CN107105595A - Low blast demand, low noise, dynamical radiator are reached using radiator arrangement - Google Patents

Abstract

The present invention relates to a kind of radiator, including base and multiple radiators.Base includes multiple setting areas, and multiple setting areas are parallel with first direction respectively, and multiple setting areas are arranged at each interval in a second direction.Multiple radiators are correspondingly arranged in multiple setting areas, and the first side region of each of which setting area sets the first side radiator group, and the second side region of each setting area sets the second side radiator group.Wherein, multiple radiators of the first side radiator group are arranged in parallel, and multiple radiators of the second side radiator group are arranged in parallel, and non-parallel between any one radiator of the first side radiator group and any one radiator of the second side radiator group.The radiator of the present invention can reduce noise, reach optimal heat dissipation that air-flow provided by radiator, increase the radiating efficiency of middle section and improve integral heat sink efficiency.

Description

Low blast demand, low noise, dynamical radiator are reached using radiator arrangement

Technical field

Dissipated the present invention relates to a kind of radiator, more particularly to a kind of can be passed through by the arrangement adjustment of radiator The radiator of the wind field distribution of hot device.

Background technology

With the development of science and technology, the efficiency of electronic installation is constantly lifted, in the unit interval inside electronic installation Used heat produced by component is also continuously increased, and the fortune of electronic installation can be influenceed in view of the height of operating temperature Make, therefore, how efficiently to remove the used heat that electronic installation is persistently produced, maintain the work of electronic installation Make temperature in preferable scope turn into important problem.

The radiating mode of prior art is the heating that the high radiator of thermal conductivity factor is attached to electronic installation On component, to be in close contact by radiator and heat generating component, form the relatively low heat of thermal resistance and pass path, and Increase the surface area of radiator and air contact using multiple radiating fins of radiator, improve radiating effect Rate.From finite element analysis, the heating efficiency of some heat generating component centres is higher, used heat accumulation It is more.However, arranged in parallel and uniform point of the radiating fin that existing radiator Chang Yin is arranged on Cloth, even if using active heat radiating device, such as fan, driving air-flow is active scattered to be carried out to radiator It is more average by the air-flow of each radiating fin when hot, it is impossible to strengthen radiating for radiator centre, Cause the temperature of heat generating component centre too high, the overall running operating efficiency of influence electronic building brick.

In view of this, a kind of radiator how is developed, to solve the defect of prior art, actually at present There is problem to be solved.

The content of the invention

It is an object of the invention to provide a kind of radiator, pass through different angles, the arrangement side of different density Formula configures radiator, allows multiple radiators to coordinate the airflow direction arrangement of fans drive, reduces multiple radiatings Windage produced by body, not only reduces the speed demand of fan, reaches the effect of reduction noise, more reachable The optimal heat dissipation that be can be provided to air-flow by radiator.

Another object of the present invention is to provide a kind of radiator, pass through different angles, the row of different density Row mode configures radiator, when air-flow is driven through radiator, to make air-flow toward the center of radiator In set of regions, increase radiator in the radiating efficiency of middle section, with solve the radiator of existing skill without Method strengthens the shortcoming of radiating for radiator centre, and reaches the advantage for improving overall radiating efficiency.

According to the conception of the present invention, a wider embodiment of the invention is wrapped to provide a kind of radiator Include base and multiple radiators.Base includes multiple setting areas, and multiple setting areas are respectively with first Direction is parallel, and multiple setting areas are arranged at each interval in a second direction, each setting area Including the first side region, the second side region and middle section, middle section is located at the first side region and the Between two side regions.Multiple radiators are correspondingly arranged in multiple setting areas, each of which setting area First side region in domain sets the first side radiator group, and the second side region to set the second side radiator Group.Wherein, multiple radiators of the first side radiator group are arranged in parallel, the second side radiator group it is many Individual radiator is arranged in parallel, and any one radiator of the first side radiator group and the second side radiator group Any one radiator between non-parallel.

The radiator of the tool collection wind function of the present invention is matched somebody with somebody by the arrangement mode of different angles, different density Radiator is put, allows multiple radiators to coordinate the airflow direction arrangement of fans drive, reduces multiple radiators Produced windage, not only reduces the speed demand of fan, reaches the effect of reduction noise, more reachable The optimal heat dissipation that be can be provided to air-flow by radiator.In addition, passing through different angles, difference The arrangement mode configuration radiator of density, when air-flow is driven through radiator, to make air-flow is past to dissipate The middle section of hot device is concentrated, and produces the effect of collection wind, and increase radiator is imitated in the radiating of middle section Rate, the shortcoming of radiating can not be strengthened to solve the radiator of existing skill for radiator centre, and Reach the advantage for improving overall radiating efficiency.

Brief description of the drawings

Fig. 1 is the structural representation of the radiator of first embodiment of the invention.

Fig. 2 is the top view of the radiator shown in first embodiment of the invention.

Fig. 3 is the schematic diagram of the radiator of second embodiment of the invention.

Fig. 4 is the schematic diagram of the radiator of third embodiment of the invention.

【Symbol description】

1：Radiator

10：Base

100：Setting area

100a：First setting area

100b：Second setting area

100c：3rd setting area

100d：4th setting area

100e：5th setting area

100f：6th setting area

100g：7th setting area

100h：8th side region

1002：Second side region

1003：Middle section

11：Radiator, radiating fin

111：First side radiator group

112：Second side radiator group

113：First upstream end thereof

114：First downstream end

115：Second upstream end thereof

116：Second downstream end

2：Active heat removal system

21：Upstream zone

22：Downstream section

D1：First direction

D2：Second direction

θ：Angle

θ1：First acute angle

θ2：Second acute angle

Embodiment

Embodying some exemplary embodiments of feature of present invention and advantage will in detail describe in the explanation of back segment. It should be understood that the present invention can have various changes in different modes, it does not all depart from the present invention Scope, and it is therein explanation and accompanying drawing be inherently to be illustrated as being used, and nand architecture in limitation this Invention.

Refer to Fig. 1 and coordinate Fig. 2, Fig. 1 is the structural representation of the radiator of first embodiment of the invention Figure；And the top view that Fig. 2 is the radiator shown in first embodiment of the invention.Radiator 1 is applied to Active heat removal system 2, active heat removal system 2 includes upstream zone 21 and downstream section 22, radiator 1 Between upstream zone 21 and downstream section 22.Radiator 1 includes base 10 and multiple radiators 11.Base 10 include multiple setting areas 100, multiple setting areas 100 respectively with first direction D1 It is parallel, and multiple setting areas 100 D2 spaced-apart relations, wherein first direction D1 in a second direction It is vertical with second direction D2, but be not limited.In the present embodiment, multiple setting areas 100 are wrapped Include the first setting area 100a, the second setting area 100b, the 3rd setting area 100c, the 4th setting Region 100d, the 5th setting area 100e, the 6th setting area 100f, the 7th setting area 100g, Eight setting areas 100 such as the 8th setting area 100h, eight setting areas 100 all with first direction D1 is parallel and D2 spaced-apart relations, but be not limited in a second direction.It is emphasized that setting The quantity in region 100 is not limited with eight, its quantity can according to the bottom plate 10 of radiator 1 size and reality Border application demand and appoint apply adjustment.

Referring again to Fig. 2 and coordinate Fig. 1, each setting area 100 include the first side region 1001, Second side region 1002 and middle section 1003, middle section 1003 be located at the first side region 1001 with Between second side region 1002.Secondly, multiple radiators 11 are correspondingly arranged in multiple setting areas 100, As shown in Fig. 2 each setting area 100 includes multiple spaced radiators 11.Multiple radiatings The shape of body 11 can be plate body, cylinder, Elliptic Cylinder or cambered surface cylinder, but be not limited, can It is changed depending on practical application.First side region 1001 of each setting area 100 sets the first side Radiator group 111, the second side region 1002 of each setting area 100 sets the second side radiator group 112.Wherein, multiple radiators 11 positioned at same first side radiator group 111 are arranged in parallel, position It is arranged in parallel in multiple radiators 11 of same second side radiator group 112, and the first side radiator Any one radiator 11 and any one radiator 11 of the second side radiator group 112 of group 111 are non-parallel Arrangement, that is, the multiple radiators 11 for being arranged at the first side region 1001 and the second side region 1002 are uneven Row is in second direction D2, and multiple radiators 11 of the first side region 1001 are not parallel to the second side region 1002 multiple radiators 11.Thus, the row that radiator 1 of the invention is not parallel to each other by both sides Row mode configures multiple radiators, when air-flow is driven through radiator, to make air-flow toward radiator Middle section is concentrated, and increase radiator is in the radiating efficiency of middle section, to solve the radiating of existing skill Device can not strengthen the shortcoming of radiating for radiator centre, and reach the excellent of the radiating efficiency for improving entirety Point.

In the present embodiment, in any two adjacent setting areas 100 of radiator 11, it is adjacent to The quantity of multiple radiators 11 set by the setting area 100 of trip section 21, which is not more than, is adjacent to downstream The quantity of multiple radiators 11 set by the setting area 100 of section 22.In some embodiments, The multiple radiators 11 for being arranged at the first side radiator group 111 of the first side region 1001 are at equal intervals and flat Row arrangement, is arranged at multiple radiators 11 of the second side radiator group 112 of the second side region 1002 etc. It is spaced and arranged in parallel, but is not limited.

For example, as shown in Fig. 2 being adjacent to set by the 8th setting area 100h of downstream section 22 The quantity for the radiator 11 put is 20, is adjacent to the first setting area 100a institutes of upstream zone 21 The quantity of the radiator 11 of setting is 10, that is, is adjacent to the setting area 100 of downstream section 22 The quantity of set radiator 11, which is more than, to be adjacent to set by the setting area 100 of upstream zone 21 The quantity of radiator 11.Similarly, it is adjacent to set by the 5th setting area 100e of downstream section 22 The quantity for the radiator 11 put is 20, is adjacent to the 3rd setting area 100c institutes of upstream zone 21 The quantity of the radiator 11 of setting is 20, that is, is adjacent to the institute of setting area 100 of downstream section 22 The quantity of the radiator 11 of setting, which is equal to, is adjacent to dissipating set by the setting area 100 of upstream zone 21 The quantity of hot body 11.Thus, multiple radiators 11 of radiator 1 are from being adjacent to upstream zone 21 Position starts to form gradually close arrangement toward the direction for being adjacent to downstream section 22.It is emphasized that respectively setting The quantity for putting the radiator 11 set by region is not limited with previous embodiment, and its quantity can be according to radiator 1 Bottom plate 10 size and practical application request and appoint and apply adjustment.

Again as shown in Fig. 2 multiple radiators 11 are all the radiating fin of plate shape (also with component reference Mark 11 is represented), but be not limited.Any one radiator 11 of first side radiator group 111 is wrapped The first upstream end thereof 113 and the first downstream end 114 are included, any one of the second side radiator group 112 dissipates Hot body 11 includes the second upstream end thereof 115 and the second downstream end 116.Wherein, the first upstream end thereof 113 is close compared with the first downstream end 114 and the second downstream end 116 respectively with the second upstream end thereof 115 The upstream zone 21 of active heat removal system 2.In the present embodiment, any of the first side radiator group 111 Any one radiator 11 of first upstream end thereof 113 of individual radiator 11 and the second side radiator group 112 The distance between the second upstream end thereof 115 be more than the first corresponding downstream end 114 with it is corresponding Any one radiating fin 11 of the distance between second downstream end 116, i.e. the first side radiator group 111 D2 is asymptotic in a second direction with the distance between any one radiating fin 11 of the second side radiator group 112. Thus, since multiple radiators 11 of radiator 1 past being adjacent to the position of upstream zone 21 is adjacent to The direction of downstream section 22 forms the path concentrated and be oriented to middle section 1003.

By foregoing configuration mode, as shown in Figures 1 and 2, when active heat removal system 2 passes through fan When (non-icon) drives air-flow, D2 sequentially passes through upstream zone 21, radiator 1 to air-flow in a second direction And downstream section 22, by multiple radiators 11 since being adjacent to the position of upstream zone 21 toward neighbouring The path towards middle section 1003, and the edge of multiple radiators 11 are formed in the direction of downstream section 22 The direction forms gradually close arrangement, makes the middle section of the past radiator 1 of air-flow meeting by radiator 1 1003 concentrate, therefore by the gas flow rate of middle section 1003 compared with the first side region 1001 or the second side Region 1002 is big, to increase radiator 1 in the radiating efficiency of middle section 1003, solves existing skill The shortcoming of radiating can not be strengthened for radiator middle section, and reach the radiating for improving the entirety of radiator 1 The advantage of efficiency, furthermore, when radiator 1 is arranged on chipset (not shown) and air-flow is not along Fig. 1 When shown second direction D2 flows, the arrangement of radiator, such as edge are adjusted according to the flow direction of air-flow Angle, density degree that the main flow direction of air-flow adjusts radiator, to allow multiple radiators to coordinate The Main way arrangement of air-flow, to reduce the windage produced by multiple radiators, not only reduces turning for fan Fast demand, reaches the effect of reduction noise, more can reach air-flow and is most preferably dissipated by what radiator can be provided Thermal efficiency.

Refer to the schematic diagram of Fig. 3 and Fig. 4, Fig. 3 for the radiator of second embodiment of the invention；And Fig. 4 is the schematic diagram of the radiator of third embodiment of the invention.In second embodiment and 3rd embodiment, The shape of multiple radiators 11 is all the radiating fin 11 of tabular, and identical component reference number is represented Identical modular construction and function, are repeated no more in this.As shown in Fig. 2 in first embodiment, often The middle section 1003 of one setting area 100 is all a white space (dummy area), is not wrapped Include any radiating fin 11 parallel with second direction D2, and dissipating of being included of different setting areas 100 The quantity of hot fin 11 is divided into two parts, the setting area of the upstream zone 21 of neighbouring active heat removal system 2 The quantity for the radiating fin 11 that domain 100 is included is 10, the catchment of neighbouring active heat removal system 2 The quantity for the radiating fin 11 that the setting area 100 of section 22 is included is 20, but is not limited. As shown in figure 3, in second embodiment, the radiating that multiple setting areas 100 of radiator 1 are included D2 is in ascending power ordered series of numbers to the quantity of fin 11 in a second direction.In addition, in second embodiment, each The middle section 1003 of setting area 100 all includes an at least radiating fin 11, is arranged at middle section 1003 radiating fin 11 is all parallel to second direction D2, but be not limited.As for 3rd embodiment In, as shown in figure 4, only the first setting area 100a and the second setting area 100b middle section 1003 Including the radiating fin 11 parallel to second direction D2, other setting areas 100c, 100d, 100e, 100f, 100g and 100h are all not provided with the radiating fin 11 parallel to second direction D2, in other words, The setting area 100 of a part is white space, the middle section of the setting area 100 of another part 1003 include an at least radiating fin 11, and this be arranged at the radiating fin 11 of middle section 1003 with Second direction D2 is parallel.

Referring again to Fig. 2 and Fig. 3, in first embodiment, the of any setting area 100 is arranged at Multiple radiators 11 of side radiator group 111 and the second side radiator for being arranged at same setting area The mutual mirror of multiple radiators 11 arrangement of group 112, but be not limited.In second embodiment, What the first setting area 100a and the second setting area 100b the first side radiator group 111 was included dissipates What unequal the second side radiator group 112 in same setting area of quantity of hot fin 11 was included dissipates The quantity of hot fin 11, but be not limited, it can arbitrarily adjust the first of other setting areas 100 The quantity of side radiator group 111 and each self-contained radiator 11 of the second side radiator group 112.In addition, In first embodiment and second embodiment, the first radiator group 111 of same setting area 100 it is many Individual radiating fin 11 and second direction D2 angle theta are equal to multiple radiatings of the second radiator group 112 Fin 11 and second direction D2 angle theta.In fourth embodiment, the first side radiator group 111 The angle of multiple radiating fins 11 and second direction D2 is the first acute angle theta 1, the second radiator group 112 Multiple radiating fins 11 and second direction D2 angle be the second acute angle theta 2, and the first acute angle theta 1 It is not equal to the second acute angle theta 2, but is not limited.Thus, driven when by active heat removal system 2 Airflow passes radiator 1 when, using multiple radiating fins 11 with identical or different angle of inclination or Quantity is configured to allow in air flow collection towards specific region, strengthens the radiating efficiency of the specific region.

The alternate embodiment of the radiator 1 of the present invention is not with first embodiment, second embodiment or the 3rd Embodiment is limited, in some embodiments, and radiator 11 is the radiating fin 11 of tabular, same to set The multiple radiating fins 11 and second direction D2 of the first side radiator group 111 in region 100 angle phase Equal to the multiple radiating fins 11 and second direction D2 of the second side radiator group 112 angle, difference is set The angle for putting the first side radiator group 111 and second direction D2 in region 100 is unequal scattered in the second side Hot body group 112 and second direction D2 angle, and multiple radiating fins 11 and second direction D2 folder Angle is gradually small from upstream zone 21 toward the direction of downstream section 22.In other embodiments, radiator 11 It can be tabular radiating fin 11 or column thermal column 11, be arranged at the of the first side setting area 1001 Towards middle section 1003, gradually white-out is arranged multiple radiators 11 of side radiator group 111, and is arranged at the Multiple radiators 11 of second side radiator group 112 of two sides setting area 1002 are towards middle section 1003 Gradually white-out is arranged.

The first embodiment of the present invention, second embodiment, 3rd embodiment or the alternate embodiment of its combination Disclose the radiator 1 of a variety of different kenels, can be arranged by various configurations mode radiator 11 position and The region of angle adjustment radiating to be concentrated, realizes and carries out radiating efficiency optimization for different electronic installations, with And the advantages of reduction fan blast demand.

In summary, the radiator of tool collection wind function of the invention passes through different angles, the row of different density Row mode configures radiator, allows multiple radiators to coordinate the airflow direction arrangement of fans drive, reduces multiple Windage produced by radiator, not only reduces the speed demand of fan, reaches the effect of reduction noise, more It can reach the optimal heat dissipation that air-flow can be provided by radiator.In addition, by different angles, no Arrangement mode with density configures radiator, when air-flow is driven through radiator, to make air-flow is past to dissipate The middle section of hot device is concentrated, and produces the effect of collection wind, increases radiator in the radiating efficiency of middle section, To solve the shortcoming that the radiator of existing skill can not be strengthened radiating for radiator centre, and reach to carry The advantage of high overall radiating efficiency.

It is of the invention appointed as those skilled in the art apply craftsman think and be it is all as modify, so neither take off such as attached right It is required that be intended to Protector.

Claims (13)

1. a kind of radiator, including：

One base, including multiple setting areas, the plurality of setting area are parallel with a first direction respectively, And the plurality of setting area is arranged at each interval along a second direction, each of which setting area bag One first side region, one second side region and a middle section are included, the middle section is located at first lateral areas Between domain and second side region；And

Multiple radiators, are correspondingly arranged in the plurality of setting area, first side of each setting area Region sets one first side radiator group, and second side region to set one second side radiator group, its In the first side radiator group the plurality of radiator it is arranged in parallel, the second side radiator group it is the plurality of Radiator is arranged in parallel, and any one radiator of the first side radiator group and the second side radiator Non-parallel between any one radiator of group.

2. radiator as claimed in claim 1, the wherein radiator are applied to an active heat removal system, The active heat removal system includes a upstream zone and a downstream section along the second direction, and the radiator is located at Between the upstream zone and the downstream section, wherein any two adjacent setting areas of the radiator In, the quantity for the multiple radiators being adjacent to set by the setting area of the upstream zone is no more than neighbouring In the quantity of the plurality of radiator set by the setting area of the downstream section.

3. radiator as claimed in claim 2, wherein the radiator that the plurality of setting area is included Quantity along the second direction be in an ascending power ordered series of numbers.

4. radiator as claimed in claim 1, the wherein first direction and the second direction are perpendicular, And each radiator be a radiating fin, any one radiating fin of the first side radiator group with The distance between any one radiating fin of the second side radiator group is asymptotic along the second direction.

5. radiator as claimed in claim 1, the middle section of each of which setting area It is a white space.

6. radiator as claimed in claim 1, the middle section of each of which setting area All include at least one radiator, and each radiator is a radiating fin, is arranged at middle section The radiating fin all parallel to the second direction.

7. radiator as claimed in claim 1, the central area of the setting area of a portion Domain is a white space, and the middle section of the setting area of another part radiates including at least one Body, and each radiator is a radiating fin, the radiating fin for being arranged at the middle section is all put down Row is in the second direction.

8. the radiator as described in claim 1,5,6 or 7, is provided with a setting area The plurality of radiator of the first side radiator group dissipates with being arranged at second side of the same setting area The mutual mirror arrangement of the plurality of radiator of hot body group.

9. radiator as claimed in claim 1, each of which radiator is a radiating fin, And the plurality of radiating fin of each the first side radiator group presss from both sides one first with the second direction respectively Acute angle, the plurality of radiating fin of each the second side radiator group respectively with second direction folder 1 the Two acute angles, and first acute angle is not equal to second acute angle.

10. radiator as claimed in claim 1, each of which radiator is a radiating fin, And the plurality of radiating fin of each the first side radiator group is equal with an angle of the second direction The angle pressed from both sides in the plurality of radiating fin of the second side radiator group with the second direction.

11. radiator as claimed in claim 1, each of which radiator is a radiating fin, together The plurality of radiating fin and the angle phase of the second direction of the first side radiator group of one setting area Equal to the angle of the plurality of radiating fin and the second direction of the second side radiator group, and different set The plurality of radiating fin of the first side radiator group in region and the angle of the second direction it is unequal in The plurality of radiating fin of the second side radiator group and the angle of the second direction.

12. radiator as claimed in claim 1, each of which radiator is a radiating fin, if The plurality of radiating fin for being placed in the first side radiator group of the first side setting area is parallel at equal intervals Arrangement, and it is arranged at the plurality of radiating fin of the second side radiator group of the second side setting area etc. Spaced and parallel arrangement.

13. radiator as claimed in claim 1, be provided with the first side setting area this Towards the middle section, gradually white-out is arranged the plurality of radiator of side radiator group, and is arranged at second side and is set Put region the second side radiator group the plurality of radiator towards the middle section gradually white-out arrange.