US2022018609A1PendingUtilityA1

Three-dimensional heat dissipating device

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Assignee: AURAS TECHNOLOGY CO LTDPriority: Jul 20, 2020Filed: Jun 28, 2021Published: Jan 20, 2022
Est. expiryJul 20, 2040(~14 yrs left)· nominal 20-yr term from priority
F28F 2215/04F28F 1/12F28D 15/04F28F 9/26F28D 15/046F28F 3/02F28D 15/0283F28D 15/0275F28F 1/32F28D 15/0233F28F 2215/08H05K 7/2039F28F 2230/00
68
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Claims

Abstract

A three-dimensional heat dissipating device includes a vapor chamber, a heat pipe and a working fluid. The vapor chamber includes an inner cavity, a first capillary structure disposed within the inner cavity, and a first joint connected with the inner cavity. The heat pipe includes a pipe body, a second capillary structure, and a second joint disposed at the pipe body and connected to the first joint, such that a pipe space of the pipe body is in communication with the inner cavity. The second capillary structure includes a first section and a second section. The first section is fixedly disposed within a pipe space and connected to the second section. The second section is curvedly extended from one end of the first section, and connected to the first capillary structure. The working fluid is filled within the pipe space and the inner cavity.

Claims

exact text as granted — not AI-modified
What is claimed is: 
     
         1 . A three-dimensional heat dissipating device, comprising:
 a vapor chamber comprising an inner cavity, a first capillary structure and at least one first joint, the first capillary structure disposed within the inner cavity, and the at least one first joint that is in communication with the inner cavity;   at least one heat pipe provided with a pipe body, a second capillary structure and at least one second joint, the pipe body having a pipe space therein, the at least one second joint that is disposed at one end of the pipe body and connected to the at least one first joint, such that the pipe space is in communication with the inner cavity, the second capillary structure comprising a first section and at least one second section, the first section fixedly disposed within the pipe space of the pipe body and connected to the second section, and the second section curvedly extended from one end of the first section, disposed within the inner cavity, and connected to the first capillary structure; and   a working fluid filled within the pipe space and the inner cavity for being guided to flow by the first capillary structure and the second capillary structure.   
     
     
         2 . The three-dimensional heat dissipating device of  claim 1 , wherein the vapor chamber comprises a cover body and a case body which are sealed to each other so as to form the inner cavity between the cover body and the case body, wherein the at least one first joint is formed on a top surface of the cover body, and the first capillary structure comprises a first plate, the first plate is directly formed on one surface of the case body facing towards the cover body. 
     
     
         3 . The three-dimensional heat dissipating device of  claim 2 , wherein the first plate of the first capillary structure is directly sandwiched between the case body and the at least one second section of the second capillary structure. 
     
     
         4 . The three-dimensional heat dissipating device of  claim 2 , wherein the first capillary structure comprises a second plate, and the second plate is directly formed on one surface of the cover body facing towards the case body; and
 one part of the first section of the second capillary structure is located within the inner cavity, and in contact with the first plate or the second plate of the first capillary structure.   
     
     
         5 . The three-dimensional heat dissipating device of  claim 1 , wherein the at least one second joint is sleeved to surround the at least one first joint, and the at least one second joint is directly contacted with the vapor chamber. 
     
     
         6 . The three-dimensional heat dissipating device of  claim 5 , further comprising:
 at least one solder bonding portion surrounding a periphery of the at least one first joint, and the at least one solder bonding portion closely filled within a slit defined among the at least one first joint, the at least one second joint and the vapor chamber.   
     
     
         7 . The three-dimensional heat dissipating device of  claim 5 , wherein the at least one second joint is connected to and surrounds the end of the pipe body, and the at least one second joint gradually expands outwardly from the end of the pipe body radially in a direction facing away from the pipe body and the at least one first joint such that the at least one second joint surrounds to form a cone-shaped space,
 wherein a maximum diameter of the cone-shaped space is greater than a maximum diameter of the pipe space.   
     
     
         8 . The three-dimensional heat dissipating device of  claim 1 , further comprising:
 a fin assembly comprising a plurality of heat-dissipation fins, and the heat-dissipation fins which are spaced arranged abreast and parallel to one another, and penetrated by the at least one heat pipe simultaneously.   
     
     
         9 . The three-dimensional heat dissipating device of  claim 1 , wherein the at least one heat pipe is in one of a linear shape, an L-type and a U-type. 
     
     
         10 . The three-dimensional heat dissipating device of  claim 1 , further comprising:
 two first fin assemblies spaced arranged on the vapor chamber, each of the first fin assemblies comprising a plurality of first heat-dissipation fins, wherein the at least one heat pipe is plural, and each of the at least one heat pipes is provided with a long axis direction that is perpendicularly passed through a top surface of the vapor chamber, the first heat-dissipation fins are spaced arranged abreast along the long axis direction, and the heat pipes comprise at least one first heat pipe and at least one second heat pipe, the first heat-dissipation fins of one of the two first fin assemblies are vertically penetrated through by the at least one first heat pipe simultaneously, and the first heat-dissipation fins of the other of the two first fin assemblies are vertically penetrated through by the at least one second heat pipe simultaneously; and   a second fin assembly comprising a trapezoidal body between the two first fin assemblies, and the trapezoidal body comprising a plurality of second heat-dissipation fins, and the second heat-dissipation fins are spaced arranged abreast on the vapor chamber along a traversal direction orthogonal to the long axis direction,   wherein the trapezoidal body comprises a top portion, a bottom portion, and two inclined portions that are opposite to each other, the bottom portion is opposite to the top portion and fixedly connected to the vapor chamber, the top portion is located between the inclined portions, a void gap is formed between each of the two inclined portions and one adjacent of the two first fin assemblies.   
     
     
         11 . The three-dimensional heat dissipating device of  claim 10 , wherein a first gap is formed between any two adjacent ones of the first heat-dissipation fins, and a second gap is formed between the vapor chamber and one of the first heat-dissipation fins being adjacent to the vapor chamber, wherein the second gap is greater than the first gap. 
     
     
         12 . The three-dimensional heat dissipating device of  claim 1 , wherein the at least one first joint is two in number;
 the at least one heat pipe is one in number, the at least one second joint is two in number, and the second joints are located at two opposite ends of the at least one heat pipe, wherein each of the second joints of the at least one heat pipe is sleeved to surround the corresponding one of the first joints; and   the at least one second section of the second capillary structure is two in number, the at least one second section are connected to two opposite ends of the first section, respectively, wherein the second sections are respectively connected to the first capillary structure in the inner cavity.   
     
     
         13 . The three-dimensional heat dissipating device of  claim 1 , further comprising:
 a third fin assembly comprising a top portion and a bottom portion being opposite to each other, the bottom portion that is connected to a top surface of the vapor chamber,   the third fin assembly comprising a plurality of third heat-dissipation fins, the third heat-dissipation fins that are spaced arranged abreast along a longitudinal direction orthogonal to a normal direction of the top surface of the vapor chamber,   wherein the at least one heat pipe is in a U type, and one part of the at least one heat pipe is disposed on the top portion of the third fin assembly, and the other part of the at least one heat pipe extends into the third heat-dissipation fins from the top portion of the third fin assembly.   
     
     
         14 . The three-dimensional heat dissipating device of  claim 1 , further comprising:
 a third fin assembly disposed on the vapor chamber, comprising a plurality of third heat-dissipation fins spaced arranged abreast along a longitudinal direction orthogonal to a normal direction of a top surface of the vapor chamber; and   a fourth fin assembly stacked on the third fin assembly, and comprising a plurality of fourth heat-dissipation fins spaced arranged abreast along the longitudinal direction,   wherein the at least one heat pipe is in a U type, and disposed within the third fin assembly and the fourth fin assembly.   
     
     
         15 . The three-dimensional heat dissipating device of  claim 1 , further comprising:
 a third fin assembly comprising a top portion and a bottom portion being opposite to each other, the bottom portion that is connected to a top surface of the vapor chamber,   the third fin assembly comprising a plurality of third heat-dissipation fins, the third heat-dissipation fins that are spaced arranged abreast along a longitudinal direction orthogonal to a normal direction of the top surface of the vapor chamber,   wherein the at least one heat pipe is in an L type, and one part of the at least one heat pipe is disposed on the top portion of the third fin assembly, and the other part of the at least one heat pipe extends into the third heat-dissipation fins from the top portion of the third fin assembly.   
     
     
         16 . The three-dimensional heat dissipating device of  claim 1 , further comprising:
 a third fin assembly disposed on the vapor chamber, comprising a plurality of third heat-dissipation fins spaced arranged abreast along a longitudinal direction orthogonal to a normal direction of a top surface of the vapor chamber; and   a fourth fin assembly stacked on the third fin assembly, and comprising a plurality of fourth heat-dissipation fins spaced arranged abreast along the longitudinal direction,   wherein the at least one heat pipe is in an L type, and disposed within the third fin assembly and the fourth fin assembly.

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