| Patent Number |
Title Of Patent |
Date Issued |
| RE40512 |
Acoustic convection apparatus |
September 23, 2008 |
| A convective cooling apparatus cools an electronic device including at least one heat-generating component and enclosed in a case having cooling medium such as air or fluid therein. The convective cooling apparatus neither attempts to increase the velocity of flow in the cooling medium |
| 7178584 |
Plasma polymerization enhancement of surface of metal for use in refrigerating and air condition |
February 20, 2007 |
| According to the present invention, there is provided a plasma polymerization surface modification of a metal for enhancing its applicability for use in refrigerating and air conditioning such as in constructing heat exchanges, by using a DC discharge plasma, comprising the steps of: |
| 6411508 |
Foam metal heat sink |
June 25, 2002 |
| The present invention relates to a heat sink, and in particular to a light foam metal heat sink which is capable of significantly enhancing a foam metal heat sink performance. In the present invention, there is provided a foam metal heat sink installed at an outer portion of a heat gener |
| 6405794 |
Acoustic convection apparatus |
June 18, 2002 |
| A convective cooling apparatus cools an electronic device including at least one heat-generating component and enclosed in a case having cooling medium such as air or fluid therein. The convective cooling apparatus neither attempts to increase the velocity of flow in the cooling medium |
| 6338258 |
Regenerative evaporative cooler |
January 15, 2002 |
| A regenerative evaporative cooler, designed to improve the cooling efficiency of its regenerative evaporative cooling unit, is disclosed. In the cooler of this invention, the cooling unit consists of a dry channel and a wet channel arranged to closely come into contact with each other. |
| 6162513 |
Method for modifying metal surface |
December 19, 2000 |
| A process for modifying a metal surface by irradiating energized ion particles onto a metal surface while blowing a reactive gas directly on the metal surface under a vacuum condition. The process can achieve the effect of decreasing the wetting angle of the polymer or metal surface and |
| 6142222 |
Plate tube type heat exchanger having porous fins |
November 7, 2000 |
| A plate tube type heat exchanger using porous fins is manufactured of foamed metal. The porous fins used for the plate tube type heat exchanger are formed of a foamed metal such as aluminum or copper having a high thermal conductivity. The plate tube type heat exchanger using such porous |
