CN202068705U - Radiating device of refrigeration chip - Google Patents

Abstract

The utility model provides a radiating device of a refrigeration chip, which is applicable to a closed space and comprises a partition, the refrigeration chip, a first radiating fin, a second radiating fin, a first fan and a shell. The shell is provided with an air outlet and an air inlet. Heat energy in the closed space is dissipated from the closed space after passing the partition through the first radiating fin, the refrigeration chip and the second radiating fin. The first fan leads the air outside the confined space to enter the shell via the air inlet and then the air is exhausted after passing the first radiating fin.

Description

The heat abstractor of refrigerating chip

Technical field

The utility model relates to a kind of heat abstractor of refrigerating chip, relates in particular to a kind of heat abstractor with refrigerating chip.

Background technology

Normal simple fan or the air conditioner of adopting of the outdoor cabinet of present electronic equipment is as heat abstractor, and the used heat that is produced when the cabinet inner electronic equipment is operated is discharged cabinet, to keep temperature in chassis in the working temperature interval that electronic equipment is allowed.Along with scientific and technological progress, the better electronic equipment of usefulness also can produce more used heat simultaneously, and simple fan uses in many cases inadequately, and air conditioner then has power consumption to reach bulky shortcoming greatly.

The utility model content

For improving the shortcoming of aforementioned known heat abstractor, the utility model provides a kind of heat abstractor of refrigerating chip, is applied to a confined space, wherein, comprises:

One dividing plate is arranged at the border of this confined space;

One refrigerating chip passes this dividing plate setting, and this refrigerating chip comprises:

One hot side is positioned at outside this confined space; And

One huyashi-chuuka (cold chinese-style noodles) is positioned at this confined space;

One first fin is positioned at outside this confined space, and connects this hot side, and the outer air of this first fin and this confined space carries out heat exchange;

One second fin, be positioned at this confined space, and connect this huyashi-chuuka (cold chinese-style noodles), air in this second fin and this confined space carries out heat exchange, and by this refrigerating chip heat energy is passed to this hot side by this huyashi-chuuka (cold chinese-style noodles) and discharges this confined space, again by this first fin with the air of thermal energy transfer to this confined space;

One first fan is positioned at outside this confined space; And

One housing, be located at the surface of this dividing plate, be positioned at outside this confined space, ccontaining this refrigerating chip, this first heat radiation and this first fan in this housing, this housing comprises: a gas outlet and an air inlet, this first fan is guided the outer air of this confined space and is entered this housing via this air inlet, discharges this housing by this gas outlet behind this first fin of flowing through.

The heat abstractor of refrigerating chip described in the utility model wherein, also comprises: one second fan, be positioned at this confined space, and guide the interior cross-ventilation of this confined space and this second fin of flowing through.

The heat abstractor of refrigerating chip described in the utility model wherein, also comprises:

One second sensor is located in this confined space, the air themperature in this confined space of sensing; And

One control unit connects this second sensor and this first fan, and this control unit is obtained air themperature in this confined space from this second sensor, and according to the power output of this first fan of the air temperature modification in this confined space.

The heat abstractor of refrigerating chip described in the utility model wherein, also comprises:

One first sensor is located at outside this confined space, the air themperature that this confined space of sensing is outer;

One second sensor is located in this confined space, the air themperature in this confined space of sensing; And

One control unit, connect this first sensor, this second sensor and this first fan, this control unit is obtained air themperature outside this confined space from this first sensor, obtain air themperature in this confined space from this second sensor, and according in this confined space and the power output of outer this first fan of air temperature modification of this confined space.

The heat abstractor of refrigerating chip described in the utility model wherein, also comprises:

One second sensor is located in this confined space, the air themperature in this confined space of sensing; And

One control unit, connect this second sensor, this first fan and this second fan, this control unit is obtained air themperature in this confined space from this second sensor, and according to the power output of this first fan of the air temperature modification in this confined space and this second fan.

The heat abstractor of refrigerating chip described in the utility model wherein, also comprises:

One first sensor is located at outside this confined space, the air themperature that this confined space of sensing is outer;

One second sensor is located in this confined space, the air themperature in this confined space of sensing; And

One control unit, connect this first sensor, this second sensor, this first fan and this second fan, this control unit is obtained air themperature outside this confined space from this first sensor, obtain air themperature in this confined space from this second sensor, and according in this confined space and outer this first fan of air temperature modification of this confined space and the power output of this second fan.

In sum, the utility model advantage compared to existing technology is: the utility model is discharged confined space by refrigerating chip with heat energy, and not only simple fan has better radiating efficiency, the power consumption of heat abstractor and take up room also little than air conditioner.

Description of drawings

Fig. 1 is the utility model first embodiment schematic diagram;

Fig. 2 is the utility model first embodiment system diagram;

Fig. 3 is the utility model second embodiment system diagram;

Fig. 4 is the utility model the 3rd embodiment system diagram;

Fig. 5 is the utility model the 4th embodiment schematic diagram;

Fig. 6 is the utility model the 4th embodiment system diagram;

Fig. 7 is the utility model the 5th embodiment system diagram;

Fig. 8 is the utility model the 6th embodiment system diagram.

The main element symbol description

Housing 100

Gas outlet 110

Air inlet 120

First fan 210

Second fan 220

First fin 310

Second fin 320

Dividing plate 400

Confined space 410

Refrigerating chip 500

Hot side 510

Huyashi-chuuka (cold chinese-style noodles) 520

Electronic equipment 600

Control unit 700

First sensor 710

Second sensor 720

Embodiment

Consult Figure 1 and Figure 2, this is the utility model first embodiment, the heat abstractor of refrigerating chip of the present utility model is applied to the heat energy in the confined space 410 is expelled to outside the confined space 410, this confined space 410 preferably is an electronic equipment 600 cabinets, confined space 410 internal memories discharge subset 600 (the utility model does not limit the type of electronic equipment 600), electronic equipment 600 work and distribute heat energy, heat energy are expanded in the air to the confined space 410.

In present embodiment, the heat abstractor of refrigerating chip of the present utility model comprises: a housing 100, one first fan 210, one first fin 310, one second fin 320, a dividing plate 400 and a refrigerating chip 500.

Dividing plate 400 is arranged at the border of confined space 410, preferably is the part-structure (the utility model is not limited thereto) of an electronic equipment 600 casings.Refrigerating chip 500 passes dividing plate 400 and is provided with, and refrigerating chip 500 comprises: a hot side 510 and a huyashi-chuuka (cold chinese-style noodles) 520, and hot side 510 is positioned at outside the confined space 410; 520 of huyashi-chuuka (cold chinese-style noodles) are positioned at confined space 410, and in refrigerating chip 500, heat energy is passed to hot side 510 by huyashi-chuuka (cold chinese-style noodles) 520.First fin 310 is positioned at outside the confined space 410, and connection hot side 510, the first fin 310 are used for carrying out heat exchange with confined space 410 air outward.Second fin 320 is positioned at confined space 410, and connect huyashi-chuuka (cold chinese-style noodles) 520, the second fin 320 be used for confined space 410 in air carry out heat exchange.First fan 210 is positioned at outside the confined space 410.Housing 100 is located at the surface of dividing plate 400, is positioned at outside the confined space 410, and ccontaining refrigerating chip 500, first heat radiation and first fan 210 in the housing 100, housing 100 comprises: a gas outlet 110 and an air inlet 120.

Consult shown in Figure 2, electronic equipment 600 work and distribute heat energy (used heat), heat energy expands in the air to the confined space 410.Second fin 320 carries out heat exchange with air in the confined space 410, transfer of air to the second fin 320, the second fin 320 of used heat in confined space 410 is passed to used heat by heat conduction again refrigerating chip 500.And by refrigerating chip used heat is passed to hot side 510 by huyashi-chuuka (cold chinese-style noodles) 520 and discharges confined space 410, used heat is passed to first fin 310 by heat conduction by hot side 510 again.First fan, 210 guiding confined spaces, 410 outer air enter housing 100 via air inlet 120, discharge housing 100 by gas outlet 110 after flow through first fin 310 and 310 heat exchanges of first fin, and with the air of thermal energy transfer to confined space 410.

Consult Fig. 1 and shown in Figure 3, this is the utility model second embodiment, in present embodiment, the heat abstractor of refrigerating chip of the present utility model comprises: a housing 100, one first fan 210, one first fin 310, one second fin 320, a dividing plate 400, a refrigerating chip 500, a control unit 700 and one second sensor 720.

The structure of dividing plate 400, refrigerating chip 500, first fin 310, second fin 320, first fan 210 and housing 100, function and relative annexation repeat no more in this as first embodiment.

Second sensor 720 is located in the confined space 410, in order to the air themperature in the sensing confined space 410.Control unit 700 connects second sensor 720 and first fans 210, and control unit 700 is obtained air themperature confined space 410 in from first sensor 710, and according to the power output of interior air temperature modification first fan 210 of confined space 410.When the air themperature in the confined space 410 is higher than the working temperature tolerance interval of electronic equipment 600, control unit 700 increases the power output of first fan 210 to increase the exchange rate of first fin 310 and confined space 410 outer air, also further drive and increase system-wide exchange rate, and quicken used heat is discharged confined space 410, overheated to prevent electronic equipment 600.When the air themperature in the confined space 410 did not exceed the working temperature tolerance interval of electronic equipment 600, then control unit 700 reduced the power output of first fan 210 or shuts down first fan 210, to reach energy-conservation effect.

Consult Fig. 1 and shown in Figure 4, this is the utility model the 3rd embodiment, in present embodiment, the heat abstractor of refrigerating chip of the present utility model comprises: a housing 100, one first fan 210, one first fin 310, one second fin 320, a dividing plate 400, a refrigerating chip 500, a control unit 700, one first sensor 710 and one second sensor 720.

The structure of dividing plate 400, refrigerating chip 500, first fin 310, second fin 320, first fan 210 and housing 100, function and relative annexation repeat no more in this as first embodiment.

First sensor 710 is located at outside the confined space 410, in order to the air themperature outside the sensing confined space 410.Second sensor 720 is located in the confined space 410, in order to the air themperature in the sensing confined space 410.Control unit 700 connects first sensor 710, second sensor 720 and first fans 210, and control unit 700 is obtained air themperature outside the confined space 410 from first sensor 710, and obtains air themperature in the confined space 410 from second sensor 720.When the air themperature in the confined space 410 is higher than the working temperature tolerance interval of electronic equipment 600, control unit 700 increases the power output of first fan 210 to increase the exchange rate of first fin 310 and confined space 410 outer air, also further drive and increase system-wide exchange rate, and quicken used heat is discharged confined space 410, overheated to prevent electronic equipment 600.When the air themperature in the confined space 410 did not exceed the working temperature tolerance interval of electronic equipment 600, then control unit 700 reduced the power output of first fan 210 or shuts down first fan 210, to reach energy-conservation effect.And control unit 700 calculates the optimum output power of first fan 210 according to the inside and outside difference in air temperature of confined space 410, to reach best energy utilization rate.

Consult Fig. 5 and shown in Figure 6, this is the utility model the 4th embodiment, in present embodiment, the heat abstractor of refrigerating chip of the present utility model comprises: a housing 100, one first fan 210, one second fan 220, one first fin 310, one second fin 320, a dividing plate 400 and a refrigerating chip 500.

Dividing plate 400 is arranged at the border of confined space 410, preferably is the part-structure (the utility model is not limited thereto) of an electronic equipment 600 casings.Refrigerating chip 500 passes dividing plate 400 and is provided with, and refrigerating chip 500 comprises: a hot side 510 and a huyashi-chuuka (cold chinese-style noodles) 520, and hot side 510 is positioned at outside the confined space 410; 520 of huyashi-chuuka (cold chinese-style noodles) are positioned at confined space 410, and in refrigerating chip 500, heat energy is passed to hot side 510 by huyashi-chuuka (cold chinese-style noodles) 520.First fin 310 is positioned at outside the confined space 410, and connection hot side 510, the first fin 310 are used for carrying out heat exchange with confined space 410 air outward.Second fin 320 is positioned at confined space 410, and connect huyashi-chuuka (cold chinese-style noodles) 520, the second fin 320 be used for confined space 410 in air carry out heat exchange.First fan 210 is positioned at outside the confined space 410.Second fan 220 is positioned at confined space 410.Housing 100 is located at the surface of dividing plate 400, is positioned at outside the confined space 410, and ccontaining refrigerating chip 500, first heat radiation and first fan 210 in the housing 100, housing 100 comprises: a gas outlet 110 and an air inlet 120.

Consult shown in Figure 6, electronic equipment 600 work and distribute heat energy (used heat), heat energy expands in the air to the confined space 410.Second fan 220 guides confined spaces 410 interior cross-ventilations and second fin 320 of flowing through, air in second fin 320 and the confined space 410 carries out heat exchange, transfer of air to the second fin 320, the second fin 320 of used heat in confined space 410 are passed to used heat by heat conduction again refrigerating chip 500.And by refrigerating chip used heat is passed to hot side 510 by huyashi-chuuka (cold chinese-style noodles) 520 and discharges confined space 410, used heat is passed to first fin 310 by heat conduction by hot side 510 again.First fan, 210 guiding confined spaces, 410 outer air enter housing 100 via air inlet 120, discharge housing 100 by gas outlet 110 after flow through first fin 310 and 310 heat exchanges of first fin, and with the air of thermal energy transfer to confined space 410.

Consult Fig. 5 and shown in Figure 7, this is the utility model the 5th embodiment, in present embodiment, the heat abstractor of refrigerating chip of the present utility model comprises: a housing 100, one first fan 210, one second fan 220, one first fin 310, one second fin 320, a dividing plate 400, a refrigerating chip 500, a control unit 700 and one second sensor 720.

The structure of dividing plate 400, refrigerating chip 500, first fin 310, second fin 320, first fan 210, second fan 220 and housing 100, function are closed as the 4th embodiment with relative connection, repeat no more in this.

Second sensor 720 is located in the confined space 410, in order to the air themperature in the sensing confined space 410.Control unit 700 connects second sensor 720, first fan 210 and second fan 220, control unit 700 is obtained air themperature in the confined space 410 from first sensor 710, and according to air temperature modification first fan 210 in the confined space 410 and the power output of second fan 220.When the air themperature in the confined space 410 is higher than the working temperature tolerance interval of electronic equipment 600, control unit 700 increases the power output of first fan 210 and second fan 220 to increase the exchange rate of first fin 310 and confined space 410 outer air, also further drive and increase system-wide exchange rate, and quicken used heat is discharged confined space 410, overheated to prevent electronic equipment 600.When the air themperature in the confined space 410 does not exceed the working temperature tolerance interval of electronic equipment 600, then control unit 700 reduces the power output of first fan 210 and second fan 220, or shut down first fan 210 and second fan 220 both or one of them, to reach energy-conservation effect.

Consult Fig. 5 and shown in Figure 8, this is the utility model the 6th embodiment, in present embodiment, the heat abstractor of refrigerating chip of the present utility model comprises: a housing 100, one first fan 210, one second fan 220, one first fin 310, one second fin 320, a dividing plate 400, a refrigerating chip 500, a control unit 700, one first sensor 710 and one second sensor 720.

The structure of dividing plate 400, refrigerating chip 500, first fin 310, second fin 320, first fan 210, second fan 220 and housing 100, function are closed as first embodiment with relative connection, repeat no more in this.

First sensor 710 is located at outside the confined space 410, in order to the air themperature outside the sensing confined space 410.Second sensor 720 is located in the confined space 410, in order to the air themperature in the sensing confined space 410.Control unit 700 connects first sensor 710, second sensor 720, first fan 210 and second fan 220, control unit 700 is obtained air themperature outside the confined space 410 from first sensor 710, and obtains air themperature in the confined space 410 from second sensor 720.When the air themperature in the confined space 410 is higher than the working temperature tolerance interval of electronic equipment 600, control unit 700 increases the power output of first fan 210 and second fan 220 to increase the exchange rate of first fin 310 and confined space 410 outer air, also further drive and increase system-wide exchange rate, and quicken used heat is discharged confined space 410, overheated to prevent electronic equipment 600.When the air themperature in the confined space 410 does not exceed the working temperature tolerance interval of electronic equipment 600, then control unit 700 reduces the power output of first fan 210 and second fan 220, or shut down first fan 210 and second fan 220 both or one of them, to reach energy-conservation effect.And control unit 700 calculates the optimum output power of first fan 210 and second fan 220 according to the inside and outside difference in air temperature of confined space 410, to reach best energy utilization rate.

The beneficial effects of the utility model are: by refrigerating chip 500 heat energy is discharged confined space 410, not only simple fan has better radiating efficiency, the power consumption of heat abstractor and take up room also little than air conditioner, more efficient, more energy-conservation and more do not take up space compared to known technology.

The above only is a preferable possible embodiments of the present utility model, and is non-so limit to protection range of the present utility model, so the equivalence techniques that all utilization the utility model are done changes, all is contained in the protection range of the present utility model.

Claims (6)

1. the heat abstractor of a refrigerating chip is applied to a confined space, it is characterized in that, comprises:

One dividing plate is arranged at the border of this confined space;

One refrigerating chip passes this dividing plate setting, and this refrigerating chip comprises:

One hot side is positioned at outside this confined space; And

One huyashi-chuuka (cold chinese-style noodles) is positioned at this confined space;

One first fin is positioned at outside this confined space, and connects this hot side, and the outer air of this first fin and this confined space carries out heat exchange;

One second fin, be positioned at this confined space, and connect this huyashi-chuuka (cold chinese-style noodles), air in this second fin and this confined space carries out heat exchange, and by this refrigerating chip heat energy is passed to this hot side by this huyashi-chuuka (cold chinese-style noodles) and discharges this confined space, again by this first fin with the air of thermal energy transfer to this confined space;

One first fan is positioned at outside this confined space; And

One housing, be located at the surface of this dividing plate, be positioned at outside this confined space, ccontaining this refrigerating chip, this first heat radiation and this first fan in this housing, this housing comprises: a gas outlet and an air inlet, this first fan is guided the outer air of this confined space and is entered this housing via this air inlet, discharges this housing by this gas outlet behind this first fin of flowing through.

2. the heat abstractor of refrigerating chip as claimed in claim 1 is characterized in that, also comprises: one second fan, be positioned at this confined space, and guide the interior cross-ventilation of this confined space and this second fin of flowing through.

3. the heat abstractor of refrigerating chip as claimed in claim 1 is characterized in that, also comprises:

One second sensor is located in this confined space, the air themperature in this confined space of sensing; And

One control unit connects this second sensor and this first fan, and this control unit is obtained air themperature in this confined space from this second sensor, and according to the power output of this first fan of the air temperature modification in this confined space.

4. the heat abstractor of refrigerating chip as claimed in claim 1 is characterized in that, also comprises:

One first sensor is located at outside this confined space, the air themperature that this confined space of sensing is outer;

One second sensor is located in this confined space, the air themperature in this confined space of sensing; And

One control unit, connect this first sensor, this second sensor and this first fan, this control unit is obtained air themperature outside this confined space from this first sensor, obtain air themperature in this confined space from this second sensor, and according in this confined space and the power output of outer this first fan of air temperature modification of this confined space.

5. the heat abstractor of refrigerating chip as claimed in claim 2 is characterized in that, also comprises:

One second sensor is located in this confined space, the air themperature in this confined space of sensing; And

One control unit, connect this second sensor, this first fan and this second fan, this control unit is obtained air themperature in this confined space from this second sensor, and according to the power output of this first fan of the air temperature modification in this confined space and this second fan.

6. the heat abstractor of refrigerating chip as claimed in claim 2 is characterized in that, also comprises:

One first sensor is located at outside this confined space, the air themperature that this confined space of sensing is outer;

One second sensor is located in this confined space, the air themperature in this confined space of sensing; And

One control unit, connect this first sensor, this second sensor, this first fan and this second fan, this control unit is obtained air themperature outside this confined space from this first sensor, obtain air themperature in this confined space from this second sensor, and according in this confined space and outer this first fan of air temperature modification of this confined space and the power output of this second fan.

Images