CN2600745Y - Heat superconduction type aluminium fin warming radiator - Google Patents

Abstract

The utility model provides a thermal superconducting type aluminum fin heating radiator, and is characterized in that at least one thermal superconducting energy conduction rod component is vertically arranged in a main body of a radiating rib. The lower end of the thermal superconducting energy conduction rod component is communicated with a heating source. Different heating sources can be chosen for the heating source, and a electric heating type can be formed by adopting the electric heating, and a fluid media heating type can be formed by adopting the heating a high temperature fluid media(like water, air and oil etc). The utility model has the advantages of the simple structure, high efficiency of radiation, and the thermal superconducting energy conduction rod component is used for the fast conduction and heating so as to improve the utilization rate of the thermal energy.

Description

Heat superconduction type aluminium fin heating radiator

Technical field

The utility model relates to the heat superconduction type aluminium fin heating radiator of a kind of available electrical heating or hot fluid media (water, gas, wet goods fluid) heating.

Background technology

Existing fin is to adopt cast iron, steel, aluminum heating radiator, because heat transfer efficiency is low, thereby the heat energy utilization rate is low, and the consume energy is big, and energy waste is big.

Summary of the invention

The purpose of this utility model just provides a kind of radiating efficiency height, utilizes hot superconducting energy conducted rod element, conduction heating rapidly, thereby the heat superconduction type aluminium fin heating radiator of the utilization rate of raising thermal energy.

Solution of the present utility model is such: at least one hot superconducting energy conducted rod element vertically is installed in the heat sink body, and the lower end of hot superconducting energy conducted rod element is communicated with heating source.Heating source can be chosen different heating sources, adopts electrical heating just to constitute electrical heating type; Adopt high-temperature fluidized media (as water, gas, wet goods) to heat, just constitute the liquid mediums heated type.During heating, heat can be rapidly be transmitted to thermal energy around the hot superconduction rod element on the wall, heat around the hot superconduction rod element on the wall again rapidly with the element of flowing through around wall pass to heat sink body, finally a large amount of heats is outwards distributed by the fin fin with a spot of energy.

The utility model has the advantages that simple in structurely, the radiating efficiency height utilizes hot superconducting energy conducted rod element, conduction heating rapidly, thus improve the utilization rate of thermal energy.

Description of drawings

Accompanying drawing is embodiment of the present utility model.

Accompanying drawing 1 is the structural representation of the utility model electrical heating type.

Accompanying drawing 2 is left views of accompanying drawing 1.

Accompanying drawing 3 is vertical views of accompanying drawing 1.

Accompanying drawing 4 is structural representations that the utility model adopts the heating of high-temperature liquid state media.

Accompanying drawing 5 is left views of accompanying drawing 4.

Accompanying drawing 6 is vertical views of accompanying drawing 4.

Accompanying drawing (7,8,9,10,11,12,13,14) is several structural representations of hot superconducting energy conducted rod element 4.

The specific embodiment

The utility model includes control panel 1, heat sink body 2, end cap 3, hot superconducting energy transport element 4, quartz glass tube 5, electrical heating elements 6, porcelain press strip 7, base 8, circuit controller 9, bottom end cover 10, fluidised form coal Jie flow cavity 11.

At least one hot superconducting energy conducted rod element 4 vertically is installed in the utility model heat sink body 2, and the lower end of hot superconducting energy conducted rod element 4 is communicated with heating source.

In the electrical heating type structure shown in the accompanying drawing 1, described heating source is to be equipped with by electrical heating elements 6 in the lower end of hot superconducting energy conducted rod element 4.Described electrical heating elements 6 is to be connected with the lower end of every hot superconducting energy conducted rod element 4 respectively.After electrical heating elements 6 is connected power supply, the lower end of hot superconducting energy conducted rod element 4 is heated, just can rapidly heat be carried out high efficiency and heat radiation by aluminium radiator fin main body 2.

In the structure shown in the accompanying drawing 1, the also whole electrical heating type of described electrical heating elements 6 is enclosed within the lower end of every hot superconducting energy conducted rod element 4.

In the structure shown in the accompanying drawing 4, described heating source is to be communicated with high-temperature fluidized media in the lower end of hot superconducting energy conducted rod element 4.Described heating source is to have the fluidised form media flow in the lower end of hot superconducting energy conducted rod element 4 to open one's mouth 11.Described fluidised form media flow open one's mouth 11 be simultaneously with the lower end of every hot superconducting energy conducted rod element 4.When high temperature media fluid is delivered to hot superconducting energy conducted rod element 4 lower ends, the lower end of hot superconducting energy conducted rod element 4 is heated, just can rapidly heat be carried out high efficiency and heat radiation by aluminium radiator fin main body 2.

Described hot superconducting energy conducted rod element 4 is oblateness, square, prismatic, multiple tooth shape, rectangle, ripple plate shape, bellows, screwed pipe.

In the present embodiment, hot superconducting energy conducted rod element 12 is that model is: NHP-R by the development of U.S. SUNNET company _3-16* 200, fast 7000 times of this element rates of heat transfer than ag material rate of heat transfer.

Claims (8)

1, a kind of heat superconduction type aluminium fin heating radiator is characterized in that at least one hot superconducting energy conducted rod element (4) vertically is installed in the heat sink body (2), and the lower end of hot superconducting energy conducted rod element (4) is communicated with heating source.

2, heat superconduction type aluminium fin heating radiator according to claim 1 is characterized in that described heating source is to be equipped with by electrical heating elements (6) in the lower end of hot superconducting energy conducted rod element (4).

3, heat superconduction type aluminium fin heating radiator according to claim 2 is characterized in that described electrical heating elements (6) is to be connected with the lower end of every hot superconducting energy conducted rod element (4) respectively.

4, heat superconduction type aluminium fin heating radiator according to claim 2 is characterized in that described electrical heating elements (6) is whole electrical heating type, is enclosed within the lower end of every hot superconducting energy conducted rod element (4).

5, heat superconduction type aluminium fin heating radiator according to claim 1 is characterized in that described heating source is to be communicated with high-temperature fluidized media in the lower end of hot superconducting energy conducted rod element (4).

6, heat superconduction type aluminium fin heating radiator according to claim 5 is characterized in that described heating source is to have fluidised form media flow cavity (11) in the lower end of hot superconducting energy conducted rod element (4).

7, heat superconduction type aluminium fin heating radiator according to claim 6, it is characterized in that described fluidised form media flow cavity (11) be simultaneously with the lower end of every hot superconducting energy conducted rod element (4).

8,, it is characterized in that described hot superconducting energy conducted rod element 4 is oblateness, square, prismatic, multiple tooth shape, rectangle, ripple plate shape, bellows, screwed pipe according to claim 1,2,3,4,5,6,7 described heat superconduction type aluminium fin heating radiators.

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