CN208075635U - A kind of ring type multi-stage heat pipe combined heat radiator - Google Patents

Abstract

The utility model discloses a kind of ring type multi-stage heat pipe combined heat radiators,Including the first ring type endothermic tube and the second ring type endothermic tube,First ring type endothermic tube and the second ring type endothermic tube are arranged alternately,And it is connected by connecting rod between adjacent the first ring type endothermic tube and the second ring type endothermic tube,The top of first ring type endothermic tube and the second ring type endothermic tube is connected separately with the first heat-dissipating pipe and the first heat conducting pipe,It is respectively arranged with third ring type endothermic tube and the 4th ring type endothermic tube right over first ring type endothermic tube and the second ring type endothermic tube,The bottom end of third ring type endothermic tube and the 4th ring type endothermic tube is connected with corresponding first heat-dissipating pipe and the first heat conducting pipe respectively,Third ring type endothermic tube and the 4th ring type endothermic tube top are connected separately with the second heat conducting pipe and the second heat-dissipating pipe,The device is radiated using multistage,The heat distributed concentration can be avoided to lead to the reduction of device radiation effect,It simultaneously can be under the premise of ensureing thermal current flowing,Keep device radiation ability stronger.

Description

A kind of ring type multi-stage heat pipe combined heat radiator

Technical field

The utility model is related to radiator field, specially a kind of ring type multi-stage heat pipe combined heat radiator.

Background technology

Radiator is hot water（Or steam）Important in heating system, basic building block.Hot water drops in radiator Temperature（Or steam condenses in radiator）To indoor heating, achieve the purpose that heating.The metal consumption and cost of radiator are being adopted Occupy sizable ratio in heating system, therefore, the correct of radiator selects the economic indicator and operational effect for being related to system.

The heat transfer coefficient of same material radiator is higher, and thermal property is better.It can be used and increase outer wall heat dissipation area（Add The wing（Rib）Piece）, improve radiator surrounding air flowing velocity（Such as steel slice radiator covering）, strong radiator outer surface Radiation intensity（As outer surface is decorated with the high coating of radiation coefficient）Between reduction radiator each section（Such as steel slice radiator Steel pipe and string piece）The measures such as thermal contact resistance improve the thermal property of radiator.

Radiator is divided into radiator and convector radiator by heat exchange mode.The heat loss through convection amount of convector radiator is almost 100% is accounted for, sometimes referred to as " convector "；There is other radiators simultaneously with convection current and heat loss through radiation for opposite convector radiator When be called " radiator ".Radiator is divided into the radiator of cast-iron radiator, steel radiator and other materials by material.Other Material radiator includes the radiator of the materials such as aluminium, copper, steel combined with aluminum, Copper-Aluminum compound, stainless steel combined with aluminum and enamel.

In some specific occasions, need to circularize radiator setting, existing ring type radiator generally includes one Ring type endothermic tube, and multiple connecting holes are provided on ring type endothermic tube, it is respectively connected with heat-dissipating pipe in connecting hole so that device energy Enough reach good heat dissipation effect

But existing ring type radiator has the following defects：

（1）Existing ring type radiator can distribute heat in same panel region so that this panel region temperature in heat dissipation Degree increases, and eventually leads to the heat dissipation effect of device and reduces；

（2）The heat-dissipating pipe quantity of existing ring type radiator should not be excessive, otherwise can influence the circulation of thermal current so that heat Amount can not be spread out in time, still, also limit the heat-sinking capability of device in this way.

Invention content

In order to overcome the shortcomings of that prior art, the utility model provide a kind of ring type multi-stage heat pipe combined heat radiator, The device is radiated using multistage so that heat will not be dispersed into the same area, and the heat distributed concentration can be avoided to lead to device Heat dissipation effect reduce, meanwhile, it is capable to ensure thermal current flowing under the premise of, increase the quantity of heat-dissipating pipe, make device dissipate Thermal energy power is stronger, can effectively solve the problem that the problem of background technology proposes.

Technical solution adopted by the utility model to solve its technical problems is：

A kind of ring type multi-stage heat pipe combined heat radiator, including several are uniformly distributed and concentric first ring type endothermic tube With the second ring type endothermic tube, the first ring type endothermic tube and the second ring type endothermic tube are arranged alternately, and the first adjacent ring type It is fixedly connected by several connecting rods between endothermic tube and the second ring type endothermic tube；

The top of the first ring type endothermic tube and the second ring type endothermic tube be connected separately with several equally distributed One heat-dissipating pipe and the first heat conducting pipe, and it is respectively arranged with third ring right over the first ring type endothermic tube and the second ring type endothermic tube The bottom end of formula endothermic tube and the 4th ring type endothermic tube, the third ring type endothermic tube and the 4th ring type endothermic tube respectively with it is corresponding First heat-dissipating pipe and the first heat conducting pipe are fixedly connected, and the top of third ring type endothermic tube and the 4th ring type endothermic tube is separately connected There are several equally distributed second heat conducting pipes and the second heat-dissipating pipe.

Further, it is both provided with the suction of terminal ring type right over the third ring type endothermic tube and the 4th ring type endothermic tube Heat pipe, and the bottom end of terminal ring type endothermic tube is fixedly connected with corresponding second heat conducting pipe and the second heat-dissipating pipe.

Further, the top of the terminal ring type endothermic tube is respectively connected with several equally distributed heat dissipation of terminal pipes.

Further, the number of the heat dissipation of terminal pipe is 2-4 times of the sum of the second heat-dissipating pipe, the second heat conducting pipe number, And the sum of the number of second heat-dissipating pipe, the second heat conducting pipe is 2-4 times of the sum of the first heat-dissipating pipe, the first heat conducting pipe number.

Further, the surface of first heat-dissipating pipe, the second heat-dissipating pipe and heat dissipation of terminal pipe is both provided with heat bulge.

Compared with prior art, the utility model has the beneficial effects that：

（1）The utility model is using the multistage form to radiate so that heat, which will not be concentrated, is dispersed into a panel region so that dress The heat dissipation effect set will not be reduced because of the raising of peripheral region temperature；

（2）The utility model can increase the number of heat-dissipating pipe under the premise of ensureing that thermal current smoothly circulates so that dress The heat-sinking capability set is stronger.

Description of the drawings

Fig. 1 is the global sections structural schematic diagram of the utility model；

Fig. 2 is the first ring type endothermic tube overlooking structure diagram of the utility model；

Fig. 3 is the third ring type endothermic tube overlooking structure diagram of the utility model；

Fig. 4 is the terminal ring type endothermic tube overlooking structure diagram of the utility model.

Figure label：

1- the first ring type endothermic tubes；2- the second ring type endothermic tubes；3- connecting rods；The first heat-dissipating pipes of 4-；The first heat conducting pipes of 5-； 6- third ring type endothermic tubes；The 4th ring type endothermic tubes of 7-；The second heat conducting pipes of 8-；The second heat-dissipating pipes of 9-；10- terminal ring types are absorbed heat Pipe；11- heat dissipation of terminal pipes；12- heat bulges.

Specific implementation mode

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work The every other embodiment obtained, shall fall within the protection scope of the present invention.

As shown in Figures 1 to 4, the utility model provides a kind of ring type multi-stage heat pipe combined heat radiator, including several It is uniformly distributed and concentric first ring type endothermic tube 1 and the second ring type endothermic tube 2, the first ring type endothermic tube 1 and the second ring type Endothermic tube 2 is for absorbing the heat for waiting for heat dissipation equipment, and the first ring type endothermic tube 1 and the second ring type endothermic tube 2 are arranged alternately, and phase It is fixedly connected by several connecting rods 3 between adjacent the first ring type endothermic tube 1 and the second ring type endothermic tube 2 so that first Ring type endothermic tube 1 and the second ring type endothermic tube 2 can be fixed.

The top of first ring type endothermic tube 1 and the second ring type endothermic tube 2 be connected separately with several equally distributed first Heat-dissipating pipe 4 and the first heat conducting pipe 5, and the surface of the first ring type endothermic tube 1 and the second ring type endothermic tube 2 is respectively arranged with third The bottom end of ring type endothermic tube 6 and the 4th ring type endothermic tube 7, third ring type endothermic tube 6 and the 4th ring type endothermic tube 7 respectively with it is corresponding The first heat-dissipating pipe 4 be fixedly connected with the first heat conducting pipe 5.

First ring type endothermic tube 1 and the second ring type endothermic tube 2 after absorbing heat, the first ring type endothermic tube 1 absorb Heat can pass through the first heat-dissipating pipe 4 and conduct to third ring type endothermic tube 6, and can be by part heat during heat conducts Amount is distributed by the first heat-dissipating pipe 4, and the heat that the second ring type endothermic tube 2 absorbs can be largely through the first heat conducting pipe 5 To the 4th ring type endothermic tube 7, only fraction distributes for conduction.

The top of third ring type endothermic tube 6 and the 4th ring type endothermic tube 7 be connected separately with several equally distributed second The surface of heat conducting pipe 8 and the second heat-dissipating pipe 9, third ring type endothermic tube 6 and the 4th ring type endothermic tube 7 is both provided with terminal ring type Endothermic tube 10, and the bottom end of terminal ring type endothermic tube 10 is fixedly connected with 8 and second heat-dissipating pipe 9 of corresponding second heat conducting pipe.

Third ring type endothermic tube 6, can be by the second heat conducting pipe 8 by this part after absorbing and distributing primary heat Heat is conducted to terminal ring type endothermic tube 10, and the 4th ring type endothermic tube 7 can will distribute seldom heat absorption, and through second Heat-dissipating pipe 9 is conducted to terminal ring type endothermic tube 10, and distributes most of heat during conduction.

The top of terminal ring type endothermic tube 10 is respectively connected with several equally distributed heat dissipation of terminal pipes 11 so that each to pass through The after-heat of conduction to terminal ring type endothermic tube 10 can be distributed by heat dissipation of terminal pipe 11 after the radiation processes of side, be made It obtains device distributing when the heat of heat dissipation equipment, release can be classified so that the heat distributed will not be gathered in same section Domain can increase the reduction for leading to device radiation effect with avoiding device peripheral region heat, meanwhile, first be arranged alternatively up and down Heat-dissipating pipe 4, the first heat conducting pipe 5, the second heat conducting pipe 8 and the second heat-dissipating pipe 9 can be such that heat alternately distributes, can be to avoid influencing The flowing of thermal current so that under the premise of ensureing thermal current circulation more heat-dissipating pipes can be arranged so that device in device Heat-sinking capability is stronger, certainly, heat dissipation equipment is waited for for different, more stages can be arranged according to this classification heat dissipating method, make It is more preferable to obtain device radiation effect.

The number of heat dissipation of terminal pipe 11 is 2-4 times of the sum of the second heat-dissipating pipe 9, second 8 numbers of heat conducting pipe, and second radiates Pipe 9, the second heat conducting pipe 8 the sum of number be 2-4 times of the sum of the first heat-dissipating pipe 4, first 5 numbers of heat conducting pipe so that device dissipates The heat of hair increases successively from bottom to up, the heat dissipation effect at the top of device can be made to reduce to avoid thermal current ascension.

The surface of first heat-dissipating pipe 4, the second heat-dissipating pipe 9 and heat dissipation of terminal pipe 11 is both provided with heat bulge 12, and heat dissipation is convex The contact area of the first heat-dissipating pipe 4, the second heat-dissipating pipe 9, heat dissipation of terminal pipe 11 and air can be increased by playing 12, make the heat dissipation of device Speed is faster.

It is obvious to a person skilled in the art that the present invention is not limited to the details of the above exemplary embodiments, and And without departing substantially from the spirit or essential attributes of the utility model, it can realize that this practicality is new in other specific forms Type.Therefore, in all respects, the present embodiments are to be considered as illustrative and not restrictive, this practicality is new The range of type is indicated by the appended claims rather than the foregoing description, it is intended that containing in the equivalent requirements of the claims will be fallen All changes in justice and range are embraced therein.Any reference numeral in claim should not be considered as limitation Involved claim.

Claims (5)

1. a kind of ring type multi-stage heat pipe combined heat radiator, it is characterised in that：It is uniformly distributed including several and concentric first Ring type endothermic tube（1）With the second ring type endothermic tube（2）, the first ring type endothermic tube（1）With the second ring type endothermic tube（2）Alternately Setting, and the first adjacent ring type endothermic tube（1）With the second ring type endothermic tube（2）Between pass through several connecting rods（3）Gu Fixed connection；

The first ring type endothermic tube（1）With the second ring type endothermic tube（2）To be connected separately with several equally distributed on top First heat-dissipating pipe（4）With the first heat conducting pipe（5）, and the first ring type endothermic tube（1）With the second ring type endothermic tube（2）Surface point It is not provided with third ring type endothermic tube（6）With the 4th ring type endothermic tube（7）, the third ring type endothermic tube（6）With the 4th ring type Endothermic tube（7）Bottom end respectively with corresponding first heat-dissipating pipe（4）With the first heat conducting pipe（5）It is fixedly connected, and third ring type is inhaled Heat pipe（6）With the 4th ring type endothermic tube（7）Top be connected separately with several equally distributed second heat conducting pipes（8）With second Heat-dissipating pipe（9）.

2. a kind of ring type multi-stage heat pipe combined heat radiator according to claim 1, it is characterised in that：The third ring type is inhaled Heat pipe（6）With the 4th ring type endothermic tube（7）Surface be both provided with terminal ring type endothermic tube（10）, and terminal ring type endothermic tube （10）Bottom end with corresponding second heat conducting pipe（8）With the second heat-dissipating pipe（9）It is fixedly connected.

3. a kind of ring type multi-stage heat pipe combined heat radiator according to claim 2, it is characterised in that：The terminal ring type is inhaled Heat pipe（10）Top be respectively connected with several equally distributed heat dissipation of terminal pipes（11）.

4. a kind of ring type multi-stage heat pipe combined heat radiator according to claim 3, it is characterised in that：The heat dissipation of terminal pipe （11）Number be the second heat-dissipating pipe（9）, the second heat conducting pipe（8）2-4 times of the sum of number, and the second heat-dissipating pipe（9）, second lead Heat pipe（8）The sum of number be the first heat-dissipating pipe（4）, the first heat conducting pipe（5）2-4 times of the sum of number.

5. a kind of ring type multi-stage heat pipe combined heat radiator according to claim 1, it is characterised in that：First heat-dissipating pipe （4）, the second heat-dissipating pipe（9）With heat dissipation of terminal pipe（11）Surface be both provided with heat bulge（12）.