DE202009015336U1 - heat pipe - Google Patents

Abstract

Heat pipe, comprising
a main body (11) having an inner space (111) having an inner wall (112), and
a convection device (12) comprising a rotary unit (121) and a drive unit (122) disposed on the inside and outside of the main body (11).

Description

Technical area

The Invention relates to a heat pipe, which has a convection device, the inevitable convection generated, reducing the thermal conductivity of the heat pipe elevated becomes.

State of the art

heat pipe (Heat pipe) has a good thermal conductivity on and is made of lightweight metal tube. The heat pipe has a broad application such as aviation, space, heat exchangers, Cooler, Natural gas, geothermal energy etc. As the heat pipe the heat dissipate quickly It can also be used as a heat conductor (not as a heat sink) in the used electronic products.

The heat pipe has a closed interior, in which a working medium is filled, cyclically converted to the gas phase and the liquid phase is and between a heat receiving end and a heat release end flows. The working medium absorbed in the heat absorption end, the heat of Environment and is thereby evaporated. The steam flows through the pressure difference to the heat release end and is condensed there. The condensed working fluid flows through the capillary action in the heat receiving end back, whereby a cycle is formed.

Therefore flows the vaporized working fluid by the pressure difference to the heat emitting end and the condensed working medium through the capillary action the heat receiving end back.

in the Ideally, the gas phase and the liquid phase exist simultaneously in the heat pipe, which have no temperature difference. Ie. the temperature in the heat pipe is even, taking the heat absorption end and the heat-emitting end one have the same temperature. This achieves Vapor-X cooling.

There the working medium in the gas phase and the liquid phase only by the Capillary action and cycled the pressure difference, the heat conduction effect limited by the circulation of the working medium.

Out For this reason, in view of the disadvantages of the present inventor Solutions, based on longtime Experience in this area, after a long study, numerous experiments and unceasing improvements to the present invention.

Object of the invention

Of the Invention has for its object to provide a heat pipe, the the thermal conductivity increase can.

These Task is solved by the heat pipe according to the invention, the comprising: a main body and a convection device, wherein the main body a Interior having an inner wall, and wherein the convection device a rotary unit and a drive unit which on the inside and the outside of the main body are arranged. The rotating unit causes a forced convection in the heat pipe generated, whereby the thermal conductivity of the heat pipe elevated becomes.

• 1. zwangsläufige Konvektion;
• 2. höhere Wärmeleitwirkung.

Therefore, the invention has the following advantages:

• 1. inevitable convection;
• 2. higher thermal conductivity.

Brief description of the drawings

1 an exploded view of the invention,

2 a perspective view of the invention,

3 a sectional view of the rotary unit of another embodiment of the invention,

4 a representation of the operation of the invention,

5 a representation of the operation of a further embodiment of the invention,

6 a representation of the operation of yet another embodiment of the invention.

Ways to execute the invention

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

Like from the 1 and 2 it can be seen comprises the heat pipe according to the invention 1 a main body 11 and a convection device 12 ,

The main body 11 has an interior 111 on top of an inner wall 112 has, on which at least one capillary layer (not shown) is provided. The capillary layer is made by sintering Copper or aluminum particles formed. In the interior 111 is a working medium (not shown) filled, which is formed by water or a cooling liquid.

The convection device 12 has a turntable 121 and a drive unit 122 on, on the inside and outside of the interior 111 of the main body 11 are arranged.

The turntable 121 is in the interior 111 arranged and contains a ring 1211 and a blade set 1212 ,

The ring 1211 has an outside 1211a and an inside 1211b on. The outside 1211a lies on the inner wall 112 of the interior 111 at. The ring 1211 carries a variety of magnets 1211c , The blade set 1212 is in the ring 1211 arranged.

On the outside 1211a of the ring 1211 are a variety of first protrusions 1211d formed, extending from the outside 1211a of the ring 1211 extend to the outside. The first projections 1211d make up column 1211e in which the magnets 1211c are arranged.

On the outside 1211a of the ring 1211 are further a variety of second projections 1211f formed, extending from the outside 1211a of the ring 1211 extend to the outside. The second projections 1211f each have a recess 1211g in which a ball 1211h is absorbed, between the recess 1211g and the inner wall of the main body 11 can roll. As a result, the balls form 1211h and the recesses 1211g a warehouse. Because the balls 1211h with the inner wall of the main body 11 are in point contact, the friction of the rotary unit 1211 reduced, so that the turntable can rotate smoothly.

The drive unit 122 is around the main body 11 laid and contains a variety of poles 1211 for the turntable 121 , The poles are covered by a variety of silicon steel sheets 1222 and windings (not shown) formed around the silicon steel sheets. The poles 1221 point to the magnets 1211c the turntable 121 , After energizing the poles 1221 a magnetic field is generated, causing the turntable 121 is set in rotation.

When turning the turntable 121 generates the blade set 122 an air flow, whereby an inevitable convection is achieved, so that the thermal conductivity of the heat pipe 1 is increased.

3 shows a further embodiment of the invention, wherein the blade set 2 a moving blade set 21 , a fixed blade set 22 , a first wheel hub 23 , a first axle box 24 , a warehouse 25 and a wheel axle 26 includes.

The moving blade set 21 contains a variety of blades 27 , each one a first end 27a that with the first hub 23 connected, and a free end 27b have.

The warehouse 25 is on the inside of the first hub 23 arranged.

The fixed blade set 22 contains a variety of blades 28 , each a third end 28a that with the first axle box 24 connected, and a fourth end 28b that goes with the inside of the ring 1211 connected is.

The wheel axle 26 is through the warehouse 25 guided and rotatably with one end in the first Achsbüchse 24 attached.

Like from the 4 . 5 and 6 it can be seen has the heat pipe 1 continue a first work zone 3 , a second work zone 4 , an evaporation end 5 and a condensation end 6 on. The turntable 121 and the drive unit 122 can at the first zone 3 or the second zone 4 be arranged.

The first zone 3 contains a first part 31 and a second part 32 that are interconnected. The first part 31 is made of copper or aluminum and the second part 32 is made of high molecular weight material.

The second zone 4 contains a third part 41 and a fourth part 42 that are interconnected. The third part 41 is made of copper or aluminum and the fourth part 42 is made of high molecular weight material.

The second part 32 and the fourth part 42 serve to attach the turntable 121 and the drive unit 122 , which by the magnetic induction, the rotary unit 121 can set in rotation. The second part 32 and the fourth part 42 are located between the turntable 121 and the drive unit 122 and are made of high molecular weight material to influence the magnetic induction of the spin unit 121 and the drive unit 122 to avoid. The high molecular material may be Teflon.

In 4 are the turntable 121 and the drive unit 122 at the first work zone 3 appropriate. When the turntable 121 from the drive unit 122 is rotated, the blade set generates an inevitable convection in the evaporation end 5 , whereby the vapor evaporates The End 5 quickly into the condensation end 6 flows, so that the thermal conductivity of the heat pipe 1 is increased.

5 shows the operation of another embodiment of the invention, wherein the rotary unit 121 and the drive unit 122 at the second work zone 4 are attached. When the turntable 121 from the drive unit 122 is rotated, the blade set generates an inevitable convection in the evaporation end 5 , whereby the steam in the evaporation end 5 quickly into the condensation end 6 flows, so that the thermal conductivity of the heat pipe 1 is increased.

6 shows the operation of yet another embodiment of the invention, wherein the rotary unit 121 and the drive unit 122 at the first zone 3 and the second working zone 4 are attached. When the turntable 121 from the drive unit 122 is rotated, generates the turntable 121 an inevitable convection at the end of evaporation 5 , whereby the steam in the evaporation end 5 quickly into the condensation end 6 flows, so that the thermal conductivity of the heat pipe 1 is increased.

Therefore, by the additional convection device in conjunction with the capillary structure, the heat-conducting effect of the heat pipe 1 elevated.

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.

Claims (15)

Heat pipe comprising a main body ( 11 ), which has an interior ( 111 ) having an inner wall ( 112 ), and a convection device ( 12 ), which is a turntable ( 121 ) and a drive unit ( 122 ), which on the inside and the outside of the main body ( 11 ) are arranged. Heat pipe according to claim 1, characterized in that the rotary unit ( 121 ) in the interior ( 111 ) and a ring ( 1211 ) and a blade set ( 1212 ), the ring ( 1211 ) an outside ( 1211a ) and an inside ( 1211b ), wherein the outside ( 1211a ) on the inner wall ( 112 ) of the interior ( 111 ) and a plurality of magnets ( 1211c ), the blade set ( 1212 ) in the ring ( 1211 ), and wherein the drive unit ( 122 ) around the main body ( 11 ) and a multitude of poles ( 1211 ) for the turntable ( 121 ) contains. Wärmeleitrohr according to claim 2, characterized in that the poles by a plurality of silicon steel sheets ( 1222 ) and windings are formed around the silicon steel sheets. Heat pipe according to claim 2, characterized in that the blade set ( 1212 ) comprises a wheel hub and a plurality of blades, which at one end with the wheel hub and at the other end with the inside of the ring ( 1211 ) are connected. Heat pipe according to claim 1, characterized in that the blade set ( 2 ) a movable blade set ( 21 ), a fixed blade set ( 22 ), a first wheel hub ( 23 ), a first axle box ( 24 ), a warehouse ( 25 ) and a wheel axle ( 26 ), wherein the movable blade set ( 21 ) a plurality of blades ( 27 ), each having a first end ( 27a ), with the first hub ( 23 ), and a free end ( 27b ), whereby the bearing ( 25 ) on the inside of the first wheel hub ( 23 ), wherein the fixed blade set ( 22 ) a plurality of blades ( 28 ), each having a third end ( 28a ), with the first axle box ( 24 ) and a fourth end ( 28b ), with the inside of the ring ( 1211 ), and wherein the wheel axle ( 26 ) through the warehouse ( 25 ) and with one end rotatable in the first axle box ( 24 ) is attached. Heat pipe according to claim 1, characterized in that in the interior ( 111 ) a working medium is filled. Heat pipe according to claim 2, characterized in that on the outside ( 1211a ) of the ring ( 1211 ) a plurality of first protrusions ( 1211d ), the column ( 1211e ) in which the magnets ( 1211c ) are arranged. Heat pipe according to claim 2, characterized in that on the outside ( 1211a ) of the ring ( 1211 ) a plurality of second projections ( 1211f ) are formed, each having a recess ( 1211g ) in which a ball ( 1211h ) is recorded. Heat pipe according to claim 1, characterized by a first working zone ( 3 ) and a second working zone ( 4 ). Heat pipe according to claim 1, characterized by an evaporation end ( 5 ) and a condensation end ( 6 ). Heat pipe according to claim 9, characterized in that the first zone ( 3 ) a first part ( 31 ) and a second part ( 32 ) containing with connected to each other, the first part ( 31 ) of copper or aluminum and the second part ( 32 ) is made of high molecular weight material. Heat pipe according to claim 9, characterized in that the second zone ( 4 ) a third part ( 41 ) and a fourth part ( 42 ), which are interconnected, the third part ( 41 ) of copper or aluminum and the fourth part ( 42 ) is made of high molecular weight material. Heat pipe according to claim 11, characterized in that the rotary unit ( 121 ) and the drive unit ( 122 ) in the second part ( 32 ) are mounted. Wärmeleitrohr according to claim 12, characterized in that the rotary unit ( 121 ) and the drive unit ( 122 ) in the fourth part ( 42 ) are mounted. heat pipe according to claim 11, 12, 13 or 14, characterized in that the high molecular material is Teflon.