KR100964694B1 - Motor - Google Patents

Abstract

The present invention provides a motor that can be stably supported inside the motor to control the control unit for controlling the operation of the motor.

The motor according to the present invention includes a stator, a rotor rotatably installed with respect to the stator, a case including an upper case and a lower case to surround the stator and the rotor, and a rotational speed of the rotor installed on the lower case. It includes a control unit for detecting the rotational speed of the rotor.

Motor, upper case, lower case, control unit

Description

Motor

The present invention relates to a motor, and more particularly, to a motor used for an outdoor unit of an air conditioner.

In general, the motor transmits the rotational force of the rotor to the rotary shaft, the rotary shaft drives the load. For example, it may be connected to the pump of the dishwasher to drive the pump, and may be connected to the blower fan to supply air to the required space.

In these motors, the rotor is rotated by electromagnetic interaction with the stator. To this end, a coil is wound around the stator, and as the current is applied to the coil, the rotor rotates with respect to the stator.

1 shows an example in which a motor is used in an outdoor unit of a multi-type air conditioner.

In general, a multi-type air conditioner is used by connecting a plurality of indoor units to one outdoor unit, and each of the plurality of indoor units is used as a cooler or a heater while using the outdoor unit in common.

As shown in FIG. 1, the outdoor unit 10 of the multi-type air conditioner includes a compressor 11 for compressing a refrigerant and a liquid such that only a gaseous refrigerant may be introduced into the compressor 11 by being connected to the compressor 11. Accumulator (not shown) that accumulates refrigerant, an oil separator (not shown) connected to the compressor 11 to separate oil discharged together with the refrigerant from the compressor 11, and outdoor air 10) a blower fan 12 which sucks the inside and discharges it back to the outside, and a heat exchanger 13 which heats the air sucked by the blower fan 12 with the refrigerant. The blowing fan 12 is coupled to the rotating shaft of the motor 20 shown in FIG. 2 to rotate.

Since the outdoor unit 10 of the multi-type air conditioner is connected to a plurality of indoor units, the heat exchange capacity should be increased. In order to increase the heat exchange capacity as described above, the heat exchanger 13 is positioned on four or two sides of the outdoor unit 10, the air is sucked to the side of the outdoor unit 10, and the heat exchanged air is discharged upward. It is common.

As such, the motor 20 and the blower fan 12 are installed in the vertical direction in order to suck air into the side of the outdoor unit 10 and discharge the air upward.

FIG. 2 illustrates a motor 20 installed in the outdoor unit 10 of the multi-type air conditioner illustrated in FIG. 1 to drive the blowing fan 12.

The motor 20 has a case 21 for forming a body, a stator 22 for forming a rotating magnetic field by laminating a plurality of iron cores, and winding a coil to flow a current through the coil, and the stator 22. It is provided with a rotor (not shown) that is rotated by a rotating magnetic field formed by the) to generate a driving force.

The case 21 is manufactured by separating the upper case 21a and the lower case 21b to accommodate various components inside the case 21, and then fastenings formed on the upper case 21a and the lower case 21b. They are joined by fastening screws through the boss, or joined together by welding or the like.

The control unit 30 for controlling the speed of the rotor is installed on the top of the stator 22 to detect the speed of the rotor.

The controller 30 includes a PCB 31, a Hall sensor 32 mounted on the PCB 31 to detect the speed of the rotor, and various circuit elements 33 for controlling the speed of the rotor.

The control unit 30 is fixed to the stator 22, in order to fix the control unit 30 to the stator 22, the control unit 30 includes a hook 35, and the stator 22 includes the hook 35. ) Is provided with a locking member 25 to be inserted and caught.

In addition, a lead wire 40 is provided to apply current to the stator 22. An outlet 23 is formed at a side surface of the case 21 so that the lead wire 40 is drawn out of the case 21.

However, the motor configured as described above has the following problems.

The control unit 30 on which the Hall sensor 32 is mounted is fixed to the stator 22. When the rotor is rotated when the motor is operated, the stator 22 vibrates, so that the hall sensor 32 rotates at the speed of the rotor. It was difficult to measure accurately. In addition, when fixing the control unit 30 to the stator 22, it was difficult to install the Hall sensor 32 in the correct position.

Further, even when the upper case 21a and the lower case 21b are coupled by a screw or welding method, a gap occurs in a contact portion where the lower surface of the upper case 21a and the upper surface of the lower case 21b contact each other. In this gap, moisture such as rainwater penetrates into the gap. In addition, moisture also penetrates through the outlet 23 formed in the side surface of the case 21.

As such, when moisture penetrates into the case 21 and the water remains inside the case 21, various components mounted inside the case 21 cause a failure. Therefore, the reliability of the motor cannot be guaranteed.

The present invention can stably support the control unit installed in the motor, and provides a motor capable of positioning the hall sensor in an accurate position.

In addition, moisture can be prevented from penetrating the inside of the case of the motor installed in the outdoor unit of the air conditioner and the like to provide a motor that can prevent the failure of the components mounted inside the case.

In addition, the present invention provides a motor capable of quickly discharging water remaining in the case even if water penetrates into the case of the motor.

The motor according to the present invention for achieving the above object is a stator, a rotor rotatably installed with respect to the stator, a case having an upper case and a lower case to surround the stator and the rotor, and the lower case Is installed in the control unit for controlling the rotational speed of the rotor by detecting the rotational speed of the rotor.

The control unit includes a PCB on which a Hall sensor for detecting a rotational speed of the rotor is mounted, and a housing surrounding the PCB.

And, one side of the lower case and the control unit is provided with a positioning groove and the other side is provided with a positioning projection. Preferably, the positioning groove and the positioning protrusions are formed in plural, and in particular, the positioning protrusions are provided in the housing.

The lower case is provided with a fastening hole, and the control unit is provided with a fastening hole corresponding to the fastening hole. The fastening hole and the fastening hole is preferably formed in plurality. In addition, the fastening hole is preferably formed in the boss projecting inward from the case.

The motor according to an embodiment of the present invention further includes a water penetration preventing means for preventing moisture from penetrating into the case, and a water discharging means for discharging water penetrated into the case.

The water penetration preventing means includes an extension rib extending from the upper case and surrounding the outer periphery of the upper surface of the lower case.

Each of the upper case and the lower case has an upper fastening boss and a lower fastening boss to which the fastening member is fastened, and the water penetration preventing means includes a predetermined gap formed in the upper fastening boss and the lower fastening boss.

In addition, the moisture penetration preventing means includes an opening formed in the bottom surface of the lower case so that the lead wire for applying current to the stator is drawn out. The opening is provided with a rubber bushing having a through hole so that the lead wire can pass therethrough. The through hole has a cross shape, and a plurality of elastic pieces are formed around the through hole to press the lead wire through the through hole.

The rubber bushing is in contact with an end portion of the lower case forming the opening so that the rubber bushing is supported by the lower case, and an outer side protruding out of the lower case to be supported by an outer surface of the lower case. A rib and an inner rib which protrudes into the lower case and is supported on an inner surface of the lower case.

In addition, the water discharging means includes a discharge hole provided in the bottom surface of the lower case to discharge the water introduced into the case. The discharge hole is preferably formed at a position adjacent to the control unit.

The motor is used in an outdoor unit for an air conditioner and is installed in the vertical direction in the outdoor unit.

In addition, the motor according to the present invention is a stator, a rotor rotatably installed with respect to the stator, a case having an upper case and a lower case to surround the stator and the rotor, and installed in the lower case of the rotor It includes a control unit for controlling the rotational speed of the rotor by sensing the rotational speed, one of the lower case and the control unit is provided with a positioning groove and the other side is provided with a positioning projection.

Preferably, the positioning groove and the positioning protrusion are formed in plural.

In addition, the motor according to the present invention is a stator, a rotor rotatably installed with respect to the stator, a case having an upper case and a lower case to surround the stator and the rotor, and a hole for sensing the rotational speed of the rotor. And a control unit including a PCB on which a sensor is mounted and a housing surrounding the PCB, wherein the housing is provided with a positioning protrusion, and the lower case is provided with a positioning groove.

The positioning groove is formed in the boss projecting inward from the case. In addition, a discharge hole is provided to discharge moisture introduced into the case at a position adjacent to where the control unit is installed.

According to the motor according to the present invention can stably support the control unit for controlling the speed of the rotor, it is possible to install the hall sensor in the correct position. In addition, since the control unit can be assembled while temporarily fixed to the case, the assemblability of the control unit is improved.

In addition, by preventing moisture from penetrating into the motor case, it is possible to secure the reliability of the motor by preventing the components mounted inside the case from failing.

In addition, even if moisture penetrates into the motor case, moisture can be quickly discharged, thereby preventing various components mounted inside the motor from being broken by moisture.

Hereinafter, a motor according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

3 is an exploded perspective view of a motor according to an embodiment of the present invention, Figure 4 is a side view of the motor shown in FIG.

The motor according to an embodiment of the present invention can be used for outdoor units of the air conditioner. In particular, it will be described that a plurality of indoor units are installed in an up-down direction by being used in an outdoor unit of a multi-type air conditioner connected to one outdoor unit to form a refrigerant cycle.

3 and 4, the motor according to the present invention is a stator forming a rotating magnetic field by stacking a case 100 constituting a body and a plurality of iron cores, and then winding a coil to flow a current through the coil. 200 and a rotor (not shown) that is rotated by a rotor magnetic field formed by the stator 200 to generate a driving force.

The case 100 is separately manufactured as the upper case 110 and the lower case 120, and the upper case 110 and the lower case 120 are coupled to each other so that the components inside the case 100 may be accommodated and fixed. Can be. The upper case 110 and the lower case 120 may be combined by welding or the like, but the upper and lower cases 110 and 120 may be disposed on the outer surfaces of the upper and lower cases 110 and 120 to facilitate repair when a component mounted in the case 100 fails. It is preferable to be coupled by fastening screws or the like through the fastening holes formed in the fastening bosses 111 and 121 respectively provided.

The lower case 120 is provided with a bracket 125 having a fastening hole so that the motor can be installed in an outdoor unit of the air conditioner. The bracket 125 is preferably formed integrally with the lower case 120 in the same manner as die casting.

The case 100 may be formed of various materials. For example, it can be formed of aluminum that is resistant to corrosion and easy to mold, and can be easily manufactured through aluminum die casting. Since the aluminum material is very excellent in thermal conductivity, it can conduct heat generated inside the motor very quickly, which is advantageous for heat dissipation.

The stator 200 installed inside the case 100 includes a stator core 210 formed by stacking a plurality of ring-shaped iron cores and a winding unit 220 formed along an inner circumference of the stator core 210, and the winding unit. Coil 230 is wound around 220 to generate a rotating magnetic field. When the coil is wound around the stator core 210, the stator core 210 is wrapped with the insulator 240, and the coil 230 is wound around the insulator 240. The coil 230 is connected to the lead wire 250 for supplying current to the motor to receive current from the lead wire 250.

The lower case 120 is coupled to a control unit 300 for detecting the electrode change of the magnet formed in the rotor to measure the speed of the rotor, and controls the speed of the rotor.

In this embodiment, the control unit 300 is installed in the lower case 120 so that the control unit 300 can be stably supported.

5 is a perspective view illustrating a bottom surface of the controller 300, and FIG. 6 is a perspective view illustrating a state in which the controller 300 is coupled to the lower case 120.

The lower case 120 is coupled to the control unit 300 having a plurality of Hall sensors 315 for detecting the electrode change of the magnet installed in the rotor.

The controller 300 includes a PCB 310 in which a plurality of Hall sensors 315 are mounted, and a housing 320 surrounding the PCB 310. The housing 320 includes a main body 321 having one side thereof curved with a radius of curvature equal to the radius of curvature of the rotor, and ribs 322 protruding to both sides from the main body 321.

Of course, the PCB 310 may be directly coupled to the case 100 without the housing 320, but the PCB 310 may be housed in order to protect the PCB 310 on which the Hall sensor 315 is mounted from moisture or external impact. After coupling to the 320 it is preferable to couple the housing 320 to the lower case 120. When the PC 310 is coupled to the housing 320, it may be coupled using various coupling methods such as screws or hooks.

It is provided with a fixing means for fixing the control unit 300 on which the Hall sensor 315 is mounted to the lower case 120 as described above.

The fixing means includes a positioning groove 410 provided on one side of the lower case 120 and the controller 300 and a positioning protrusion 420 provided on the other side and inserted into the positioning groove 410. do. In the present exemplary embodiment, the positioning protrusion 420 is provided in the control unit 300, and the positioning groove 410 is provided in the lower case 120, but the positioning groove 410 is disposed in the control unit 300. The lower case 120 may include a positioning protrusion 420.

The positioning groove 410 and the positioning protrusion 420 is preferably provided in plurality. The reason for providing a plurality of positioning grooves 410 and positioning protrusions 420 in this way is that the control unit 300 is temporarily fixed at both sides when the control unit 300 is fastened to the lower case 120 with a screw or the like. This is to prevent the rotation of the 300 to improve assembly.

After fixing the control unit 300 temporarily to the lower case 120 by the fixing means, the lower case 120 is provided with a fastening hole 510 to completely fasten the control unit 300 to the lower case 120. A fastening hole 520 is provided at a position of the control unit 300 corresponding to the fastening hole 510. It is preferable that a plurality of fastening holes 510 and fastening holes 520 are also provided. As such, the plurality of fastening holes 510 and fastening holes 520 may be provided to prevent the controller 300 from flowing after being fastened to the lower case 120.

In particular, the positioning protrusions 420 and the fastening hole 520 are preferably provided in each of the pair of ribs 322 extending from both sides of the main body 321 of the housing 320.

The positioning grooves 410 and the fastening holes 510 respectively corresponding to the positioning protrusions 420 and the fastening holes 520 are provided in the boss 129 protruding inwardly from the lower case 120. As such, when the positioning groove 410 and the fastening hole 510 are provided in the boss 129 and the control unit 300 is fastened to be supported by the boss 129, the control unit 300 is the bottom surface of the lower case 120. Spaced apart from the predetermined interval. As such, the controller 300 may be spaced apart from the bottom surface of the lower case 120 by a predetermined interval to prevent moisture from penetrating into the controller 300 even though water is accumulated on the bottom surface of the lower case 120.

In the above embodiment, although the two positioning protrusions 420 and the two fastening holes 520 are formed to be symmetrical with each other, the positioning protrusions 420 and the fastening hole 520 formed in one rib 322 are shown. The positions of may be interchanged with each other. As described above, when the pair of positioning protrusions 420 and the pair of fastening holes 520 are formed to be symmetrical to each other in a diagonal direction, the fastening member is connected to the control unit when fastening the control unit 300 to the lower case 120 using the fastening member. The pressure applied to 300 can be made uniform.

FIG. 7 illustrates that the controller 300 is coupled to the lower case 120, and a method of fastening the controller 300 to the lower case 120 will be described.

In order to fasten the control unit 300 to the lower case 120, the positioning protrusions 420 are inserted into the positioning grooves 410, respectively. As such, when the positioning protrusion 420 is inserted into the positioning groove 410, the fastening hole 520 formed in the controller 300 and the fastening groove 510 formed in the lower case 120 coincide with each other. In addition, the controller 300 is temporarily fixed to the lower case 120 on both sides.

As described above, the controller 300 is completely fastened to the lower case 120 by using a fastening member such as a screw in a state where the controller 300 is temporarily fixed to the lower case 120.

When the controller 300 is completely fastened to the lower case 120, the flow of the controller 300 is prevented. The reason is that the ribs 322 are formed on both sides of the control unit 300, and each of the ribs 322 has a plurality of fastening points, so that the control unit 300 does not flow in any of the front and rear directions and the left and right directions. do.

As described above, according to the motor according to the present invention, a positioning groove 410 is provided at one side of the case 100 and the controller 300, and a positioning protrusion 420 is provided at the other side of the case 300. Since it can be temporarily fixed to the 100, the assemblability of the control unit 300 is improved. In addition, since the control unit 300 is fixed and fastened at a plurality of positions of the case 100, the flow of the control unit 300 can be prevented, thereby accurately detecting the position of the rotor and increasing the efficiency of the motor.

The motor according to the present invention may be installed in an outdoor unit of an air conditioner. As such, when the motor is installed outdoors, moisture such as rainwater may penetrate into the case 100. If moisture penetrates into the case 100, various components mounted inside the case 100 may cause a failure.

Therefore, even if the motor according to the present invention is installed outdoors, it has a structure capable of preventing the penetration of moisture into the case 100.

8 is an enlarged view of a contact portion where the upper case 110 and the lower case 120 abut each other.

As shown in FIG. 8, the upper case 110 of the motor according to the present invention surrounds the outer circumference of the contact portion 150 in which the lower surface of the upper case 110 and the upper surface of the lower case 120 contact each other. An extension rib 115 protrudes from the outer circumferential surface of the upper case 110 and extends downward. When the upper case 110 and the lower case 120 are coupled by the extension ribs 115, the upper surface of the lower case 120 is inserted into the extension ribs 115 and the lower end of the upper case 110 is provided. It comes in contact with the face.

As the extension ribs 115 are formed as described above, even if the rainwater flows down the upper case 110, the contact portions of the extension ribs 115 where the lower surface of the upper case 110 and the upper surface of the lower case 120 are in contact with each other ( Since it is wrapped 150, it is possible to prevent the penetration of moisture into the case (100). The outer circumferential surfaces of the contact portion 150 and the extension ribs 115 are formed to have a predetermined distance from each other, and since the lower end of the extension rib 115 is positioned below the contact portion 150, the outer circumferential surface of the extension ribs 115 is formed. Moisture flowing down will not flow to the contact portion 150.

9 is a cross-sectional view of the fastening bosses 111 and 121 provided in the upper case 110 and the lower case 120 to couple the upper case 110 and the lower case 120 to each other.

The lower end of the upper fastening boss 111 formed on the upper case 110 coincides with the lower end of the extension rib 115, and the upper end of the lower fastening boss 121 formed on the lower case 120 is the lower case 120. Is located below the top of the. Therefore, when the lower surface of the upper case 110 and the upper surface of the lower case 120 is in contact with each other, the upper fastening boss 111 and the lower fastening boss 121 is spaced at a predetermined interval. In addition, the inner circumferential surface of the upper fastening boss 111 and the outer circumferential surface of the lower case 120 are spaced at predetermined intervals.

As described above, the upper fastening boss 111 and the lower fastening boss 121 are fastened by a fastening member such as a screw. Since the upper fastening boss 111 and the lower fastening boss 121 are spaced apart from each other, and the inner circumferential surface of the upper fastening boss 111 is spaced apart from the outer circumferential surface of the lower case 120, moisture outside the case 100 may be lost. By breaking the path moving to the inside (100) it is possible to prevent the penetration of moisture into the case (100).

Meanwhile, as shown in FIG. 6, a lead wire 250 for applying power to the stator 200 is provided on the bottom surface of the lower case 120 to prevent moisture from penetrating into the case 100. An opening 126 is drawn out to the outside.

As such, since the opening 126 is provided on the bottom surface of the lower case 120, the water flowing along the case 100 may be reduced into the case 100 through the opening 126.

However, since water flowing down along the side of the case 100 may flow into the opening 126 along the bottom surface of the lower case 120, the opening 126 may have a bottom surface of the lower case 120. A rubber bushing 400 is installed to prevent rainwater flowing down along the road.

As shown in FIG. 10, the rubber bushing 400 is in contact with an end portion of the lower case 120 forming the opening 126 so that the rubber bushing 400 is supported when the rubber bushing 400 is coupled to the opening 126. When the support part 410 and the rubber bushing 400 is coupled to the opening 126, the outer rib 420 protrudes out of the lower case 120 to be supported on the outer surface of the lower case 120. The inner rib 430 protrudes inward of the lower case 120 and is supported on an inner surface of the lower case 120.

The outer rib 420 and the inner rib 430 are formed to be stepped with the support part 410, respectively, so that the rubber bushing 400 is separated from the opening part 126 when the rubber bushing 400 is coupled to the opening part 126. It may be prevented from being separated, and rainwater flowing along the bottom surface of the lower case 120 may be prevented from flowing into the case 100 through the opening 126.

The rubber bushing 400 has a through hole 440 formed to penetrate the lead wire 250 at a central portion thereof. The through hole 440 is formed by cutting the center portion of the rubber bushing 400 in a cross shape. A cross-shaped through hole 440 is provided in the central portion, and a plurality of elastic pieces 445 are provided around the through hole 440. Therefore, when the lead wire 250 passes through the through hole 440, the elastic piece 445 widens the through hole 440. After the lead wire 250 passes through the through hole 440, the elastic piece 445 is elastically restored. The lead wire 250 is crimped and fixed. Therefore, a gap formed between the through hole 440 and the lead wire 250 of the rubber bushing 400 is minimized to prevent moisture from penetrating through the through hole 440.

7 shows the rubber bushing 400 mounted on the lower case.

The motor according to the present invention has a structure for blocking the penetration of moisture into the case 100 as described above, but it is practically impossible to completely block the penetration of moisture into the case 100.

Therefore, when moisture penetrates into the case 100, the bottom of the lower case 120 as shown in FIGS. 6 and 7 to quickly discharge the water inside the case 100 to the outside of the case 100. The discharge hole 127 is provided on the surface.

The discharge hole 127 quickly discharges the moisture penetrated into the case 100 to prevent the moisture penetrated into the case 100 from contacting the components installed in the case 100. Therefore, even if moisture penetrates into the case 100, the components installed in the case 100 may be prevented from failing.

The discharge hole 127 is preferably provided in plurality in order to discharge the water well, the position is formed adjacent to the boss 129, the control unit 300 is installed as shown in Figs. It is preferable to be. As the discharge hole 127 is formed in this way, the moisture introduced into the case 100 may be quickly discharged to the outside of the case 100.

As described above, the motor according to the present invention has a structure for preventing moisture from penetrating into the case 100 and a structure for quickly discharging moisture penetrated into the case 100. Therefore, various parts installed in the case 100 may be prevented from coming in contact with moisture to ensure reliability of the motor.

1 is a perspective view showing the outdoor unit structure of a general air conditioner.

Figure 2 is an exploded perspective view of a motor installed in the air conditioner shown in FIG.

3 is an exploded perspective view of a motor according to the present invention.

4 is a side view of the motor shown in FIG.

5 is a perspective view of a control unit mounted to the motor shown in FIG.

Figure 6 is a perspective view before the control unit and the rubber bushing coupled to the lower case.

7 is a view showing that the control unit and the rubber bushing is installed in the lower case.

8 is an enlarged view of a coupling portion of the upper case and the lower case in FIG.

9 is an enlarged view of the upper fastening boss and the lower fastening boss in FIG.

10 is a perspective view of the rubber bushing coupled to the lower case.

** Description of the main parts of the drawing **

100: case 300: control unit

310: Hall sensor 315: PCB

410: positioning groove 420: positioning projection

Claims (24)

With the stator, A rotor rotatably installed relative to the stator, A case having an upper case and a lower case to surround the stator and the rotor; A control unit having a PCB for controlling the rotation speed of the rotor by sensing the rotation speed of the rotor and a housing surrounding the PC ratio; And a boss coupled to the housing and protruding upward from a bottom surface of the lower case to install the controller in the lower case. The method of claim 1, The housing has a motor, characterized in that the one side is formed to have a curved surface equal to the radius of curvature of the rotor. 3. The method of claim 2, A motor, characterized in that the positioning groove is provided on one side of the boss and the controller and the positioning projection on the other side. The method of claim 3, wherein And a plurality of positioning grooves and positioning projections. The method of claim 3, wherein The positioning projection is a motor, characterized in that provided in the housing. The method of claim 3, wherein The boss is provided with a fastening hole, and the control unit is provided with a fastening hole corresponding to the fastening hole. The method of claim 6, The fastening hole and the fastening hole is a motor, characterized in that formed in plural. delete The method of claim 1, Moisture penetration preventing means for preventing moisture from penetrating into the case; The motor further comprises a water discharge means for discharging the water penetrated into the case. The method of claim 9, The water penetrating preventing means includes an extension rib extending from the upper case to surround the outer periphery of the upper surface of the lower case. The method of claim 9, Each of the upper case and the lower case has an upper fastening boss and a lower fastening boss to which the fastening member is fastened, and the moisture penetration preventing means includes a predetermined gap formed in the upper fastening boss and the lower fastening boss. motor. The method of claim 9, The water penetrating preventing means includes an opening formed in the bottom surface of the lower case so that the lead wire for applying current to the stator is drawn out. The method of claim 12, And a rubber bushing having a through hole in the opening to allow the lead wire to pass therethrough. The method of claim 13, The through hole is characterized in that the motor is provided in the cross shape. 15. The method of claim 14, And a plurality of elastic pieces are formed around the through holes to press the lead wires through the through holes. The method of claim 13, The rubber bushing is in contact with an end portion of the lower case forming the opening so that the rubber bushing is supported by the lower case, and an outer rib which protrudes out of the lower case and is supported by an outer surface of the lower case. And an inner rib which protrudes inwardly of the lower case and is supported by an inner surface of the lower case. The method of claim 9, The water discharging means is a motor, characterized in that it comprises a discharge hole provided in the bottom surface of the lower case to discharge the water introduced into the case. The method of claim 17, The discharge hole is a motor, characterized in that formed in a position adjacent to the control unit. The method of claim 9, The motor is used in the outdoor unit for the air conditioner, the motor, characterized in that installed in the vertical direction in the outdoor unit. With the stator, A rotor rotatably installed relative to the stator, A case provided with an upper case and a lower case so as to surround the stator and the rotor, and a lower end of the upper case and an upper end of the lower case are coupled to each other to have a contact portion for abutting each other; A control unit having a PCB for controlling the rotation speed of the rotor by sensing the rotation speed of the rotor and a housing surrounding the PC ratio; A boss coupled to the housing and protruding upward from a bottom surface of the lower case to install the controller in the lower case; It is made to include a moisture penetration preventing means for preventing the penetration of moisture into the case, The moisture penetration preventing means, An extension rib which protrudes from an outer circumferential surface of the upper case and extends downward and surrounds the contact portion so that a lower end thereof is positioned below the contact portion and has a predetermined interval; An upper fastening boss formed in the upper case; And And a lower fastening boss formed on the lower case and having an upper end lower than an upper end of the lower case to be spaced apart from the upper fastening boss by a predetermined distance. delete delete delete delete

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