An electric heating module includes an electric heater (10), a heat pipe (20) having an evaporating section (22) thermally attached to the electric heater and a condensing section (24), and at least one heat radiator (30, 40) thermally attached to the condensing section. The electric heater includes
An electric heating module includes an electric heater (10), a heat pipe (20) having an evaporating section (22) thermally attached to the electric heater and a condensing section (24), and at least one heat radiator (30, 40) thermally attached to the condensing section. The electric heater includes a pair of electrode plates (12, 14) and a heating element (16) sandwiched between and electrically connecting the electrode plates. An insulation frame (19) encloses the electrode plates therein for electrically insulating the electric heater from the heat radiator. For the non-linear PTC heating element, the electric heater can rapidly heat up to and stay at a desired stable temperature. The heat pipe can transfer heat from the electric heater to the heat radiator rapidly and timely by phase change.
대표청구항▼
What is claimed is: 1. An electric heating module comprising: an electric heater comprising: a pair of electrode plates parallel to each other; a PTC (positive temperature coefficient) heating element sandwiched between and electrical connecting the electrode plates; and an electrically-insulating
What is claimed is: 1. An electric heating module comprising: an electric heater comprising: a pair of electrode plates parallel to each other; a PTC (positive temperature coefficient) heating element sandwiched between and electrical connecting the electrode plates; and an electrically-insulating and thermally-conductive insulation frame enclosing the electrode plates therein; a heat pipe having an evaporating section thermally attached to the electric heater and a condensing section; and at least one heat radiator thermally attached to the condensing section of the heat pipe. 2. The electric heating module as claimed in claim 1, wherein the heat pipe is a loop heat pipe. 3. The electric heating module as claimed in claim 2, wherein the heat pipe includes a planar shaped outer surface contacting the at least one heat radiator. 4. The electric heating module as claimed in claim 1, wherein the heating element comprises a plurality of heating sheets stacked together, two neighboring ones of the heating sheets are electrically connected the electrode plates, respectively. 5. The electric heating module as claimed in claim 1, wherein a slot is defined in at least one of the electrode plates receiving the heating element therein. 6. The electric heating module as claimed in claim 1, wherein the heat radiator comprises a base defining a notch receiving the electric heater therein and a plurality of fins extending therefrom. 7. The electric heating module as claimed in claim 6, wherein the base defines a groove receiving the heat pipe therein, the groove communicates the notch. 8. The electric heating module as claimed in claim 6, wherein the fins are arc shaped and parallel to each other, an arc shaped airflow channel is formed between each two neighboring fins. 9. The electric heating module as claimed in claim 8, further comprising a fan arranged at a side communicating with the airflow channels of the heat radiator for generating airflow. 10. The electric heating module as claimed in claim 1, wherein the at least one heat radiator comprises a first and second heat radiator thermally attaching to two opposite walls of the electric heater, a plurality of hooks extends from each heat radiator and engages with the corresponding hooks of the other heat radiator of the first and second heat radiators. 11. The electric heating module as claimed in claim 1, wherein the heating element comprises an electric layer formed on each of two opposite sides thereof for electrically connecting the electrode plates, the electric layers are made of one of the following materials: metal, metal oxide and superconducting materials. 12. The electric heating module as claimed in claim 11, wherein the metal oxide is selected from ITO-based materials or IZO-based materials. 13. The electric heating module as claimed in claim 12, wherein the superconducting material is selected from one of the following materials: Yba2Cu3O7, LaSr2Cu3O7 and their composites. 14. An electric heating module comprising: a PTC (positive temperature coefficient) heating element; electrode plates electrically connecting with the PTC heating element for supplying a current to the PTC heating element; a heat pipe thermally connecting with the PTC heating element whereby heat generated by the PTC heating element is transmitted to the heat pipe and circulated in the heat pipe by phase change of working fluid in the heat pipe; at least a heat radiator thermally connecting with the heat pipe whereby the heat transmitted to and circulated in the heat pipe is absorbed by the radiator and dissipated to surrounding air from the radiator. 15. The electric heating module as claimed in claim 14, wherein the at least a heat radiator has fins formed thereon, the fins being arc shaped and parallel to each other. 16. The electric heating module as claimed in the claim 14 further comprising a fan for generating an airflow through the at least a radiator. 17. The electric heating module as claimed in claim 16, wherein the at least a heat radiator has fins formed thereon, and the airflow generated by the fan flows through the fins. 18. The electric heating module as claimed in claim 17, wherein the fins are arc shaped and parallel to each other, an arc shaped airflow channel is formed between each two neighboring fins for the airflow flowing therethrough. 19. The electric heating module as claimed in claim 14, wherein the PTC heating element comprises an electric layer formed on each of two opposite sides thereof for electrically connecting the electrode plates, the electric layers are made of ITO-based materials or IZO-based materials. 20. The electric heating module as claimed in claim 14, wherein the PTC heating element comprises an electric layer formed on each of two opposite sides thereof for electrically connecting the electrode plates, the electric layers are made of one of the following materials: Yba2Cu3O7, LaSr2Cu3O7 and their composites.
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