Intel corporation (20240175640). VARIABLE DIMENSION HEAT PIPE simplified abstract
VARIABLE DIMENSION HEAT PIPE
Organization Name
Inventor(s)
Santosh Gangal of Bengaluru (IN)
Akarsha Kadadevaramath of Santa Clara CA (US)
Raghavendra S. Kanivihalli of Bangalore (IN)
Prakash Kurma Raju of Bangalore (IN)
Navneet Singh of Bangalore (IN)
Sarma Vmk Vedhanabhatla of Bengaluru (IN)
VARIABLE DIMENSION HEAT PIPE - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240175640 titled 'VARIABLE DIMENSION HEAT PIPE
Simplified Explanation
The abstract describes a heat pipe with a variable dimension exoskeleton formed using blow molding or additive manufacturing. The exoskeleton consists of two portions with different dimensions.
- The heat pipe exoskeleton is made of a heat-conductive material.
- The exoskeleton has a first portion with a dimension of a first value and a second portion with a dimension of a second value different from the first value.
Potential Applications
The variable dimension heat pipe exoskeleton could be used in various thermal management systems, such as in electronics, aerospace, and automotive industries.
Problems Solved
This technology allows for more efficient heat transfer and thermal management due to the variable dimension exoskeleton, which can adapt to different heat dissipation requirements.
Benefits
- Improved heat transfer efficiency
- Customizable thermal management solutions
- Enhanced performance and reliability of electronic devices
Potential Commercial Applications
- Heat sinks for electronic devices
- Cooling systems for electric vehicles
- Thermal control systems for satellites
Possible Prior Art
One possible prior art could be traditional heat pipes with fixed dimensions, which may not offer the same level of flexibility and adaptability as the variable dimension heat pipe described in the patent application.
Unanswered Questions
How does the variable dimension exoskeleton impact the overall performance of the heat pipe?
The abstract does not provide specific details on how the variable dimension exoskeleton affects the heat pipe's efficiency and effectiveness in thermal management applications.
What are the limitations of using blow molding or additive manufacturing for forming the heat pipe exoskeleton?
The abstract does not address any potential challenges or drawbacks associated with using these manufacturing processes for creating the variable dimension heat pipe exoskeleton.
Original Abstract Submitted
a heat pipe, including: a variable dimension heat pipe exoskeleton formed of a heat-conductive material by blow molding or additive manufacturing, wherein the variable dimension heat pipe exoskeleton including: a first heat pipe exoskeleton portion with a dimension having a first value; and a second heat pipe exoskeleton portion with the dimension having a second value different from the first value. further, a method of manufacturing a heat pipe, including: providing a heat-conductive material; and performing blow molding or additive manufacturing to form a variable dimension heat pipe exoskeleton of the heat-conductive material, wherein the heat pipe exoskeleton has a first heat pipe exoskeleton portion with a dimension having a first value, and a second heat pipe exoskeleton portion with the dimension having a second value different from the first value.