JP2014109389A - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air conditioner having excellent ventilation performance.SOLUTION: A sirocco fan 20 of an air cleaner 1 has a fan rotor 21 and a scroll casing 22. The scroll casing 22 includes a scroll bending part 26 forming a scroll channel FP1. On an outer surface of the scroll casing 22, a groove 224 is formed at a position displaced to the scroll channel FP1 in a rotary shaft direction of the fan rotor 21. A rear surface casing 12 has an inner surface on its left-side part 121a, the inner surface facing an outer surface of a third wall 222c of the scroll casing 22. A control unit 60 controls a drive of the fan rotor 21. A power cable 61 supplies power to the control unit 60. The power cable 61 extends to the control unit 60 through a portion between outer surfaces of the third wall 222c and a fourth wall 222d and the inner surface of the rear surface casing 12 and through the groove 224.

Description

  The present invention relates to an air conditioner.

  DESCRIPTION OF RELATED ART Conventionally, the air conditioner provided with the sirocco fan which has a fan rotor and the fan casing which accommodates a fan rotor is known. For example, in an air conditioner (air purifier) described in Patent Document 1 (Japanese Utility Model Publication No. 63-73151), a sirocco fan having a fan casing in which a scroll channel is formed is employed.

  By the way, in an air conditioner using a sirocco fan, in order to suppress a decrease in air blowing performance or the like, a device is required for a method of installing a cable that supplies power and signals to a motor that drives the fan, a control unit, and the like. There is a case. For example, Patent Document 1 discloses an idea in which a groove portion is formed on the back side of a fan casing, and a cable for supplying power to a motor is fitted in the groove portion.

  Here, in the sirocco fan, the larger the scroll flow path in the fan casing, the more the air flow rate is increased and the air blowing performance is easily improved. Therefore, in order to make the scroll flow path as large as possible, it is desirable to make the distance between the inner surface of the casing of the air conditioner body and the outer surface of the fan casing as small as possible. However, in the method described in Patent Document 1, since a cable is installed between the casing of the air conditioner body and the fan casing, the inner surface of the casing of the air conditioner body, the outer surface of the fan casing, , Difficult to reduce the distance.

  Then, the subject of this invention is providing the air conditioner excellent in ventilation performance.

  An air conditioner according to a first aspect of the present invention includes a sirocco fan, an outer shell member, a control unit, and a cable. The sirocco fan has a fan rotor and a fan casing disposed on the outer peripheral side of the fan rotor. The fan casing includes a scroll bending portion that forms a scroll flow path. A concave portion is formed on the outer surface of the fan casing at a position displaced in the direction of the rotation axis of the fan rotor with respect to the scroll flow path. The outer shell member has an inner surface facing the outer surface of the scroll bending portion. The control unit controls driving of the fan rotor. The cable supplies power or a signal to the control unit. The cable extends to the control unit between the outer surface of the scroll bending portion and the inner surface of the outer shell member and through the recess.

  In the air conditioner according to the first aspect of the present invention, a recess through which the cable passes is formed on the outer surface of the fan casing at a position shifted in the rotation axis direction of the fan rotor with respect to the scroll flow path. Thereby, it becomes possible to make the inner surface of an outer shell member and the outer surface of a scroll curved part approach, and a scroll flow path can be formed large. Therefore, ventilation performance is improved.

  The air conditioner which concerns on the 2nd viewpoint of this invention is an air conditioner which concerns on a 1st viewpoint, Comprising: The outer surface of a scroll curved part and the inner surface of an outer shell member are extended along the perpendicular direction. The recess is formed so as to extend along the vertical direction.

  In the air conditioner according to the second aspect of the present invention, the recess is formed so as to extend along the vertical direction. As a result, the inner surface of the outer shell member and the outer surface of the scroll bending portion can be brought closer to each other, and the scroll channel can be further enlarged.

  An air conditioner according to a third aspect of the present invention is the air conditioner according to the first aspect or the second aspect, wherein the recess has the shortest distance between the outer surface of the scroll curved portion and the inner surface of the outer shell member. It is formed near the part.

  In the air conditioner according to the third aspect of the present invention, the recess is formed in the vicinity of the portion of the outer surface of the scroll bending portion that is closest to the inner surface of the outer shell member. As a result, the inner surface of the outer shell member and the outer surface of the scroll bending portion can be brought closer to each other, and the scroll flow path can be further increased.

  An air conditioner according to a fourth aspect of the present invention is the air conditioner according to any one of the first to third aspects, wherein the shortest distance between the outer surface of the scroll bending portion and the inner surface of the outer shell member is a cable. Shorter than the width and thickness.

  In the air conditioner according to the fourth aspect of the present invention, the shortest distance between the outer surface of the scroll bending portion and the inner surface of the outer shell member is shorter than the width and thickness of the cable. Thereby, a scroll flow path can be further enlarged.

  An air conditioner according to a fifth aspect of the present invention is the air conditioner according to any of the first to fourth aspects, wherein the control unit is disposed above the height position of the scroll bending portion. The The cable is installed so as to extend along the vertical direction.

  In the air conditioner according to the fifth aspect of the present invention, the control unit is disposed above the height position of the scroll bending unit. The cable is installed so as to extend along the vertical direction. Thus, even when the cable is installed so as to extend along the vertical direction between the outer surface of the scroll curved portion and the inner surface of the outer shell member, the inner surface of the outer shell member and the outer surface of the scroll curved portion , And the scroll flow path can be formed larger.

  An air conditioner according to a sixth aspect of the present invention is the air conditioner according to any one of the first aspect to the fifth aspect, and the fan casing has a support rib for supporting the cable on an outer surface thereof.

  In the air conditioner according to the sixth aspect of the present invention, the fan casing has a support rib for supporting the cable on its outer surface. Thereby, a cable is stably hold | maintained.

  In the air conditioner according to the first to sixth aspects of the present invention, the scroll channel can be formed large, and the air blowing performance is improved.

  In the air conditioner according to the second to fourth aspects of the present invention, the scroll flow path can be further enlarged.

  In the air conditioner according to the fifth aspect of the present invention, even if the cable is installed so as to extend along the vertical direction between the outer surface of the scroll bending portion and the inner surface of the outer shell member, the scroll flow path Can be formed large.

  In the air conditioner according to the sixth aspect of the present invention, the cable is stably held.

The front perspective view of the air cleaner concerning one embodiment of the present invention. The rear perspective view of the air cleaner concerning one embodiment of the present invention. The conceptual diagram of the flow of the air in the state which drive | operated the air cleaner which concerns on one Embodiment of this invention. A rear view of the sirocco fan (the boundary wall is not shown). The rear view of the air cleaner of the state which removed the back casing, the side inlet formation part, the top | upper surface part, the front panel, and the operation panel (illustration is omitted about the back part). The left view of FIG. The exploded view of the air cleaner which concerns on one Embodiment of this invention of the state which removed the front panel and the discharge unit. 2 is a cross-sectional view taken along line VIII-VIII in FIG. 2 in a rear view (the side suction port forming portion is not shown). IX-IX sectional view taken on the line of FIG. XX sectional drawing of FIG. XI-XI sectional view taken on the line of FIG. XII-XII sectional view taken on the line of FIG. The enlarged view of A part of FIG.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. The following embodiments are specific examples of the present invention and do not limit the technical scope of the present invention, and can be modified without departing from the scope of the invention. In the following description, terms indicating directions such as up, down, left, right, front (front), and back (back) are used. These directions are shown in FIGS. 2 and the directions shown in FIGS. 4 and 6 to 8.

(1) Air purifier 1
An air conditioner according to an embodiment of the present invention is an air purifier 1. FIG. 1 is a front perspective view of the air purifier 1. FIG. 2 is a rear perspective view of the air cleaner 1.

  The air cleaner 1 is a floor-standing type and is installed on an indoor floor or the like. The air cleaner 1 cleans indoor air by taking in air in the indoor space, removing dust and the like and discharging it to the indoor space. The air cleaner 1 is formed with a lower suction port 101 for taking indoor air into the interior, a left side suction port 102a, and a right side suction port 102b, and a blower port 103 for blowing out purified air is formed. Yes.

  The lower suction port 101 is formed to extend in the left-right direction in the vicinity of the lower end of the front portion. The left side suction port 102a is formed to extend in the vertical direction in the left side surface portion. The right side suction port 102b is formed so as to extend vertically in the right side surface portion. The blower outlet 103 is formed in the substantially rectangular shape long in the left-right direction in the back side part of the top | upper surface. For convenience of explanation, in the following explanation, the left side suction port 102a and the right side suction port 102b are collectively referred to as the side suction port 102.

  The outer shell of the air cleaner 1 is constituted by a main body casing 10.

(1-1) Main body casing 10
The main body casing 10 has a substantially rectangular parallelepiped shape, and is inclined so that the back side portion of the top surface is lowered in the back direction in a side view. The main body casing 10 is mainly composed of a resin casing member including a bottom surface portion 11, a back surface casing 12, a left side suction port forming portion 13 a, a right side suction port forming portion 13 b, a top surface portion 14, and a front panel 15. .

(1-1-1) Casing member The bottom face part 11 comprises the bottom face part of the air cleaner 1, and is exhibiting the substantially rectangular shape long in the left-right direction.

  The back casing 12 constitutes the back portion of the air cleaner 1 and the back side portions of the left and right side surfaces, and is fixed to the bottom surface portion 11 at the lower end thereof. The rear casing 12 has a substantially U shape in plan view, and its outer surface extends in the vertical direction, which is the vertical direction, and its inner surface also extends in the vertical direction, which is the vertical direction. The back casing 12 mainly includes a rear portion 120, a left side portion 121a, and a right side portion 121b (hereinafter, the left side portion 121a and the right side portion 121b are collectively referred to as a side portion 121). The rear portion 120 has a vertically long and substantially rectangular shape. The side portion 121 has a vertically elongated shape, and extends in the front direction from the left and right ends of the rear portion 120. The side portion 121 is formed with a handle portion 12a that is used when the air cleaner 1 is carried.

  The right side suction port forming portion 13 b constitutes a front side portion of the right side surface of the air cleaner 1. The left side suction port forming portion 13a (hereinafter, the left side suction port forming portion 13a and the right side suction port forming portion 13b are collectively referred to as a side suction port forming portion 13) is a front side of the left side surface of the air cleaner 1. Make up part. The side suction port forming portion 13 has a vertically long and substantially rectangular shape in a side view, and is fixed to the bottom surface portion 11 at the lower end thereof. The side suction port forming part 13 is formed with a vertically long opening, and the opening functions as the side suction port 102.

  The top surface portion 14 constitutes the top surface portion of the air cleaner 1 and is fixed to the back casing 12 and the side suction port forming portion 13. The front side portion of the top surface portion 14 extends horizontally in the left-right direction, and an operation panel 140 on which a user inputs instructions is disposed on the horizontal portion. The user can switch the operation state (operation start, operation stop, air volume adjustment, etc.) of the air purifier 1 by pressing a button or the like provided on the operation panel 140. The back side portion of the top surface portion 14 is an inclined surface with a downward slope in the back direction. A large opening is formed in the inclined surface, and a discharge port 23 of a sirocco fan 20 to be described later is exposed from the opening to function as the air outlet 103 of the air cleaner 1.

  The front panel 15 constitutes a front portion of the air cleaner 1. The front panel 15 is fixed to the side suction port forming portion 13 and the top surface portion 14, and can be removed as appropriate as shown in FIG. A gap is formed between the lower end of the front panel 15 and the bottom surface portion 11, and this gap functions as the lower suction port 101.

  Instead of forming such a gap between the front panel 15 and the bottom surface portion 11, an opening may be formed in the front panel 15 and the opening may be used as the lower suction port 101. The front panel 15 may be integrally formed with the side suction port forming part 13. Moreover, you may shape | mold the back casing 12, the side inlet formation part 13, the top surface part 14, etc. integrally.

  A sirocco fan 20, a filter unit 30, a streamer discharge unit 40, a discharge unit 50, and a control unit 60 are accommodated in the main body casing 10 constituted by the above casing members. Hereinafter, the flow of air when the air cleaner 1 is operated and details of each part will be described.

(1-2) Air Flow FIG. 3 is a conceptual diagram of the air flow in the operating state of the air purifier 1. When the sirocco fan 20 is driven, an air flow from the lower inlet 101 and the side inlet 102 to the outlet 103 is generated. Dust and odor components are removed from the indoor air sucked from the lower suction port 101 and the side suction port 102 by the filter unit 30, and clean air is blown out from the sirocco fan 20.

(1-3) Sirocco fan 20
Hereinafter, the sirocco fan 20 will be described with reference to FIGS. FIG. 4 is a rear view of the sirocco fan 20. FIG. 5 is a rear view of the air cleaner 1 with the front panel 15, the side suction port forming portion 13, the top surface portion 14, the rear casing 12 and the operation panel 140 removed (the rear portion 221 is not shown). . FIG. 6 is a left side view of FIG.

  The sirocco fan 20 is taken into the sirocco fan 20 through the intake port 220a and discharged to the outside through the discharge port 23. Specifically, when the fan rotor 21 rotates, external air is sucked from the intake port 220a formed in the lower portion and taken into the scroll casing 22, and then into the scroll flow path FP1 and the discharge flow path FP2. It sends out and blows out from the discharge port 23 arrange | positioned in the upper end vicinity. The sirocco fan 20 mainly includes a fan rotor 21 and a scroll casing 22.

(1-3-1) Fan rotor 21
The fan rotor 21 includes a plurality of blades 210 arranged in the circumferential direction, an annular holding ring 211 provided at the front end of the blade 210, and a disk-like shape provided at a position facing the holding ring 211. And a back plate 212.

  The fan rotor 21 is connected to the rotation shaft 213a of the fan motor 213 in a connection hole 212a formed at the center of the back plate 212. The fan rotor 21 is rotated by driving of the fan motor 213, sucks air from the front direction, passes between the blades 210 and blows radially outward, and then discharges from a scroll flow path FP1 to a discharge flow path FP2. Pumped to.

  The fan rotor 21 is accommodated in the scroll casing 22.

(1-3-2) Scroll casing 22
The scroll casing 22 includes a resin front part 220, a back part 221, and a wall part 222. The front part 220 has a shape that combines a trapezoid and a circle, and constitutes a front part of the scroll casing 22. An opening is formed in the front portion 220, and the opening functions as an air intake port 220a (see FIGS. 8, 10, and 11). As shown in FIGS. 5 and 6, boundary wall portions 220 b are provided on the left and right sides of the front side of the front portion 220. This is a wall for forming a boundary with a vertical flow path forming member 41 (see FIGS. 3 and 8) described later.

  The back surface portion 221 constitutes the back surface portion of the scroll casing 22. The wall part 222 extends between the front part 220 and the back part 221 and connects the two.

  The upper end portion of the scroll casing 22 is an opening and functions as a discharge port 23 for discharging air. Further, an opening is formed in the vicinity of the upper end of the front portion 220 and below the discharge port 23, and functions as an introduction port 24 to a streamer discharge unit 40 described later. The inside of the scroll casing 22 is sealed except for the intake port 220a, the discharge port 23, and the introduction port 24.

  Hereinafter, the state when the scroll casing 22 is viewed from the back side will be described separately for the upper portion 25 and the scroll bending portion 26. In addition, the upper part 25 and the scroll curved part 26 are integrally molded.

  An upper portion 25 of the scroll casing 22 has a substantially trapezoidal shape, and a discharge port 23 is formed in a horizontally long shape at an upper end portion thereof. A lattice member 23 a that prevents intrusion of fallen objects and the like is disposed at the discharge port 23. Further, a tongue portion 25 a protruding inward is formed in the vicinity of the lower end of the upper portion 25. The end of the tongue 25a opposite to the outlet 23 is connected to the starting point of the scroll bending portion 26.

  In the following description, for convenience of description, a portion from the right end portion of the discharge port 23 to the tongue portion 25a in the wall portion 222 is referred to as a first wall portion 222a. A portion from the tongue portion 25a to the lower end of the scroll casing 22 is defined as a second wall portion 222b. Further, a portion from the end of the second wall portion 222b to a point orthogonal when a horizontal line is drawn from the center point of the tongue portion 25a is defined as a third wall portion 222c. A portion from the terminal end of the third wall portion 222c to the left end portion of the discharge port 23 is defined as a fourth wall portion 222d. As shown in FIG. 4, the first wall portion 222a, the second wall portion 222b, the third wall portion 222c, and the fourth wall portion 222d extend long in the vertical direction, which is the vertical direction.

  The scroll bending portion 26 has a rounded shape, and is formed such that the radius of curvature increases toward the left from the lower end of the tongue portion 25a. And in the front part of the scroll curved part 26, the intake port 220a which is opening of the substantially same area as the holding ring 211 is formed, and it accommodates so that the fan rotor 21 may be exposed from the intake port 220a. A fan motor 213 is accommodated on the back side of the fan rotor 21.

  The outer surfaces of the back surface part 221 and the wall part 222 are close to the inner surface of the back casing 12. In particular, as shown in FIG. 8, the outer surface of the third wall portion 222c and the inner surface of the left side portion 121a are close to each other, and the shortest distance sd (see FIG. 13) is 5.0 mm. Of the outer surface of the third wall portion 222c, a portion closest to the inner surface of the left side portion 121a is defined as the closest portion CP (see FIGS. 11 to 13).

  A groove portion 224 through which a power cable 61 described later passes is formed in the boundary wall portion 220b on the front side of the third wall portion 222c. Support ribs 27 that support the power cable 61 are provided over the third wall portion 222c and the fourth wall portion 222d. Details of the support rib 27 and the groove portion 224 will be described in (2) Details of the groove portion 224 and the support rib 27.

  A scroll flow path FP1 and a discharge flow path FP2 through which air flows are formed in the internal space of the scroll casing 22 configured as described above. Specifically, the scroll flow path FP1 is formed outside the outer peripheral surface of the fan rotor 21 in the scroll bending portion 26, and is formed so that the flow path area increases as the distance from the tongue 25a increases. In the sirocco fan 20, when the area of the scroll flow path is gradually increased as described above, more air is sent and the air blowing performance is improved.

  The discharge flow path FP2 is formed in a space from the downstream end of the scroll flow path FP1 to the discharge port 23, and communicates with the scroll flow path and extends to the discharge port 23. In addition, the front side of the scroll flow path FP1 and the discharge flow path FP2 is closed by the front portion 220, and the back side is closed by the back portion 221. Further, the wall portion 222 is closed between the front side and the back side. That is, the air guided to the scroll flow path FP1 and the discharge flow path FP2 is sent toward the discharge port 23.

(1-4) Filter unit 30
As shown in FIG. 3, the filter unit 30 is disposed on the upstream side of the air flow of the sirocco fan 20. The filter unit 30 includes a pre-filter 31, a HEPA (High Efficiency Particulate Air Filter) filter, and a deodorizing element 33.

  First, large dust is removed by the pre-filter 31. Next, finer dust is removed by the HEPA filter 32. Further, the air that has passed through the HEPA filter 32 is adsorbed or decomposed by formaldehyde, odor components, and the like by a deodorizing element 33 including activated carbon.

(1-5) Streamer discharge unit 40
The streamer discharge unit 40 is disposed below a control unit 60 described later. The streamer discharge unit 40 includes a needle-like electrode made of tungsten, which is a positive electrode, and a plate-like electrode (counter electrode) located near the needle-like electrode and facing the electrode (not shown). By applying a high voltage to the needle-like electrode, streamer discharge, which is a kind of plasma discharge, is generated. Active species with high oxidative decomposition power are generated when the discharge is generated.

  A part of the air flowing through the discharge flow path FP2 of the sirocco fan 20 is sent to the streamer discharge unit 40 as a tributary 100a shown in FIG. 3 through the introduction port 24 (see FIG. 4). When this tributary 100a passes through the streamer discharge unit 40, active species are supplied by the streamer discharge.

  The generated air containing the active species is divided into a plurality of branch streams 100b and flows into the two vertical flow path forming members 41 as shown in FIGS. The vertical flow path forming member 41 is a cylindrical member extending along the vertical direction. Each vertical flow path forming member 41 is disposed in the vicinity of the left and right end portions on the front side of the sirocco fan 20 so as to extend in the direction in which the side suction port 102 extends. A plurality of discharge ports 41 a are formed in the vertical flow path forming member 41, and a plurality of branch streams 100 b and active species are blown out from the discharge ports 41 a before the prefilter 31.

  The plurality of branch streams 100 b join the room air sucked from the pre-filter 31 and reach the HEPA filter 32 and the deodorizing element 33. The deodorizing effect is enhanced by the active species reaching the deodorizing element 33.

(1-6) Discharge unit 50
FIG. 7 is an exploded view in which the front panel 15 and the like are removed from the air cleaner 1. As shown in FIG. 7, the discharge unit 50 has a cylindrical shape whose length is longer than the width, and is detachably installed one by one near the left side suction port 102a and the right side suction port 102b. Has been. Air sucked from the side suction port 102 is configured to pass through the discharge unit 50, and the discharge unit 50 charges relatively small dust floating in the sucked air. Specifically, the air sucked from the side suction port 102 enters the discharge unit 50 from the grid-shaped portion, and passes through a discharge unit (not shown) provided in the discharge unit 50. As a result, dust in the air is charged.

(1-7) Control unit 60
The control unit 60 is located above the height position of the scroll bending portion 26 and substantially below the operation panel 140. As shown in FIG. 5, the control unit 60 is composed of a plurality of electrical components, and controls the operation of each part such as the fan motor 213. Specifically, the control unit 60 controls the air purifier 1 based on a user command input via the operation panel 140. For example, when the user inputs a control command for starting the air cleaning operation via the operation panel 140, the control unit 60 drives the fan motor 213 and applies a voltage to the streamer discharge unit 40 and the discharge unit 50. And so on.

  The control unit 60 is connected to a power cable 61 extending in the vertical direction along the third wall portion 222c and the fourth wall portion 222d of the sirocco fan 20 from a power supply device (not shown) disposed on the bottom surface portion 11. , Receiving power supply. Note that the power cable 61 in this embodiment has a width w1 of 8.0 mm and a thickness t1 of 5.5 mm (see FIG. 13).

(2) Details of Groove 224 and Support Rib 27 Hereinafter, the groove 224 and the support rib 27 will be described with reference to FIGS. 4 to 6 and FIGS. 8 to 13. 8 is a cross-sectional view taken along line VIII-VIII in FIG. 2 in a rear view (the side suction port forming portion 13 is not shown). 9 is a cross-sectional view taken along line IX-IX in FIG. 10 is a cross-sectional view taken along line XX of FIG. 11 is a cross-sectional view taken along line XI-XI in FIG. 12 is a cross-sectional view taken along line XII-XII in FIG. FIG. 13 is an enlarged view of a portion A in FIG.

(2-1) Groove 224
As described above, the groove portion 224 is formed in the third wall portion 222 c of the scroll casing 22. More specifically, the groove 224 is formed by cutting out the boundary wall 220b at a position shifted in the rotation axis direction (front direction) of the fan rotor 21 with respect to the scroll flow path FP1 of the third wall 222c. Has been.

  The groove 224 is formed to allow the power cable 61 to pass therethrough. That is, as described above, in the sirocco fan 20, by forming the scroll passage area so as to gradually increase, more wind is sent and the blowing performance is improved. For this reason, in order to make the scroll flow path as large as possible, it is desirable that the outer surface of the wall portion 222 of the scroll casing 22 and the inner surface of the rear casing 12 are brought close to each other, and that the scroll curved portion 26 is enlarged. However, when it is necessary to pass the power cable 61 between the wall portion 222 of the scroll casing 22 and the inner surface of the rear casing 12 in order to supply power to the control unit 60, the power cable 61 A space larger than the width w1 and the thickness t1 must be ensured between the two. In order to solve both of these conflicting requirements, a groove portion 224 is formed in the third wall portion 222c of the scroll casing 22.

  Specifically, as described above, the power cable 61 in the present embodiment has a width w1 of 8.0 mm and a thickness t1 of 5.5 mm. The width w2 is 10.0 mm and the depth d1 is 6.0 mm.

  Thus, the groove part 224 is formed, and when the power cable 61 passes through the groove part 224, the outer surface of the third wall part 222c of the scroll casing 22 and the inner surface of the left side part 121a of the rear casing 12 are brought close to each other. The shortest distance sd between the closest CP and the inner surface of the left side 121a is 5.0 mm. That is, the outer surface of the third wall portion 222c of the scroll casing 22 and the inner surface of the left side portion 121a of the rear casing 12 are close enough that the shortest distance sd is shorter than the width w1 and the thickness t1 of the power cable 61. doing. As a result, the scroll curved portion 26 can be formed larger than before, and the blowing performance of the sirocco fan 20 is improved.

(2-2) Support rib 27
A plurality of support ribs 27 are provided on the third wall portion 222c and the fourth wall portion 222d. The support ribs 27 are provided to lock and support the power cables 61, and through each of the support ribs 27, the power cable 61 passes and is caught and the power cable 61 is caught and held. A certain amount of clamping space is formed.

  As described above, in the present embodiment, the power cable 61 extends from the power supply device to the control unit 60 through the space 222 between the scroll casing 22 and the inner surface of the rear casing 12. More specifically, the power cable 61 extends to the control unit 60 between the outer surface of the third wall portion 222c and the fourth wall portion 222d and the inner surface of the left side portion 121a and through the groove portion 224. When the power cable 61 extends in the vertical direction as described above, if there is nothing to support until reaching the control unit 60, the installation state of the power cable 61 is unstable, which is not preferable in terms of security.

  In the present embodiment, the support rib 27 is provided in the above-described manner, and the power cable 61 is supported, so that the power cable 61 is stably installed.

(3) Features (3-1)
In the above embodiment, the groove portion 224 through which the power cable 61 passes is formed at a position of the scroll casing 22 that is shifted in the rotational axis direction (front direction) of the fan rotor 21 with respect to the scroll flow path FP1. As a result, the inner surface of the left side 121a of the rear casing 12 and the outer surface of the third wall 222c of the scroll casing 22 can be brought close to each other. For this reason, the scroll flow path can be formed large, and as a result, the air blowing performance is improved.

(3-2)
In the embodiment, the groove 224 is formed so as to extend along the vertical direction which is the vertical direction. As a result, the inner surface of the left side portion 121a of the rear casing 12 and the outer surface of the third wall portion 222c of the scroll casing 22 can be made closer to each other. For this reason, the scroll channel can be formed further larger.

(3-3)
In the above embodiment, the groove 224 is formed in the vicinity of the closest portion CP, which is the portion of the outer surface of the third wall portion 222c of the scroll bending portion 26 that is the closest to the inner surface of the left side portion 121a of the rear casing 12. ing. As a result, the inner surface of the left side portion 121a of the rear casing 12 and the outer surface of the third wall portion 222c of the scroll casing 22 can be made closer to each other. For this reason, the scroll channel can be formed further larger.

(3-4)
In the above embodiment, the shortest distance sd between the inner surface of the left side portion 121a of the rear casing 12 and the outer surface of the third wall portion 222c of the scroll casing 22 is shorter than the width w1 and the thickness t1 of the power cable 61. Thereby, the scroll flow path FP1 can be formed further larger.

(3-5)
In the above embodiment, the control unit 60 is disposed above the height position of the scroll bending portion 26, and the power cable 61 is installed so as to extend along the vertical direction which is the vertical direction. Yes. Accordingly, the power cable 61 is installed so as to extend along the vertical direction between the inner surface of the left side portion 121a of the rear casing 12 and the outer surface of the third wall portion 222c of the scroll casing 22. In addition, the inner surface of the left side portion 121a of the rear casing 12 and the outer surface of the third wall portion 222c of the scroll casing 22 can be brought close to each other, so that a scroll passage can be formed larger.

(3-6)
In the above embodiment, the scroll casing 22 has the support ribs 27 that support the power cable 61 on the outer surfaces of the third wall portion 222c and the fourth wall portion 222d. As a result, the power cable 61 is stably held.

(4) Modification (4-1) Modification 1A
In the said embodiment, although the air cleaner 1 was applied as an air conditioner, it is not limited to this. For example, another air conditioner such as an air conditioner or a humidifier may be used.

(4-2) Modification 1B
In the above embodiment, the boundary wall portion 220b is provided in the front portion 220 of the sirocco fan 20, and the groove portion 224 is formed in the boundary wall portion 220b. However, the present invention is not limited to this. For example, the boundary wall 220b is omitted, and a groove forming member having a size (width, thickness, etc.) that can form the groove 224 is disposed on the front side of the third wall 222c, and the groove 224 is formed. It may be formed. Further, the groove 224 may be formed by disposing such a groove forming member at a position shifted to the back side of the third wall portion 222c. Further, the groove portion 224 may be formed by cutting out the third wall portion 222c.

(4-3) Modification 1C
In the said embodiment, although the groove part 224 was long formed in the up-down direction which is a perpendicular direction, it is not limited to this. For example, the groove 224 may be formed long in the horizontal direction.

(4-4) Modification 1D
In the above embodiment, the shortest distance sd between the inner surface of the left side portion 121a of the rear casing 12 and the outer surface of the third wall portion 222c of the scroll casing 22 is configured to be 5.0 mm. Is not limited to this value. That is, the design of the shortest distance sd can be appropriately changed according to the width w1 and the thickness t1 of the power cable 61.

(4-5) Modification 1E
In the above embodiment, the power cable 61 is installed so as to pass between the inner surface of the left side portion 121a of the rear casing 12 and the outer surfaces of the third wall portion 222c and the fourth wall portion 222d of the scroll casing 22. The installation method of the power cable 61 is not limited to this. For example, the power cable 61 may be installed so as to pass between the inner surface of the right side portion 121b of the rear casing 12 and the outer surfaces of the first wall portion 222a and the second wall portion 222b of the scroll casing 22. In that case, the distance between the inner surface of the right side portion 121b of the rear casing 12 and the outer surface of the second wall portion 222b is made closer to form a groove portion 224 in the vicinity of the portion where the distance is shortest, The cable 61 is preferably configured to pass therethrough, and a plurality of support ribs 27 are preferably provided on the first wall portion 222a and the second wall portion 222b.

(4-6) Modification 1F
In the above embodiment, the cable that passes between the inner surface of the back casing 12 and the outer surface of the wall portion 222 of the scroll casing 22 and the groove portion 224 is the power cable 61 that supplies power to the control unit 60. Any cable can be used. For example, a cable that transmits an electrical signal to the control unit 60, or a cable that applies a voltage to the motor, the streamer discharge unit 40, the discharge unit 50, or the like may be used.

(4-7) Modification 1G
In the above embodiment, a plurality of the support ribs 27 are provided in the third wall portion 222c and the fourth wall portion 222d. However, the number of the support ribs 27, the location, the shape, the support mode, and the like are the same as those in the above embodiment. It is not limited to things. For example, the support rib 27 may be one or may be omitted as appropriate. Further, the location of the support ribs 27 can be changed as appropriate. Further, the shape of the support rib 27 may be any shape as long as the power cable 61 can be supported, and may be supported in any manner.

  The present invention is applicable to an air conditioner.

DESCRIPTION OF SYMBOLS 1 Air cleaner 10 Main body casing 12 Back surface casing 120 Rear part 121a Left side part 121b Right side part 13 Side suction port formation part 20 Sirocco fan 21 Fan rotor 22 Scroll casing 220 Front part 220b Boundary wall part 221 Rear part 222 Wall part 222c 3rd Wall part 222d Fourth wall part 224 Groove part 25 Upper part 26 Scroll curved part 27 Support rib 41 Vertical flow path forming member 60 Control unit 61 Power cable CP Nearest part FP1 Scroll flow path FP2 Discharge flow path

Japanese Utility Model Publication No. 63-73151

Claims (6)

A sirocco fan (20) having a fan rotor (21) and a fan casing (22) including a scroll curved portion (26) disposed on the outer peripheral side of the fan rotor and forming a scroll flow path (FP1);
An outer shell member (12) having an inner surface facing the outer surface of the scroll bending portion;
A control unit (60) for controlling the driving of the fan rotor;
A cable (61) for supplying power or signals to the control unit;
With
On the outer surface of the fan casing, a recess (224) is formed at a position shifted in the direction of the rotation axis of the fan rotor with respect to the scroll flow path.
The cable extends to the control unit between the outer surface of the scroll bending portion and the inner surface of the outer shell member and through the recess.
Air conditioner. The outer surface of the scroll bending portion and the inner surface of the outer shell member extend along the vertical direction,
The recess is formed to extend along the vertical direction.
The air conditioner according to claim 1. The concave portion is formed in the vicinity of a portion (CP) of the outer surface of the scroll curved portion that is closest to the inner surface of the outer shell member.
The air conditioner according to claim 1 or 2. The shortest distance (sd) between the outer surface of the scroll bending portion and the inner surface of the outer shell member is shorter than the width (w1) and thickness (t1) of the cable.
The air conditioner according to any one of claims 1 to 3. The control unit is disposed above a height position of the scroll bending unit,
The cable is installed to extend along the vertical direction.
The air conditioner according to any one of claims 1 to 4. The fan casing has a support rib (27) for supporting the cable on an outer surface thereof.
The air conditioner according to any one of claims 1 to 5.

Images