CN105551774A

CN105551774A - High efficiency heat radiation inductor

Info

Publication number: CN105551774A
Application number: CN201610102576.8A
Authority: CN
Inventors: 李聪
Original assignee: Individual
Current assignee: Changsha Lushan Electronic Technology Co Ltd
Priority date: 2016-02-24
Filing date: 2016-02-24
Publication date: 2016-05-04
Anticipated expiration: 2036-02-24
Also published as: CN107610908A; CN107644724A; CN107337929A; CN107633938A; CN105551774B

Abstract

The invention discloses a high efficiency heat radiation inductor, comprising a silver plated copper wire, an iron core, a base and an end plate; the silver plated copper wire is spirally coiled on the surface of the iron core; a rubber flexible pipe is winded on the silver plated copper wire; high temperature resistant heat conductive coating is coated on the outer surface of the rubber flexible pipe; plastic stoppers are arranged at two ends of the rubber flexible pipe; the plastic stoppers and the rubber flexible pipe are in detachable connection; high temperature resistant polyester films are arranged between the plastic stoppers and the rubber flexible pipe; an aluminium wire is arranged in the rubber flexible pipe; a cotton thread is winded on the aluminium wire; ethyl alcohol is filled in the rubber flexible pipe; one end of the iron core and the base are in threaded connection; the other end of the iron core and the end plate are in clamped connection; an extruded aluminum heat radiator is arranged on the end plate. The high efficiency heat radiation inductor is featured by good heat radiation effect.

Description

A kind of reactor of high efficiency and heat radiation

Technical field

The present invention relates to a kind of reactor of high efficiency and heat radiation.

Background technology

Reactor is also inductor, the certain space scope occupied by it will produce magnetic field during a conductor energising, so the electric conductor of all energy current-carrying has perception in general sense.But the inductance of the long straight conductor that is energized is less, the magnetic field produced is not strong, and therefore actual reactor is that wire is coiled into solenoid form, claims air core reactor; Sometimes in order to allow this solenoid have larger inductance, just inserting unshakable in one's determination in solenoid, claiming iron-core reactor.Reactance is divided into induction reactance and capacitive reactance, relatively the classification of science is that impedor (inductor) and capacitive reactance device (capacitor) are referred to as reactor, but first had inductor due to the past, and be called as reactor, so the said capacitor of people is exactly capacitive reactance device now, and reactor specially refers to inductor.

The reactor taked in electric power system common are series reactor and shunt reactor.

Series reactor is mainly used to limiting short-circuit current, also has and is used for limiting the high order harmonic component in electrical network with capacitor serial or parallel connection in filter.Reactor in 220kV, 110kV, 35kV, 10kV electrical network is used to the charging capacitive reactive power of absorbing cable circuit.Adjust operation voltage can be carried out by the quantity adjusting shunt reactor.

But current reactor usually at high temperature works, and lack heat radiation effective measures, easily have influence on result of use, even overheated and cause reactor to burn.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of reactor with the high efficiency and heat radiation of good radiating effect.

For solving the problem, the present invention adopts following technical scheme:

A kind of reactor of high efficiency and heat radiation, comprise silver-coated copper wire, iron core, base and end plate, described silver-coated copper wire helical coil is around in iron core surface, described silver-coated copper wire is wound with rubber hose, described rubber hose outer surface scribbles thermostable heat-conductive coating, described rubber hose two ends are provided with plastic stopper, described plastic stopper and rubber hose removably connect, high temperature resistance polyester film is accompanied between described plastic stopper and rubber hose, aluminum steel is provided with in described rubber hose, on described aluminum steel, spiral winding has cotton thread, described rubber hose inside is filled with ethanol, described iron core one end is connected with whorl of base, the described iron core other end holds with end plate and is connected, described end plate is provided with aluminium extruded radiator.

As preferably, be provided with silica gel heat conductive pad between described aluminium extruded radiator and end plate, the heat transfer speed between aluminium extruded radiator and end plate can be promoted.

As preferably, described silica gel heat conductive pad one side bonds with aluminium extruded radiator, and described silica gel heat conductive pad another side and end plate bond, good integrity, Stability Analysis of Structures.

As preferably, described end plate side scribbles electromagnetic screen coating.

As preferably, below described base, clip is installed, person easy to use can be installed to various place.

As preferably, described clip is detachable setting, and flexibility is good, can use as required.

As preferably, described ethanol is absolute ethyl alcohol.

As preferably, described rubber hose, silver-coated copper wire and iron core are provided with 2.

Another technical problem that the present invention will solve is for providing a kind of manufacture method of rubber hose.

Be made up of polysiloxanes 63-65 part of proportioning by weight, neoprene 26-28 part, ethylene propylene diene rubber 22-24 part, terpene resin 12-14 part, Foral 10-12 part, sulphur 10-12 part, aluminium nitride 22-24 part, GaAs 1-3 part, carbon fiber 5-7 part, cesium carbonate 7-9 part, the yellow 2-4 part of zinc-iron, ferrocene 2-4 part, graphene oxide 5-7 part, Cocoamidopropyl betaine 2-4 part, cyanethyl cellulose 4-6 part and White Carbon black 12-14 part, comprise the following steps:

1) graphene oxide 5-7 part, Cocoamidopropyl betaine 2-4 part, cyanethyl cellulose 4-6 part are poured in vessel together with White Carbon black 12-14, stir, obtained paste, for subsequent use;

2) polysiloxanes 63-65 part is poured in reactor, adds sulphur 10-12 part and be heated to 170 DEG C, carrying out vulcanizing treatment, obtained thick liquid, for subsequent use;

3) neoprene 26-28 part, ethylene propylene diene rubber 22-24 part, terpene resin 12-14 part, Foral 10-12 part are poured into step 2) in obtained thick liquid, then temperature is risen to 220 DEG C, abundant stirring, till material melts completely, obtained mixing thick liquid, for subsequent use;

4) by step 1) obtained paste, aluminium nitride 22-24 part, GaAs 1-3 part, carbon fiber 5-7 part, cesium carbonate 7-9 part, the yellow 2-4 part of zinc-iron, ferrocene 2-4 part and step 3) be poured in emulsification agitated kettle together with obtained mixing thick liquid, stir, obtained paste, for subsequent use;

5) by step 4) obtained paste is poured into extrusion moulding in plastic molding equipment, and cooling, obtains rubber hose.

Beneficial effect of the present invention is: by being wound with rubber hose on silver-coated copper wire, rubber hose outer surface scribbles thermostable heat-conductive coating, rubber hose inside is filled with ethanol, ethanol evaporation heat absorption during work, end plate is provided with aluminium extruded radiator, can the heat on end plate be delivered to rapidly on aluminium extruded radiator, thus play good radiating effect, and be provided with aluminum steel in rubber hose, the plastic deformation of aluminum steel is utilized rubber hose to be shaped, what can make that rubber hose can be good is wrapped on silver-coated copper wire, and convenient disassembly.

Accompanying drawing explanation

Fig. 1 is the overall structure schematic diagram of the reactor of a kind of high efficiency and heat radiation of the present invention.

Fig. 2 is the structural representation of the rubber hose of the reactor of a kind of high efficiency and heat radiation of the present invention.

Embodiment

Embodiment one:

As shown in Figure 1-2, a kind of reactor of high efficiency and heat radiation, comprise silver-coated copper wire 1, iron core (not shown), base 2 and end plate 3, described silver-coated copper wire 1 helical coil is around in iron core surface, described silver-coated copper wire 1 is wound with rubber hose 4, described rubber hose 4 outer surface scribbles thermostable heat-conductive coating (not shown), described rubber hose 4 two ends are provided with plastic stopper 5, described plastic stopper 5 removably connects with rubber hose 4, high temperature resistance polyester film 6 is accompanied between described plastic stopper 5 and rubber hose 4, aluminum steel 7 is provided with in described rubber hose 4, on described aluminum steel 7, spiral winding has cotton thread 8, described rubber hose 4 inside is filled with ethanol 9, described iron core one end is threaded with base 2, the described iron core other end holds with end plate 3 and is connected, described end plate 3 is provided with aluminium extruded radiator 10.

Be provided with silica gel heat conductive pad (not shown) between described aluminium extruded radiator 10 and end plate 3, the heat transfer speed between aluminium extruded radiator 10 and end plate 3 can be promoted.

Described silica gel heat conductive pad one side bonds with aluminium extruded radiator 10, and described silica gel heat conductive pad another side and end plate 3 bond, good integrity, Stability Analysis of Structures.

Described end plate 3 side scribbles electromagnetic screen coating (not shown).

Described base 2 is provided with clip 11 below, person easy to use can be installed to various place.

Described clip 11 is detachable setting, and flexibility is good, can use as required.

Described ethanol 9 is absolute ethyl alcohol.

Described rubber hose 4, silver-coated copper wire 1 and iron core are provided with 2.

Be made up of the polysiloxanes 64 parts of proportioning by weight, neoprene 27 parts, ethylene propylene diene rubber 23 parts, terpene resin 13 parts, Foral 11 parts, 11 parts, sulphur, aluminium nitride 23 parts, GaAs 2 parts, 6 parts, carbon fiber, cesium carbonate 8 parts, yellow 3 parts of zinc-iron, ferrocene 3 parts, graphene oxide 6 parts, Cocoamidopropyl betaine 3 parts, cyanethyl cellulose 5 parts and White Carbon black 13 parts, comprise the following steps:

1) graphene oxide 6 parts, Cocoamidopropyl betaine 3 parts, cyanethyl cellulose 5 parts are poured in vessel together with White Carbon black 13, stir, obtained paste, for subsequent use;

2) polysiloxanes 64 parts is poured in reactor, adds 11 parts, sulphur and be heated to 170 DEG C, carrying out vulcanizing treatment, obtained thick liquid, for subsequent use;

3) neoprene 27 parts, ethylene propylene diene rubber 23 parts, terpene resin 13 parts, Foral 11 parts are poured into step 2) in obtained thick liquid, then temperature is risen to 220 DEG C, fully stir, till material melts completely,, obtained mixing thick liquid, for subsequent use;

4) by step 1) obtained paste, aluminium nitride 23 parts, GaAs 2 parts, 6 parts, carbon fiber, cesium carbonate 8 parts, yellow 3 parts of zinc-iron, ferrocene 3 parts and step 3) be poured in emulsification agitated kettle together with obtained mixing thick liquid, stir, obtained paste, for subsequent use;

Embodiment two:

Described ethanol 9 is absolute ethyl alcohol.

Be made up of the polysiloxanes 65 parts of proportioning by weight, neoprene 26 parts, ethylene propylene diene rubber 22 parts, terpene resin 12 parts, Foral 10 parts, 10 parts, sulphur, aluminium nitride 22 parts, GaAs 1 part, 5 parts, carbon fiber, cesium carbonate 7 parts, yellow 2 parts of zinc-iron, ferrocene 2 parts, graphene oxide 5 parts, Cocoamidopropyl betaine 2 parts, cyanethyl cellulose 4 parts and White Carbon black 12 parts, comprise the following steps:

1) graphene oxide 5 parts, Cocoamidopropyl betaine 2 parts, cyanethyl cellulose 4 parts are poured in vessel together with White Carbon black 12, stir, obtained paste, for subsequent use;

2) polysiloxanes 65 parts is poured in reactor, adds 10 parts, sulphur and be heated to 170 DEG C, carrying out vulcanizing treatment, obtained thick liquid, for subsequent use;

3) neoprene 26 parts, ethylene propylene diene rubber 22 parts, terpene resin 12 parts, Foral 10 parts are poured into step 2) in obtained thick liquid, then temperature is risen to 220 DEG C, fully stir, till material melts completely,, obtained mixing thick liquid, for subsequent use;

4) by step 1) obtained paste, aluminium nitride 22 parts, GaAs 1 part, 5 parts, carbon fiber, cesium carbonate 7 parts, yellow 2 parts of zinc-iron, ferrocene 2 parts and step 3) be poured in emulsification agitated kettle together with obtained mixing thick liquid, stir, obtained paste, for subsequent use;

Embodiment three:

Described ethanol 9 is absolute ethyl alcohol.

Be made up of the polysiloxanes 63 parts of proportioning by weight, neoprene 28 parts, ethylene propylene diene rubber 24 parts, terpene resin 14 parts, Foral 12 parts, 12 parts, sulphur, aluminium nitride 24 parts, GaAs 3 parts, 7 parts, carbon fiber, cesium carbonate 9 parts, yellow 4 parts of zinc-iron, ferrocene 4 parts, graphene oxide 7 parts, Cocoamidopropyl betaine 4 parts, cyanethyl cellulose 6 parts and White Carbon black 14 parts, comprise the following steps:

1) graphene oxide 7 parts, Cocoamidopropyl betaine 4 parts, cyanethyl cellulose 6 parts are poured in vessel together with White Carbon black 14, stir, obtained paste, for subsequent use;

2) polysiloxanes 63 parts is poured in reactor, adds 12 parts, sulphur and be heated to 170 DEG C, carrying out vulcanizing treatment, obtained thick liquid, for subsequent use;

3) neoprene 28 parts, ethylene propylene diene rubber 24 parts, terpene resin 14 parts, Foral 12 parts are poured into step 2) in obtained thick liquid, then temperature is risen to 220 DEG C, fully stir, till material melts completely,, obtained mixing thick liquid, for subsequent use;

4) by step 1) obtained paste, aluminium nitride 24 parts, GaAs 3 parts, 7 parts, carbon fiber, cesium carbonate 9 parts, yellow 4 parts of zinc-iron, ferrocene 4 parts and step 3) be poured in emulsification agitated kettle together with obtained mixing thick liquid, stir, obtained paste, for subsequent use;

Experimental example:

Using the reactor of high efficiency and heat radiation of the present invention as experimental group, existing ordinary reactors as a control group, the reactor of existing import as a control group two, test, concrete outcome is as shown in the table:

By detecting 3 groups of experiments, the reactor of high efficiency and heat radiation of the present invention compares good heat dissipation effect with existing ordinary reactors with the reactor of import, and spoilage is low.

Typical case:

Week certain; manage an infrastructure management company at home; week, certain often contracted the estate management of some high buildings and large mansions; but because high buildings and large mansions often have more air-conditioning and computer; power consumption is large; reactor usually can be caused to burn; week, certain attempted various reactors; but still do not deal with problems; cause week certain cause larger loss, after week, certain employed the reactor of high efficiency and heat radiation of the present invention, find that spoilage is extremely low; work very stable, for week, certain has retrieved a large amount of losses.

The above, be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, and any change of expecting without creative work or replacement, all should be encompassed within protection scope of the present invention.

Claims

1. the reactor of a high efficiency and heat radiation, it is characterized in that: comprise silver-coated copper wire, iron core, base and end plate, described silver-coated copper wire helical coil is around in iron core surface, described silver-coated copper wire is wound with rubber hose, described rubber hose outer surface scribbles thermostable heat-conductive coating, described rubber hose two ends are provided with plastic stopper, described plastic stopper and rubber hose removably connect, high temperature resistance polyester film is accompanied between described plastic stopper and rubber hose, aluminum steel is provided with in described rubber hose, on described aluminum steel, spiral winding has cotton thread, described rubber hose inside is filled with ethanol, described iron core one end is connected with whorl of base, the described iron core other end holds with end plate and is connected, described end plate is provided with aluminium extruded radiator, described rubber hose is made up of polysiloxanes 63-65 part of proportioning by weight, neoprene 26-28 part, ethylene propylene diene rubber 22-24 part, terpene resin 12-14 part, Foral 10-12 part, sulphur 10-12 part, aluminium nitride 22-24 part, GaAs 1-3 part, carbon fiber 5-7 part, cesium carbonate 7-9 part, the yellow 2-4 part of zinc-iron, ferrocene 2-4 part, graphene oxide 5-7 part, Cocoamidopropyl betaine 2-4 part, cyanethyl cellulose 4-6 part and White Carbon black 12-14 part.

2. the reactor of high efficiency and heat radiation according to claim 1, is characterized in that: be provided with silica gel heat conductive pad between described aluminium extruded radiator and end plate.

3. the reactor of high efficiency and heat radiation according to claim 2, is characterized in that: described silica gel heat conductive pad one side bonds with aluminium extruded radiator, and described silica gel heat conductive pad another side and end plate bond.

4. the reactor of high efficiency and heat radiation according to claim 3, is characterized in that: described end plate side scribbles electromagnetic screen coating.

5. the reactor of high efficiency and heat radiation according to claim 4, is characterized in that: be provided with clip below described base.

6. the reactor of high efficiency and heat radiation according to claim 5, is characterized in that: described clip is arranged for detachable.

7. the reactor of high efficiency and heat radiation according to claim 6, is characterized in that: described ethanol is absolute ethyl alcohol.

8. the reactor of high efficiency and heat radiation according to claim 7, is characterized in that: described rubber hose, silver-coated copper wire and iron core are provided with 2.