JP4650074B2 - Air conditioner - Google Patents

Description

  The present invention relates to an air conditioner in which a negative ion generator is provided at an outlet.

  In the conventional air conditioner, the negative ion generator is disposed on the air inlet side of the heat exchanger, and negatively charges impurities such as dust contained in the indoor air sucked into the indoor unit. Then, the negatively charged impurities are removed by a dust collector disposed on the air suction port side of the heat exchanger of the indoor unit, and the purified air is blown into the room (for example, Patent Document 1). reference). Hereinafter, a conventional air conditioner will be described with reference to FIGS. FIG. 11 is a sectional view of an indoor unit of a conventional air conditioner, and FIG. 12 is a front view of the indoor unit of the conventional air conditioner.

  Conventionally, in an air conditioner that sucks indoor air into the indoor unit 100 to exchange heat with the heat exchanger 102 and blows the indoor air through the indoor fan 103, negative ions are placed on the air intake port 104 side of the heat exchanger 102. The negative ion generator 101 that generates and supplies the air to the room and the dust collector 105 that removes dust from the room air sucked into the indoor unit 100 and cleans it are disposed.

  With the above-described configuration, when indoor air passes through the negative ion generator 101, dust collection is provided on the downstream side of the negative ion generator 101 by negatively charging impurities such as dust contained in the indoor air. The apparatus 105 adsorbs and removes impurities.

FIG. 13 is a cross-sectional view of an indoor unit in which a negative ion generator is disposed at the outlet of another conventional air conditioner. As shown in FIG. 13, a negative ion generator is attached to the top wall near the outlet, and negative ions are emitted and supplied to the indoor space (see, for example, Patent Document 2).
International Publication No. 01/064349 Pamphlet JP 2003-74888 A

However, in the air conditioner provided with the negative ion generator on the side of the air suction port shown in the above prior art, only the air passing through the negative ion generator installed between the air suction port and the heat exchanger is charged. Therefore, a negative ion generator must be provided for the width of the air suction port of the air conditioner, and a certain volume and space are required. For this reason, ventilation resistance is increased at the air suction port, causing a reduction in suction performance.

  Also, if the negative ion generator is installed on the top wall near the air outlet due to the design of the air conditioner and the installation of the negative ion generator, the negative ion generator and the vertical wind direction change when the up / down wind direction change blade is operated. There existed the subject that a blade | wing contacted and the subject that the routing of the power supply circuit to a negative ion generator was difficult on the structure of the air conditioner.

  In view of the above-described problems, the present invention provides an air conditioner in which a negative ion generator is installed at the lower center in the longitudinal direction of the outlet.

In order to solve the above-described problems, the present invention provides an indoor unit that exchanges heat from air sucked from an air suction port with a heat exchanger and blows out from a blowout port by an indoor blower fan, and a longitudinal direction of the blowout port. A negative ion generator disposed at the outlet, and the negative ion generator includes a needle-like discharge electrode, a counter electrode, a conductor connecting the discharge electrode and the counter electrode, and An insulating cover for covering the conductor, a high voltage is applied between the discharge electrode and the counter electrode, and the wind from the indoor fan is passed between the electrodes to remove dust in the indoor air. a structure for charging, and the minus ion generator is provided an enclosure rib with its upper surface provided in the longitudinal center lower portion of the outlet, fitting the member received in the enclosure rib By hollow central fulcrum member insertion support for supporting allowed by the receiving the vertical wind direction changing blade members are there in the longitudinal direction central portion of the upper and lower air deflecting blades as a support with the structures in the negative ion generator.

The air conditioner of the present invention can improve the suction performance by providing a negative ion generator at the outlet, and can prevent dew condensation by setting the outlet at the center. Further, since a smaller negative ion generator can be provided as compared with the conventional negative ion generator, the cost can be reduced. Furthermore, the center fulcrum of the up / down wind direction changing blade can be easily positioned, the movement of the central fulcrum member can be suppressed, and negative ions are generated even if a force is applied to the up / down wind direction changing blade to warp and deform it. There is also an effect that the device suppresses the deformation of the up / down wind direction changing blade. In addition, the central fulcrum member and the negative ion generator can be integrated to improve the appearance.

The first invention includes an indoor unit that exchanges heat from an air suction port with a heat exchanger and blows out air from a blowout port by an indoor blower fan, a vertical airflow direction changing blade provided in the longitudinal direction of the blowout port, A negative ion generator disposed at the outlet, and the negative ion generator includes a needle-like discharge electrode, a counter electrode, a conductor connecting the discharge electrode and the counter electrode, and an insulating material covering the conductor. And a cover, wherein a high voltage is applied between the discharge electrode and the counter electrode, the air from the indoor fan is passed between the electrodes, and dust in indoor air is charged, and the minus ion generator provided an enclosure ribs on its upper surface is provided on the longitudinal center lower portion of the outlet, the enclosure was rib receiving fitting member engaged with the upper and lower on the receiving member By hollow insert a central fulcrum member supporting supporting the reorientation blade, there a longitudinal central portion of the upper and lower air deflecting vane as structure supported by the negative ion generating apparatus, the negative ion generator blowoff of the air conditioner By installing it at the lower center of the mouth, it is possible to prevent dew condensation. In addition, since the negative ion generator is attached to the lower part of the blowout port, the negative ion generator and the vertical wind direction change blade do not come into contact with each other when the up / down wind direction change blade provided in the blowout port is operated. Moreover, by attaching to the lower part, it becomes easy to route the power circuit due to the structure of the air conditioner. Further, by providing the enclosure ribs fitting the receiving portion of the central fulcrum member of the vertical wind direction changing blade in the negative ion generator, to facilitate position texture central fulcrum member of the vertical wind direction changing blade, the central fulcrum The movement of the member can be suppressed. In addition, by installing the negative ion generator at the lower part of the central fulcrum of the up / down wind direction changing blade, the central fulcrum member and the negative ion generator can be integrated and the appearance can be improved.

  In a second aspect of the invention, particularly in the air conditioner of the first aspect of the invention, the negative ion generator is installed so that the upper surface of the negative ion generator is substantially parallel to the air guider inclined surface. Can reduce the effects of

  According to the third aspect of the invention, in the air conditioner of the first or second aspect of the invention, the negative ion generator is installed on the back side of the front edge of the left and right wind direction changing blades disposed at the outlet. When the wind direction changing blades are operated, the left and right wind direction changing blades are not in contact with the negative ion generator, and the angle of the left and right wind direction changing blades can be secured.

  In a fourth aspect of the present invention, in particular, in the air conditioner according to the first to third aspects of the present invention, an air blown out by providing a storage portion for storing the conductor of the negative ion generator at the lower portion of the central tip of the air guider. There is no resistance in the flow path, and the ventilation resistance can be reduced.

  According to a fifth aspect of the present invention, in the air conditioner of the first to fourth aspects of the invention, a lead wire extending from the negative ion generator can be easily provided by providing a recess in the longitudinal direction of the lower end of the tip of the air guider. It can be stored and routed, and the work can be stabilized.

  According to a sixth aspect of the present invention, in the air conditioner of the fifth aspect of the present invention, since the recess is provided in the lower right portion of the blow grill provided at the blow outlet of the air conditioner, the lead of the negative ion generator from the lower portion of the air guider is provided. The wire can be stored and easily routed to the power source, and workability can be improved.

  According to a seventh aspect of the present invention, in particular, in the air conditioner of the first to sixth aspects of the invention, a fan motor presser that covers and fixes a fan motor that operates an indoor fan disposed in the air conditioner, and the negative ion A high voltage generator for supplying power to the generator, an intermediate connector for connecting the negative ion generator and the high voltage generator, and an intermediate connector storage portion for storing the intermediate connector in the fan motor presser By providing, it can distinguish from the intermediate | middle earth connector which connects the said negative ion generator and earth | ground, and can ensure arc-proof performance and the ease of workability | operativity.

  According to an eighth aspect of the present invention, in the air conditioner of the seventh aspect of the invention, the fan motor retainer is provided with lead wire fixing grooves for fixing the lead wires extending from the intermediate connector, so that both ends of the intermediate connector are provided. The lead wire extending from the lead can be reliably positioned.

  According to a ninth aspect of the invention, in the air conditioner of the seventh or ninth aspect of the invention, the power supply plate is disposed in front of the intermediate connector storage portion, so that the intermediate connector can be stored without touching a finger. It is possible to secure safety.

(Embodiment 1)
1 and 2 show a side sectional view and a front view of the air conditioner according to Embodiment 1 of the present invention. 1 and 2, a needle-like discharge electrode and a counter electrode are provided inside the negative ion generator 1, and a high voltage generator 11 connected to the negative ion generator 1 generates a high voltage between the discharge electrodes. By applying and allowing air to pass between the acicular discharge electrode and the counter electrode, negative ions can be released into the air. The negative ion generator 1 having such a configuration is installed in the lower center of the outlet 2 of the indoor unit 15.

  Here, the attachment position of the negative ion generator 1 will be described. The negative ion generator 1 is attached to the center in the longitudinal direction of the outlet. When the negative ion generator 1 is attached to the left end or right end of the air outlet 2 of the indoor unit 15, the negative ion generator 1 and the left / right wind direction changing blade 7 come into contact when the left / right wind direction changing blade 7 is operated. For this reason, the design must be such that a part of the left / right wind direction changing blade 7 is removed. However, if the design is such that a part of the left / right wind direction changing blade 7 is removed, the air blowing performance becomes unbalanced on the left and right, and the temperature in the room becomes uneven.

  Further, a little warm air is sucked from the gap between the end of the heat exchanger 18 and the indoor unit 15 during cooling, and condensation occurs at the end of the indoor blower fan 16. Further, not only at the end of the indoor fan 16 but also at the end of the air outlet 2, ambient air is caught and dew condensation occurs. For this reason, there is a problem when the negative ion generator 1 which is an electrical device is attached to the end of the indoor blower fan 16 or the air outlet 2 where condensation occurs.

The negative ion generator 1 is attached to the lower part of the outlet 2. If the negative ion generator 1 is provided on the upper surface wall of the air outlet 2, the negative ion generator 1 and the vertical wind direction changing blade 6 come into contact with each other due to the design of the vertical wind direction changing blade 6 of the air conditioner. Also, if it is provided on the top wall of the outlet 2, it is difficult to process if dew is generated in the negative ion generator 1, but the dew generated in the negative ion generator 1 is also compared by attaching it to the lower part. Easily.
Considering the above problems, it is desirable to provide the negative ion generator 1 at the lower center of the outlet 2.

  About the air conditioner comprised as mentioned above, the operation | movement and an effect | action are demonstrated below.

  The air sucked from the air suction port 17 by the indoor blower fan 16 is heat-exchanged by passing through the heat exchanger 18, passes through the negative ion generator 1, and is blown out into the room in a charged state. It is negatively charged to the dust that is filled. The negatively charged dust existing in the room is sucked again into the indoor unit 15 from the air suction port 17 and adheres to the positively charged dust collecting device 19 disposed in the indoor unit 15.

3 is an enlarged view of part A in FIG. 1, and FIG. 4 is an enlarged view of part B in FIG. As shown in FIG. 3, since the negative ion generator is installed so that the upper surface of the negative ion generator 1 is substantially parallel to the inclined surface of the air guider 3, wind turbulence does not occur and the draft resistance is reduced. Can be achieved. Further, as shown in FIGS. 3 and 4, the negative ion generator 1 is installed at the lower part of the center fulcrum member 5 provided in the longitudinal center of the up-and-down wind direction changing blade 6 disposed at the outlet 2. , Can improve the appearance. Furthermore, if the force is applied to the vertical wind direction changing blade 6 against the force in the direction in which the vertical wind direction changing blade 6 is warped and deformed, the negative ion generator 1 is the central fulcrum member of the vertical wind direction changing blade 6. Since it is installed in the lower part of 5, the effect which suppresses a deformation | transformation of the up-and-down wind direction change blade | wing 6 is also accompanied. That is, the center fulcrum member 5 supports the up-and-down wind direction changing blade 6 with a shaft (not shown) on the bearing portion 5a so as to be rotatable up and down and is hollow and inserted into the receiving member 4. Member 4
Since it is in contact with the substantially U-shaped surrounding rib 1b provided on the upper surface of the negative ion generator 1 (see FIG. 3), the central fulcrum member 5 is prevented from moving downward, and as a result, the central fulcrum The deformation of the up / down wind direction changing blade 6 supported by the member 5 can be suppressed.

  Further, the negative ion generator 1 is disposed between the left and right wind direction changing blades 7, and the negative ion generator 1 is disposed so as not to protrude forward from the front edge 7 a of the left and right wind direction changing blades 7. Contact between the generator 1 and the left and right wind direction changing blades 7 can be prevented. Therefore, the operation | movement of the left-right wind direction change blade | wing 7 is attained like the past, without the negative ion generator 1 and the wind direction change blade | wing 7 contacting.

  Moreover, as shown in FIG. 3, the storage part 3a is provided in the lower part of the center front-end | tip part of the air guider 3, and the ventilation resistance is reduced and the blowing performance is improved by storing the conductor 1a of the negative ion generator 1. Can do.

5 is a sectional view taken along the line DD of FIG. 4, and FIG. 6 is an external view of the negative ion generator 1 according to the present invention. As shown in FIGS. 5 and 6, the receiving member 4 of the central fulcrum member 5 of the up-and-down wind direction changing blade 6 is provided by providing a substantially U-shaped enclosure rib 1 b on the upper surface of the negative ion generator 1. Positioning is facilitated by fitting to the surrounding rib 1b. Moreover, since the surrounding rib 1b is substantially U-shaped, the receiving member 4 is positioned from both the left and right sides, and the movement of the up / down wind direction changing blade 6 can be suppressed. That is, since the hollow portion of the center fulcrum member 5 is inserted into the receiving member 4, and this receiving member 4 is fitted to the substantially U-shaped surrounding rib 1b provided on the upper surface of the negative ion generator 1, The central fulcrum member 5 is prevented from moving left and right via the receiving member 4, and as a result, the movement of the up / down wind direction changing blades 6 supported by the central fulcrum member 5 can be suppressed.

  7 is a cross-sectional view taken along line EE in FIG. 4, and FIG. 8 is a cross-sectional view taken along line FF in FIG. As shown in FIG. 7, by providing the recess 3b in the longitudinal direction at the lower end of the air guider 3, the lead wire 10 of the negative ion generator 1 can be easily accommodated and routed, which improves workability. Can be planned. Further, as shown in FIG. 8, a recess 9 a is provided at the lower right side of the blowing grill 9, the lead wire 10 of the negative ion generator 1 is provided at 3 b provided at the lower end of the air guider 3, and a recess 9 a provided at the lower right side of the blowing grill 9. By being housed in, the power supply plate 14 can be easily routed, and workability can be improved.

  9 is an enlarged view of a portion G in FIG. 2, and FIG. 10 is a sectional view taken along line JJ in FIG. An intermediate connector 12 that connects the negative ion generator 1 and the high voltage generator 11 is provided in a fan motor presser 13 that covers and fixes a fan motor that operates an indoor fan that is disposed in the indoor unit 15. Since it is stored in the intermediate connector storage portion 13a, it can be distinguished from an intermediate ground connector (not shown) that connects the negative ion generator 1 to the ground, so which is the connector on the applied voltage side for the operator. Can be easily determined. Further, the intermediate connector 12 on the applied voltage side is fixed and a distance is provided between the intermediate connector 12 and the arc discharge is prevented.

  In addition, by providing the lead wire fixing groove 13b in the fan motor presser 13, the lead wire 10 extending from both ends of the intermediate connector 12 can be reliably positioned. By securely fixing the lead wire, the movement of the intermediate connector 12 on the applied voltage side is suppressed, and the arc discharge can be further prevented. Further, since the power supply plate 14 is disposed in the front open portion of the intermediate connector storage portion 13a of the fan motor presser 13, the intermediate connector 12 can be stored without touching the fingers, and safety can be ensured. Can do.

The air conditioner of the present invention is capable of preventing air blowing performance and dew condensation, facilitating the positioning of the center fulcrum of the up / down wind direction changing blade, suppressing the movement of the center fulcrum, Even if a force in the direction of warping and deforming is added, the negative ion generator can suppress the deformation of the up / down wind direction changing blade, and in addition, the central fulcrum member and the negative ion generator are integrated. The appearance can also be improved, and it can be applied to the use of products using other negative ion generators.

Side surface sectional drawing of the air conditioner in Embodiment 1 of this invention The front view of the air conditioner in Embodiment 1 of this invention Part A enlarged view of FIG. B part enlarged view of FIG. DD sectional view of FIG. External view of negative ion generator in the present invention EE sectional view of FIG. FF sectional view of FIG. G section enlarged view of FIG. JJ cross section of FIG. Side sectional view of a conventional air conditioner Front view of conventional air conditioner Side sectional view of another conventional air conditioner

DESCRIPTION OF SYMBOLS 1 Negative ion generator 1a Conductor 1b Enclosure rib 2 Outlet 3 Air guider 3a Storage part 3b Recess 4 Receiving member 5 Center fulcrum member 6 Vertical wind direction change blade 7 Left and right air direction change blade 7a Front edge 9 Outlet grill 9a Recess 10 Lead wire 11 High voltage generator 12 Intermediate connector 13 Fan motor presser 13a Intermediate connector housing 13b Lead wire fixing groove 14 Power supply plate 15 Indoor unit 16 Indoor blower fan 17 Air inlet 18 Heat exchanger 19 Dust collector

Claims (9)

An indoor unit that exchanges heat from the air suction port with a heat exchanger and blows out from the blowout port by an indoor blower fan, a vertical airflow direction changing blade provided in the longitudinal direction of the blowout port, and a minus disposed in the blowout port An ion generator, the negative ion generator comprises a needle-like discharge electrode, a counter electrode, a conductor connecting the discharge electrode and the counter electrode, and an insulating cover covering the conductor, A high voltage is applied between the discharge electrode and the counter electrode, the air from the indoor fan is passed between the electrodes to charge the dust in the indoor air, and the negative ion generator is the enclosure ribs provided on an upper surface thereof is provided on the longitudinal center bottom of the mouth, the upper and lower air deflecting vanes fitted to the receiving member of this fold rib on the receiving member By the hollow central fulcrum member supporting the inserted support, supporting air conditioner a longitudinal central portion of the upper and lower air deflecting vane in negative ion generator. The air conditioner according to claim 1, wherein the negative ion generator is installed so that an upper surface of the negative ion generator is substantially parallel to an inclined surface of the air guider. The air conditioner according to claim 1 or 2, wherein a negative ion generator is installed behind the front edge of the right and left wind direction changing blades arranged at the outlet of the air conditioner. The air conditioner according to any one of claims 1 to 3, wherein a storage unit that stores a conductor of the negative ion generator is provided at a lower portion of a central tip of the air guider. The air conditioner according to any one of claims 1 to 4, wherein a concave portion is provided in a longitudinal direction of a lower end of the tip of the air guider. The air conditioner according to claim 5, wherein a recess is provided in a lower right portion of the blow grill provided in the air conditioner. A fan motor presser that covers and fixes a fan motor that operates a fan disposed in the air conditioner, a high voltage generator that supplies power to the negative ion generator, the negative ion generator, and the high ion generator The air conditioner according to any one of claims 1 to 6, further comprising an intermediate connector for connecting to a voltage generator, and an intermediate connector housing portion for housing the intermediate connector provided in the fan motor presser. . The air conditioner according to claim 7, wherein a lead wire fixing groove for fixing a lead wire extending from the intermediate connector is provided in the fan motor presser. The air conditioner according to claim 7 or 8, wherein a power supply plate is disposed in front of the intermediate connector housing portion.