A kind of radiator
[technical field]
The present invention relates to a kind of radiator.
[background technology]
Past radiator adopts aluminium base to add radiating fin, the little radiating effect of this heat radiation powerPoor, people coordinated heat pipe to dispel the heat with radiating fins after having invented heat pipe afterwards, heat radiation effectFruit has got well a lot, but needs the more cost that causes of radiating fin high, complex structure, and also looseThe thermal resistance of hot fin is still larger, radiating effect or not ideal.
[summary of the invention]
In order to solve deficiency of the prior art, provide a kind of simple in structure, good heat dissipation effectRadiator.
The technical solution adopted in the present invention is:
A kind of radiator, comprises the base plate for thermal source is installed, on described base plate, be provided with byAmount of localized heat on described base plate is delivered to the heat pipe of whole base plate, described base plate and described inHeat pipe be provided with and absorb the heat on base plate and be dispersed into airborne pulsating heat pipe, describedPulsating heat pipe is that some ring pipes are arranged on described base plate, or described pulsating heat pipeBe that an end to end spiral element and annular are arranged on described base plate, on institute's base plateBe provided with mounting groove, described heat pipe is located in described mounting groove, is provided with logical on described base plateCross the mounting groove of the heated part on described base plate, described heat pipe is located at described mounting grooveIn, on described base plate, being provided with some holddown grooves, described holddown groove is for fixing describedPulsating heat pipe, described pulsating heat pipe be placed in described holddown groove and described base plate and described inHeat pipe contact.
On described base plate, be provided with the through hole that can allow thermal source directly contact with described heat pipe.
Described mounting groove is snakelike, and described heat pipe is filled full whole mounting groove.
Described holddown groove is radial.
The rounded array of described pulsating heat pipe is on described base plate.
Adopt technique scheme can solve deficiency of the prior art, make simple in structure,Adopt heat pipe to coordinate aluminium base heat radiation, good heat dissipation effect.
[brief description of the drawings]
Fig. 1 is three-dimensional view of the present invention.
Fig. 2 is explosive view of the present invention.
Fig. 3 is that base plate of the present invention is faced view.
[detailed description of the invention]
Radiator as depicted in figs. 1 and 2, includes base plate 1, heat pipe 2 and pulsating heat pipe3. Base plate 1 is provided with heat pipe 2, and arranging like this can be fast by the local heating on base plate 1The heat of point is delivered on whole monoblock base plate 1 fast, is also provided with pulsating heat pipe on base plate 13, pulsating heat pipe 3 will fall apart in the backward air of heat on base plate 1 and heat pipe 2Heat. Pulsating heat pipe 3 is some single end to end ring pipes, is arranged on base plate 1,Its spread pattern can be circular array or rectangular array.
Pulsating heat pipe 3 can be also that a spiral element is located on base plate 1, and the arteries and veins of this formIt is moving that heat pipe 3 is end to end and annular is arranged on base plate 1.
Base plate 1 is provided with mounting groove 4 as shown in Figure 3, and it is large that mounting groove 4 occupies whole base plate 1Part area and can have any shape, in embodiment, mounting groove 4 is snakelike, and design is not like thisOnly can make mounting groove pass through abundant region and also install heat pipe 2 also more convenient, and installGroove 4 is by the heated part on base plate 1. Heat pipe 2 is covered with at mounting groove 4 as shown in Figure 1,Because mounting groove 4 occupies most of area of whole base plate 1, so heat pipe 2 is covered with mounting grooveAfter 4, the heat of absorption can be delivered on monoblock base plate 1, because heat pipe 2 is directly the end of throughHeated part on plate 1, can be delivered to the heat of heated part on base plate 1 so fastBase plate 1 other position. On base plate, be also provided with as shown in Figure 3 some holddown grooves 5, holddown grooveThe 5th, be used for installing fixing pulsating heat pipe, the spread pattern of holddown groove 5 and pulsating heat pipe 3 HesBase plate 1 contact portion spread pattern is the same, like this holddown groove on pulsating heat pipe 3 and base plate 1The long-pending larger heat-transfer effect of 5 contacts contact face is better, and pulsating heat pipe 3 is located in holddown groove 5Can make the direct thermal contact conductance effect of pulsating heat pipe 3 and heat pipe 2 increase. Holddown groove in Fig. 35 are radial, and this shape just in time matches with the rounded array of pulsating heat pipe 3. Holddown groove5 shapes of arranging are determined according to the spread geometry of pulsating heat pipe 3.
On base plate 1, through hole 6 can also be set as shown in Figure 3, these through hole 6 positive benefits in positionAt heat source position, and heat pipe 2 is through these through holes 6, and thermal source installs can be directly and heat pipe 2Contact, is with the difference that through hole 6 is not set: through hole 6 is set can be by direct the heat of thermal sourceBe delivered on heat pipe and be then delivered to towards periphery on whole base plate 1 by heat pipe 2, this heat transfer effectFruit is better, and thermal source just need to conduct heat by base plate 1 right to heat pipe 2 in the time through hole 6 not being setAfter be delivered to whole base plate 1 by heat pipe 2 again, conduct heat slow and thermal resistance is large.