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Transformer with heat conductive glue auxiliary radiation

A technology for auxiliary heat dissipation and thermal conductive glue, applied in the field of transformers, can solve the problems of high efficiency, reduced contact area and high coil temperature affecting the life of the transformer

Inactive Publication Date: 2004-03-24
DELTA ELECTRONICS INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] In the known transformer, since the contact area between the coil and the core is very limited, the coil cannot effectively transfer the generated heat to the core through the contact area for heat dissipation
There will inevitably be a gap between the coil and the core during the winding process, and the contact area between the two will be smaller, which will further reduce the overall heat dissipation performance of the transformer, which is already very cramped and limited.
[0007] Therefore, when the known transformer is in operation, because the heat dissipation performance is affected by the extremely limited contact area between the coil and the core, the problem of high coil temperature often occurs.
The low heat dissipation efficiency leads to high temperature accumulation, which directly affects the life and efficiency of the transformer and its peripheral electronic devices

Method used

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  • Transformer with heat conductive glue auxiliary radiation
  • Transformer with heat conductive glue auxiliary radiation
  • Transformer with heat conductive glue auxiliary radiation

Examples

Experimental program
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Effect test

no. 1 example

[0030] image 3 It is a schematic structural diagram of a transformer with heat-conducting glue to assist heat dissipation according to the first embodiment of the present invention. Please refer to image 3 , in this embodiment, the transformer 200 with heat-conducting glue for auxiliary heat dissipation is mainly composed of a hollow body 202 , a core 204 , a coil 206 and a heat-conducting glue 218 . Wherein, the core 204 is disposed in the hollow body 202 , and the coil 206 is wound on the core 204 , and the heat-conducting adhesive 218 is disposed in the hollow body 202 to cover the core 204 and the coil 206 . In addition, in the transformer 200 with heat-conducting glue to assist heat dissipation in this embodiment, the hollow body 202 and the core 204 are integrally formed, for example, and the material of the two is, for example, ferroceramic, and the coil 206 is, for example, enameled wire, and the thermal conductivity of the heat-conducting glue 218 is greater than ...

no. 2 example

[0035] Figure 5 It is a schematic structural diagram of a transformer with heat-conducting glue to assist heat dissipation according to the second embodiment of the present invention. Please refer to Figure 5 , in this embodiment, the transformer 300 with heat-conducting glue for auxiliary heat dissipation is mainly composed of a hollow body 302 , a core 304 , a coil 306 and a heat-conducting glue 318 . Wherein, the core 304 is disposed in the hollow body 302, and the coil 306 is wound on the core 304, and the thermal conductive adhesive 318 covers the entire hollow main body 302, the core 304 and the coil 306, so that the thermal conductive adhesive 318 can be directly Conduct heat to the outside for dissipation. In addition, in the transformer 300 with heat-conducting glue to assist heat dissipation in this embodiment, the hollow body 302 and the core 304 are integrally formed, for example, and the material of the two is, for example, ferroceramic, and the coil 306 is, f...

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Abstract

A transformer with additional radiation by heat conduction glue is mainly composed of an engraved body, a core, a coil and a heat conducting film among which, the core is allocated in the engraved body, the coil is winded on the core and the glue is arranged in the body wrapping the core and the coil. This invention also can wrap the entire engrave body, core and the coil with the heat conductingglue to lead outside directly the heat generated by the coil.

Description

technical field [0001] The present invention relates to a transformer, and in particular to a transformer with heat-conducting glue for auxiliary heat dissipation. Background technique [0002] With the advancement of the communication industry, various communication products and their servo architectures are also developing towards multi-functions. Taking mobile phones with the highest penetration rate as an example, when users use mobile phones, they must transmit calls to and from base stations. Since the general base station is usually installed on the roof of the building, the base station equipment is designed to prevent rainwater or external dust from easily entering the equipment, so the shell will use a structural design that prevents rainwater and dust from entering the equipment. However, such a structural design usually makes There is no obvious airflow flowing inside the base station, so the inside of the base station can be regarded as a closed space. Obviously...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01F27/00H01F27/08H01F30/06
Inventor 游文龙陈盈源
Owner DELTA ELECTRONICS INC