DE202009016740U1 - Pressure increasing structure for paddle wheel - Google Patents

Abstract

Booster structure for fan,
a paddle wheel (1) having a wheel hub (11) and a plurality of blades (12) around the wheel hub (11), wherein a wheel axle (13) is provided in the wheel hub (11),
a frame (2) having an axle box (21) and at least one bearing (22), the bearing (22) being disposed in the axle box (21) and having a center hole (221) through which the wheel axle (13) is guided,
a stator (3) having a plurality of silicon steel sheets (31) and at least one base plate (32) and laid around the axis sleeve (21), and
a first pressure increasing zone (4) attached to the magnet (14) or the base plate (32) of the stator (3).

Description

Technical area

The The invention relates to a pressure increasing structure for paddle wheel, which can prevent salt mist from entering the paddle wheel, thereby avoiding corrosion of the fan by the salt crystals so that the life of the fan is extended.

State of the art

Of the cooling fan usually includes a stature, a rotor, a circuit board, a paddle wheel and a frame.

Of the cooling fan is used in electronic products, such as computer, server, power supply, communication box, Telecommunications stations, etc. used. The environment of the cooling fan can being bad. When the cooling fan located in an environment with moisture and salt mist, the cooling fan must be protected against the moisture and the salt spray, to a rusting to avoid the stator, the bearing and the circuit board.

For that will be two solutions used: vacuum coating and plastic molding. In vacuum coating become the stator and the circuit board with a protective layer coated, which is made of high molecular weight polymer. When in the Fan is a salt crystal formed, the protective layer can however, be torn by the friction with the salt crystal, causing the electronic components can be damaged.

at the plastic casting The stator and the circuit board are placed in a mold. Subsequently a plastic is filled in the mold. After solidifying the stator and the circuit board enclosed by the plastic. Since the plastic layer is very thick, the heat dissipation the electronic components is impaired, causing the electronic Components damaged can be.

• 1. kürzere Lebensdauer,
• 2. schlechte Konvektion zwischen der Innenseite und der Außenseite des Ventilators,
• 3. niedirgere Kühlwirkung.

Vacuum coating and plastic molding are used to protect the electronic components against damage by moisture and mist set, but can not prevent moisture and fumes from entering the fan. In addition, the heat dissipation is impaired when the engine is enclosed. As a result, the temperature of the engine increases, so that the salt mist can be deposited even easier than salt crystal. The salt crystal can block the wheel axle and the bearing, which can burn the circuit board. Therefore, the conventional solutions have the following disadvantages:

• 1. shorter life,
• 2. bad convection between the inside and outside of the fan,
• 3. low cooling effect.

Out For this reason, the inventor has developed the present invention.

Object of the invention

Of the Invention is based on the object, a pressure increasing structure for paddle wheel to create an entry of salt mist in the paddle wheel which can prevent corrosion of the fan due to the Salt crystals is avoided, so that the life of the fan extended becomes.

• 1. längere Lebensdauer
• 2. Kein Eintritt von Feuchtigkeit und Salznebel
• 3. bessere Konvektion zwischen der Innenseite und der Außenseite des Ventilators und höhere Kühlwirkung für Motor.

This object is achieved by the impeller pressure increasing structure according to the invention, comprising: a paddle wheel having a wheel hub and a plurality of blades around the wheel hub, wherein a wheel axle is provided in the wheel hub; a frame having an axle box and at least one bearing, the bearing being disposed in the axle box and having a center hole through which the wheel axle is passed; a stator having a plurality of silicon steel sheets and at least one base plate and laid around the axle box; and a first pressure increasing zone attached to the magnet or the base plate of the stator. Therefore, the invention has the following advantages:

• 1. longer life
• 2. No entry of moisture and salt mist
• 3. better convection between the inside and the outside of the fan and higher cooling effect for motor.

Brief description of the drawings

1 an exploded view of the inventive fan,

2 a perspective view of the paddle wheel according to the invention,

2a an enlarged view of the invention,

3 a further exploded view of the inventive fan,

4 a further perspective view of the paddle wheel according to the invention,

4a an enlarged view of a further embodiment of the invention,

5a a perspective view of an embodiment of the invention,

5b a perspective view of another embodiment of the invention,

6 a sectional view of the paddle wheel according to the invention,

6a an enlarged view of the invention,

7 a further exploded view of the fan according to the invention.

Ways to carry out the invention

in the The following is the invention with reference to a preferred embodiment described in more detail.

Like from the 1 . 2 . 2a . 3 . 4 and 4a can be seen, the invention comprises a paddle wheel 1 a frame 2 , a stator 3 and a first pressure increasing zone 4 ,

The paddle wheel 1 has a wheel hub 11 ( 2a and 4a ) and a variety of blades 12 on. The wheel hub 11 has an open side 111 and a closed page 112 , On the closed side is a collar 1121 provided in which a wheel axle 13 is attached. The shovels 12 are around the peripheral side of the wheel hub 11 distributed and extend radially outward. A magnet 14 is on the inside of the wheel hub 11 arranged.

The frame 2 has an axle box 21 and at least one camp 22 on. The warehouse 22 is in the axle box 21 arranged and has a center hole 221 through which the wheel axle 13 is guided.

The stator 3 has a variety of silicon steel sheets 31 and at least one base plate 32 and is around the axle box 21 placed, causing the stator 3 as part of 2 is attached.

The wheel axle 13 is through the center hole 221 led the bearing, causing the paddle wheel 1 rotatable in the frame 2 is attached. This is the magnet 14 the silicon steel sheets 31 of the stator 3 opposite and lies the bottom 141 of the magnet 14 on the base plate 32 on.

The first booster zone 4 can on the magnet 14 or the base plate 32 of the stator 3 to be appropriate. In the present embodiment, the first pressure-increasing zone 4 on the magnet 14 appropriate.

The magnet 14 has a bottom 141 on top of which the first booster zone 4 is arranged annularly ( 1 ).

When the first pressure increase zone 4 on the stator 3 is attached, it is annular on the base plate 32 arranged ( 3 ).

Like from the 2a and 4a can be seen, has the first pressure increase zone 4 two embodiments. In the first embodiment, the first pressure increasing zone includes 4 an in-depth structure ( 2a ). In the second embodiment, the first pressure increasing zone includes 4 an elevated structure ( 4a ).

Like from the 5a and 5b is apparent, has the structure of the pressure increase zone 4 two embodiments. In the first embodiment, the structure is the pressure increasing zone 4 a first page 41 , a second page 42 and an angle 43 on. The first 41 and second page 42 make up the angle 43 , the one leading edge 44 has. The angle 43 opposite ends of the first and second side 41 . 42 are about a third page 45 connected to each other, which is a back surface 45a forms.

In the second embodiment, the structure of the pressure increasing zone 4 an angle 43 , a first leg 46 and a second leg 47 on. The first and second thighs 46 . 47 make up the angle 43 , the one leading edge 48 has. between the first and second legs 46 . 47 is a gap 49 available.

Like from the 6 and 6A can be seen, generate the blades 12 during operation of the fan an air flow 6 from the first pressure increase zone 4 to be led. The airflow 6 flows from the lower pressure point, ie the wider part of the pressure increase zone 4 (at the top edge 48 opposite side of the first and second leg 46 . 47 ) to the higher pressure point, d. h, the closer part of the pressure increase zone 4 (at the top edge 48 ), reducing the air pressure of the airflow 6 is increased (Bernoulli principle). The air pressure on the inside and outside of the pressure increase zone 4 is less than the air pressure in the first pressure increase zone 4 , After the mass conservation rate and the influence of the pressure increase zone 4 becomes the flow rate of the airflow 6 through the wheel hub 11 of the paddle wheel 1 increases, so that the cooling effect for the interior of the wheel hub 11 of the paddle wheel 1 is increased.

Due to the resistance of the pressure increase zone 4 an eddy current and a boundary layer effect are generated, whereby an entry of moisture and salt mist in the wheel hub 11 of the paddle wheel 1 prevents the formation of salt crystal in the wheel hub 11 of the paddle wheel 1 is avoided.

7 shows a further embodiment of the invention, wherein a second pressure increasing zone 5 is provided on the magnet 14 the wheel hub 11 or the base plate 32 of the stator 3 is appropriate.

When the first pressure increase zone 4 on the bottom 141 of the magnet 14 is arranged, is the second pressure increasing zone 5 on the base plate 32 of the stator 3 arranged.

The The above description represents only the preferred embodiments of the invention and should not be used as a definition of boundaries and serve the scope of the invention. All equivalent changes and modifications are included to the scope of this invention.

by virtue of the above facts, the invention corresponds in its availability, Progressiveness and novelty fully on the requirements for a utility model.

Claims (7)

Pressure increasing structure for fan, a paddle wheel ( 1 ), which has a wheel hub ( 11 ) and a plurality of blades ( 12 ) around the wheel hub ( 11 ), wherein in the wheel hub ( 11 ) a wheel axle ( 13 ), a frame ( 2 ), which has an axle box ( 21 ) and at least one warehouse ( 22 ), the bearing ( 22 ) in the axle box ( 21 ) and a center hole ( 221 ), through which the wheel axle ( 13 ), a stator ( 3 ) comprising a plurality of silicon steel sheets ( 31 ) and at least one base plate ( 32 ) and about the axis bushing ( 21 ), and a first pressure-increasing zone ( 4 ) attached to the magnet ( 14 ) or the base plate ( 32 ) of the stator ( 3 ) is attached. Pressure-increasing structure according to claim 1, characterized in that the structure of the first pressure-increasing zone ( 4 ) a first page ( 41 ), a second page ( 42 ) and an angle ( 43 ), the first ( 41 ) and second page ( 42 ) the angle ( 43 ) having a leading edge ( 44 ), and where the angle ( 43 ) opposite ends of the first and second side ( 41 . 42 ) on a third page ( 45 ), which are a rear surface ( 45a ). Pressure-increasing structure according to claim 1, characterized in that the structure of the pressure-increasing zone ( 4 ) an angle ( 43 ), a first leg ( 46 ) and a second leg ( 47 ), wherein the first and second legs ( 46 . 47 ) the angle ( 43 ) having a leading edge ( 48 ), wherein between the first and second legs ( 46 . 47 ) A gap ( 49 ) is available. Pressure-increasing structure according to claim 1, characterized in that the magnet ( 14 ) at least one first page ( 141 ), on which the first pressure-increasing zone ( 4 ) is arranged. Pressure-increasing structure according to claim 1, characterized in that the wheel hub ( 11 ) an open page ( 111 ) and a closed page ( 112 ), wherein on the closed side a collar ( 1121 ) is provided, in which a wheel axle ( 13 ) is attached. Pressure-increasing structure according to claim 1, characterized in that the base plate ( 32 ) has at least one second side on which the first pressure increase zone ( 4 ) is arranged. Pressure-increasing structure according to claim 1, characterized in that a second pressure-increasing zone ( 5 ) on the magnet ( 14 ) or the base plate ( 32 ) of the stator ( 3 ) is attached.