on the front surface of the cabinet 2 appear above the air guide panel 7. The decorative panel 8 is detachable.

  A louver 10 that switches the wind direction is provided in the air outlet 4. As shown in FIG. 5, the louver 10 has a plurality of blades 11 for changing the wind direction. The blades 11 are attached to the lower wall member 12 of the air outlet 4, and the blades 11 are arranged at regular intervals in the left-right direction. The front end of each blade 11 reaches the wind guide panel 7 and is a large louver 10. A connecting rod 13 that is long in the left-right direction is attached to the front side of each blade 11, and the connecting rod 13 moves in the left-right direction, so that each blade 11 bends in the same direction and changes its direction.

  The indoor unit is provided with an ion generation unit 15 that generates ions. The ion generation unit 15 includes a case 16, an ion generation unit, a circuit board on which a high voltage circuit and a control circuit are mounted, and a connector. The ion generation unit and the circuit board are housed in the case 16. The ion generator has a needle-like discharge electrode and an induction electrode surrounding the electrode. When a high voltage is applied, a corona discharge is generated between the electrodes, and positive and negative ions are generated. One ion generation part generates either positive ions or negative ions. A plurality of discharge ports 17 facing the ion generating part are formed in the case 16. A stepped portion 18 bulging downward is formed at the rear of the lower surface of the case 16, and a discharge port 17 is formed in the stepped portion 18. Ions generated from the ion generator are released from the discharge port 17 to the outside of the case 16.

  Positive and negative ions suppress the action of bacteria floating in the air, disinfect molds and deodorize them. Thus, the ion generation unit 15 generates ions that are useful substances useful for the environment. The ion generation unit 15 generates positive and negative ions, but may generate only negative ions.

  The ion generation unit 15 is detachably provided in the cabinet 2. The ion generation unit 15 is mounted at a predetermined position above the air outlet 4 at the center in the left-right direction. An ion generating unit 15 is arranged in a space between the upper wall member 6 of the blower outlet 4 and the drain pan 5, and a part of the surface of the case 16 faces the blower outlet 4.

  That is, the communication hole 20 is formed at the center in the left-right direction of the upper wall member 6 of the air outlet 4. When the ion generating unit 15 is mounted at a predetermined position, the lower surface of the case 16 faces the upper wall member 6, and the rear portion of the case 16 faces the communication hole 20. The discharge port 17 faces the outlet 4 through the communication hole 20. The step portion 18 of the case 16 is fitted into the communication hole 20, and the rear end of the step portion 18 abuts on the periphery of the communication hole 20, whereby the case 16 is positioned at a predetermined position.

  A protective cover 21 is attached to the upper wall member 6 so as to cover the communication hole 20 so that a human hand or a foreign object does not touch the ion generating portion. Then, a connector is provided on the rear side of the case 16, and when the ion generation unit 15 is in a predetermined position, the connector of the case 16 is connected to a connector provided in the cabinet 2.

  The ion generation unit 15 is mounted to face the louver 10. When the ion generating unit 15 is in a predetermined position, the front end of each blade 11 is in front of the communication hole 20 as shown in FIG. Further, the discharge port 17 of the ion generation unit 15 is located closer to the rear side of the air outlet 4. As shown in FIG. 5, the discharge port 17 of the case 16 does not overlap the blade 11. That is, the position of the discharge port 17 and the position of the blade 11 are shifted in the left-right direction, and there is no blade 11 below the discharge port 17.

  As shown in FIG. 6, when the blade 11 changes direction from side to side, it crosses the discharge port 17, but when the blade 11 changes its direction to the maximum, the blade 11 does not overlap the discharge port 17. In addition, since the discharge port 17 is positioned closer to the rear side of the blower outlet 4, the discharge port 17 is always positioned between the adjacent blades 11 even if the blades 11 change direction. Thus, since the right and left discharge ports 17 are partitioned by the blades 11, positive ions discharged from one discharge port 17 and negative ions discharged from the other discharge port 17 are not mixed. Thereby, the premature disappearance of ions can be prevented.

  The ions released from the discharge port 17 into the blower outlet 4 are blown out by the wind of the blower fan, and blown out from the blower outlet 4 in the direction corresponding to the direction of the louver 10. Here, since the louver 10 is enlarged so that the front end of the louver 10 reaches the vicinity of the front end of the outlet 4, the wind can be smoothly blown out in a desired direction. Therefore, ions can be widely released to every corner of the room, and the useful effects of the ions on the indoor environment can be fully exhibited.

  Here, the ion generating unit 15 is detached from the front surface of the cabinet 2. Therefore, since the ion generation unit 15 is not attached / detached from the blower outlet 4, the louver 10 can be increased in size. As shown in FIGS. 3 and 4, an insertion path 22 for attaching and detaching the ion generating unit 15 is formed around the outlet 4, and the ion generating unit 15 can be attached and detached from the front surface of the cabinet 2.

  The insertion path 22 is formed toward the rear side in the space between the upper wall member 6 of the blower outlet 4 and the drain pan 5 and communicates with a predetermined position. The insertion path 22 is formed surrounded by the left and right side plates 23, the upper wall member 6, and the drain pan 5. The opening of the insertion path 22 is formed above the outlet 4 on the front surface of the cabinet 2. At the opening of the insertion path 22, the upper side is open. The width of the opening is slightly larger than the width of the case 16. That is, the opening is wide so that the ion generating unit 15 can be easily attached and detached. The insertion path 22 is inclined so as to be lowered toward the rear side. As the ion generation unit 15 moves along the inclination, the ion generation unit 15 is automatically guided to a predetermined position.

  When the user removes the ion generating unit 15 from the cabinet 2, the decorative panel 8 is opened as shown in FIG. The ion generation unit 15 appears, and the upper part of the front side of the ion generation unit 15 is exposed to the outside from the opening of the insertion path 22. As shown in FIG. 4, the user pulls out the ion generation unit 15 by grasping the front side of the case 16.

  When the user attaches the ion generation unit 15, the case 16 of the ion generation unit 15 is inserted into the opening of the insertion path 22. The case 16 slides along the upper wall member 6 and is guided toward a predetermined position. When the step portion 18 of the case 16 is fitted into the communication hole 20 and abuts on the periphery of the communication hole 20, the ion generation unit 15 reaches a predetermined position. At this time, the connector of the case 16 is connected to the connector on the cabinet 2 side. The decorative panel 8 is closed, and the ion generating unit 15 is mounted at a predetermined position.

  Further, as shown in FIG. 7, the opening of the insertion path 22 may be provided on the front surface of the cabinet 2. A cutout 24 is formed in the decorative panel 8 at the center position in the left-right direction corresponding to the opening of the insertion path 22. When the decorative panel 8 is closed, the insertion path 22 faces the outside. Thereby, the ion generating unit 15 can be directly attached and detached without opening and closing the decorative panel 8.

  By the way, when the ion generation unit 15 is not completely inserted, as shown in FIG. 8, the case 16 protrudes from the insertion path 22, and the decorative panel 8 is not completely closed. Therefore, in order to reliably guide the ion generation unit 15 to a predetermined position, a rib 25 is provided on the front surface of the case 16 so that the decorative panel 8 contacts the rib 25 and pushes the case 16. The height of the rib 25 is set to a distance between the front surface of the case 16 at a predetermined position and the rear surface of the decorative panel 8.

  When the user inserts the case 16 so that the front side of the case 16 protrudes and closes the decorative panel 8, the decorative panel 8 contacts the rib 25. When the user completely closes the decorative panel 8, the case 16 is pushed in and the ion generating unit 15 is positioned at a predetermined position. Therefore, even if the mounting of the ion generating unit 15 by the user is incomplete, the ion generating unit 15 can be securely mounted at a predetermined position by closing the decorative panel 8 properly.

  As described above, since the ion generating unit 15 can be attached and detached from the front side of the cabinet 2, the ion generating unit 15 can be attached and detached without touching the louver 10 and the air guide panel 7. This eliminates the need for the ion generating unit 15 to enter and exit from the outlet 4, thereby enabling the louver 10 to be enlarged. Therefore, the large louver 10 can finely control the wind direction and can carry the ion-containing wind to every corner of the room, so that a comfortable indoor environment can be obtained.

  Other forms of the ion generating unit 15 are shown in FIGS. The ion generation unit 15 is used as a wall member that forms the air outlet 4. The lower surface of the case 16 is formed to have irregularities in accordance with the shape of the upper wall member 6 adjacent to the left and right. Thereby, it does not interfere with the opening and closing of the air guide panel 7.

  The insertion path 22 is formed such that the left and right side plates 23 and the drain pan 5 are surrounded by the upper side and the left and right sides, and the lower side is open. Guide rails 30 are formed on the left and right sides of the case 16 in the front-rear direction, and guide grooves 31 into which the guide rails 30 are fitted are formed on the left and right side plates 23 of the insertion path 22. The guide groove 31 is inclined obliquely downward. The other structure is the same as the above indoor unit.

  When the user fits the guide rail 30 of the case 16 into the guide groove 31 and inserts the ion generation unit 15 into the opening of the insertion path 22, the case 16 slides along the guide groove 31. When the ion generating unit 15 is mounted at a predetermined position, the case 16 is supported by the guide groove 31 and is pressed and fixed by the decorative panel 8, and the ion generating unit 15 becomes the upper wall of the blowout port 4. A protective cover that covers the discharge port 17 may be provided on the lower surface of the case 16.

  In this way, the entire lower surface of the ion generating unit 15 faces the outlet 4. It is not necessary to form the communication hole 20 that communicates with the discharge port 17, and no step is generated between the blower outlet 4 and the ion generation unit 15. Accordingly, the wind flowing through the outlet 4 flows smoothly along the surface of the case 16, so that the entire amount of ions released from the outlet 17 is blown into the room. If there is a step between the blower outlet 4 and the ion generation unit 15, the released ions leak into the insertion path 22 through the gap between the steps, resulting in loss of ions, but there is no step, thus preventing ion leakage. it can.

  The ion generation unit 15 enters and exits the insertion path 22. Therefore, a cleaning member for cleaning the ion generation unit 15 is provided in the insertion path 22. The cleaning member is a brush that cleans the ion generator. The cleaning member is attached to the upper surface of the upper wall member 6.

  When the ion generation unit 15 is inserted into the insertion path 22 or when the ion generation unit 15 is removed from the cabinet 2, the case 16 passes over the cleaning member. At this time, the cleaning member enters the discharge port 17 of the case 16 and comes into contact with each electrode to remove dust and the like attached to each electrode. Thereby, an ion generation part can be maintained in a clean state, and ion can be generated stably.

  In addition, this invention is not limited to the said embodiment, Of course, many corrections and changes can be added to the said embodiment within the scope of the present invention. The above insertion path may be applied to an electric device having an ion generation function other than an air conditioner. As an electric device, an air purifier, a humidifier, a refrigerator, an ion generator, a lighting fixture, an image processing device, an automobile, etc. Air conditioner mounted on the vehicle. Moreover, you may apply to the generation | occurrence | production unit which generate | occur | produces other useful substances, such as ozone, water vapor | steam, slightly acidic hypochlorous acid water, and silver ion instead of an ion generation unit.

  The opening of the insertion path may be formed larger than the case of the generating unit, and the insertion path may be formed so as to gradually narrow toward the rear side. By adopting such a shape, the case can be attached and detached smoothly. In addition, the predetermined position of the generating unit may be on the lower side of the air outlet, on the left or right side of the air outlet, or on both sides. The insertion path is formed around the outlet according to the position of the generating unit. For example, you may form the opening of a blower outlet in the right and left side surface of a cabinet. Furthermore, the insertion path is not limited to a straight line and may be a curved path.

2 cabinet 4 outlet 5 drain pan 6 upper wall member 7 air guide panel 8 decorative panel 10 louver 11 blade 15 ion generating unit 16 case 17 discharge port 22 insertion path

Claims (9)

A generation unit that generates a useful substance useful for the environment is detachably provided in a cabinet in which a blower outlet is formed, and the generator unit is provided at the outlet so as to face a louver provided in the outlet. An electrical apparatus having a generating unit, which is mounted at a predetermined position facing and is formed around an air outlet so that an insertion path for attaching and detaching the generating unit leads to the predetermined position. 2. The generating unit is provided with a plurality of outlets for useful substances, the louver has a plurality of blades for changing the wind direction, and the outlets are positioned so as not to overlap the opposing blades. An electric device having the generating unit described. 3. The electrical apparatus having a generating unit according to claim 1, wherein the generating unit is used as a wall member that forms an outlet. The electric device having the generation unit according to claim 1, wherein the insertion path guides the generated generation unit to a predetermined position. The air conditioner according to any one of claims 1 to 4, wherein a panel covering the periphery of the air outlet is provided so as to be openable and closable, and when the panel is opened, the opening of the insertion path is exposed to the outside. 6. The electrical apparatus having a generating unit according to claim 5, wherein when the panel is closed, the panel abuts on the generating unit and pushes the generating unit inserted into the insertion path. A cleaning member for cleaning the generating unit is provided in the insertion path, and the cleaning member comes into contact with the generating unit to clean the generating unit when the generating unit is attached or detached. An electrical device having a generating unit. The electric device having the generation unit according to any one of claims 1 to 7, wherein the generation unit generates ions as a useful substance, and the generated ions are blown out from an outlet. The electric device having the generating unit according to claim 1, wherein the electric device is an air conditioner.

Images