DE202010006688U1 - Spiral heat exchanger - Google Patents

Abstract

Spiral heat exchanger comprising
a first cover (3) having at least a first inlet opening (31) and at least one first outlet opening (32), wherein the first inlet opening (31) in the middle of the first lid (3) and the first outlet opening (32) on Edge of the first lid (3) is located,
a second cover (4) which is connected to the first cover (3), forms with the latter a receiving space (34) and has at least one second inlet opening (41) and at least one second outlet opening (42), wherein the second inlet opening ( 41) in the middle of the second lid (4) and the second outlet opening (42) is located at the edge of the second lid (4),
a spiral channel set (5) disposed in the receiving space (34) and containing a first spiral channel (51) and a second spiral channel (52), wherein the first spiral channel (51) from the first inlet opening (31) radially to the first outlet opening (32) and the second spiral channel (52) from the second ...

Description

Technical area

The The invention relates to a spiral heat exchanger having spiral channels, the the heat exchange channel extended and by the centrifugal force when turning generates an air flow, whereby a cooling module from a fan and cooling fins is not required, so that a noise of the fan and a Soiling of the cooling fins is avoided.

State of the art

With The development of electronic data technology finds the electronic Products (such as computer, notebook, communication box, home appliance, industrial plant etc.) an ever wider application. The electronic components of electronic products can a heat during operation produce. When this heat not removed in time is, the temperature of the electronic components increases, so that the electronic components are impaired or damaged. Around to solve this problem, become a cooler and a heat exchanger used.

Of the heat exchangers can the heat from to transport one room to another. The heat transport takes place in three ways: heat conduction, Convection and heat radiation. In the heat exchanger become common simultaneously the three heat transport modes used. Depending on requirements, only one of the three heat transport modes chosen become. In the heat exchanger the industry are cooling fins and heat pipes provided, wherein the heat pipes the heat the hot cooling fins to the cold fins can transport.

The heat exchanger usually uses a working fluid, such as water and air, to carry away the heat. When the air is used, the heat exchanger forms an air-cooled heat exchanger. 1 shows a conventional heat exchanger 1 that has an entrance opening 11 and an exit opening 12 having. In the heat exchanger 1 are a variety of partitions 13 provided the channels 14 form. A fluid (such as coolant, water and air) passes through the inlet 11 A, flows through the channels 14 through and through the outlet 12 from, whereby a heat exchange effect can be achieved.

The fluid is indeed in the channels 14 of the heat exchanger 1 but can not spread evenly through the channels 14 flow. In addition, the heat exchange surface of the straight channels 14 limited, so that the heat exchange effect is low. Another air-cooled heat exchanger uses a cooling module consisting of a fan and cooling fins. The cooling fins increase the cooling area. The air flow of the fan dissipates the heat of the cooling fins. However, this cooling module has problems with the noise of the fan and the fouling of the cooling fins.

• 1. begrenzte Länge des Wärmeaustauschkanals,
• 2. ungleichmäßige Verteilung,
• 3. schlechte Wärmeaustauschwirkung,
• 4. schlechte Kühlwirkung,
• 5. Geräusch des Ventilators,
• 6. Beschmutzung der Kühlrippen.

Therefore, the conventional solution has the following disadvantages:

• 1. limited length of the heat exchange channel,
• 2. uneven distribution,
• 3. poor heat exchange effect,
• 4. bad cooling effect,
• 5. noise of the fan,
• 6. Soiling of the cooling fins.

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 is based on the object, a spiral heat exchanger to create the spiral channels having the heat exchange channel extended and by the centrifugal force when turning generates an air flow, whereby a cooling module from a fan and cooling fins is not required, so that a noise of the fan and a Soiling of the cooling fins is avoided.

Of the Invention is based on a further object, a spiral heat exchangers in which spiral channels surface ribs, dimples, pins, Spiral lines, or curved discs may be provided to the heat transport to reinforce.

Of the Invention is based on yet another object, a spiral heat exchangers to create, through the spiral channels a cold flow and a hot flow can flow through.

Of the Invention is based on yet another object, a spiral heat exchangers to create, for the spiral channels a first and second turbulence unit are provided for the heat exchange effect to increase.

Of the Invention is based on yet another object, a spiral heat exchangers to create by the first and second turbulence unit the from the holding current and the hot current entrained Can separate dust.

These Tasks are performed by the spiral heat exchanger according to the invention solved, which includes: a first lid, the at least one first inlet opening, at least one first outlet opening and at least one first turbulence unit, wherein the first entrance opening in the middle of the first lid and the first outlet on the Edge of the first lid is located; a second lid that with is connected to the first lid, forms with this a receiving space and at least one second inlet opening, at least one second outlet opening and at least one second turbulence unit, wherein the second entrance opening in the middle of the second lid and the second outlet on the Edge of the second lid is located; a spiral channel set in the Receiving space is arranged and a first spiral channel and a contains second spiral channel, wherein the first spiral channel from the first inlet opening radially until the first outlet and the second spiral channel from the second inlet opening radially until the second outlet extends; and a drive having a spindle at the end is connected to a connector connected to the first or second Cover is connected and rotate the first and second lid can. This causes a first and second air flow in the first and second spiral channel passing through the first and second turbulence units can generate an eddy current, causing the heat exchange effect significantly increased becomes.

Brief description of the drawings

1 a representation of the conventional solution,

2 an exploded view of a preferred embodiment of the invention,

3 a further exploded view of the preferred embodiment of the invention,

4 a perspective view of the preferred embodiment of the invention,

5 a sectional view of the preferred embodiment of the invention,

6A a representation of the first air flow of the preferred embodiment of the invention,

6B a representation of the second air flow of the preferred embodiment of the invention,

7 an exploded view of another preferred embodiment of the invention,

8th a sectional view of the further preferred embodiment of the invention,

9 a representation of the air flow of the further preferred embodiment of the invention,

10 a sectional view of the connection of the further preferred embodiment of the invention.

Ways to execute the invention

Further Details, features and advantages of the invention will become apparent the following detailed description in conjunction with the adjacent drawings.

The 2 . 3 . 4 and 5 show a preferred embodiment of the spiral heat exchanger according to the invention 2 who has a first lid 3 , a second lid 4 , a spiral channel set 5 and a drive 6 includes. The first lid 3 has at least one first inlet opening 31 , at least one first outlet opening 32 and a first inner surface 33 on. The first entrance opening 31 is in the middle of the first lid 3 , The first outlet 32 is located on the edge of the first lid 3 , The second lid 4 is with the first lid 3 connected and forms with this a recording room 34 , The second lid 4 has at least one second inlet opening 41 , at least one second outlet opening 42 and a second inner surface 43 on. The second entrance opening 41 is in the middle of the second lid 4 , The second outlet 42 is located on the edge of the second lid 4 , The first inner surface 33 of the first lid 3 is the second lid 4 facing. The second inner surface 43 the second lid 4 is the first cover 3 facing.

The spiral channel set 5 is in the recording room 34 arranged and can with the first and second lids 3 . 4 be formed separately or in one piece. In the present embodiment, the spiral channel set 5 with the first and second lids 3 . 4 separately formed. The spiral channel set 5 contains a first spiral channel 51 and a second spiral channel 52 , The first spiral channel 51 extends from the first entrance opening 31 radially to the first outlet opening 32 , The second spiral channel 52 extends from the second inlet opening 41 radially to the second outlet opening 42 , The drive 6 has a spindle 61 on top of that with a connector 62 connected to the first or second lid 3 . 4 connected is. The connector 62 has at least one through hole 621 that with the first or second inlet opening 31 . 41 connected (ever after connecting the connector 62 with the first or second lid 3 . 4 ).

Like from the 2 . 6A and 6B it can be seen is the drive 6 in the present embodiment via the connector 62 with the first lid 3 connected. The through holes 621 of the connector 62 are with the first entrance opening 31 connected. If the drive 6 over the spindle 61 and the connector 62 the first and second lids 3 . 4 can drive a first air flow 71 because of the centrifugal force through the through holes 621 of the connector 62 and the first entrance opening 31 of the first lid 3 in the first spiral channel 51 and a second airflow 72 through the second inlet opening 41 the second lid 4 in the second spiral channel 52 enter. The first airflow 71 and the second airflow are a cold flow and a hot flow.

During operation of the drive 6 occur the first and second airflow 71 . 72 due to the centrifugal force continuously in the first and second spiral channel 51 . 52 and flow from the center along the first and second spiral channels 51 . 52 outward. In this case, a heat exchange between the first and second air flow 71 . 72 and the walls of the first and second spiral channels 51 . 52 carried out. After that, the first and second air flows 71 . 72 through the first outlet 32 of the first lid 3 and the second exit opening 42 the second lid 4 out. Through the first and second spiral channels 51 . 52 The heat exchange channel can be extended and the heat exchange area increased, so that the heat exchange effect is increased.

The 7 . 8th . 9 and 10 show a second preferred embodiment of the invention, which differs from the first preferred embodiment only in that the first inner surface 33 of the first lid 3 the second lid 4 and the spiral channel set 5 facing and corresponding to the first spiral channel 51 and the second spiral channel 52 a plurality of first turbulence units 331 having. The second inner surface 43 the second lid 4 the first lid 3 and the spiral channel set 5 facing and facing the first spiral channel 51 and the second spiral channel 52 a plurality of second turbulence units 431 on. The first and second airflow 71 . 72 come through the first and second entrance opening 31 . 41 in the first and second spiral channel 51 . 52 and flow from the center along the first and second spiral channels 51 . 52 to the first and second exit openings 32 . 42 , The first and second air streams generate this 71 . 72 through the first and second turbulence units 331 . 431 an eddy current in the opposite direction, thereby mixing the first and second air streams 71 . 72 is amplified, so that the heat exchange effect of the first and second air flow 71 . 72 through the first and second spiral channels 51 . 52 is increased. At the same time that of the first and second air flow 71 . 72 entrained dust in the first and second spiral channel 51 . 52 through the first and second turbulence units 331 . 431 disconnected. How out 10 it can be seen, the first and second covers 3 . 4 opposite mounting holes 35 . 44 on, making the first and second lids 3 . 4 by means of the fastening elements 8th can be connected to each other so that the first lid 3 , the second cover 4 and the spiral channel set 5 during operation of the heat exchanger ( 2 ) are reliably connected to each other.

• 1. längerer Wärmeaustauschkanal und größere Wärmeaustauschfläche,
• 2. gleichmäßiger Luftverteilung,
• 3. Erzeugung von Wirbelstrom,
• 4. Abtrennung von Staub,
• 5. ohne Geräusch des Ventilators,
• 6. ohne Beschmutzung der Kühlrippen,
• 7. Selbstreinigungswirkung durch das Wirbelstromfeld.

Therefore, the invention has the following advantages:

• 1. longer heat exchange channel and larger heat exchange surface,
• 2. uniform air distribution,
• 3. generation of eddy current,
• 4. separation of dust,
• 5. without noise of the fan,
• 6. without fouling of the cooling fins,
• 7. Self-cleaning effect by the eddy current field.

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 (13)

Spiral heat exchanger, comprising a first lid ( 3 ), which has at least one first entrance opening ( 31 ) and at least one first outlet opening ( 32 ), wherein the first inlet opening ( 31 ) in the middle of the first lid ( 3 ) and the first exit opening ( 32 ) at the edge of the first lid ( 3 ), a second lid ( 4 ), with the first lid ( 3 ), with this one receiving space ( 34 ) and at least one second inlet opening ( 41 ) and at least one second outlet opening ( 42 ), wherein the second inlet opening ( 41 ) in the middle of the second lid ( 4 ) and the second exit opening ( 42 ) on the edge of the second lid ( 4 ), a spiral channel set ( 5 ), in the recording room ( 34 ) and a first spiral channel ( 51 ) and a second spiral channel ( 52 ), wherein the first spiral channel ( 51 ) from the first entrance opening ( 31 ) radially to the first outlet opening ( 32 ) and the second spiral channel ( 52 ) from the second inlet ( 41 ) radially to the second outlet opening ( 42 ), and a drive ( 6 ), which is a spindle ( 61 ), which at the end with a connector ( 62 ) connected to the first or second lid ( 3 . 4 ) and the first and second covers ( 3 . 4 ) can rotate. Spiral heat exchanger according to claim 1, characterized in that the first lid ( 3 ) a first inner surface ( 33 ), the second cover ( 4 ) is facing. Spiral heat exchanger according to claim 2, characterized in that the first inner surface ( 33 ) corresponding to the first spiral channel ( 51 ) and the second spiral channel ( 52 ) a plurality of first turbulence units ( 331 ) having. Spiral heat exchanger according to claim 1 or 3, characterized in that the second lid ( 4 ) a second inner surface ( 43 ), which corresponds to the first lid ( 3 ) is facing. Spiral heat exchanger according to claim 4, characterized in that the second inner surface ( 43 ) corresponding to the first spiral channel ( 51 ) and the second spiral channel ( 52 ) a plurality of second turbulence units ( 431 ) having. Spiral heat exchanger according to claim 1, characterized in that the connector ( 62 ) at least one through hole ( 621 ), which communicates with the first or second inlet opening ( 31 . 41 ) connected is. Spiral heat exchanger according to claim 1, characterized in that the first lid ( 3 ) with the spiral channel set ( 5 ) is formed in one piece. Spiral heat exchanger according to claim 1, characterized in that the second lid ( 4 ) with the spiral channel set ( 5 ) is formed in one piece. Spiral heat exchanger according to claim 1, characterized in that the first and second covers ( 3 . 4 ) opposite mounting holes ( 35 . 44 ) exhibit. Spiral heat exchanger according to claim 9, characterized in that by the opposite mounting holes ( 35 . 44 ) a fastener ( 8th ), whereby the first and second covers ( 3 . 4 ) are interconnected. Spiral heat exchanger according to claim 5, characterized in that a first air flow ( 71 ) through the first spiral channel ( 51 ) and a second air stream ( 72 ) through the second spiral channel ( 52 ) flows through. Spiral heat exchanger according to claim 11, characterized in that the first air flow ( 71 ) a cold stream or a hot stream and the second air stream ( 72 ) is a hot stream or a cold stream. Spiral heat exchanger according to claim 5, characterized in that in the first and second spiral channel ( 51 . 52 ) Surface ribs, dimples, pins, spiral lines, or curved discs are provided to enhance the heat transfer.