This application claims priority from our German application 20 2008005 917.8, filed 21 Apr. 2008, the entire content of which is incorporated by reference. The application refers to commonly-assigned U.S. Ser. No. 10/884,697, now U.S. Pat. No. 7,189,053, WINKLER & METZGER.
The present invention relates to a miniature fan arrangement and, in particular, to a miniature fan arrangement having a vibration-damping suspension system.
EP 1 498 613 A2 and U.S. Pat. No. 7,189,053, WINKLER & METZGER (commonly assigned with the present application) disclose an arrangement in which, in order to reduce vibrations generated by a fan, the fan is suspended in a mounting frame using a flexible part. This is advantageous in particular when the vibrations generated by the fan can be perceived as irritating, for example when a vehicle seat or items of equipment are being ventilated.
In numerous applications, miniature or subminiature fans having housing dimensions of 20 to 60 mm on a side are used to create such fan arrangements. These fans must often be equipped, in an application-specific manner, with an expanded electronic control and protection system that is necessary for cooling purposes or, in combination with a small heating system, for heating purposes, for example in automobiles, trains, aircraft, control cabinets, switching cabinets, and IT electronics cabinets. In addition, this electronic system can also be designed to operate the fan alternatively for blowing or for suction. Because of the very small dimensions of miniature and subminiature fans, however, the expanded electronic control and protection system usually cannot be arranged, or can be arranged only partly, on the circuit board associated with the fan.
It is therefore an object of the present invention to make available a novel miniature fan arrangement with enough space for more components.
This object is achieved by a miniature fan arrangement having a first circuit board, a fan housing, a mounting part arranged radially outside the fan housing, a membrane which elastically connects the fan housing and the mounting part to each other, and a second circuit board, electrically connected to the first circuit board, arranged in a region between the mounting part and the fan housing.
An additional component placement surface is made available here by the use of a second circuit board that is arranged radially inside an outer mounting part and outside a fan housing of the fan. The dimensions of the second circuit board are preferably determined as a function of the dimensions of the fan housing and of the mounting part, so that their dimensions can continue to remain small.
This object can also be achieved by a miniature fan arrangement having a fan housing, an electronically commutated drive motor, a first circuit board arranged inside the fan housing, a second circuit board arranged outside the fan housing and electrically connected to the first circuit board, a mounting part arranged outside the fan housing, and a membrane elastically connecting the fan housing and the mounting part to each other. Here the additional component placement surface is made available by the use of a second circuit board that is arranged radially inside the fan housing.
It is thereby possible, even in the case of miniature and subminiature fans having a very small physical size, to implement an expanded electronic control system in simple fashion with no impairment of air output and air pressure buildup or of the fan's output. This electronic control system can comprise protection against incorrectly polarized connection, overvoltage protection, and/or stall protection. In addition, the fact that the additional component placement surface is made available creates room for a control system using pulse width modulation (PWM), for an analog and/or output-based control system, and for LAN-(Local Area Network) or CAN-(Controller Area Network) bus control systems.
Further details and advantageous refinements of the invention are evident from the exemplifying embodiments, in no way to be understood as a limitation of the invention, that are described below and depicted in the drawings, in which:
In the description that follows, the terms “left,” “right,” “front,” “rear,” “upper,” and “lower” refer to the particular figure of the drawings, and can vary from one figure to the next as a function of a particular orientation (portrait or landscape) that is selected. Identical or identically functioning parts are labeled with the same reference characters in the various figures, and usually are described only once.
Fan 10 has a fan housing 30 in which a fan wheel 18 is arranged rotatably about a rotation axis 23 (
As described in
Fan 10 has a motor 21 (
Motor 21 has associated with it a first circuit board 52 for the reception of components of the motor electronics, which first circuit board 52 is arranged inside fan housing 30. Said board is connected via flexible connector leads 62, 64 (
According to a first embodiment, second circuit board 54 is arranged radially inside mounting part 34 and radially outside fan housing 30. The dimensions of second circuit board 54 are preferably determined as a function of the dimensions of fan housing 30 and of mounting part 34.
In
Be it noted that the use of a single second circuit board 54 that is arranged m the region of suction side 12 or discharge side 14 of fan 10 serves merely as an example for illustration of an exemplifying embodiment of the invention. Various modifications and variants are possible without changing the manner of operation of fan arrangement 100 according to the present invention. For example, second circuit board 54 can be provided on suction side 12 of fan 10, and a third circuit board is arranged in the region of the latter's discharge side 14, the second and third circuit board being, for example, interconnected in electrically conductive fashion.
Provided between second circuit board 54 and fan housing 30 is at least one cutout 39 that, when discharge side 14 of fan 10 is closed off, enables a return flow (from discharge side 14 to suction side 12) of air delivered by fan wheel 18. Cutout 39 is implemented in
Provided in
After assembly, second circuit board 54 can be connected via leads 62, 64 to first circuit board 52, for example by soldering. For delivery of an operating voltage for motor 21, second circuit board 54 is furthermore electrically connected, e.g. once again by soldering, to a flexible voltage supply lead 90 that comprises two leads 91, 92. In many cases additional leads are provided, for example for a tacho signal or an alarm signal.
According to an embodiment of the invention, a strain relief apparatus 70 for flexible voltage supply lead 90 is provided on mounting part 34. Said apparatus has at least one securing hook-formed post 71′, 71″, at least one winding post 72′, 72″, and at least one hooking post 73′, 73″. Securing hook-formed post 71′, 71″ serves to secure lead 90, which is then guided from there, around winding post 72′, 72″, to hooking post 73′, 73″. At hooking post 73′, 73″, lead 90 is wound at least once around the post's entire outer periphery and then guided to circuit board 54 (see
As is evident from
According to an embodiment, vibration-damping suspension system 32 is a membrane or diaphragm, made of an elastic material, that elastically joins fan housing 30 and mounting part 34 to one another. Membrane 32 is made, for example, of a plastic or an elastomer and implemented as a direct connection between mounting part 34 and fan housing 30. Membrane 32 can be joined in positive and/or materially connected fashion to fan housing 30 and/or to mounting part 34. Membrane 32 is joined almost entirely or completely to fan housing 30 over the latter's entire outer periphery. The membrane is joined almost entirely or completely to mounting part 34 on its entire inner side 36.
As shown in
A suitable membrane for suspension of a fan housing in a mounting part is described in EP 1 498 613 A2 and corresponding U.S. Pat. No. 7,189,053, WINKLER & METZGER, to which reference is expressly made here. A more detailed description of membrane 32 is therefore omitted.
Bracing elements 84′, 84″, 84′″, 84IV are implemented, according to an embodiment, as axially resilient support members on inner side 36 of mounting port 34. Circuit board 54, is supported resiliently on them after being installed in mounting part 34, as described below with reference to
The electronically commutated drive motor 21 has a stator arrangement 83 having claw pole laminations 87, an external rotor 88, and a motor retaining tray 85 equipped with mounting flange 38. Rotor 88 comprises rotor cup 25 on which fan wheel 18 is mounted, as well as a rotor shaft 96 that is journaled in a bearing arrangement 60 rotatably about rotation axis 23.
Second circuit board 54 is supported with its lower side 54′ on resilient support members 84″, 84IV, and is latch-mounted on its upper side 54″. Latching tongue 82′ has for this purpose a latching hook 95 that latches in on upper side 54″ of circuit board 54.
Provided on this upper side 54″ is an electrical terminal 64′ on which is mounted one end of connector lead 64, the other end of which is connected to an electrical terminal 64″ provided on first circuit board 52. The length of connector lead 64 is selected in consideration of the resilient travel of membrane 32, in order to prevent damage to or destruction of the electrical connection between circuit boards 52, 54 during the operation of fan 10, for example due to detachment of lead 64.
Fan 110 has a motor 121 (
Associated with motor 121 is first circuit board 52, which is arranged inside fan housing 30. First circuit board 52 is connected in an electrically conductive manner, via a connector lead 148 (
For delivery of an operating voltage for motor 121, in
As is evident from
Numerous variants and modifications are of course possible, within the scope of the present invention.
Number | Date | Country | Kind |
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20 2008 005 917 U | Apr 2008 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
4171190 | Hudson | Oct 1979 | A |
4385025 | Salerno et al. | May 1983 | A |
4568243 | Schubert et al. | Feb 1986 | A |
7189053 | Winkler et al. | Mar 2007 | B2 |
20050106046 | Winkler | May 2005 | A1 |
Number | Date | Country |
---|---|---|
32 27 017 | Apr 1983 | DE |
38 23 477 | Jan 1990 | DE |
39 27 426 | Feb 1991 | DE |
10 2004 033 215 | Feb 2005 | DE |
1 498 613 | Jan 2005 | EP |
Number | Date | Country | |
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20090263242 A1 | Oct 2009 | US |