JP5199410B2 - Air conditioner - Google Patents

Description

  The present invention relates to an air conditioner in which electrical components are arranged in an intermediate portion in the left-right direction of a cabinet.

  In an air conditioner, a blower outlet is formed in the cabinet in the left-right direction, and an electrical box having a control circuit and a power supply device is provided on one side in the left-right direction of the cabinet. And a wire is wired from the electrical equipment box to the electrical equipment installed in the cabinet, and the electrical equipment and the electrical equipment box are electrically connected. For example, in Patent Document 1, an electrical component arranged on the other side of the cabinet in the left-right direction and the electrical box are connected by a wire, and the wire is wired in the left-right direction of the wind shield that shields the gap between the heat exchangers. It is fixed by a fixing part such as a hook.

  Here, in an air conditioner equipped with an ion generation unit as an electrical component, the ion generation unit is provided at the outlet, and ions generated from the ion generation unit are blown out into the room. Such an electrical component is installed on the front side of the cabinet at an intermediate portion in the left-right direction of the air outlet. Here, the intermediate portion is a portion from one side to the other side excluding both ends in the left-right direction. A drain pan that receives drain water falling from the heat exchanger is provided on the front side of the cabinet. The wire connected to the electrical component is routed along this drain pan. A hook for holding the wire is provided on the front wall of the drain pan.

  Moreover, when an electrical component is arrange | positioned in the front side of a heat exchanger, there exists a possibility that the drain water produced by heat exchange may penetrate | invade into an electrical component along a wire. In order to prevent this, in Patent Document 2, the wire is routed below the wire introduction portion of the electrical component to form a trap.

JP 2004-317051 A JP 2010-121880 A

  When the electrical component is provided at the outlet, as in the ion generation unit, the wire is wired to the electrical component along the outlet. A front cover is detachably provided on the front surface of the cabinet. When the front cover is removed for maintenance or cleaning, the drain pan is exposed. At this time, the wire may be exposed. When the wire is hooked and held, if the wire is touched during work such as maintenance, the wire is easily detached.

  Further, when the electrical component is provided at the blowout port, the wire is routed to the electrical component along the blowout port. When the wire is loosened due to the trap structure, the wire enters into the outlet and becomes a resistance to blowing.

  In view of the above, the present invention provides an air conditioner in which wires are wired so that the wires are not easily disconnected and do not obstruct air blowing even if the wires wired near the air outlet are exposed to the outside. The purpose is to provide a machine.

  In the present invention, a drain pan unit having a drain pan is provided on the front side of a cabinet on which a heat exchanger and a blower fan are mounted. An electrical box is provided, an electrical component is provided in the middle portion of the drain pan unit in the left-right direction, and a wire that electrically connects the electrical box and the electrical component is wired in the left-right direction along the air outlet, A fixing portion that fixes the wire in the front-rear direction is integrally provided.

  The wire wired on the front side of the cabinet is sandwiched and fixed in the front-rear direction by the fixing portion. Therefore, even if a finger or the like touches the wire from the front side, the wire does not shift forward, and the wire does not come off the fixing portion.

The fixing portion may include a hook that presses the wire from above and a pin that is disposed on the front side of the hook. In this way, the wire is sandwiched between the hook and the pin in the front-rear direction, and the wire is pressed from above by the hook. Therefore, the wire can be prevented from shifting forward or upward. Further, the pin may be formed to be inclined forward toward the front side. If the pin is inclined forward, the wire can be easily inserted and removed between the hook and the pin. A plurality of hooks may be provided at intervals in the left-right direction, and a pin may be provided between adjacent hooks. In this way, the wire is wired so that the front side is pressed by the pin and the rear side is pressed by the hook and meanders.
That is, on the front side of the cabinet installed on the wall in the room, the wire is wired in the left and right direction on the front part on the upper wall of the air outlet, and the fixing part includes a pair of left and right hooks that hold the wire from above, and left and right hooks The front end of the rising part of the hook is located in front of the rear end of the pin so that the wire slid along the pin from the front can be pushed into the hook. However, the pin is formed to be inclined forward.

Off click and pins may be formed along the forward and upward of the die opening direction. In this way, the hook and the pin are integrally formed with the drain pan unit by forming the drain pan unit with the mold. The hook has a shape protruding in the front direction and is disposed on the rear side of the pin.

  The drain pan unit may be provided with ribs for preventing the wires from protruding along the left-right direction, and the ribs may be positioned in front of the wires. If it does in this way, even if a wire shifts to the front direction, a wire will contact a rib and will not shift to the front side any more. This prevents the wire from protruding from the drain pan unit.

  A plurality of fixing portions may be provided at intervals in the left-right direction, and ribs may be provided in the drain pan unit along the left-right direction except for portions facing the fixing portions. If it does in this way, a wire is fixed in a plurality of places of a horizontal direction, and it can make it difficult to remove a wire. When the rib is integrally formed with the drain pan unit in the same manner as the hook and the pin, the rib is not formed in front of the fixed portion because the die removal direction is the front direction. Therefore, a shielding member may be provided in front of the fixed portion. The shielding member is a separate member from the rib and is attached to the drain pan unit. If a shielding member is provided, the fixing portion can be hidden, and further heat insulation can be performed so as not to touch cold air.

  An electrical component may be arranged so as to face the air outlet, the wire may be wired on the upper wall of the air outlet, and a fixing portion may be provided on the upper wall. In this way, although the electrical component is located in the air outlet, the wire is wired through the outside of the air outlet so as not to obstruct the blowing.

  A holder equipped with electrical components may be attached to the upper wall of the air outlet, and a protrusion may be formed downward on the holder. In this way, in order to connect the wire passing outside the blower outlet to the electrical component in the blower outlet, the wire is guided into the blower outlet from the upper wall of the blower outlet, and passes through the lower part of the projection. Connected to the product. And an electrical component and a wire are covered with a cover.

  By the protrusion, the wire is loosened just before being connected to the electrical component, and a trap is formed. As a result, even if water is transmitted along the wire, it does not reach the electrical components. Further, by covering the wire with the cover, the wire does not enter the outlet, and the wire does not become a blowing resistance.

  According to the present invention, even if the wire wired along the air outlet is exposed to the outside, the wire is sandwiched and fixed in the front-rear direction, so that it is possible to prevent the wire from being inadvertently detached.

The perspective view of the indoor unit of the air conditioner of this invention Cross section of indoor unit Front view of indoor unit with front panel removed (A) Top view of drain pan unit, (b) Front view of drain pan unit, (c) Side view of drain pan unit (A) Perspective view of drain pan unit when ion generating unit is mounted, (b) Perspective view of drain pan unit with ion generating unit removed Perspective view of the drain pan unit as seen from diagonally above BB sectional view and partial enlarged view of FIG. CC sectional view and partial enlarged view of FIG. AA sectional view and partial enlarged view of FIG.

  The indoor unit of the air conditioner of this embodiment is shown in FIGS. The indoor unit includes a heat exchanger 1 and an indoor fan 2, which are housed in a cabinet 3. A curved surface is formed from the front surface to the bottom surface of the cabinet 3. A suction port 4 is formed on the upper surface of the cabinet 3, and an outlet 5 is formed on the curved surface.

  An air passage 6 extending from the inlet 4 to the outlet 5 is formed in the cabinet 3, and the heat exchanger 1 and the blower fan 2 are disposed in the air passage 6. A filter 7 is disposed between the suction port 4 and the heat exchanger 1, and dust is removed from indoor air sucked from the suction port 4. There are two filters 7 on the left and right.

  A panel 8 that opens and closes the air outlet 5 is provided on the curved surface of the cabinet 3. The panel 8 is supported by the cabinet 3 so as to be openable and closable, and an opening and closing part for opening and closing the panel 8 is provided.

  When the air conditioner is in operation, the panel 8 opens. During the cooling operation, the panel 8 guides the cool air obliquely upward, and the cool air blows out along the ceiling. During the heating operation, the panel 8 presses the warm air blown forward and guides the warm air toward the floor surface. Even in the initial stage of the cooling operation, the cool air is blown out toward the floor surface, and rapid cooling is performed. The panel 8 is closed when the operation is stopped, covers the air outlet 5 and is integrated with the cabinet 3. Thus, the panel 8 functions as a wind direction changing plate (lateral louver).

  In the cabinet 3, a drain pan 11 is provided below the heat exchanger 1 and receives dew that flows down through the heat exchanger 1. The drain pan 11 is integrally formed with the drain pan unit 12 that forms the air outlet 5. An ion generating unit 13 that generates ions is attached to the drain pan unit 12.

  The indoor unit is provided with a filter cleaning device for cleaning while moving the filter 7. The filter cleaning device includes a rotating brush 14 that removes dust from the filter 7 and a dust box 15 that collects the removed dust. The filter 7 moves along a guide path 16 formed in the cabinet 3. The filter cleaning device and the filter 7 are attached to the cleaning unit 17, and the cleaning unit 17 is installed in the cabinet 3.

  As shown in FIG. 1, the cabinet 3 is formed in a horizontally long box shape by a base plate 20 located on the rear side, left and right side covers 21, and a front panel 22 located on the front side. The base plate 20 is installed on a wall surface or the like. The side cover 21 and the front panel 22 are detachable from the base plate 20.

  The drain pan unit 12 is detachably attached to the lower part on the front side of the base plate 20, and the drain pan unit 12 constitutes a part of the bottom surface of the cabinet 3. The cleaning unit 17 is detachably attached to the base plate 20. The cleaning unit 17 and the drain pan unit 12 are screwed to the base plate 20 on both sides in the left-right direction.

  When the front panel 22 is removed from the cabinet 3, the cleaning unit 17 is exposed as shown in FIG. The cleaning unit 17 and the drain pan unit 12 can be detached from the base plate 20. Furthermore, when the side cover 21 and the cleaning unit 17 are removed, the drain pan unit 12 can be removed from the base plate 20. On one side of the cabinet 3 in the left-right direction (the right side in FIG. 3), an electrical box having a control device and a power supply device is provided. The electrical box is hidden by the side cover.

  In the air conditioner, an outdoor unit (not shown) is installed outside the indoor unit. The outdoor unit includes a compressor, a heat exchanger, a four-way valve, an outdoor fan, and the like, and these and the indoor heat exchanger 1 form a refrigeration cycle. And the control apparatus which consists of a microcomputer which controls a refrigerating cycle controls a refrigerating cycle based on a user's instruction | indication and the detection signal of various sensors, such as a temperature sensor which detects room temperature and external temperature, and performs air-conditioning operation | movement. The ion generation unit 13 is operated as necessary. At this time, the control device controls the opening / closing unit according to the cooling / heating operation to open / close the panel 10. Further, the control device controls the filter cleaning device periodically or in accordance with an instruction from the user to clean the filter 7 while moving it.

  As shown in FIGS. 4 and 5, the drain pan unit 12 is integrally formed in a frame shape by upper, lower, left and right wall members, and the drain pan 11 is formed on the upper surface of the drain pan unit 12. A passage is formed in the drain pan unit 12 in the front-rear direction. This passage communicates with the air passage 6. The passage is formed horizontally in the left-right direction and serves as a blowout port 5. A panel 8 is detachably attached to the front side of the drain pan unit 12. In the passage of the drain pan unit 12, a vertical louver 23 and a current plate 24 are provided.

  The ion generating unit 13 is disposed at the center in the left-right direction of the drain pan unit 12 and faces the outlet. The ion generating unit 13 is fitted and held in the holder 25, and the holder 25 is attached to a recess formed in the upper wall 26 of the drain pan unit 12. A cover 27 that covers the ion generating unit 13 is detachably attached to the holder 25. The ion generation unit 13 is detachable from the holder 25 so that it can be replaced. The upper wall 26 of the drain pan unit 12 constitutes the upper wall 26 of the air outlet 5. The rear part of the upper wall 26 is also the bottom wall of the drain pan 11. The front portion of the upper wall 26 projects forward from the drain pan 11. The lower portion of the cleaning unit 17 is held on the upper surface of the front portion of the upper wall 26. And the front part of the upper wall 26 is formed so that it may fall as it approaches the drain pan 11.

The ion generation unit 13, which is an electrical component, is electrically connected to the electrical box 30 by a wire 31. The wire 31 is a covered lead wire. Power is supplied to the ion generation unit 13 through the wire 31 and a control signal is transmitted from the control device. As shown in FIGS. 4 and 6, the wire 31 is wired in the left-right direction along the outlet 5 from the electrical box 30 on one side in the left-right direction to the center in the left-right direction of the drain pan unit 12. Here, the ion generation unit 13 plasmas positive ions (H ⁺ (H ₂ O) _m ) (m is a natural number) and negative ions (O ₂ ⁻ (H ₂ O) _n ) (n is a natural number) in the natural world. Created by discharge and released into the air. It should be noted that the ions to be generated may be only negative ions.

  The wire 31 is wired on the upper wall 26 in the left-right direction. A wiring port 32 is formed on the side wall on one side of the drain pan unit 12, and the wire 31 coming out of the electrical box 30 passes through the wiring port 32, passes through the upper surface of the front portion of the upper wall 26, and the horizontal direction of the upper wall 26. Reach the center of. A communication port 33 that communicates with the air outlet 5 is formed at the center in the left-right direction of the upper wall 26, and the wire 31 passes through the communication port 33 and enters the air outlet 5, along the lower surface of the upper wall 26. Wired up to. An introduction port 34 is formed on the front side of the holder 25, and the wire 31 is connected to the ion generation unit 13 through the introduction port 34.

  In order to fix the wire 31 wired on the upper wall 26 along the blower outlet 5, as shown in FIGS. 4 and 6, a fixing portion 40 is provided in the drain pan unit 12. The fixing portion 40 fixes the wire 31 by sandwiching it in the front-rear direction. As shown in FIGS. 7 and 8, the fixing portion 40 includes a hook 41 and a pin 42 provided on the upper surface of the front portion of the upper wall 26. The hook 41 is formed in an inverted L shape and is disposed such that the horizontal head 41a faces forward. The pin 42 is formed to be inclined to the front side. The hook 41 and the pin 42 have the same height.

  Two hooks 41 are provided at intervals in the left-right direction. For example, the interval is about 8 to 10 mm. The pin 42 is arranged at the center between the adjacent hooks 41. The front end of the rising portion of the hook 41 is located on the front side of the rear end of the pin 42, although it is disposed on the front side of the hook 41. That is, the hook 41 and the pin 42 are arranged in a zigzag along the left-right direction.

  Thus, the wire 31 is sandwiched between the two hooks 41 and the one pin 42 in the front-rear direction and is pressed from above by the head 41 a of the hook 41. The wire 31 is pushed rearward by the pin 42, and the wire 31 is bent at the fixing portion 40. Thus, even if a finger etc. are caught in the wire 31 when the wire 31 is exposed during maintenance or cleaning, the wire 31 is also moved in the forward direction. It becomes difficult to shift upward. Therefore, the wire 31 can be easily attached so as not to be detached from the drain pan unit 12.

  In addition, in the cabinet 3 installed on the wall of the room, when the wire 31 is inserted between the hook 41 and the pin 42 from the front, since the pin 42 is inclined forward, the wire 31 is slid along the pin 42. Then, the wire 31 can be easily pushed into the hook 41. Therefore, the wire 31 can be easily attached to the fixing portion 40. When the wire 31 is removed, the wire 31 can be easily removed from the hook 41 by lifting the wire 31 along the pin 42 and pulling the wire 31 forward from the pin 42. That is, the wire 31 cannot be detached from the fixed portion 40 simply by pulling the wire 31 forward or simply pulling it upward.

  A plurality of fixing portions 40 are provided. Here, the three fixing portions 40 are provided on the right side of the center of the drain pan unit 12, that is, on the electrical box side. Each fixing part 40 is arranged at an interval along the left-right direction between one side in the left-right direction and the center. The drain pan unit 12 is provided with a rib 43 for preventing the wire 31 from protruding. As shown in FIGS. 4 and 8, the rib 43 is formed on the upper surface of the front portion of the upper wall 26 along the left-right direction and tilts forward. The rib 43 is disposed at a location not facing the fixed portion 40 on the front side of the fixed portion 40. The height of the rib 43 is the same as that of the hook 41 and the pin 42.

  The wire 31 is wired so as to pass behind the rib 43. When the wire 31 approaches the front side, the wire 31 contacts the rib 43, so that the wire 31 does not protrude to the front side. Moreover, since the rib 43 is higher than the wire 31, the wire 31 cannot be seen from the front side. That is, the wire 31 is hidden by the rib 43 when the cabinet 3 is viewed from the front side. The rib 43 abuts on the vertical rib 44 formed on the cleaning unit 17. When the cleaning unit 17 is attached to the cabinet 3, the vertical rib 44 comes into contact with the rib 43 and the cleaning unit 17 is positioned.

  By the way, the drain pan unit 12 is shape | molded with a synthetic resin. Therefore, the hook 41, the pin 42, and the rib 43 are also integrally formed with the drain pan 11 by a mold. That is, a first male mold and a female mold that form the passage of the drain pan unit 12 and a second male mold that forms the drain pan 11 are used. A pin recess is formed in the first male mold moving in the front-rear direction, and a hook recess and a rib recess are formed in the second male mold moving in the up-down direction. The first male mold and the female mold are combined, and the first male mold and the second male mold are combined.

  The drain pan unit 12 having the hook 41 and the pin 42 is integrally formed by pulling the first male mold forward and the second male mold upward. Therefore, the hook 41 and the pin 42 are formed along the forward and upward die cutting directions. The drain pan unit 12 can be integrally provided with the hook 41 and the pin 42, and it is not necessary to attach another part for fixing the wire to the drain pan unit 12, thereby reducing the cost.

  Since the die removal direction is the front direction, the rib 43 cannot be formed in front of the fixed portion 40. Therefore, a shielding member may be provided in front of the fixing portion 40. The shielding member is installed along the left-right direction so as to be continuous with the rib 43. The shielding member is attached to the upper surface of the upper wall 26 by being adhered or adhered. The fixing member 40 can be hidden from the front side by the shielding member. It is preferable to use a heat insulating material as the shielding member. By blocking the cool air by the shielding member, it is possible to prevent the occurrence of dew on the wire 31 and its periphery.

  As described above, the wire 31 wired along the air outlet 5 is fixed on the upper wall 26 by the fixing portion 40. By the way, when cold air flows through the air outlet 5, dew may be formed on the upper surface of the upper wall 26. Then, the wire 31 may come into contact with water. In addition, in the front part of the upper wall 26, since the rear side is lower than the front side, water flows toward the rear side of the upper wall 26. However, water may enter the ion generation unit 13 through the wire 31.

  Therefore, as a waterproof structure that prevents this water from entering, a trap is created by loosening the wire 31 before the wire 31 is connected to the ion generation unit 13.

  As shown in FIG. 9, a downward projection 45 is formed on the holder 25, and the projection 45 is located at the introduction port 34. The lower end of the protrusion 45 is below the connection position between the ion generation unit 13 and the wire 31. The wire 31 passing through the introduction port 34 passes below the protrusion 45. The wire 31 is covered by the cover 27 and does not hang down into the air outlet 5.

  The wire 31 is slackened before the connection position and goes up toward the connection position. Even if water travels along the wire 31 from the upper wall 26, it drips from the wire 31 and does not travel to the ion generation unit 13. Since the wiring can be trapped in this way, water can be prevented from entering the ion generation unit 13.

  When exchanging the ion generation unit 13, the ion generation unit 13 is removed from the holder 25, and the wire 31 is attached or detached. At this time, since the wire 31 is loosened by the loosening of the wire 31, the ion generating unit 13 hangs down and is separated from the upper wall 26. Therefore, the wire 31 can be easily attached to and detached from the ion generation unit 13.

  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 electrical component may be an ozone generation unit or a light emitting component, a detector such as a temperature sensor, a humidity sensor, or a detection switch, or a motor for moving a filter or rotating brush. Moreover, an electrical component may be provided in intermediate parts other than the center of the left-right direction of a cabinet, and not only one but multiple may be provided.

  The number of hooks and pins may be arbitrarily combined. A pin may be used instead of the hook. A pin is arranged in the front-rear direction, the front pin is tilted backward, and the rear pin is tilted forward. Hold the wire with the front and rear pins and hold it from above. Moreover, you may attach a rib on the upper wall of a drain pan unit as another member. In this case, the rib is provided in a straight line from one side in the left-right direction to the other side.

3 cabinet 11 drain pan 12 drain pan unit 13 ion generating unit 17 cleaning unit 25 holder 26 upper wall 27 cover 30 electrical box 31 wire 40 fixing part 41 hook 41a head 42 pin 43 rib 45 protrusion

Claims (9)

A drain pan unit having a drain pan is provided on the front side of the cabinet installed on the wall of the room, a blower outlet is formed in the drain pan unit in the left-right direction, and an electrical box is provided on one side of the drain pan unit in the left-right direction. An electrical component is provided in the middle part of the unit in the left-right direction, and a wire that electrically connects the electrical box and the electrical component is wired in the left-right direction at the front part on the upper wall of the outlet, and on the upper wall of the outlet In addition, a fixing part for fixing the wire in the front-rear direction is integrally provided, and the fixing part has a pair of left and right hooks for pressing the wire from above and a columnar pin arranged between the left and right hooks. And the front end of the rising part of the hook is in front of the rear end of the pin so that the wire slid along the pin from the front can be pushed into the hook. Air conditioner, characterized in that position, and the pin is formed by tilted forward. A drain pan unit having a drain pan is provided on the front side of the cabinet installed on the wall of the room, a blower outlet is formed in the drain pan unit in the left-right direction, and an electrical box is provided on one side of the drain pan unit in the left-right direction. An electrical component is provided in the middle portion of the unit in the left-right direction so as to face the outlet, and a wire for electrically connecting the electrical box and the electrical component is wired on the upper wall of the outlet in the left-right direction. The unit is integrally provided with a fixing part for fixing the wire pushed in from the front and back in the front-rear direction, a fixing part is provided on the upper wall, and a holder equipped with electrical components is provided on the upper wall of the outlet. Attached, a protrusion is formed downward on the holder, the wire is guided from above the upper wall of the air outlet into the air outlet, is connected to the electrical component through the lower part of the protrusion, Instrumentation products and wire the air conditioner is characterized in that covered by the cover. The air conditioner according to claim 2 , wherein the fixing portion includes a hook for pressing the wire from above and a pin disposed on the front side of the hook, and the wire is sandwiched between the hook and the pin. A pair of hooks are provided at intervals in the left-right direction, and cylindrical pins are arranged between adjacent hooks so that the wire slid along the pins from the front can be pushed into the hooks. The air conditioner according to claim 3 , wherein the front end of the rising portion is positioned in front of the rear end of the pin, and the pin is inclined forward. The air conditioner according to any one of claims 1, 3 , and 4 , wherein the hook and the pin are formed along a forward and upward die cutting direction. The air conditioner according to any one of claims 1 to 5, wherein a rib for preventing the wire from protruding is provided in the drain pan unit along the left-right direction, and the rib is positioned in front of the wire. The plurality of fixing portions are provided at intervals in the left-right direction, and the rib is provided on the drain pan unit along the left-right direction except for a portion facing the fixing portion. The air conditioner described in Crab. The air conditioner according to claim 7, wherein a shielding member is provided in front of the fixed portion. An electrical component is arranged so as to face the air outlet, a holder fitted with the electrical component is attached to the upper wall of the air outlet, a protrusion is formed downward on the holder, and the wire is blown from above the upper wall of the air outlet. The air conditioner according to claim 1 , wherein the air conditioner is guided into the outlet and connected to an electrical component through a lower part of the protrusion, and the electrical component and the wire are covered with a cover.

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