CN110209255A - Radiator and calculating equipment with it - Google Patents

Abstract

The invention discloses a kind of radiator and with its calculating equipment, the radiator includes: heat radiator body, multiple subflow roads are limited in the heat radiator body, multiple subflow roads are sequentially communicated along the width direction of the heat radiator body to constitute at least one flow channel for liquids, each described flow channel for liquids includes inlet and liquid outlet, and the minimum range between the inlet and the liquid outlet is less than the minimum range between two sub- runners on the outermost side in multiple subflow roads.The radiator of embodiment according to a first aspect of the present invention, make the minimum range between inlet and liquid outlet less than the minimum range between two sub- runners on the outermost side in multiple subflow roads by being arranged, relatively reduce the distance between inlet and liquid outlet, so that the temperature of entire radiator entirety is more uniform, uniform temperature is preferable.

Description

Radiator and calculating equipment with it

Technical field

The present invention relates to technical field of heat exchange, more particularly, to a kind of radiator and with its calculating equipment.

Background technique

In the related technology, the runner in water-cooling plate is usually one, due to being designed using single channel, thus runner The distance between water inlet and water outlet farther out so that concentration is also compared in the high-temperature region of water-cooling plate, water-cooling plate it is equal Warm nature is poor.Moreover, water flow is concentrated, flow velocity is larger, to reduce heat exchange efficiency.

Summary of the invention

The present invention is directed at least solve one of the technical problems existing in the prior art.For this purpose, one object of the present invention It is to propose that a kind of radiator, the uniform temperature of the radiator are more preferable.

It is another object of the present invention to propose a kind of calculating equipment with above-mentioned radiator.

The radiator of embodiment according to a first aspect of the present invention, comprising: heat radiator body limits in the heat radiator body Multiple subflow roads, multiple subflow roads are sequentially communicated along the width direction of the heat radiator body to constitute at least one liquid flow Road, each described flow channel for liquids include inlet and liquid outlet, the minimum range between the inlet and the liquid outlet Less than the minimum range between two sub- runners on the outermost side in multiple subflow roads.

The radiator of embodiment according to a first aspect of the present invention, by the way that the minimum made between inlet and liquid outlet is arranged Distance relatively reduces inlet and goes out less than the minimum range between two sub- runners on the outermost side in multiple subflow roads The distance between liquid mouth, so that the temperature of entire radiator entirety is more uniform, uniform temperature is preferable.

According to some embodiments of the present invention, the radiator further comprises: partition at least one, the interval Plate is located in the heat radiator body and will be separated into inside the heat radiator body mutual disconnected at least two chamber, each described The flow channel for liquids is limited in chamber.

According to some embodiments of the present invention, at least one demarcation plate is equipped in each chamber, the demarcation plate Another side that one end is connected with a side wall of the chamber and the other end is opposite with one side wall with the chamber Wall is spaced apart, and at least one of the inlet and the liquid outlet are located at one side wall or another described side wall On.

According to some embodiments of the present invention, multiple demarcation plates, multiple separations are equipped in each chamber Plate interlaced arrangement is to form the flow channel for liquids of S-shaped.

According to some embodiments of the present invention, multiple demarcation plates are equidistantly arranged.

According to some embodiments of the present invention, the chamber is two, and the inlet of two chambers is adjacent each other Closely.

According to some embodiments of the present invention, at least one first demarcation plate is equipped in the heat radiator body to dissipate described Hot body interior is separated into the feed liquor runner to communicate with each other and out liquid stream road, and the feed liquor runner has the inlet, described Liquid stream stage property has the liquid outlet out, is respectively equipped at least one second separation in the feed liquor runner and the liquid stream road out Plate, second demarcation plate will be separated into respectively the multiple subflows being arranged side by side inside the feed liquor runner and the liquid stream road out Road.

According to some embodiments of the present invention, a side wall phase of one end of first demarcation plate and the heat radiator body Even and the other end another sidewall spacers opposite with one side wall with the heat radiator body are opened, second separation The both ends of plate are separated from each other with one side wall of the heat radiator body and another described side wall, the inlet and At least one of described liquid outlet is located on one side wall or another described side wall.

According to some embodiments of the present invention, at least one third demarcation plate is equipped in the heat radiator body to dissipate described Hot body interior limits connection runner, and the connection runner connection is between the feed liquor runner and the liquid stream road out.

According to some embodiments of the present invention, one side of the side of the third demarcation plate and the heat radiator body Wall is spaced apart and the other end is connected with another described side wall of the heat radiator body.

According to some embodiments of the present invention, first demarcation plate is two, and the third demarcation plate is one, described Third demarcation plate is located between two first demarcation plates.

According to some embodiments of the present invention, first demarcation plate and second demarcation plate are in the heat radiator body Equidistant arrangement.

According to some embodiments of the present invention, first demarcation plate is one, and second demarcation plate is multiple.

According to some embodiments of the present invention, all inlets and the liquid outlet are respectively positioned on the heat radiator body The same side.

The calculating equipment of embodiment according to a second aspect of the present invention, comprising: at least one above-mentioned first party according to the present invention The radiator of face embodiment；At least one operation board, at least one described operation board and at least one described radiator are handed over Mistake is arranged so that the radiator radiates to the operation board.

Additional aspect and advantage of the invention will be set forth in part in the description, and will partially become from the following description Obviously, or practice through the invention is recognized.

Detailed description of the invention

Above-mentioned and/or additional aspect of the invention and advantage will become from the description of the embodiment in conjunction with the following figures Obviously and it is readily appreciated that, in which:

Fig. 1 is the schematic diagram of radiator according to an embodiment of the present invention；

Fig. 2 is the schematic diagram of radiator in accordance with another embodiment of the present invention；

Fig. 3 is the schematic diagram of the radiator of further embodiment according to the present invention.

Appended drawing reference:

100: radiator；

1: heat radiator body；11: subflow road；

12: feed liquor runner；121: inlet；

13: going out liquid stream road；131: liquid outlet；14: connection runner；

2: middle partition；3: demarcation plate；

4: the first demarcation plates；5: the second demarcation plates；

6: third demarcation plate.

Specific embodiment

The embodiment of the present invention is described below in detail, the embodiment being described with reference to the drawings is exemplary, and is retouched in detail below State the embodiment of the present invention.

Radiator 100 according to an embodiment of the present invention is described below with reference to Fig. 1-Fig. 3.

As shown in Figure 1-Figure 3, the radiator 100 of embodiment, including heat radiator body 1 according to a first aspect of the present invention.

Specifically, multiple subflow roads 11 are limited in heat radiator body 1, width of multiple subflow roads 11 along heat radiator body 1 Direction is sequentially communicated to constitute at least one flow channel for liquids, each flow channel for liquids includes inlet 121 and liquid outlet 131.? In description of the invention, the meaning of " plurality " is two or more.For example, in the example of Fig. 1-Fig. 3, multiple subflow roads 11 are successively arranged in parallel from top to bottom, and at least two in multiple subflow roads 11 are sequentially communicated from top to bottom to constitute and have feed liquor At least one flow channel for liquids of mouth 121 and liquid outlet 131, inlet 121 and liquid outlet 131 can be located at flow channel for liquids Both ends.When liquid such as water etc. can be entered in flow channel for liquids by inlet 121, liquid such as water etc. is flowing through liquid flow It can be carried out to being arranged in outside radiator 100 to thermal component such as operation board etc. during multiple subflow roads 11 in road Heat dissipation, to take away the heat to thermal component such as operation board etc., liquid such as water after heat exchange etc. is flowed out from liquid outlet 131. Multiple subflow roads 11 are sequentially communicated along the width direction of heat radiator body 1 by setting as a result, extend the road of flow channel for liquids Diameter, can effectively improve the heat exchange efficiency of heat radiator body 1, and make arrangement of the flow channel for liquids in heat radiator body 1 more regular.

Wherein, the minimum range between inlet 121 and liquid outlet 131 is less than on the outermost side in multiple subflow roads 11 Minimum range between two sub- runners 11.For example, referring to Fig. 1-Fig. 3, the central axis of the inlet 121 of same flow channel for liquids The distance between central axis of liquid outlet 131 is less than the center for being located at the subflow road 11 of top side in all subflow roads 11 The distance between the central axis of axis and the subflow road 11 of lower side.As a result, with traditional water-cooling using single channel Plate is compared, and can make the temperature of the entirety of radiator 100 more uniform in this way, thus with the heat exchange of radiator 100 wait dissipate The temperature of thermal part such as operation board etc. also can be more uniform.

Radiator 100 according to an embodiment of the present invention is made between inlet 121 and liquid outlet 131 most by setting Small distance relatively reduces feed liquor less than the minimum range between two sub- runners 11 on the outermost side in multiple subflow roads 11 Mouth the distance between 121 and liquid outlet 131, so that the temperature of 100 entirety of entire radiator is more uniform, uniform temperature is preferable.

According to some embodiments of the present invention, as shown in Figure 1, radiator 100 further comprises: partition at least one 2, middle partition 2 is located in heat radiator body 1, and middle partition 2 will be separated into mutual disconnected at least two chamber inside heat radiator body 1 Room limits a flow channel for liquids in each chamber.For example, in the example of fig. 1, the central horizontal of heat radiator body 1 is disposed with One middle partition 2 will be separated into mutually independent two chambers up and down, have one in each chamber inside heat radiator body 1 Flow channel for liquids, the flow channel for liquids have inlet 121 and liquid outlet 131, and there are two inlets 121 altogether in heat radiator body 1 at this time With two liquid outlets 131, the inlet 121 and liquid outlet 131 of same flow channel for liquids and corresponding chamber are corresponding, and each liquid Minimum range between the inlet 121 and liquid outlet 131 of runner is respectively less than in multiple subflow roads 11 two on the outermost side Minimum range between subflow road 11.As a result, by partition 2 in setting, middle partition 2 will be divided into independent inside heat radiator body 1 Two flow channel for liquids, each flow channel for liquids have respective inlet 121 and liquid outlet 131 respectively, reduction can be well realized The distance between inlet 121 and liquid outlet 131, so that the temperature of 100 entirety of entire radiator is more uniform.

Further, referring to Fig.1, it is equipped at least one demarcation plate 3 in each chamber, one end of demarcation plate 3 and chamber Another sidewall spacers that one side wall is connected and the other end of demarcation plate 3 is opposite with said one side wall with chamber are opened, liquid At least one of inlet 121 and liquid outlet 131 of body runner are located on said one side wall or another above-mentioned side wall.Example Such as, in the example of fig. 1, spaced three demarcation plates 3 in the up-down direction are equipped in each chamber, two of them separate The left end of plate 3 is spaced apart with the left side wall of chamber, right end is connected with the right side wall of chamber, another demarcation plate 3 be located at it is above-mentioned its In between two demarcation plates 3, and the left end of another demarcation plate 3 is connected with the left side wall of chamber, the right side of right end and chamber Wall is spaced apart.As a result, by the way that at least one demarcation plate 3 is arranged in chamber, so that the indoor flow channel for liquids of chamber is longer, thus more Be conducive to radiate.Moreover, compared with traditional water-cooling plate using single channel, in the case where same flow, according to this Flow velocity in the flow channel for liquids of the radiator 100 of invention is original half, and heat exchange efficiency is promoted.

Further, multiple demarcation plates 3 are equipped in each chamber, multiple 3 interlaced arrangements of demarcation plate are to form the liquid of S-shaped Body runner, as shown in Figure 1.As a result, by being arranged multiple demarcation plates 3 in chamber, the indoor flow channel for liquids length of chamber be able into One step extends, so that radiator 100 can more fully exchange heat with to thermal component such as operation board etc..

Optionally ,-Fig. 3, multiple demarcation plates 3 are equidistantly arranged referring to Fig.1.Two neighboring demarcation plate in each chamber at this time The distance between 3 is equal.The whole temperature of entire radiator 100 can be more uniform as a result, and facilitates radiator 100 processing, reduces costs.

Some alternative embodiments according to the present invention, chamber are two, and the inlet 121 of two chambers is located adjacent one another.Example Such as, referring to Fig.1, two water inlets of two flow channel for liquids are arranged in the middle part of heat radiator body 1, and two of two flow channel for liquids go out The mouth of a river is located at the upper side and lower side of heat radiator body 1.At this time to thermal component such as operation board etc. can be two, two to Thermal component such as operation board etc. can be arranged in the upper side and lower side of radiator 100, with to two to thermal component Such as operation board etc. radiates.High-temperature region is located at the upper side and lower side of radiator 100 at this time, so that whole The temperature of a radiator 100 is more uniform.Further, collecting pipe (not shown go out) can be arranged outside radiator 100, Two inlets 121 of two flow channel for liquids and two liquid outlets 131 can be merged into a feed liquor respectively by collecting pipe Mouth 121 and a liquid outlet 131.Two chambers are shown in Fig. 1 for illustration purposes, but those of ordinary skill exists After having read the technical solution of the application, it is clearly understood that the technology that the program is applied to three or more chambers In scheme, this is also fallen within protection scope of the present invention.

According to some embodiments of the present invention, as shown in Figures 2 and 3, at least one first separation is equipped in heat radiator body 1 For plate 4 will be separated into the feed liquor runner 12 to communicate with each other and out liquid stream road 13 inside heat radiator body 1, feed liquor runner 12 has feed liquor Mouth 121, liquid stream road 13 has liquid outlet 131 out, is respectively equipped at least one second point in feed liquor runner 12 and out liquid stream road 13 Partition 5, the second demarcation plate 5 is by feed liquor runner 12 and is separated into the multiple subflow roads being arranged side by side inside liquid stream road 13 respectively out 11.Feed liquor runner 12 and liquid stream road 13 collectively forms flow channel for liquids out.Second in feed liquor runner 12 and out liquid stream road 13 separates Plate 5 can be separated into multiple subflow roads 11 in parallel by feed liquor runner 12 and out respectively inside liquid stream road 13, at this time from inlet The 121 liquid such as water etc. entered can be entered in multiple subflow roads 11 by the one end in multiple subflow roads 11 respectively, then be led to The other end outflow of excessive sub- runner 11, then, liquid such as water etc. enters back into out liquid stream road 13, and by going out liquid stream road 13 The one end in multiple subflow roads 11 enter in this multiple subflow road 11, then by the other end in this multiple subflow road 11 through going out liquid Mouth 131 flows out.Multiple subflow roads 11 of feed liquor runner 12 can share an inlet 121, out multiple subflows in liquid stream road 13 Road 11 can share a liquid outlet 131.For example, in the figure 2 example, inlet 121 is located at the middle part of feed liquor runner 12, out Liquid mouth 131 is located at the middle part in liquid stream road 13, and the minimum range between inlet 121 and liquid outlet 131 is obviously smaller than whole at this time Minimum range in multiple subflow roads 11 of a radiator 100 between two sub- runners 11 on the outermost side.As a result, with biography System is compared using the water-cooling plate of single channel, equally may be implemented to reduce low-temperature space and liquid outlet locating for inlet 121 The distance between high-temperature region locating for 131 can equally make the temperature of the entirety of radiator 100 more uniform, thus with dissipating The temperature to thermal component such as operation board etc. that thermal 100 exchanges heat also can be more uniform.Moreover, the stream in each subflow road 11 Speed is minimized, only every first demarcation plate 4 between feed liquor runner 12 and out liquid stream road 13, thus feed liquor runner 12 with go out Liquid stream road 13 apart from the closer of arrangement, i.e., high-temperature region and low-temperature space distance into, demarcation plate 4 and ontology 1 are all highly heat-conductive materials, Therefore it can make the more uniform of entire 100 temperature dispersion of radiator.It is understood that inlet 121 and liquid outlet The distance between 131 can specifically arrange according to actual requirement, preferably to meet practical application.

Specifically, for example, referring to Fig. 2 and Fig. 3, one end of the first demarcation plate 4 is connected with a side wall of heat radiator body 1, And first the other end another sidewall spacers opposite with said one side wall with heat radiator body 1 of demarcation plate 4 open, second point The both ends of partition 5 are separated from each other with the said one side wall of heat radiator body 1 and another above-mentioned side wall, 121 He of inlet At least one of liquid outlet 131 is located on said one side wall or another above-mentioned side wall.

According to a further embodiment of the invention, as shown in figure 3, being equipped at least one third demarcation plate 6 in heat radiator body 1 To limit connection runner 14 inside heat radiator body 1, the connection connection of runner 14 is between feed liquor runner 12 and out liquid stream road 13. Along the flow direction of liquid such as water etc., liquid such as water etc. followed by the inlet 121 of flow channel for liquids, feed liquor runner 12, It is connected to runner 14, goes out liquid stream road 13 and liquid outlet 131.Thus, it is possible to effectively extend the length of flow channel for liquids, so that radiator 100 can more fully exchange heat with to thermal component such as operation board etc..

Further, referring to Fig. 3, the side of third demarcation plate 6 and the said one sidewall spacers of heat radiator body 1 open and The other end of third demarcation plate 6 is connected with another above-mentioned side wall of heat radiator body 1.For example, in the example of fig. 3, first point Partition 4 is two, and the right end of each first demarcation plate 4 is connected with the right side wall of heat radiator body 1 and the left end of the first demarcation plate 4 Be spaced apart with the left side wall of heat radiator body 1, third demarcation plate 6 is one, third demarcation plate 6 be located at two the first demarcation plates 4 it Between, it can be with interlaced arrangement between third demarcation plate 6 and two the first demarcation plates 4, the left end of third demarcation plate 6 and heat dissipation at this time is originally The left side wall of body 1 is connected, the right end of third demarcation plate 6 is spaced apart with the right side wall of heat radiator body 1, two 4 Hes of the first demarcation plate The flow channel for liquids of S-shaped is collectively formed between one third demarcation plate 6.Two the first demarcation plates 4 and a third are shown in Fig. 3 For illustration purposes, but those of ordinary skill is after having read the technical solution of the application, obviously may be used for demarcation plate 6 The program is applied in the technical solution of more first demarcation plates 4 and third demarcation plate 6 with understanding, this also falls into the present invention Protection scope within.

Optionally, as shown in Figure 1, the first demarcation plate 4 and the second demarcation plate 5 are equidistantly arranged in heat radiator body 1.By This, the whole temperature of entire radiator 100 can be more uniform, and facilitates the processing of radiator 100, reduces into This.

Optionally, as shown in Fig. 2, the first demarcation plate 4 is one, the second demarcation plate 5 is multiple.For example, in the example of Fig. 2 In show six the second demarcation plates 5, but not limited to this.

According to some embodiments of the present invention, as shown in Figure 1-Figure 3, all inlets 121 and liquid outlet 131 are respectively positioned on The same side of heat radiator body 1.For example, in the example of Fig. 1-Fig. 3, all inlets 121 and all equal positions of liquid outlet 131 In the right side of heat radiator body 1.It is convenient for being passed through and extracting out liquid such as water etc. into radiator 100 as a result,.

Wherein, heat radiator body 1 can be made of the good material of heat dissipation performance.Heat radiator body 1 is inherently good at this time Good heat conductor, in addition the uniformity of the flow channel for liquids limited in it designs, so as to reinforce uniform temperature.

The radiator 100 of multiple embodiments according to the present invention is described in detail below with reference to Fig. 1-Fig. 3.

Embodiment one

In the present embodiment, as shown in Figure 1, radiator 100 includes the heat radiator body 1 that longitudinal cross-section is substantially square, Center in heat radiator body 1 is equipped with horizontally disposed one middle partition 2, and middle partition 2 will be separated into upper and lower two inside heat radiator body 1 A chamber.Each chamber is respectively provided with an inlet 121 and a liquid outlet 131, the inlet 121 of each chamber and out liquid Mouth 131 is located at the upper and lower part of chamber and is respectively positioned on the same side (for example, right side in Fig. 1) of heat radiator body 1.

Wherein, it is equipped in each chamber between the upper and lower every setting and three demarcation plates 3 of level, three demarcation plates 3 are in Partition 2 is parallel to each other, and three demarcation plates 3 and middle partition 2 limit from top to bottom successively cloth with corresponding chamber interior jointly The sub- runner 11 of four set, three demarcation plates 3 interlaced arrangement in corresponding chamber are substantially S-shaped to limit in chamber Flow channel for liquids, i.e., each indoor flow channel for liquids of chamber are made of four sub- runners 11.

Referring to Fig.1, between 131 central axis of the central axis of the inlet 121 of each flow channel for liquids and liquid outlet away from In all subflow roads 11 from obviously smaller than entire heat radiator body 1 positioned at top side subflow road 11 central axis with it is most lower The distance between the central axis in the subflow road 11 of side.It is opposite to reduce compared with traditional water-cooling plate using single channel The distance between the low-temperature space of flow channel for liquids and high-temperature region, and in Fig. 1 two chambers two inlets 121 it is located adjacent one another and It is arranged in the middle part of heat radiator body 1, two liquid outlets 131 are located at the upper and lower part of heat radiator body 1, and position is distinguished in high-temperature region In the two sides up and down of heat radiator body 1, so that the temperature of entire radiator 100 can be more uniform, and then filled with heat dissipation The temperature to thermal component such as operation board etc. for setting 100 heat exchange also can be more uniform.

Embodiment two

As shown in Fig. 2, the present embodiment is roughly the same with the structure of embodiment one, wherein identical component is using identical attached Icon note, the difference is that: the first, the first demarcation plate 4 and the second demarcation plate 5, not set middle partition are equipped in heat radiator body 1 2；The second, inlet 121 and liquid outlet 131 are respectively one.

In the present embodiment, referring to Fig. 2, the center in heat radiator body 1 is equipped with horizontally disposed first demarcation plate 4, The right end of first demarcation plate 4 is connected with the right side wall in heat radiator body 1, the left end and the left side in heat radiator body 1 of the first demarcation plate 4 Sidewall spacers are opened, so that the first demarcation plate 4 will be separated into interconnected feed liquor runner 12 and out liquid stream road inside heat radiator body 1 13, feed liquor runner 12 is located at the top in liquid stream road 13.Feed liquor runner 12 has inlet 121, and liquid stream road 13 has liquid out Mouth 131, and inlet 121 and liquid outlet 131 are respectively positioned on the same side (for example, right side in Fig. 2) of heat radiator body 1.Optionally, The central axis of inlet 121 is overlapped with the central axis of feed liquor runner 12, the central axis of liquid outlet 131 and liquid stream road 13 out Central axis be overlapped.

Further, feed liquor runner 12 and spaced three the second demarcation plates up and down are respectively equipped in liquid stream road 13 out 5, the left end of each second demarcation plate 5 and right end are spaced apart with the left side wall of heat radiator body 1 and right side wall respectively, feed liquor runner 12 Feed liquor runner 12 is separated into four sub- runners 11 in parallel by three interior the second demarcation plates 5, similarly, out in liquid stream road 13 Liquid stream road 13 out is separated into four sub- runners 11 in parallel by three the second demarcation plates 5, enters feed liquor runner from inlet 121 Liquid such as water in 12 etc. can enter this four sons by the right end of four sub- runners 11 in feed liquor runner 12 respectively In runner 11, then by the left end outflow of this four sub- runners 11, then, liquid such as water etc. enters back into out liquid stream road 13, and It is entered in this four sub- runners 11 by the left end of four that go out liquid stream road 13 sub- runners 11, then passes through this four sub- runners 11 Right end flowed out through liquid outlet 131.

In the present embodiment, feed liquor runner 12 and out between liquid stream road 13 only every first demarcation plate 4, and it is traditional It is compared using the water-cooling plate of single channel, greatly furthered the distance between low-temperature space and high-temperature region, to entirely radiate The temperature of device 100 can be dispersedly more uniform.

The radiator 100 of the present embodiment is similar with the other structures of radiator 100 in embodiment one, therefore no longer exists This detailed description.

Embodiment three

As shown in figure 3, the present embodiment is roughly the same with the structure of embodiment two, wherein identical component is using identical attached Icon note, the difference is that: the first demarcation plate 4 and third demarcation plate 6 there are two being set in heat radiator body 1, third demarcation plate 6 Between two the first demarcation plates 4 and with the two 4 interlaced arrangements of the first demarcation plate.

In the present embodiment, referring to Fig. 3, the right end of upper and lower two the first demarcation plates 4 and the right side wall phase in heat radiator body 1 Even, the left end of the first demarcation plate 4 is spaced apart with the left side wall in heat radiator body 1, the first demarcation plate 4 and heat radiator body 1 of upside Inner wall between limit feed liquor runner 12, limit out liquid stream between the first demarcation plate 4 and the inner wall of heat radiator body 1 of downside The left end in road 13, the third demarcation plate 6 between above-mentioned two first demarcation plate 4 is connected with the left side wall in heat radiator body 1, The right end of first demarcation plate 4 is spaced apart with the right side wall in heat radiator body 1, first demarcation plate 4 with above-mentioned two first point The connection runner 14 for being connected to feed liquor runner 12 with liquid stream road 13 out is limited between partition 4.

Wherein, feed liquor runner 12 have inlet 121, out liquid stream road 13 have liquid outlet 131, and inlet 121 and go out Liquid mouth 131 is respectively positioned on the same side (for example, right side in Fig. 3) of heat radiator body 1.Optionally, the central axis of inlet 121 with The central axis of feed liquor runner 12 is overlapped, and the central axis of liquid outlet 131 is overlapped with the central axis in liquid stream road 13 out.

As shown in figure 3, setting in heat radiator body 1, there are four the second demarcation plates 5, specifically, feed liquor runner 12 and out liquid stream road Second demarcation plate 5 is respectively equipped in 13, feed liquor runner 12 is separated into simultaneously by the second demarcation plate 5 in feed liquor runner 12 at this time Two sub- runners 11 of connection, similarly, liquid stream road 13 out is separated into parallel two by the second demarcation plate 5 in liquid stream road 13 out Subflow road 11, is equipped with second demarcation plate 5 between the first intermediate demarcation plate 4 and the first demarcation plate 4 of top, and intermediate the It is equipped with second demarcation plate 5 between one demarcation plate 4 and the first demarcation plate 4 of lower section, is connected to runner 14 also by two second point Partition 5 is separated into four sub- runners 11 respectively.Liquid such as water entered in feed liquor runner 12 from inlet 121 etc. can divide It is not entered in the two subflow roads 11 by the right end of two sub- runners 11 in feed liquor runner 12, then passes through the two subflows The left end in road 11 is flowed out, and then, liquid such as water etc. enters back into the connection runner 14 being substantially in U-shape, and then, enters back into lower section Go out liquid stream road 13, and the left end of two by going out liquid stream road 13 sub- runners 11 enters in the two subflow roads 11, then leads to The right end for crossing the two subflow roads 11 is flowed out through liquid outlet 131.

In the present embodiment, compared with traditional water-cooling plate using single channel, can equally further feed liquor runner 12 are reduced with the distance between liquid stream road 13, i.e. the distance between the low-temperature space of flow channel for liquids and high-temperature region out, so as to So that the temperature dispersion of entire radiator 100 is more uniform.

The radiator 100 of the present embodiment is similar with the other structures of radiator 100 in embodiment two, therefore no longer exists This detailed description.

The calculating equipment (not shown go out) of embodiment according to a second aspect of the present invention, including at least one according to the present invention on State the radiator 100 and at least one operation board of first aspect embodiment.Wherein, at least one operation board is dissipated at least one Thermal 100 is staggered so that radiator 100 radiates to operation board.

Calculating equipment according to an embodiment of the present invention improves dissipating for operation board by using above-mentioned radiator 100 The thermal efficiency, and allow the temperature of operation board entirety more uniform, to extend the service life for calculating equipment.

In the description of the present invention, it is to be understood that, term " center ", " longitudinal direction ", " length ", " width ", " thickness ", The orientation of the instructions such as "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside" or Positional relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description of the present invention and simplification of the description, without It is that the device of indication or suggestion meaning or element must have a particular orientation, be constructed and operated in a specific orientation, therefore not It can be interpreted as limitation of the present invention.

It is according to an embodiment of the present invention calculate equipment other constitute and operate for those of ordinary skill in the art and It says it is all known, is not detailed herein.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means specific features described in conjunction with this embodiment or example, knot Structure, material or feature are included at least one embodiment or example of the invention.In the present specification, to above-mentioned term Schematic representation may not refer to the same embodiment or example.

Although an embodiment of the present invention has been shown and described, it will be understood by those skilled in the art that: not A variety of change, modification, replacement and modification can be carried out to these embodiments in the case where being detached from the principle of the present invention and objective, this The range of invention is defined by the claims and their equivalents.

Claims (15)

1. a kind of radiator characterized by comprising

Heat radiator body limits multiple subflow roads, width of multiple subflow roads along the heat radiator body in the heat radiator body Degree direction is sequentially communicated to constitute at least one flow channel for liquids, each described flow channel for liquids includes inlet and liquid outlet, institute The minimum range stated between inlet and the liquid outlet is less than two sub- runners on the outermost side in multiple subflow roads Between minimum range.

2. radiator according to claim 1, which is characterized in that further comprise:

Partition at least one, the middle partition are located in the heat radiator body and will be separated into inside the heat radiator body mutually not At least two chambers of connection limit the flow channel for liquids in each chamber.

3. radiator according to claim 2, which is characterized in that be equipped at least one separation in each chamber Plate, one end of the demarcation plate be connected with a side wall of the chamber and the other end and the chamber with one side Another opposite sidewall spacers of wall are opened, at least one of the inlet and the liquid outlet be located at one side wall or On another described side wall.

4. radiator according to claim 3, which is characterized in that be equipped with multiple separations in each chamber Plate, multiple demarcation plate interlaced arrangements are to form the flow channel for liquids of S-shaped.

5. radiator according to claim 4, which is characterized in that multiple demarcation plates are equidistantly arranged.

6. radiator according to claim 2, which is characterized in that the chamber is two, the institute of two chambers It is located adjacent one another to state inlet.

7. radiator according to claim 1, which is characterized in that be equipped at least one first point in the heat radiator body For partition will be separated into the feed liquor runner to communicate with each other and out liquid stream road inside the heat radiator body, the feed liquor runner has institute Inlet is stated, the liquid stream stage property out has the liquid outlet,

The feed liquor runner and it is described go out liquid stream road in be respectively equipped at least one second demarcation plate, second demarcation plate is by institute It states and is separated into the multiple subflow roads being arranged side by side respectively inside feed liquor runner and the liquid stream road out.

8. radiator according to claim 7, which is characterized in that one end of first demarcation plate and the heat dissipation are originally Another sidewall spacers that one side wall of body is connected and the other end is opposite with one side wall with the heat radiator body It opens,

The both ends of second demarcation plate and one side wall of the heat radiator body and another described side wall are to each other It separates, at least one of the inlet and the liquid outlet are located on one side wall or another described side wall.

9. radiator according to claim 8, which is characterized in that be equipped at least one third point in the heat radiator body Partition to limit connection runner inside the heat radiator body, the connection runner connection the feed liquor runner and it is described go out Between liquid stream road.

10. radiator according to claim 9, which is characterized in that the side of the third demarcation plate and the heat dissipation One sidewall spacers of ontology are opened and the other end is connected with another described side wall of the heat radiator body.

11. radiator according to claim 9, which is characterized in that first demarcation plate is two, the third point Partition is one, and the third demarcation plate is located between two first demarcation plates.

12. radiator according to claim 7, which is characterized in that first demarcation plate and second demarcation plate It equidistantly arranges in the heat radiator body.

13. radiator according to claim 7, which is characterized in that first demarcation plate is one, described second point Partition is multiple.

14. radiator according to claim 1 to 13, which is characterized in that all inlets and institute State the same side that liquid outlet is respectively positioned on the heat radiator body.

15. a kind of calculating equipment characterized by comprising

At least one radiator described in any one of -14 according to claim 1；

At least one operation board, at least one described operation board and at least one described radiator are staggered so that described dissipate Thermal radiates to the operation board.