DE102016203892A1 - blower assembly - Google Patents

Abstract

The invention relates to a blower arrangement (1, 101, 201, 301, 401, 701, 1001) having a housing (2, 202, 302, 402, 602, 702, 1002, 2002, 3002) and having a blower motor (3, 103 , 203, 303, 403, 703, 1003), wherein the blower motor (3, 103, 203, 403, 703, 1003) has a rotor (4, 104, 204, 304, 404, 504, 704, 1004, 2004, 3004 ) having a rotor outer wall (11, 111, 211, 311, 411, 511, 711, 1011, 2011, 3011), wherein the housing (2, 202, 302, 402, 602, 702, 1002, 2002, 3002) and or the rotor outer wall (11, 111, 211, 311, 411, 511, 711, 1011, 2011, 3011) at least one Flüssigkeitsleitelement (19, 119, 219, 319, 419, 519, 625, 725, 825, 925, 1019 , 1025, 2025, 3025), by means of which penetrating liquid can be diverted.

Description

Technical area

The invention relates to a blower arrangement, in particular for an air conditioning system for a motor vehicle, according to the preamble of claim 1.

State of the art

Known blower arrangements for motor vehicle air conditioning systems usually have a blower motor arranged in a housing. The housing is connected to an air duct into which the fan motor shaft protrudes. On the blower motor shaft, an impeller is arranged drivable, which is driven by the blower motor. In this case, the impeller generates an air flow in the air duct, starting from an air inlet to an air outlet.

The air intake is usually a fresh air intake or a recirculation air intake. In particular, via the fresh air inlet can be sucked with the fresh air from the environment of the motor vehicle originating water, such as spray or melt water. There is a risk that the water gets into the housing and under the impeller. If it collects there, it comes into contact with the blower motor and has a damaging or corrosive effect on it. Particularly susceptible here are the bearings and the electrical system of the blower motor. In addition, an accumulation of water under the impeller may lead to a disturbing noise to the vehicle occupants.

The DE 199 11 158 C2 discloses in this regard a brushless motor having a motor housing and a stator which is fixed to the motor housing. In addition, the device has a rotor which rotates relative to the motor housing, and a circuit board, which is fixed to the motor housing. The circuit board has an electrical circuit by means of which the stator current is supplied. In addition, the apparatus comprises a fan rotor for conveying air in accordance with the rotation of the rotor and a duct for guiding a part of the air delivered from the fan rotor to the stator. Furthermore, the device has a heat radiating part emanating from the stator, wherein the air guided by the channel flows along the heat radiating part. The stator has a central part, a core arranged around the middle part and a wire winding wound around the core. The heat radiating part is integrally formed with the central part and has a flange. In addition, the device has a passage between the middle part and the core, which allows a flow. In this case, the motor housing to a container which is arranged lower than the channel to receive water droplets from the inner wall of the channel. This is to prevent the water droplets from reaching the stator. The water collected in the tank should evaporate instead.

The JP 2007-154856 A discloses a device for preventing water entry into a blower to a blower motor. The fan has a housing with an inlet port for receiving air, an impeller for sucking air, and a motor, the motor being disposed on an opposite side of the housing from the inlet port and connected to the impeller. In addition, the device has cylindrically shaped ribs which are arranged around the motor and are intended to shield it from water.

The US 8,292,572 B2 discloses a fan motor assembly for a vehicle heating, ventilation, or air conditioning system, and a method for removing water. The fan motor assembly has a motor housing, a cooling air passage and a motor flange arranged radially on the outside of the motor housing. Radially between the motor flange and the motor housing baffles are arranged, which serve for the discharge of water from the region of the motor housing.

Presentation of the invention, object, solution, advantages

It is the object of the invention to provide a blower arrangement which allows improved liquid removal and at the same time is simple and inexpensive to produce.

The object is achieved with the features of claim 1.

An embodiment of the invention relates to a blower arrangement with a housing and with a blower motor, wherein the blower motor has a rotor with a rotor outer wall. In this case, the housing and / or the rotor outer wall has / have at least one liquid-conducting element, by means of which penetrating liquid can be diverted. In an advantageous manner, water penetrating into the housing can be removed.

An additional embodiment of the fan arrangement provides that the rotor outer wall is substantially cylindrical and has at least one radially arranged first Flüssigkeitsleitelement, wherein the at least one first Flüssigkeitsleitelement as at least one spiraling on the rotor outer wall arranged first groove and / or as at least one on the rotor outer wall spirally circumferentially arranged first rib is formed.

In a further embodiment of the fan assembly, the rotor outer wall is formed substantially cylindrical and the rotor has a perpendicular to the rotor outer wall cross-sectional area, the rotor outer wall having at least one radially disposed first Flüssigkeitsleitelement, said at least one first Flüssigkeitsleitelement a number of circumferentially behind the other on the Rotor outer wall radially arranged ribs and / or grooves, wherein the ribs and / or grooves are each arranged at a rectangular and / or acute angle to the cross-sectional area of the rotor.

In an advantageous embodiment of the blower arrangement, the blower motor has a driven blower motor shaft, with which an impeller is drivably connected in at least one direction of rotation and the housing has a one- or multi-part side wall and connectable to the side wall base plate, wherein the side wall, the base plate and the rotor are radially circumferentially arrangeable and the fan motor can be arranged on or with the base plate and / or attachable, wherein the side wall forms an upper plate, wherein the rotor in the assembled state of the fan assembly extends through the upper plate. With the help of the side wall and the base plate, the area of the fan motor, which is particularly sensitive to moisture, can be shielded against splashing water and dirt on the outside. The one- or multi-part side wall can be comparatively easily connected by means of a plug-in or tongue and groove connection with the base plate. As a result, the fan assembly can be easily installed and depending on the installation position of the fan assembly in the vehicle, different parts of the housing can be installed and the position of the at least one Flüssigkeitsleitelements can be varied.

An additional exemplary embodiment of the fan arrangement provides that the rotor outer wall has a first outer wall section arranged adjacently to the base plate and a second outer wall section arranged opposite the base plate, wherein the at least one first fluid guide element is arranged in the region of the second outer wall section or in the region of the first and the second outer wall section ,

In a further embodiment of the fan assembly, the housing in the region of the upper plate on a circumferential raised edge, wherein the edge rotates the rotor outer wall in the region of the second outer wall portion in the assembled state of the fan assembly from radially outside, wherein disposed between the edge and the rotor outer wall, a gap is.

An additional embodiment of the blower arrangement provides that the raised edge has a first edge side facing the rotor outer wall in the assembled state of the blower arrangement and a second edge side pointing away from the rotor outer wall, wherein at least one second liquid guide element is arranged in the region of the first edge side and / or in the region the second edge side is arranged at least a third Flüssigkeitsleitelement.

In a further embodiment of the blower arrangement, the first edge side has a lower edge facing the upper plate and an upper edge facing away from the upper plate, wherein the at least one second Flüssigkeitsleitelement as at least one on the first edge side spirally arranged circumferentially second groove and / or as at least one on the first edge side spirally arranged circumferentially second rib is formed and / or arranged on the first edge side obliquely arranged between the lower edge and the upper edge formed number of ribs and / or grooves. The degree of liquid dissipation can thereby be significantly strengthened.

An additional embodiment variant of the blower arrangement provides that the second edge side has a first edge facing the upper plate and a second edge facing away from the upper plate, wherein the at least one third Flüssigkeitsleitelement as at least one on the second edge side spirally arranged third groove and / or as at least one on the second edge side spirally arranged circumferentially arranged third rib and / or arranged on the second edge side obliquely arranged between the first edge and the second edge formed number of ribs and / or grooves.

In a further exemplary embodiment of the blower arrangement, the at least one first groove and / or the at least one second groove and / or the at least one third groove and / or the at least one first rib and / or the at least one second rib and / or the at least a third rib left-handed and / or right-handed trained.

A further embodiment of the blower arrangement provides that the at least one first groove and / or the at least one second groove and / or the at least one third groove and / or the at least one first rib and / or the at least one second rib and / or the at least a third Each have a slope / have, wherein the slope is linear and / or progressive and / or degressive and / or a pitch angle of 0 °, 5 °, 10 °, 15 °, 20 °, 25 °, 30 °, 35th °, 40 ° or 45 ° and / or runs in the direction of rotation and / or counter to the direction of rotation.

In an additional embodiment variant of the blower arrangement, the at least one first groove and / or the at least one second groove and / or the at least one third groove and / or the at least one first rib and / or the at least one second rib and / or the at least a third rib completely encircling and / or partially encircling.

A further embodiment of the blower arrangement provides that the first Flüssigkeitsleitelement is integrally formed with the rotor outer wall made of metal or is formed by applying a plastic to the rotor outer wall. As a result, the manufacturing costs can be reduced and the automation of production is simplified.

In an additional embodiment of the fan assembly, the slope of the first groove and / or the first rib in a first pitch direction and the slope of the second groove and / or the second rib is in a first pitch direction opposite second pitch direction, wherein the first pitch direction or the second slope direction corresponds to the at least one direction of rotation.

A further embodiment of the fan arrangement provides that the third groove and / or the third rib has / have a third pitch direction, wherein the third pitch direction is opposite to the second pitch direction.

In an additional embodiment of the fan assembly, the edge in the region of the upper edge on a circumferential collar, wherein the collar projects obliquely radially inward, such that the collar partially projects beyond the gap. As a result, a further liquid barrier is provided, which provides additional protection against fluid entry into the region of the fan motor.

Another embodiment of the fan arrangement provides that the edge in the region of the first edge has a circumferential collar, wherein the collar protrudes perpendicular to the second edge side radially outward. As a result, further liquid barriers are formed, which provide additional protection against fluid entry into the region of the fan motor.

In an additional embodiment of the fan assembly, the housing has a cooling air passage, with which air for cooling the fan motor to the fan motor can be fed and / or the fan assembly has a liquid collection channel, in which liquid collectable and can be discharged specifically from this. Through the cooling air duct, the fan motor can be cooled easily and inexpensively with air, which can increase the performance and the life of the fan motor.

A further embodiment variant of the blower arrangement provides that the blower arrangement has a stator for supporting the rotor, wherein the at least one first liquid guide element and / or the at least one second liquid guide element and / or the at least one third liquid guide element radially outside the stator and / or the rotor is / are arranged. This ensures that penetrating liquid does not reach the stator and / or the rotor of the fan motor.

Further advantageous embodiments are described by the following description of the figures and by the subclaims.

Brief description of the figures of the drawing

The invention will be explained in more detail on the basis of several embodiments with reference to the figures of the drawing. Show it:

1 a perspective view of a blower arrangement according to the invention,

2 a perspective view of another embodiment of a fan assembly,

3 a perspective view of a portion of another embodiment of a fan assembly according to 2 .

4 a side partially transparent view of another embodiment of a fan assembly,

5 a side partially transparent view of another embodiment of a fan assembly,

6 a side partially transparent view of another embodiment of a fan assembly,

7 a side view of another embodiment of a rotor of a fan assembly,

8th a perspective view of another embodiment of a housing part of a fan assembly,

9 a sectional view of another embodiment of a fan assembly,

10 a side view of another embodiment of a housing part of a fan assembly,

11 a side view of another embodiment of a housing part of a fan assembly,

12 a side view of another embodiment of a fan assembly,

13 a sectional view of a detail of another embodiment of a fan assembly,

14 a sectional view of a detail of another embodiment of a fan assembly, and

15 a sectional view of a detail of another embodiment of a fan assembly.

Preferred embodiment of the invention

The 1 shows a perspective view of a blower arrangement according to the invention 1 which a housing 2 in which a blower motor 3 with an in 1 Fan wheel, not shown, is arranged. The blower motor 3 is in the case 2 with an in 1 not shown second housing half and with a rotor 4 added. With the fan motor shaft 5 the blower motor 3 the impeller is rotatably connected, so that by means of the fan motor 3 the speed of the fan is adjustable. An exemplary direction of rotation of the fan motor shaft 5 is in 1 represented by the arrow marked A. The stator is in the housing 2 firmly connected and arranged the rotor 4 is in the case 2 rotatably mounted.

With the blower motor 3 is an example of a brushless DC motor (BLDC motor). In alternative embodiments, it is the blower motor 3 a brush motor or a motor of another type. In this case, the fan motor 3 be designed as an internal rotor motor or as an external rotor motor. In addition, the blower motor 3 for example, with the help of a motor holder in the housing 2 be kept vibration isolation. In this way, the transmission of vibrations of the fan motor 3 or the impeller through the housing 2 to one of the fan assembly 1 Subordinate air conditioning housing can be reduced.

The housing 2 the blower arrangement 1 is with an in 1 not shown air duct connected, in which the fan motor shaft 5 protrudes into it. At the fan motor shaft 5 the impeller is arranged, which can rotate in the air duct. The air duct is exemplified with at least one air inlet in connection. In this case, the air duct can have, for example, a fresh air inlet and a recirculation air intake, fresh air from the outside of a motor vehicle being admitted through the fresh air inlet, and air from the motor vehicle cabin can be admitted through the recirculation air inlet. For this purpose, a fresh-air recirculation flap, for example, control the mixing ratio of fresh air to recirculating air as a function of the position of the fresh air recirculated-air flap or take in mainly fresh air or predominantly recirculated air in the air duct. The fan wheel is powered by the blower motor 3 driven and generates an air flow in the air duct, starting from at least one of the air inlets towards an example in the area of the motor vehicle cabin arranged air outlet.

The housing 2 has a cooling air channel 7 on, with what cooling air from outside the case 2 in the case 2 can be introduced.

The housing 2 also has a base plate 6 as caseback. On this base plate 6 are the stator and the rotor 4 the blower motor 3 attached arranged. To the base plate 6 is a side wall 8th arranged, which the housing 2 closes to the side. On top of the case 2 or towards the top of the housing 2 is a top plate 9 arranged, which for example in one piece with the side wall 8th is formed and of the rotor 4 is penetrated. The side wall 8th runs around the base plate 6 from radially outside. Here is the side wall 8th example composed of two halves and, for example by means of a tongue and groove connection 10 with the base plate 6 connected. In the 1 is the fan arrangement 1 shown such that one half of the side wall 8th missing and thereby the flank of the rotor 4 as well as the base plate 6 partially exposed and are visible to the viewer.

On the blower motor 3 opposite side of the base plate 6 is an in 1 partially visible housing cover 21 arranged, which with the base plate 6 forming a closed space. In this room, for example, a fan control unit with control electronics can be accommodated and arranged sealed.

The rotor 4 has a substantially cylindrical rotor outer wall 11 on. The rotor outer wall 11 has one to the base plate 6 adjacently disposed first outer wall portion 14 and one of the base plate 6 oppositely disposed second outer wall portion 15 on. In the assembled state of the blower arrangement 1 is the top plate 9 adjacent to the second outer wall section 15 the rotor outer wall 11 arranged. The upper plate forms 9 one in one from the base plate 6 vertically pioneering first direction 12 as well as parallel to the rotor outer wall 11 raised edge 13 out. The one in the first direction 12 raised edge 13 rotates while the rotor outer wall 11 in the region of the second outer wall section 15 from radially outside.

The edge 13 has one to the rotor outer wall 11 pointing first edge side 16 and one of the rotor outer wall 11 groundbreaking second edge side 17 on. Between the first edge side 16 and the rotor outer wall 11 is a gap 18 arranged. Through the gap 18 can sucked from the environment of the motor vehicle sucked water in the area of the fan motor 3 get there, gather there and the blower motor 3 and damaging the electrical system located in its periphery.

To do this through the gap 18 to remove penetrating water is in the in the 1 illustrated embodiment of the rotor outer wall 11 a first Flüssigkeitsleitelement 19 arranged. The first fluid guide 19 is exemplary as a radially on the rotor outer wall 11 arranged helical first rib 20 educated. In alternative embodiments, the first fluid guide element 19 as a radially on the rotor outer wall 11 formed spirally circumferentially arranged first groove. In this case, the first spiral rib 20 and / or the spiral-shaped first groove may be designed to be continuous, circulating or interrupted. It can be used as the first Flüssigkeitsleitelemente 19 also spiral-shaped first ribs 20 and helical first grooves side by side on the rotor outer wall 11 be arranged. In addition, as the first Flüssigkeitsleitelemente 19 also more than a spiral first rib 20 and / or more than one helical first groove on the rotor outer wall 11 be arranged.

In the in the 1 illustrated embodiment, the first Flüssigkeitsleitelement extends 19 over the first outer wall section 14 the rotor outer wall 11 and the second outer wall portion 15 the rotor outer wall 11 , In alternative embodiments, the first Flüssigkeitsleitelement extends only over the second outer wall portion 15 ,

The at least one first rib 20 and / or the at least one first groove may be the rotor outer wall 11 circulating right-handed and / or left-handed. They may have a linear and / or progressive and / or degressive slope. In this case, the slope in the same direction as the direction of rotation of the fan motor shaft 5 or against the direction of rotation of the fan motor shaft 5 be formed and the pitch angle may preferably be between 0 ° and 45 °.

The at least one first spiral-shaped first rib 20 can by machining the rotor outer wall 11 be formed or by applying a plastic or metal, for example by spraying, shrinking, or soldering, on the rotor outer wall 11 be arranged.

The 2 shows a partial perspective view of another embodiment of a fan assembly 101 , The fan arrangement 101 has one on a base plate 106 attached blower motor 103 with a fan motor shaft 105 and a rotor 104 on. The rotor 104 has a rotor outer wall 111 on. The rotor outer wall 111 is cage-like from a first Flüssigkeitsleitelement 119 surrounded, which by assembly or joining, for example, an interference fit, gluing, welding or soldering with the rotor outer wall 111 is connected or on the rotor outer wall 111 is arranged. The first fluid guide 119 , which in the uninstalled state in the 3 is shown, may be formed by way of example of metal or a plastic.

The 4 shows a perspective view of another embodiment of a fan assembly 201 which a housing 202 in which a blower motor 203 with an in 4 Fan wheel, not shown, is arranged. The blower motor 203 is in the case 202 with an in 4 invisible stator and with a rotor 204 added. With the fan motor shaft 205 the blower motor 203 the impeller is rotatably connected, so that by means of the fan motor 203 the speed of the fan is adjustable. The stator is on the base plate 206 firmly connected and arranged the rotor 204 is rotatably mounted in the stator.

The housing 202 has a base plate 206 as caseback. On this base plate 206 are the stator and the rotor 204 the blower motor 203 attached arranged. To the base plate 206 is a side wall 208 arranged, which the housing 202 closes to the side. On top of the case 202 or towards the top of the housing 202 is a top plate 209 arranged, which for example in one piece with the side wall 208 is formed and of the rotor 204 projects through becomes. The side wall 208 runs around the base plate 206 from radially outside. Here is the side wall 208 example composed of two halves and, for example by means of a tongue and groove connection 210 with the base plate 206 connected.

The rotor 204 has a substantially cylindrical rotor outer wall 211 on. The rotor outer wall 211 has one to the base plate 206 adjacently disposed first outer wall portion 214 and one of the base plate 206 oppositely disposed second outer wall portion 215 on. In the assembled state of the blower arrangement 201 is the top plate 209 adjacent to the second outer wall section 215 the rotor outer wall 211 arranged. The upper plate forms 209 one in one from the base plate 206 vertically pioneering first direction 212 as well as parallel to the rotor outer wall 211 raised edge 213 out. The one in the first direction 212 raised edge 213 rotates the rotor outer wall 211 in the region of the second outer wall section 215 doing so from the radial outside. The edge 213 has one to the rotor outer wall 211 pointing first edge side 216 and one of the rotor outer wall 211 groundbreaking second edge side 217 on. Between the first edge side 216 and the rotor outer wall 211 is a gap 218 arranged. Through the gap 218 can sucked from the environment of the motor vehicle sucked water in the area of the fan motor 203 get there, gather there and the blower motor 203 and damaging the electrical system located in its periphery. Also flows through the gap 218 Cooling air from bottom to top and cools the blower motor 203 as well as below the base plate 206 arranged electronics, which is protected by a housing cover against environmental influences.

To do this through the gap 218 to remove penetrating water is in the in the 4 illustrated embodiment of the rotor outer wall 211 in the region of the second outer wall section 215 a first Flüssigkeitsleitelement 219 arranged. The first fluid guide 219 is exemplary as a radially on the rotor outer wall 211 arranged spirally encircling first rib 220 educated. In alternative embodiments, the first fluid guide element 219 as a radial in the region of the second outer wall portion 215 at the rotor outer wall 211 formed spirally circumferentially arranged first groove. In this case, the first spiral rib 220 and / or the spiral-shaped first groove may be designed to be continuous, circulating or interrupted. It can be used as the first Flüssigkeitsleitelemente 219 also spiral-shaped first ribs 220 and spiral-shaped first grooves next to each other in the region of the second outer wall portion 215 at the rotor outer wall 211 be arranged. In addition, as the first Flüssigkeitsleitelemente 219 also more than a spiral first rib 220 and / or more than one helical first groove in the region of the second outer wall section 215 at the rotor outer wall 211 be arranged.

The at least one first rib 220 and / or the at least one first groove may be the rotor outer wall 211 in the region of the second outer wall section 215 circulating right-handed and / or left-handed. They may have a linear and / or progressive and / or degressive slope. In this case, the slope in the same direction as the direction of rotation of the fan motor shaft 205 or against the direction of rotation of the fan motor shaft 205 be formed and the pitch angle can be between 0 ° and 45 °.

The at least one first spiral-shaped first rib 220 can by machining the rotor outer wall 211 be formed or by applying a plastic, for example by spraying, on the rotor outer wall 211 be arranged.

The 5 shows a side view of another embodiment of a blower arrangement 301 which a housing 302 in which a blower motor 303 with an impeller 322 is arranged. The blower motor 303 is in the case 302 with an in 5 not shown stator and with a rotor 304 added. With an in 5 not shown fan motor shaft of the fan motor 303 is the fan wheel 322 rotatably connected, so that by means of the fan motor 303 the speed of the impeller 322 is adjustable.

The housing 302 has a base plate 306. as caseback. On this base plate 306. is the rotor 304 the blower motor 303 attached arranged. To the base plate 306. is a side wall 308 arranged, which the housing 302 closes to the side. On top of the case 302 or towards the top of the housing 302 is a top plate 309 arranged, which for example in one piece with the side wall 308 is formed and of the rotor 304 is penetrated. The side wall 308 runs around the base plate 306. from radially outside. Here is the side wall 308 example composed of two halves and, for example by means of a tongue and groove connection 310 with the base plate 306. connected.

The rotor 304 has a substantially cylindrical rotor outer wall 311 on. The rotor outer wall 311 has one to the base plate 306. adjacently disposed first outer wall portion 314 and one of the base plate 306. oppositely disposed second outer wall portion 315 on. In the assembled state of the blower arrangement 301 is the top plate 309 adjacent to the second outer wall section 315 the rotor outer wall 311 arranged. The upper plate forms 309 one in one from the base plate 306. vertically pioneering first direction 312 as well as parallel to the rotor outer wall 311 raised edge 313 out. The one in the first direction 312 raised edge 313 rotates the rotor outer wall 311 in the region of the second outer wall section 315 doing so from the radial outside.

The edge 313 has one to the rotor outer wall 311 pointing first edge side 316 and one of the rotor outer wall 311 groundbreaking second edge side 317 on. Between the first edge side 316 and the rotor outer wall 311 is a gap 318 arranged. Through the gap 318 can sucked from the environment of the motor vehicle sucked water in the area of the fan motor 303 get there, gather there and the blower motor 303 and damaging the electrical system located in its periphery.

To do this through the gap 318 to remove penetrating water is in the in the 5 illustrated embodiment of the rotor outer wall 311 in the region of the second outer wall section 315 a first Flüssigkeitsleitelement 319 arranged. The first fluid guide 319 is exemplary as a radially on the rotor outer wall 311 arranged helical zweigängige circumferential first rib 320 educated. In alternative embodiments, the first fluid guide element 319 as a radial in the region of the second outer wall portion 315 at the rotor outer wall 311 formed spirally circumferentially arranged double-flighted first groove. In this context, two-branched means that two ribs arranged parallel to one another 320 or grooves radially on the rotor outer wall 311 are formed and these rotate spirally.

In this case, the first spiral rib 320 and / or the spiral-shaped first groove may be designed to be continuous, circulating or interrupted. It can be used as the first Flüssigkeitsleitelemente 319 also spiral-shaped first ribs 320 and spiral-shaped first grooves next to each other in the region of the second outer wall portion 315 at the rotor outer wall 311 be arranged.

The at least one first rib 320 and / or the at least one first groove may be the rotor outer wall 311 in the region of the second outer wall section 315 circulating right-handed and / or left-handed. They may have a linear and / or progressive and / or degressive slope. In this case, the pitch can be formed in the same direction as the direction of rotation of the fan motor shaft or counter to the direction of rotation of the fan motor shaft and the pitch angle can be between 0 ° and 45 °.

The at least one first spiral-shaped first rib 320 can by machining the rotor outer wall 311 be formed or by applying a plastic, for example by spraying, on the rotor outer wall 311 be arranged.

The 6 shows a side view of another embodiment of a blower arrangement 401 which a housing 402 in which a blower motor 403 with an impeller 422 is arranged. The blower motor 403 is in the case 402 with an in 6 not shown stator and with a rotor 404 added. With an in 6 not shown fan motor shaft of the fan motor 403 is the fan wheel 422 rotatably connected, so that by means of the fan motor 403 the speed of the impeller 422 is adjustable.

The housing 402 has a base plate 406 as caseback. On this base plate 406 is the rotor 404 the blower motor 403 attached arranged. To the base plate 406 is a side wall 408 arranged, which the housing 402 closes to the side. On top of the case 402 or towards the top of the housing 402 is a top plate 409 arranged, which for example in one piece with the side wall 408 is formed and of the rotor 404 is penetrated. The side wall 408 runs around the base plate 406 from radially outside. Here is the side wall 408 example composed of two halves and, for example by means of a tongue and groove connection 410 with the base plate 406 connected.

The rotor 404 has a substantially cylindrical rotor outer wall 411 on. The rotor outer wall 411 has one to the base plate 406 adjacently disposed first outer wall portion 414 and one of the base plate 406 oppositely disposed second outer wall portion 415 on. In the assembled state of the blower arrangement 401 is the top plate 409 adjacent to the second outer wall section 415 the rotor outer wall 411 arranged. The upper plate forms 409 one in one from the base plate 406 vertically pioneering first direction 412 as well as parallel to the rotor outer wall 411 raised edge 413 out. The one in the first direction 412 raised edge 413 rotates the rotor outer wall 411 in the region of the second outer wall section 415 doing so from the radial outside.

The edge 413 has one to the rotor outer wall 411 pointing first edge side 416 and one of the rotor outer wall 411 groundbreaking second edge side 417 on. Between the first edge side 416 and the rotor outer wall 411 is a gap 418 arranged. Through the gap 418 can sucked from the environment of the motor vehicle sucked water in the area of the fan motor 403 get there, gather there and the blower motor 403 and damaging the electrical system located in its periphery.

To do this through the gap 418 to remove penetrating water is in the in the 6 illustrated embodiment of the rotor outer wall 411 in the region of the second outer wall section 415 a first Flüssigkeitsleitelement 419 arranged. The first fluid guide 419 is exemplified as a number radially on the rotor outer wall 411 in the region of the second outer wall section 415 arranged ribs 423 and / or grooves formed. Here are the ribs 423 and / or grooves substantially parallel to each other and in the circumferential direction of the rotor outer wall 411 arranged one behind the other. Here are the ribs 423 and / or grooves each at a rectangular and / or acute angle to the cross-sectional area of the rotor 404 arranged. Ribs 423 can by machining the rotor outer wall 411 be formed or by applying a plastic, for example by spraying, on the rotor outer wall 411 be arranged.

In alternative embodiments, in addition to the second outer wall portion 415 also the first outer wall section 414 ribs 423 and / or grooves.

The 7 shows a rotor 504 a further embodiment of a fan assembly. The rotor 504 has a substantially cylindrical rotor outer wall 511 up and up at a top 524 from a fan motor shaft arranged centrally and perpendicular to its cross-sectional area 505 protrudes vertically.

The rotor outer wall 511 points in one from the top 524 pioneering area a first circumferential outer wall section 514 and one to the top 524 adjacently disposed second outer wall portion 515 on. In the area of the second outer wall section 515 is an embodiment of a first Flüssigkeitsleitelements 519a arranged. The first fluid guide 519a is used for the removal of water and / or other liquids from an in 7 not shown housing the fan assembly. This exclusively in the area of the second outer wall section 515 arranged first Flüssigkeitsleitelement 519a is exemplary of a rotor outer wall 511 in the region of the second outer wall section 515 spirally encircling first rib 520a educated. The spiraling first rib 520a formed first Flüssigkeitsleitelement 519a is with the rotor 504 or with the rotor outer wall 511 firmly connected and preferably extends over the top 524 adjacent second outer wall portion 515 , In alternative embodiments, the first Flüssigkeitsleitelement extends 519a over the entire rotor outer wall 511 , The spiral-shaped first rib 520a has an example of a slope in the direction of a direction of rotation of the fan motor shaft 505 on. The direction of rotation of the fan motor shaft 505 is represented by the arrow marked with the letter A. This exclusively in the area of the second outer wall section 515 arranged first Flüssigkeitsleitelement 519a can more substantially parallel to each other spirally arranged the rotor outer wall 511 circumferential first ribs 520a exhibit. The slope and the slope direction of the at least one first rib 520a can vary in different embodiments.

In the in 7 illustrated embodiment extends over the entire rotor outer wall 511 a further first fluid guide 519b , This is about the first outer wall section 514 and over the second outer wall portion 515 extending further first Flüssigkeitsleitelement 519b is exemplary of a rotor outer wall 511 spirally encircling further first rib 520 b trained. The spiral-shaped further first rib 520b has a slope against the direction of rotation of the fan motor shaft 505 on. The further first fluid guide 519b can more substantially parallel to each other spirally arranged the rotor outer wall 511 circumferential further first ribs 520b exhibit. The slope and the slope direction of the at least one further first rib 520b can vary in different embodiments.

Is the rotor 504 installed as an example in a blower arrangement, that is to the top 524 of the rotor 504 adjacent second outer wall section 515 the rotor outer wall 511 at least partially by a trained by the housing of the fan assembly circumferential and parallel to the rotor outer wall 511 surrounded by a raised edge. Between this edge and the rotor outer wall 511 a gap is arranged. In this case, facing the rotor outer wall 511 pointing side of the edge at least a second Flüssigkeitsleitelement in the form of at least one radially inwardly to the rotor outer wall 511 protruding circumferential rib on. By the direction of rotation of the rotor 504 and the pitch direction of the first Flüssigkeitsleitelemente 519 . 519a A velocity component of the air flow in the gap arises, which air is parallel to the axial direction of the fan motor shaft 505 towards a in 7 Blower not shown blowing. As a result, drops of water from blown the area of the gap and do not penetrate into the area of the fan motor. Preferably and optionally, the first Flüssigkeitsleitelemente 519a . 519b a direction of slope opposite to the direction of the second Flüssigkeitsleitelements slope direction, whereby the effect of the blowing out of the liquid droplets from the region of the gap still amplified. A counter-rotation of the pitch direction of at least one first fluid-conducting element arranged on a rotor outer wall to the pitch direction of at least one second fluid-conducting element is optionally also suitable for the in the 1 to 6 and 8th to 15 Illustrated embodiments providable.

The 8th shows a perspective view of a part of a housing 602 a blower arrangement not fully shown in FIG. In the case 602 can an in 8th not shown blower motor are received, with which an impeller is rotatably connected. An exemplary direction of rotation of the associated, but also not shown fan motor shaft, is in 8th represented by the arrow marked A.

The housing 602 is with an in 8th not shown air duct connected, in which the fan motor shaft protrudes. The air duct is exemplified with at least one air inlet in connection. In this case, the air duct can have, for example, a fresh air inlet and a recirculation air intake, fresh air from the outside of a motor vehicle being admitted through the fresh air inlet, and air from the motor vehicle cabin can be admitted through the recirculation air inlet. The blower wheel is driven by the blower motor and generates an air flow in the air duct starting from at least one of the air inlets towards an air outlet arranged, for example, in the region of the motor vehicle cabin.

The housing 602 has a cooling air channel 607 on, with what cooling air from outside the case 602 in the case 602 can be introduced.

The housing 602 also has an in 8th not shown base plate as a housing bottom. On this base plate, the fan motor is mounted fixed. To the base plate is a side wall 608 arranged, which the housing 602 closes to the side. On top of the case 602 or towards the top of the housing 602 is a top plate 609 arranged, which for example in one piece with the side wall 608 is formed and penetrated in the assembled state of the fan assembly of a rotor. The side wall 608 rotates while the base plate from radially outside. Here is the side wall 608 example composed of two halves and, for example by means of a tongue and groove connection 610 connected to the base plate.

The rotor has a substantially cylindrical rotor outer wall. The rotor outer wall has a first outer wall section arranged adjacently to the base plate and a second outer wall section arranged opposite the base plate. In the assembled state of the fan assembly is the top plate 609 arranged adjacent to the second outer wall portion of the rotor outer wall. The upper plate forms 609 one in a direction perpendicular from the base plate first direction 612 as well as raised parallel to the rotor outer wall edge 613 out. The one in the first direction 612 raised edge 613 In this case, the rotor outer wall rotates in the region of the second outer wall section from radially outside.

The edge 613 has a first edge side facing the rotor outer wall 616 and a second peripheral side facing away from the rotor outer wall 617 on. Between the first edge side 616 and the rotor outer wall is arranged a gap. Through the gap sucked water from the environment of the motor vehicle can get into the area of the fan motor, collect there and damage the fan motor and arranged in its periphery of the electrical system.

In order to remove the water entering through the gap, is in the in the 8th illustrated embodiment on the first edge side 616 a second Flüssigkeitsleitelement 625 arranged. The second fluid guide 625 is exemplary as a radially on the first edge side 616 arranged spiral-shaped second rib 626 educated. In alternative embodiments, the second fluid guide is 625 as a radial on the first edge side 616 formed spirally circumferentially arranged second groove. In this case, the second spiral rib 626 and / or the spiral-shaped second groove may be designed to be continuous, circulating or interrupted circumferentially. It can as second Flüssigkeitsleitelemente 625 also spiral-shaped second ribs 626 and spiral-shaped second grooves next to each other at the first edge side 616 be arranged. In addition, as second Flüssigkeitsleitelemente 625 also more than a spiral second rib 626 and / or more than one helical second groove on the first edge side 616 be arranged.

The at least one second rib 626 and / or the at least one second groove may be the first edge side 616 be formed right-handed and / or left-handed circumferential. They may have a linear and / or progressive and / or degressive slope. Consequently, the slope in the the same direction as the direction of rotation of the fan motor shaft or be formed opposite to the direction of rotation of the fan motor shaft and the pitch angle can be between 0 ° and 45 °.

The 9 shows a sectional view of a partial view of a fan assembly 701 with a housing 702 , In the case 702 is a blower motor 703 taken, with which an impeller 722 rotatably drivable connected.

The housing 702 is with an in 8th not shown air duct connected, in which the fan motor shaft 705 protrudes into it. The air duct is exemplified with at least one air inlet in connection. In this case, the air duct can have, for example, a fresh air inlet and a recirculation air intake, fresh air from the outside of a motor vehicle being admitted through the fresh air inlet, and air from the motor vehicle cabin can be admitted through the recirculation air inlet. The fan wheel 722 is from the blower motor 703 driven and generates an air flow in the air duct, starting from at least one of the air inlets towards an example in the area of the motor vehicle cabin arranged air outlet.

The housing 702 has a cooling air channel 707 on, with what cooling air from outside the case 702 in the case 702 can be introduced.

The housing 702 also has a base plate 706 as caseback. On this base plate is a rotor 704 the blower motor 703 attached arranged. To the base plate 706 is a side wall 708 arranged, which the housing 702 closes to the side. On top of the case 702 or towards the top of the housing 702 is a top plate 709 arranged, which for example in one piece with the side wall 708 is formed and of the rotor 704 is penetrated. The side wall 708 rotates the base plate 706 from radially outside. Here is the side wall 708 example composed of two halves and, for example by means of a tongue and groove connection 710 with the base plate 706 connected.

The rotor 704 has a substantially cylindrical rotor outer wall 711 on. The rotor outer wall 711 has one to the base plate 706 adjacently disposed first outer wall portion 714 and one of the base plate 706 oppositely disposed second outer wall portion 715 on. The top plate 709 is adjacent to the second outer wall portion 715 the rotor outer wall 711 arranged. The upper plate forms 709 one in one from the base plate 706 vertically pioneering first direction 712 as well as parallel to the rotor outer wall 711 raised edge 713 out. The one in the first direction 712 raised edge 713 rotates while the rotor outer wall 711 in the region of the second outer wall section 715 from radially outside.

The edge 713 has one to the rotor outer wall 711 pointing first edge side 716 and one of the rotor outer wall 711 groundbreaking second edge side 717 on. Between the first edge side 716 and the rotor outer wall 711 is a gap 718 arranged. Through the gap 718 can sucked from the environment of the motor vehicle sucked water in the area of the fan motor 703 get there, gather there and the blower motor 703 and damaging the electrical system located in its periphery.

To do this through the gap 718 to remove penetrating water is in the in the 9 illustrated embodiment on the first edge side 716 a second Flüssigkeitsleitelement 725 arranged. The second fluid guide 725 is exemplary as a radially on the first edge side 716 arranged spiral-shaped second rib 726 educated. In alternative embodiments, the second fluid guide is 725 as a radial on the first edge side 716 formed spirally circumferentially arranged second groove. In this case, the second spiral rib 726 and / or the spiral-shaped second groove may be designed to be continuous, circulating or interrupted circumferentially. It can as a second Flüssigkeitsleitelement 725 also spiral-shaped second ribs 726 and spiral-shaped second grooves next to each other at the first edge side 716 be arranged. In addition, as a second Flüssigkeitsleitelement 725 also more than a spiral second rib 726 and / or more than one helical second groove on the first edge side 716 be arranged.

The at least one second rib 726 and / or the at least one second groove, the first edge side 716 be formed right-handed and / or left-handed circumferential. They may have a linear and / or progressive and / or degressive slope. Consequently, the pitch can be in the same direction as the direction of rotation of the fan motor shaft 705 or against the direction of rotation of the fan motor shaft 705 be formed and the pitch angle can be between 0 ° and 45 °.

In the 10 is a side view of an embodiment of a first half 827 a housing of a fan assembly according to 9 shown. The first half 827 of the housing can be exemplified by a tongue and groove connection 810 with one for the first half 827 complementary second half of the housing as well as to be connected to a bottom plate. The first half 827 points, as well as the second half, one in a first direction 812 raised edge 813 on. The edge 813 has a direction perpendicular to the first direction 812 radially inwardly facing first edge side 816 on. At the first edge 816 is a second fluid guide 825 educated. The second fluid guide 825 has three parallel to each other and the first edge side 816 spirally encircling second ribs 826 on. The number of second ribs 826 can vary in different embodiments. The slope direction of the second ribs 826 as well as their pitch angle can also vary. In the in 10 illustrated embodiment, the slope direction of the second ribs extends 826 contrary to the direction of rotation indicated by the letter A in 10 not shown blower motor.

In the 11 is a side view of an embodiment of a first half 927 a housing of a fan assembly according to 9 shown. The first half 927 has a top plate 909 on and can exemplify a tongue and groove connection 910 with one for the first half 927 complementary second half and be connected to a bottom plate of the housing. The first half 927 points, as well as the second half, one in a first direction 912 raised edge 913 on. The edge 913 has a direction perpendicular to the first direction 912 radially inwardly facing first edge side 916 on. At the first edge 916 is a second fluid guide 925 educated. The second fluid guide 925 has a number of substantially mutually parallel ribs 923 on. Ribs 923 are on the first edge 916 arranged in a circle one behind the other. The number of ribs 923 can vary in different embodiments.

The first edge side 916 has one from the top plate 909 groundbreaking upper edge 928 and one to the top plate 909 pointing lower edge 929 on. Ribs 923 thereby run obliquely between the lower edge 929 and the upper edge 928 arranged.

In 12 is a partial side view of a fan assembly 1001 with a housing 1002 shown. In the case 1002 is a blower motor 1003 taken, with which an impeller 1022 rotatably drivable connected.

The housing 1002 is with an in 12 Not shown air duct connected, in which a in 12 also not shown fan motor shaft protrudes into it. The air duct is exemplified with at least one air inlet in connection. In this case, the air duct can have, for example, a fresh air inlet and a recirculation air intake, fresh air from the outside of a motor vehicle being admitted through the fresh air inlet, and air from the motor vehicle cabin can be admitted through the recirculation air inlet. The fan wheel 1022 is from the blower motor 1003 driven and generates an air flow in the air duct, starting from at least one of the air inlets towards an example in the area of the motor vehicle cabin arranged air outlet.

The housing 1002 has an in 12 Not shown cooling air duct, with which cooling air from outside the housing 1002 in the case 1002 can be introduced.

The housing 1002 also has a base plate 1006 as caseback. On the base plate 1006 is the one with a rotor 1004 connected fan motor 1003 attached arranged. To the base plate 1006 is a side wall 1008 arranged, which the housing 1002 closes to the side. On top of the case 1002 or towards the top of the housing 1002 is a top plate 1009 arranged, which for example in one piece with the side wall 1008 is formed and of the rotor 1004 is penetrated. The side wall 1008 rotates the base plate 1006 from radially outside. Here is the side wall 1008 example composed of two halves and, for example by means of a tongue and groove connection 1010 with the base plate 1006 connected.

The rotor 1004 has a substantially cylindrical rotor outer wall 1011 on. The rotor outer wall 1011 has one to the base plate 1006 adjacently disposed first outer wall portion 1014 and one of the base plate 1006 oppositely disposed second outer wall portion 1015 on. The top plate 1009 is adjacent to the second outer wall portion 1015 the rotor outer wall 1011 arranged. The upper plate forms 1009 one perpendicular to the base plate 1006 groundbreaking and parallel to the rotor outer wall 1011 raised edge 1013 out. The raised edge 1013 rotates while the rotor outer wall 1011 in the region of the second outer wall section 1015 from radially outside.

The edge 1013 has one to the rotor outer wall 1011 pointing first edge side 1016 on. Between the first edge side 1016 and the rotor outer wall 1011 is a gap 1018 arranged. Through the gap 1018 can sucked from the environment of the motor vehicle sucked water in the area of the fan motor 1003 get there, gather there and the blower motor 1003 and damaging the electrical system located in its periphery.

To do this through the gap 1018 to remove penetrating water is in the in the 12 illustrated embodiment of the rotor outer wall 1011 a first Flüssigkeitsleitelement 1019 arranged. The first fluid guide 1019 is exemplified as a number radially on the rotor outer wall 1011 arranged ribs 1023 and / or grooves formed. Here are the ribs 1023 and / or grooves substantially parallel to each other and in the circumferential direction of the rotor outer wall 1011 arranged one behind the other. The ribs extend 1023 each over the first outer wall portion 1014 and the second outer wall portion 1015 and are each at an acute angle to the cross-sectional area of the rotor 1004 arranged. The slope of the ribs 1023 can be formed in the direction of rotation of the fan motor shaft or counter to the direction of rotation of the fan motor shaft. Ribs 1023 can by machining the rotor outer wall 1011 be formed or by applying a plastic, for example by spraying, on the rotor outer wall 1011 be arranged.

Additionally is on the first edge side 1016 a second Flüssigkeitsleitelement 1025 arranged. The second fluid guide 1025 is exemplary as a radially on the first edge side 1016 arranged spiral-shaped second rib 1026 educated. In alternative embodiments, the second fluid guide is 1025 as a radial on the first edge side 1016 formed spirally circumferentially arranged second groove. In this case, the second spiral rib 1026 and / or the spiral-shaped second groove may be designed to be continuous, circulating or interrupted circumferentially. It can as a second Flüssigkeitsleitelement 1025 also spiral-shaped second ribs 1026 and / or spiral-shaped second grooves next to one another on the first edge side 1016 be arranged. In addition, as a second Flüssigkeitsleitelement 1025 also more than a spiral second rib 1026 and / or more than one helical second groove on the first edge side 1016 be arranged.

The at least one second rib 1026 and / or the at least one second groove, the first edge side 1016 be formed right-handed and / or left-handed circumferential. They may have a linear and / or progressive and / or degressive slope. Consequently, the pitch can be in the same direction as the direction of rotation of the fan motor shaft 1005 or against the direction of rotation of the fan motor shaft 1005 be formed and the pitch angle can be between 0 ° and 45 °.

In 13 is a sectional view of a detail of a housing 2002 a non-illustrated further embodiment of a fan assembly shown. The housing 2002 has a top plate 2009 on. The top plate 2009 becomes perpendicular to one of the top plate 2009 formed surface of a rotor 2004 protrudes through the blower assembly. The rotor 2004 has a rotor outer wall 2011 on. The rotor outer wall 2011 points to the top plate 2009 adjacently disposed second outer wall portion 2015 on. The top plate 2009 forms adjacent to the second outer wall portion 2015 one vertically from the top plate 2009 groundbreaking or parallel to the rotor outer wall 2011 protruding edge 2013 out. The raised edge 2013 rotates while the rotor outer wall 2011 in the region of the second outer wall section 2015 from radially outside.

The edge 2013 has one to the rotor outer wall 2011 pointing first edge side 2016 and one of the rotor outer wall 2011 groundbreaking second edge side 2017 on. Between the first edge side 2016 and the rotor outer wall 2011 is a gap 2018 arranged. Through the gap 2018 can sucked from the environment of the motor vehicle water in the area of a blower motor, not shown, collect there and damage the fan motor and arranged in its periphery electrical system.

To do this through the gap 2018 to remove penetrating water is in the in the 13 illustrated embodiment on the first edge side 2016 a second Flüssigkeitsleitelement 2025 arranged. The second fluid guide 2025 exemplarily has three radially on the first edge side 2016 arranged spiral-shaped second ribs 2026 on. In alternative embodiments, the second Flüssigkeitsleitelement 2025 three radially on the first edge side 2016 spiraling circumferentially arranged second grooves. The number of second ribs 2026 can vary in different design variants. In this case, the at least one second spiral rib 2026 and / or the at least one spiral-shaped second groove may be designed to be continuous, circulating or interrupted.

The at least one second rib 2026 and / or the at least one second groove may be on the first edge side 2016 be formed right-handed and / or left-handed circumferential. They may have a linear and / or progressive and / or degressive slope. Consequently, the pitch may be formed in the same direction as the rotational direction of the fan motor shaft or counter to the rotational direction of the fan motor shaft and the pitch angle may be between 0 ° and 45 °.

The first edge side 2016 has one from the top plate 2009 groundbreaking upper edge 2028 and one to the top plate 2009 pointing lower edge 2029 on. In the in the 13 illustrated embodiment forms the edge 2013 in the area of the upper edge 2028 a circumferential collar 2030 out. The collar 2030 is doing obliquely formed radially projecting inside and partially surmounted by the gap 2018 , In this way, the housing faces 2002 in the 13 illustrated embodiment of a fan assembly on an additional protective barrier against water entry into the region of the fan motor.

In the 14 is a sectional view of a detail of a housing 3002 a non-illustrated further embodiment of a fan assembly shown. The housing 3002 has a top plate 3009 on. The top plate 3009 becomes perpendicular to one of the top plate 3009 formed surface of a rotor 3004 protrudes through the blower assembly. The rotor 3004 has a rotor outer wall 3011 on. The rotor outer wall 3011 points to the top plate 3009 adjacently disposed second outer wall portion 3015 on. The top plate 3009 forms adjacent to the second outer wall portion 3015 one vertically from the top plate 3009 groundbreaking or parallel to the rotor outer wall 3011 protruding edge 3013 out. The raised edge 3013 rotates while the rotor outer wall 3011 in the region of the second outer wall section 3015 from radially outside.

The edge 3013 has one to the rotor outer wall 3011 pointing first edge side 3016 and one of the rotor outer wall 3011 groundbreaking second edge side 3017 on. Between the first edge side 3016 and the rotor outer wall 3011 is a gap 3018 arranged. Through the gap 3018 can sucked from the environment of the motor vehicle water in the area of a blower motor, not shown, collect there and damage the fan motor and the arranged in its periphery of the electrical system.

To do this through the gap 3018 to remove penetrating water is in the in the 14 illustrated embodiment on the first edge side 3016 a second Flüssigkeitsleitelement 3025 arranged. The second fluid guide 3025 exemplarily has three radially on the first edge side 3016 arranged spiral-shaped second ribs 3026 on. In alternative embodiments, the second Flüssigkeitsleitelement 3025 three radially on the first edge side 3016 spiraling circumferentially arranged second grooves. The number of second ribs 3026 and / or on the first edge side 3016 arranged circumferential spiral grooves may vary in different embodiments. In this case, the at least one spiral-shaped second rib 3026 and / or the at least one spiral-shaped second groove may be designed to be continuous, circulating or interrupted.

The at least one second rib 3026 and / or the at least one second groove may be on the first edge side 3016 be formed right-handed and / or left-handed circumferential. They may have a linear and / or progressive and / or degressive slope. Consequently, the pitch may be formed in the same direction as the rotational direction of a fan motor shaft or counter to the rotational direction of the fan motor shaft and the pitch angle may be between 0 ° and 45 °.

At the second edge 3017 is in the in the 14 illustrated embodiment, a third liquid guide 3032 educated. The third Flüssigkeitsleitelement 3032 has an example of a spiral-shaped circumferential third rib 3033 on. In alternative embodiments, the third Flüssigkeitsleitelement 3032 more than one the second edge side 3017 spirally encircling third rib 3033 and / or the first edge 3016 spirally encircling third grooves.

In the 15 is in this regard an embodiment of a housing 3002 shown in which one at the second edge side 3017 arranged third liquid guide 3032 two parallel to each other and the second edge side 3017 spirally encircling third ribs 3033 having.

The second ribs 3026 and / or the second grooves and the third ribs 3033 and / or the third grooves may have a slope along the same direction of rotation or a slope along opposite directions of rotation.

As in the 14 and 15 represented, the first edge side can 3016 in the area of the upper plate 3009 In addition, by way of example, a circumferential radially inward to the rotor outer wall 3011 pointing ahead 3031 exhibit.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 19911158 C2 [0004]
• JP 2007-154856 A [0005]
• US 8292572 B2 [0006]

Claims (19)

Blower assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) with a housing ( 2 . 202 . 302 . 402 . 602 . 702 . 1002 . 2002 . 3002 ) and with a blower motor ( 3 . 103 . 203 . 303 . 403 . 703 . 1003 ), wherein the blower motor ( 3 . 103 . 203 . 303 . 403 . 703 . 1003 ) a rotor ( 4 . 104 . 204 . 304 . 404 . 504 . 704 . 1004 . 2004 . 3004 ) with a rotor outer wall ( 11 . 111 . 211 . 311 . 411 . 511 . 711 . 1011 . 2011 . 3011 ), characterized in that the housing ( 2 . 202 . 302 . 402 . 602 . 702 . 1002 . 2002 . 3002 ) and / or the rotor outer wall ( 11 . 111 . 211 . 311 . 411 . 511 . 711 . 1011 . 2011 . 3011 ) at least one liquid guiding element ( 19 . 119 . 219 . 319 . 419 . 519 . 625 . 725 . 825 . 925 . 1019 . 1025 . 2025 . 3025 ), by means of which penetrating liquid can be diverted. Blower assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) according to claim 1, characterized in that the rotor outer wall ( 11 . 111 . 211 . 311 . 411 . 511 . 711 . 1011 . 2011 . 3011 ) is substantially cylindrical and at least one radially arranged first Flüssigkeitsleitelement ( 19 . 119 . 219 . 319 . 419 . 519 . 1019 ), wherein the at least one first Flüssigkeitsleitelement ( 19 . 119 . 219 . 319 . 419 . 519 . 1019 ) as at least one on the rotor outer wall ( 11 . 111 . 211 . 311 . 411 . 511 . 711 . 1011 . 2011 . 3011 ) circumferentially arranged first groove and / or at least one on the rotor outer wall ( 11 . 111 . 211 . 311 . 411 . 511 . 711 . 1011 . 2011 . 3011 ) spirally encircling first rib ( 20 . 220 . 320 . 520 ) is trained. Blower assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) according to claim 1, characterized in that the rotor outer wall ( 11 . 111 . 211 . 311 . 411 . 511 . 711 . 1011 . 2011 . 3011 ) is substantially cylindrical and the rotor ( 4 . 104 . 204 . 304 . 404 . 504 . 704 . 1004 . 2004 . 3004 ) one perpendicular to the rotor outer wall ( 11 . 111 . 211 . 311 . 411 . 511 . 711 . 1011 . 2011 . 3011 ) has arranged cross-sectional area, wherein the rotor outer wall ( 11 . 111 . 211 . 311 . 411 . 511 . 711 . 1011 . 2011 . 3011 ) at least one radially arranged first fluid guide element ( 19 . 119 . 219 . 319 . 419 . 519 . 1019 ), wherein the at least one first Flüssigkeitsleitelement ( 19 . 119 . 219 . 319 . 419 . 519 . 1019 ) a number of circumferentially in succession on the rotor outer wall ( 11 . 111 . 211 . 311 . 411 . 511 . 711 . 1011 . 2011 . 3011 ) radially arranged ribs ( 423 ) and / or grooves, wherein the ribs ( 423 ) and / or grooves in each case at a rectangular and / or acute angle to the cross-sectional area of the rotor ( 4 . 104 . 204 . 304 . 404 . 504 . 704 . 1004 . 2004 . 3004 ) are arranged. Blower assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) according to claim 1, 2 or 3, characterized in that the blower motor ( 3 . 103 . 203 . 303 . 403 . 703 . 1003 ) a driven fan motor shaft ( 5 . 105 . 205 . 505 ), with which an impeller ( 322 . 422 . 722 . 1022 ) is drivably connected in at least one direction of rotation and the housing ( 2 . 202 . 302 . 402 . 602 . 702 . 1002 . 2002 . 3002 ) a one- or multi-part sidewall ( 8th . 208 . 308 . 408 . 608 . 708 . 1008 ) and one with the side wall ( 8th . 208 . 308 . 408 . 608 . 708 . 1008 ) connectable base plate ( 6 . 206 . 306. . 406 . 706 . 1006 ), wherein the side wall ( 8th . 208 . 308 . 408 . 608 . 708 . 1008 ) the base plate ( 6 . 206 . 306. . 406 . 706 . 1006 ) and the rotor ( 4 . 104 . 204 . 304 . 404 . 504 . 704 . 1004 . 2004 . 3004 ) can be arranged radially circumferentially and the blower motor ( 3 . 103 . 203 . 303 . 403 . 703 . 1003 ) on or with the base plate ( 6 . 206 . 306. . 406 . 706 . 1006 ) can be arranged and / or fastened, wherein the side wall ( 8th . 208 . 308 . 408 . 608 . 708 . 1008 ) an upper plate ( 9 . 209 . 309 . 409 . 609 . 709 . 1009 . 2009 ), wherein the rotor ( 4 . 104 . 204 . 304 . 404 . 504 . 704 . 1004 . 2004 . 3004 ) in the assembled state of the fan assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) the top plate ( 9 . 209 . 309 . 409 . 609 . 709 . 1009 . 2009 ). Blower assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) according to claim 4, characterized in that the rotor outer wall ( 11 . 111 . 211 . 311 . 411 . 511 . 711 . 1011 . 2011 . 3011 ) one to the base plate ( 6 . 206 . 306. . 406 . 706 . 1006 ) disposed adjacent first outer wall portion ( 14 . 214 . 314 . 414 . 514 . 714 . 1014 ) and one of the base plate ( 6 . 206 . 306. . 406 . 706 . 1006 ) disposed opposite second second outer wall portion ( 15 . 215 . 315 . 415 . 715 . 1015 . 2015 . 3015 ), wherein the at least one first Flüssigkeitsleitelement ( 19 . 119 . 219 . 319 . 419 . 519 . 1019 ) in the region of the second outer wall section ( 15 . 215 . 315 . 415 . 715 . 1015 . 2015 . 3015 ) or in the region of the first and the second outer wall section ( 14 . 214 . 314 . 414 . 514 . 714 . 1014 . 15 . 215 . 315 . 415 . 715 . 1015 . 2015 . 3015 ) is arranged. Blower assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) according to claim 5, characterized in that the housing ( 2 . 202 . 302 . 402 . 602 . 702 . 1002 . 2002 . 3002 ) in the area of the upper plate ( 9 . 209 . 309 . 409 . 609 . 709 . 1009 . 2009 ) a circumferential superscript border ( 13 . 213 . 313 . 413 . 613 . 713 . 813 . 913 . 1013 . 2013 . 3013 ), wherein the edge ( 13 . 213 . 313 . 413 . 613 . 713 . 813 . 913 . 1013 . 2013 . 3013 ) the rotor outer wall ( 11 . 111 . 211 . 311 . 411 . 511 . 711 . 1011 . 2011 . 3011 ) in the region of the second outer wall section ( 15 . 215 . 315 . 415 . 715 . 1015 . 2015 . 3015 ) in the assembled state of the fan assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) from radially outward, wherein between the edge ( 13 . 213 . 313 . 413 . 613 . 713 . 813 . 913 . 1013 . 2013 . 3013 ) and the rotor outer wall ( 11 . 111 . 211 . 311 . 411 . 511 . 711 . 1011 . 2011 . 3011 ) A gap ( 18 . 218 . 318 . 418 . 718 . 1018 . 2018 . 3018 ) is arranged. Blower assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) according to claim 6, characterized in that the raised edge ( 13 . 213 . 313 . 413 . 613 . 713 . 813 . 913 . 1013 . 2013 . 3013 ) one in the assembled state of the fan assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) to the rotor outer wall ( 11 . 111 . 211 . 311 . 411 . 511 . 711 . 1011 . 2011 . 3011 ) facing first edge side ( 16 . 216 . 316 . 416 . 616 . 716 . 816 . 916 . 1016 . 2016 . 3016 ) and one of the rotor outer wall ( 11 . 111 . 211 . 311 . 411 . 511 . 711 . 1011 . 2011 . 3011 ) groundbreaking second edge side ( 17 . 217 . 317 . 417 . 617 . 717 . 817 . 2017 . 3017 ), wherein in the region of the first edge side ( 16 . 216 . 316 . 416 . 616 . 716 . 816 . 916 . 1016 . 2016 . 3016 ) at least one second fluid guide element ( 625 . 725 . 825 . 925 . 1025 . 2025 . 3025 ) is arranged and / or in the region of the second edge side ( 17 . 217 . 317 . 417 . 617 . 717 . 817 . 2017 . 3017 ) at least a third fluid guide element ( 3032 ) is arranged. Blower assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) according to claim 7, characterized in that the first edge side ( 16 . 216 . 316 . 416 . 616 . 716 . 816 . 916 . 1016 . 2016 . 3016 ) one to the upper plate ( 9 . 209 . 309 . 409 . 609 . 709 . 1009 . 2009 ) pointing lower edge ( 929 . 2029 ) and one from the top plate ( 9 . 209 . 309 . 409 . 609 . 709 . 1009 . 2009 ) leading edge ( 928 . 2028 ), wherein the at least one second Flüssigkeitsleitelement ( 625 . 725 . 825 . 925 . 1025 . 2025 . 3025 ) as at least one on the first edge side ( 16 . 216 . 316 . 416 . 616 . 716 . 816 . 916 . 1016 . 2016 . 3016 ) spirally arranged circumferentially second groove and / or at least one on the first edge side ( 16 . 216 . 316 . 416 . 616 . 716 . 816 . 916 . 1016 . 2016 . 3016 ) spirally encircling second rib ( 626 . 726 . 826 . 1026 . 2026 . 3026 ) is formed and / or one on the first edge side ( 16 . 216 . 316 . 416 . 616 . 716 . 816 . 916 . 1016 . 2016 . 3016 ) obliquely between the lower edge ( 929 . 2029 ) and the upper edge ( 928 . 2028 ) arranged number of ribs ( 923 ) and / or grooves. Blower assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) according to claim 7 or 8, characterized in that the second edge side ( 17 . 217 . 317 . 417 . 617 . 717 . 817 . 2017 . 3017 ) one to the upper plate ( 9 . 209 . 309 . 409 . 609 . 709 . 1009 . 2009 ) facing first edge and one from the upper plate ( 9 . 209 . 309 . 409 . 609 . 709 . 1009 . 2009 ) has pioneering second edge, wherein the at least one third Flüssigkeitsleitelement ( 3032 ) as at least one on the second edge side ( 17 . 217 . 317 . 417 . 617 . 717 . 817 . 2017 . 3017 ) spirally arranged circumferentially third groove and / or at least one on the second edge side ( 17 . 217 . 317 . 417 . 617 . 717 . 817 . 2017 . 3017 ) spirally encircling third rib ( 3033 ) is formed and / or one on the second edge side ( 17 . 217 . 317 . 417 . 617 . 717 . 817 . 2017 . 3017 ) arranged obliquely arranged between the first edge and the second edge formed number of ribs and / or grooves. Blower assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) according to claim 9, characterized in that the at least one first groove and / or the at least one second groove and / or the at least one third groove and / or the at least one first rib ( 20 . 220 . 320 . 520 ) and / or the at least one second rib ( 626 . 726 . 826 . 1026 . 2026 . 3026 ) and / or the at least one third rib ( 3033 ) is formed left-handed and / or right-handed / are. Blower assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) according to claim 9 or 10, characterized in that the at least one first groove and / or the at least one second groove and / or the at least one third groove and / or the at least one first rib ( 20 . 220 . 320 . 520 ) and / or the at least one second rib ( 626 . 726 . 826 . 1026 . 2026 . 3026 ) and / or the at least one third rib ( 3033 ) in each case has a slope, wherein the slope is linear and / or progressive and / or degressive and / or a pitch angle of 0 °, 5 °, 10 °, 15 °, 20 °, 25 °, 30 °, 35th °, 40 ° or 45 ° and / or runs in the direction of rotation and / or counter to the direction of rotation. Blower assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) according to claim 9, 10 or 11, characterized in that the at least one first groove and / or the at least one second groove and / or the at least one third groove and / or the at least one first rib ( 20 . 220 . 320 . 520 ) and / or the at least one second rib ( 626 . 726 . 826 . 1026 . 2026 . 3026 ) and / or the at least one third rib ( 3033 ) is formed completely circumferentially and / or partially encircling / are. Blower assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) according to one of the preceding claims 2 to 12, characterized in that the first liquid-conducting element ( 19 . 119 . 219 . 319 . 419 . 519 . 1019 ) in one piece with the rotor outer wall ( 11 . 111 . 211 . 311 . 411 . 511 . 711 . 1011 . 2011 . 3011 ) is formed of metal or by applying a plastic to the rotor outer wall ( 11 . 111 . 211 . 311 . 411 . 511 . 711 . 1011 . 2011 . 3011 ) is trained. Blower assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) according to one of the preceding claims 8 to 13, characterized in that the pitch of the first groove and / or the first rib ( 20 . 220 . 320 . 520 ) takes place in a first gradient direction and the pitch of the second groove and / or the second rib (FIG. 626 . 726 . 826 . 1026 . 2026 . 3026 ) in one of the first pitch direction opposite second gradient direction, wherein the first pitch direction or the second pitch direction corresponds to the at least one direction of rotation. Blower assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) according to one of the preceding claims 9 to 14, characterized in that the third groove and / or the third rib ( 3033 ) has / have a third pitch direction, wherein the third pitch direction is opposite to the second pitch direction. Blower assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) according to one of claims 8 to 15, characterized in that the edge ( 13 . 213 . 313 . 413 . 613 . 713 . 813 . 913 . 1013 . 2013 . 3013 ) in the area of the upper edge ( 928 . 2028 ) a circumferential collar ( 2030 ), wherein the collar ( 2030 ) protrudes obliquely radially inward, such that the collar ( 2030 ) the gap ( 18 . 218 . 318 . 418 . 718 . 1018 . 2018 . 3018 ) partially surmounted. Blower assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) according to one of claims 9 to 16, characterized in that the edge ( 13 . 213 . 313 . 413 . 613 . 713 . 813 . 913 . 1013 . 2013 . 3013 ) in the region of the first edge has a circumferential collar, wherein the collar perpendicular to the second edge side ( 17 . 217 . 317 . 417 . 617 . 717 . 817 . 2017 . 3017 ) protrudes radially outward. Blower assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) according to one of claims 1 to 17, characterized in that the housing ( 2 . 202 . 302 . 402 . 602 . 702 . 1002 . 2002 . 3002 ) a cooling air duct ( 7 . 607 . 707 ), with which air for cooling the fan motor ( 3 . 103 . 203 . 303 . 403 . 703 . 1003 ) to the blower motor ( 3 . 103 . 203 . 303 . 403 . 703 . 1003 ) can be supplied and / or has a liquid collection channel, in which liquid can be collected and specifically discharged from this. Blower assembly ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) according to one of claims 7 to 18, characterized in that the blower arrangement ( 1 . 101 . 201 . 301 . 401 . 701 . 1001 ) a stator for supporting the rotor ( 4 . 104 . 204 . 304 . 404 . 504 . 704 . 1004 . 2004 . 3004 ), wherein the at least one first Flüssigkeitsleitelement ( 19 . 119 . 219 . 319 . 419 . 519 . 1019 ) and / or the at least one second fluid guide element ( 625 . 725 . 825 . 925 . 1025 . 2025 . 3025 ) and / or the at least one third Flüssigkeitsleitelement ( 3032 ) radially outside the stator and / or the rotor ( 4 . 104 . 204 . 304 . 404 . 504 . 704 . 1004 . 2004 . 3004 ) is / are arranged.

Images