DE102006012718A1 - Passive heat-dissipating fan system and electronic system equipped with it - Google Patents

Abstract

The invention relates to a passive heat dissipating fan system, which comprises an air supply device, a cold end passive heat dissipating group, a warm end passive heat dissipating group, a separating device that can lead an air flow to the cold end side and the warm end passive heat dissipating group, as well as a cooling device which is located in the Separating device is provided and has a cold and a warm end. When the air flow from the air supply device flows through the separating device and the cooling device, the air flow from the air supply device is split and then partly directed to the cold end-side passive heat dissipating group and partly to the warm-end side passive heat dissipating group, so that the heated air flow to the outside of an electronic system is expelled. Because the temperature of the airflow flowing through the cold-end passive heat dissipating group is higher than the temperature of the dew point of the air, the airflow flowing through the cold-end passive heat dissipating group can absorb the heat generated by an electronic element without generating dew Discharge moisture.

Description

background the invention

The The invention relates to a passive heat-dissipating fan system, and more particularly a passive heat-dissipating Fan system the one cooling device having a cold end and a warm end and using a separator, an air flow to the cold end and the warm end of the cooling device to judge to heat from a heat source to dissipate and waste heat in an electronic system.

As a general rule includes a fan an impeller and one with the impeller connected engine. The engine is powered by an electrical power system operated to the impeller to turn to a flow of air to generate and heat from a heat source dissipate. The number of fans depends on the position of the heat sources in an electronic system from. If there are several heat sources are located in different places in an electronic system More motors are needed and therefore higher electrical power.

In the 1 For example, an electronic system includes an electronic element 2 (For example, a processor), a cooling device 3 (For example, a thermoelectric cooler or a thermo-acoustic cooler), which on the electronic component 2 is provided, as well as a rib structure 33 on the cooling device 3 is provided. The cooling device 3 has two ends 31 and 32 on which the electronic component 2 or the rib structure 33 touch. If the cooling device 3 operated by an electric power supply system (not shown) becomes the end 31 the cooling device 3 to a cold end, the heat from the heated electronic element 2 absorbs and heat to the end 32 the cooling device 3 forward, and will be the end 32 the cooling device 3 to a warm end, the heat to the rib structure 33 forwards. When heat from the rib structure 33 is dissipated, is still waste heat in the electronic system 1 which increases the working temperature and likely to failure or malfunction of the electronic element 2 or from other elements in the electronic system 1 leads. On the other hand, when their temperature drops to the dew point or below, water droplets start on the cold end 31 the cooling device 3 to condense; thus, the electronic element 2 and the other elements are damaged.

Around to solve the problem described above, according to the present Invention a passive heat dissipating fan system provided to heat rapidly from electronic components of the electronic system to dissipate and waste heat to the outside environment push out.

Summary the invention

According to the invention is a passive heat dissipating fan system for discharging from heat of provided electronic components to the outside environment. The passive heat dissipating fan system comprises an air supply device, a Cold-warm separation assembly connected to the air supply device is connected, at least one warm end passive heat dissipating assembly, those with the cold-warm separation assembly and at least one cold-end passive heat dissipating group, which is connected to the cold-warm separation assembly. When the airflow from the air supply device through the cold-warm separation assembly flows, the air flow is separated by the air supply device and partially directed to the cold end passive heat dissipating group and partially directed to the warm end passive heat dissipating group.

The air delivery device includes an active fan and an air supply tube connected to the active fan. The cold-warm separation assembly includes a separator having a separator provided therein and a cooler having a cold end and a warm end. The cooling device is connected to the separating element and the cold end and the warm end are provided on a respective side of the separating element. A hot-side chamber and a cold-side chamber are defined by the separator and the cooling device in the separator, the warm end of the cooler being provided in the hot-end chamber and the cold end of the cooler being provided in the cold-side chamber. The warm end passive heat dissipating group is connected to the hot side chamber and the cold end passive heat rejecting group is connected to the cold side chamber. The warm-end passive heat-dissipating assembly includes a warm-side tube and a warm-side passive fan, and the warm-end tube has two ends connected to the warm-side and hot-side passive fans, respectively. The cold end passive heat dissipating group comprises a cold end pipe and a cold end passive fan. The cold-end tube has two ends which are connected to the cold-side chamber and the cold-end passive fan.

The from the cooling device dissipated Heat is carried away by the air flow, which is to the warm end efferent Group moves, and is through the hot-end pipe to the outside environment of the electronic system. The air flow with the high temperature can also the warm end passive fan rotate; In this way, the airflow circulation in the electronic System to be improved.

Of the Airflow passing through the cold end chamber has a lower Temperature and moves to the cold end heat dissipating group, for heat from a heat source dissipate.

description the drawings

The Invention can be more complete by reading the following detailed description and the embodiments with reference to the attached Drawings are understood, in which:

1 is a schematic representation of an electronic system, which is provided with a conventional heat dissipating device;

2 Figure 3 is a schematic representation of an electronic system equipped with a passive heat dissipating fan system according to the invention;

3 Fig. 3 is a partially enlarged perspective view of the passive heat dissipating fan system according to the present invention;

4 a side view according to the 3 is.

Full description

In the 2 includes an electronic system 1 according to the invention, a housing 100 and a passive heat-dissipating fan system 4 that in the case 100 is arranged, at least one electronic element 2 ' that in the case 100 is arranged, and at least one rib structure 21 pointing to a surface of the electronic element 2 ' is arranged. The passive heat dissipating fan system 4 comprises an air supply device or air flow supply device 41 on one side of the case 100 is provided, a separator 42 (indicated by a dashed circle) connected to the air supply device 41 is connected, at least one cold-end passive heat dissipating group 43 with one side of the separator 42 is connected, at least one warm-side passive heat dissipating group 44 with one side of the separator 42 is connected, a cooling device 45 in the separator 42 is provided (in the 4 shown). In this embodiment, two cold end passive heat dissipating groups 42 and a warm-end passive heat dissipating group 44 disclosed.

The air supply device 41 includes an active fan 411 and an air supply pipe 412 that with the active fan 411 connected is. The active fan 411 For example, an axial fan or a centrifugal fan, can be driven by an electrical power supply to the rotary motion. A high pressure or overpressure airflow through the active fan 411 is generated via the air supply pipe 412 to the cooling device 45 forwarded in the separator 42 is provided.

In the 3 and 4 includes the separator 42 a partition provided therein 421 , The cooling device 45 has a cold end 450c and a warm end 450h on, each on one side of the separator 421 are provided. In this embodiment, the cooling device 45 a heat dissipation device, such as a thermoelectric cooler or a thermo-acoustic cooler, which uses the cold-warm separation technique to dissipate heat. A warm end rib structure 451 and a cold end rib structure 452 are on the surface of the warm end 450h or the cold end 450c the cooling device 45 intended. By connection of the cooling device 45 with the separator 421 are the cold end 450c and the warm end 450h on a respective side of the separating element 421 arranged; thus, a hot-side chamber 422 and a cold side chamber 423 through the separating element 421 and the cooling device 45 in the separator 42 be determined.

In the 2 includes the cold end passive heat dissipating group 43 a cold end pipe 431 and a cold-end passive fan 432 , The cold end pipe 431 has two ends, which with the cold side chamber 423 or the cold end passive fan 432 are connected. The cold-end passive fan 432 can be an axial fan without a motor or a centrifugal fan without a motor running on the ribbed structure 21 is arranged. Alternatively, the cold-end passive fan 432 the electronic element 2 ' blow directly.

The warm-end passive heat-dissipating group 44 includes a hot end pipe 441 and a warm-side passive fan 442 , The warm end pipe 441 has two ends, which with the warmendseitigen chamber 422 or the warm end passive fan 442 are connected. The warm end passive fan 442 can be an axial fan without a motor or a centrifugal fan without a motor mounted on a side surface of the housing 100 is provided to the waste heat from the hot-side chamber 422 to eject to the outside.

If the air supply device 41 is operated, air is in the interior of the housing 100 from the air supply device 41 sucked and put under pressure. The pressurized air becomes the cooling device 45 forwarded in the separator 42 is arranged, with the help of the air supply pipe 412 , Because the warm-sided chamber 422 and the cold side chamber 423 in the separator 42 are determined by the separator 421 and the cooling device 45 are formed, the air under an overpressure is divided substantially into two parts: a part passes through the warm end rib structure 451 on the warm end 450h is provided, and enters the warm-side chamber 422 one and the other part flows through the cold-end rib structure 452 that on the cold end 450c the cooling device 45 is provided, and enters the cold side chamber 423 one. The pressurized air passing through the hot end-side chamber 422 passes, has a higher temperature and is from the hot-end pipe 441 forwarded to the hot-side passive fan 442 drive. The under-pressure air passing through the cold-end chamber 423 flows, has a lower temperature and is from the cold end pipe 431 forwarded to the cold end passive fan 432 drive.

The waste heat from the cooling device 45 is due to the air flow passing through the warm end rib structure 451 flows, carries away and from the warm end passive fan 442 to the outside of the electronic system 1 pushed out. In addition, the high-temperature airflow can also be the warm-side passive fan 442 rotate and in this way can the airflow circulation in the housing 100 be improved. The low temperature air flow through the cold end rib structure 452 flows, flows through the cold end passive fan 432 to the rib structure 21 that on the electronic element 2 ' is provided; In this way heat can be transferred from the electronic element 2 ' be removed quickly. Because the low temperature air flow caused by the heat dissipating rib structure 21 flows, is higher than the cold end 450c the cooling device 45 , an effect such as the accumulation of dew or moisture can be prevented.

Although the invention described with reference to a preferred embodiment It should be noted that the invention is not intended limited but rather numerous modifications and equivalent Arrangements should include, which of the general solution thought and the scope of protection of the attached claims are included.

Claims (20)

Passive heat dissipating Fan system, with: one Air supply device or air flow supply device; one Cold-warm separation assembly connected to the air supply device connected is; at least one warm end passive heat dissipating Group connected to the cold-warm separation assembly; and at least a cold end passive heat dissipating Group, which is connected to the cold-warm separation assembly, wherein then, if an airflow from the air supply device flows through the cold-warm separation module, split the air flow and to the cold end passive heat dissipating group and the warm side, respectively passive heat-dissipating Group is addressed. Passive heat dissipating Fan system after Claim 1, wherein the air supply means an active Fan and one with the active fan connected air supply pipe and wherein the active fan a Axial or centrifugal fan includes. A passive heat-dissipating fan system according to claim 1 or 2, wherein the cold-warm separation assembly comprises a separator having a separator provided therein, and a cooler having a cold end and a warm end, the cooler being connected to the separator and the cold end and the warm end are provided on a respective side of the partition member, and wherein a hot-side chamber and a cold-side chamber are defined by the partition member and the cooling means in the partition means, the warm end of the cooling means being provided in the hot-side chamber and cold end of the cooling device is provided in the cold side chamber. Passive heat dissipating Fan system after one of the preceding claims, in which the cooling device a thermoelectric cooler or a thermoacoustic cooler includes. Passive heat dissipating Fan system after one of the preceding claims, in which the warm-end passive heat-dissipating group with the warm-side Chamber is connected and the cold end passive heat dissipating group connected to the cold side chamber, Passive heat dissipating Fan system after one of the preceding claims, in which the warm-end passive heat-dissipating group is a warm-sided Tube and a warm-side passive fan includes and in which the warm end pipe has two ends, which with the warmendseitigen Chamber and the hot-side passive fan are connected. Passive heat dissipating Fan system after Claim 6, wherein the hot-side passive fan an axial fan without Motor or a centrifugal fan without motor included. Passive heat dissipating Fan system after one of the preceding claims, in which the cold end passive heat dissipating group is a cold end Pipe and a cold-side passive fan, wherein the cold end pipe having two ends, with the cold side chamber or the cold-end passive fan connected are. Passive heat dissipating Fan system after Claim 8, wherein the cold-end passive fan an axial fan without Motor or a centrifugal fan without motor included. Passive heat dissipating Fan system after one of the preceding claims, further comprising a warm-end rib structure which a surface the warm end of the fan device is provided. Passive heat dissipating Fan system after one of the preceding claims, Furthermore, comprising a cold end fan structure, which on a surface the cold end of the cooler is provided. Electronic system with a passive heat dissipating Fan system With: a housing; one Air supply device or air flow delivery device, in the case is provided; a cold-warm separation assembly, with the Air supply device is connected; at least one warm-side passive heat-dissipating Group connected to the cold-warm separation assembly; and at least a cold end passive heat dissipating Group connected to the cold-warm separation assembly; and at least an electronic element, that of the cold end passive heat dissipating Group corresponds or is assigned to this, in which case, if a Air flow from the air supply device through the cold-warm separation assembly flows, the Air flow is split and then partially to the cold end passive heat-dissipating Group is directed and partly to the warm-side passive heat dissipating Group is addressed. The electronic system of claim 12, wherein the warm-end passive heat-dissipating group a hot-end tube and a warm-side passive fan and in which the hot-end pipe has two ends, which with the warm end-side chamber or the hot-side passive fan connected are; and wherein the cold end passive heat dissipating group is a cold end Pipe and a cold-end passive fan includes, the cold end Pipe has two ends, with the cold-side chamber or the cold end passive fan are connected. An electronic system according to claim 13, wherein the warm end passive fan an axial fan without motor or centrifugal fan without motor included and in which the cold-end passive fan without an axial fan Motor or a centrifugal fan without motor included. An electronic system according to claim 12, wherein the air supply device an active fan and one with the active fan connected air supply pipe and wherein the active fan a Axial or centrifugal fan. An electronic system according to any one of claims 12 to 15, wherein the cold-warm separation assembly comprises a separator having a separator provided therein, and a cooler having a cold end and a warm end, the cooler connected to the separator is and the cold and the warm end is provided on a respective side of the partition member and wherein a hot-side chamber and a cold-side chamber of the partition member and the cooling device in the Separating device are set, wherein the warm end of the cooling device is provided in the hot-side chamber and the cold end of the cooling device is provided in the cold side chamber. An electronic system according to claim 16, wherein the cooling device a thermoelectric cooler or a thermo-acoustic cooler. An electronic system according to claim 16, wherein the warm-end passive heat-dissipating group connected to the hot-side chamber and the cold end passive heat-dissipating group is connected to the cold side chamber. The electronic system of claim 16, further comprising a warm - end rib structure resting on a surface of the warm end of the cooler device is provided, as well as a cold end rib structure on a surface of the cold end of the cooler is provided. Electronic system according to one of claims 12 to 19, further comprising a rib structure disposed on a surface of electronic element is provided.