CN103175295A

CN103175295A - Silicon magnetic namometer high-efficiency energy-saving electric boiler

Info

Publication number: CN103175295A
Application number: CN2011104319027A
Authority: CN
Inventors: 金大成
Original assignee: Individual
Current assignee: Individual
Priority date: 2011-12-21
Filing date: 2011-12-21
Publication date: 2013-06-26
Anticipated expiration: 2031-12-21
Also published as: CN103175295B

Abstract

The invention discloses heating equipment, and particularly provides a silicon magnetic namometer high-efficiency energy-saving electric boiler. The silicon magnetic namometer high-efficiency energy-saving electric boiler comprises a shell, a silicon magnetic namometer quartz glass tube heating device arranged in the shell, an intelligent temperature controller and a frequency converter, wherein the intelligent temperature controller and the frequency converter are arranged on the shell and connected with the heating device. The heating device comprises quartz glass tubes, communication tubes, leading-out wires and temperature sensors, wherein the outer wall of each quartz glass tube is coated with a silicon magnetic namometer electrothermal film coating, the communication tubes are arranged at two ends of each quartz glass tube, the leading-out wires are connected at two ends of each silicon magnetic namometer electrothermal film coating, and each temperature sensor is arranged between one quartz glass tube and one communication tube. The silicon magnetic namometer high-efficiency energy-saving electric boiler is based on the electromagnetic technology principle and nanometer characteristics, and is novel and scientific in structure, simple, reasonable, high in heating speed, low in power consumption, good in safety, long in service life and free of noise.

Description

Silicon magnetic efficient nano energy-saving electric boiler

Technical field

The invention discloses a kind of heating equipment, specifically a kind of silicon magnetic efficient nano energy-saving electric boiler.

Background technology

At present, the modes such as boiler hot-water heating, electric heater heating and electric geothermal heating are mainly adopted in warming heat supply both at home and abroad, and the boiler hot-water heating to adopt coal, oil, combustion gas etc. be thermal source more, not only resource consumption is large, and easily causes serious pollution.Although the boiler hot-water heating also has with electricity as thermal source, because the heating material problem causes thermal conversion rate lower, fault rate is higher.

In recent years, people are attempting by the improvement technology always, are improving the energy consumption that electric boiler is saved in the innovation of the aspects such as structure, adjusting process, reduce costs.Such as, the mode of some employing transformation furnace bindings, the mode of some employing vacuum heat-conductions, the mode of some employing medium conduction, the mode of some employing far infrareds.Although aforesaid way or method have solved some practical problems of electric boiler, but existence shortcoming and defect separately.

Summary of the invention

The objective of the invention is according to electromagnetic technique principle and nano-meter characteristic, provide a kind of novel structure science, advantages of simple, firing rate is fast, power consumption is little, security is good, long service life, muting silicon magnetic efficient nano energy-saving heating electric boiler.

The object of the present invention is achieved like this: this electric boiler comprises housing, is arranged on the silicon magnetic nanometer quartz glass pipe heating device in housing, be arranged on housing, connect intelligent temperature controller and the frequency converter of heater, described heater comprises that outer wall scribbles the quartz glass tube of silicon magnetic nano electroheating membrane coat, be arranged on the communicating pipe at quartz glass tube two ends, be connected to the wire of drawing at silicon magnetic nano electroheating membrane coat two ends, be arranged on quartz glass tube and the temperature sensor between communicating pipe.

The raw material of described silicon magnetic nano electroheating membrane coat forms and weight proportion is: 3.3 parts, silicon wafer soil, 5 parts, magnetic powder, 2 parts, magnesia, 0.5 part of activating agent (reactive resin).

Be provided with water inlet pipe and return pipe on described communicating pipe.

On described quartz glass tube, the method step of sprayed silicon magnetic nano electroheating membrane coat is as follows:

Raw material silicon wafer soil, magnetic powder, magnesia, the reactive resin (activating agent) that 1., will take are in proportion put into reactor after mixing, be heated to 900～1000 ℃, time is 80 minutes, then cool to room temperature, the taking-up material is put into mixer and is stirred, and it is stand-by that final powder is broken into nanoscale powder material.

2., the nanoscale powder material that adopts the mode of electrostatic spraying to make in will be 1. uniformly sprays and form silicon magnetic nano electroheating membrane coat on the quartz glass tube wall.

3., will be 2. in step the good quartz glass tube of spraying put into reactor, be heated to 1000 ℃, make silicon magnetic nano electroheating membrane coat adhere to curing, complete whole high temperature cabonization processes.

The present invention has the following advantages owing to having adopted above-mentioned material and structure:

1, the present invention is by electromagnetic particle and insulating particles compound action, thereby discharges a large amount of heat energy and accelerate heat-transfer rate, reaches energy-efficient purpose.It has overcome many defectives such as traditional hot-water heating heat transfer rate is slow, the thermal efficiency is low, cost is high, easy pollution, and energy efficient reaches 35% left and right, and the environmental protection degree reaches 100%.

2, the far infrared of 5.6um-15um is effectively radiated in the present invention, accounts for whole wavelength more than 90%.The key property of far infrared to the human body effect: the one, radiation, the 2nd, strong penetration, the 3rd, absorption, resonance and sympathetic response.Human body surface is accepted far infrared, and from outward appearance to inner essence conduction infiltration, is absorbed the generation thermogenetic effect, produce resonance, sympathetic response with the in-vivo tissue cell, promoted activity, accelerated the mass exchange of cell and blood, thereby promoted the metabolism of body, be of value to health.

3, the present invention is leading in the heating field by silicon magnetic nanometer electric heating boiler up to 98% thermal conversion efficiency, and use procedure is without rubescent, heating phenomenon, and the physics and chemistry stable performance, heat endurance, resistance to acids and bases, wearability are good.Heating film self fusing point is up to 1000 ℃, silicon magnetic nano electroheating film avirulence material, and without magnetic field radiation, zero pollutes.It is the preferably selection of electric heating of new generation.

4, the present invention has purposes widely: product also can be used for the purposes such as brooder, Hua Jiao, plant, hot water, food-baking, tunnel heating except being used for the heating of family, unit, office, school.Especially the utilization on warmhouse booth will bring the green revolution one time.The oven dry cost that is used for timber, grain, tobacco, tealeaves, paper, leather, fruit can reduce half.

5, the present invention can also be directly used in various heat transfers, heat exchanger, shower, air-heater, energy-saving tea boiler, radiator, oil field oil storage tank, oil field shaft mouth heating, vehicle exhaust heat utilization; The UTILIZATION OF VESIDUAL HEAT IN of power plant, oil plant, chemical plant, steel plant.More can do the heat comprehensive utilization in restaurant, hotel.

6, the present invention also has following advantage: (1) energy-saving efficiency is high: reach more than 35% than plain cylindrical furnace energy efficient

(1) thermal efficiency is high: energy conversion rate reaches 98.7%

(3) clean environment firendly: without discharging, pollution-free, noiselessness

(4) safe and reliable: without potential safety hazards such as combustion, quick-fried, leakages

(5) never corrosion: due to electricity separation, thoroughly overcome the corrosion-prone problem of plain cylindrical furnace

(6) long service life: reaching service life about 50000 hours, is more than 4 times of plain cylindrical furnace

(7) failure rate is low: fault rate is less than 1/10th of plain cylindrical furnace

(8) be conducive to health: the far-infrared engergy of its generation promotes human body cell active

(9) intelligent high: automation is at times controlled, and controls simple and convenient

(10) profile is small and exquisite: attractive in appearance, generous, fashion

Description of drawings

Fig. 1 is overall structure schematic diagram of the present invention.

Fig. 2 is silicon magnetic nanometer quartz glass tube A-A profile in Fig. 1 of the present invention.

The specific embodiment

Shown in accompanying drawing 1,2: this electric boiler comprises housing, is arranged on the silicon magnetic nanometer quartz glass pipe heating device in housing, be arranged on housing, connect intelligent temperature controller and the frequency converter of heater, described heater comprises that outer wall scribbles the quartz glass tube of silicon magnetic nano electroheating membrane coat, be arranged on the communicating pipe at quartz glass tube two ends, be connected to the wire of drawing at silicon magnetic nano electroheating membrane coat two ends, be arranged on quartz glass tube and the temperature sensor between communicating pipe.

The raw material silicon wafer soil that 1., will take in proportion, magnetic powder, magnesia, reactive resin (activating agent) are put into reactor after mixing, be heated to 900～1000 ℃, time is 80 minutes, then cool to room temperature, the taking-up material is put into mixer and is stirred, and it is stand-by that final powder is broken into nanoscale powder material.

Operation principle:

When electric current passed through silicon magnetic nano electroheating film, the activity vibration of its silicon magnetic particle can be done Brownian movement and obtain heat.Specifically: when electric current passed through, under the effect of electrochondria, silicon magnetic particle was activated.At this moment, silicon magnetic particle and insulating particles blend together, and heat is given birth in the high-speed friction collision, forms hot-fluid vortex and Quick diffusing, thereby has improved the thermal efficiency.Simultaneously, this omnibearing dynamic heat technology also has anti-suddenly cold and hot performance and high load performance, and in silicon magnetic, content is up to high-purity heat conduction crystal pipe of 99%, ensured the electricity separation of heating arrangement, heat conduction is faster, and thermal conversion rate is higher, reach 98.7%, scaling not, longer service life.The appearance of this heating technique will be a new revolution in the heating field.

Table 1: the thermal efficiency of invention product and other mode of heatings and energy consumption are relatively

Upper table is to be 15 ℃ in test ambient temperature, and water temperature is 13 ℃, time and power consumption that boiled 4Kg water is required.Reference data: electricity price is by 1 yuan/degree, and the combustion gas expense is calculated by 2.4 yuan/m3.Be not difficult to find out from table, silicon magnetic nano-energy-saving electric boiler indices all is better than legacy equipment more than 35%.

Claims

1. silicon magnetic efficient nano energy-saving electric boiler, it is characterized in that: this electric boiler comprises housing (1), be arranged on the silicon magnetic nanometer quartz glass pipe heating device (2) in housing (1), be arranged on housing (1), the intelligent temperature controller (3) and the frequency converter (4) that connect heater (2), described heater (2) comprises that outer wall scribbles the quartz glass tube (6) of silicon magnetic nano electroheating membrane coat (5), be arranged on the communicating pipe (7) at quartz glass tube (6) two ends, what be connected to silicon magnetic nano electroheating membrane coat (5) two ends draws wire (8), be arranged on quartz glass tube (6) and the temperature sensor (9) between communicating pipe (7).

2. a kind of silicon magnetic efficient nano energy-saving electric boiler according to claim 1 is characterized in that: the raw material of described silicon magnetic nano electroheating membrane coat (5) forms and weight proportion is: native 3.3 parts of silicon wafer, 5 parts, magnetic powder, 2 parts, magnesia, 0.5 part of activating agent (reactive resin).

3. a kind of silicon magnetic efficient nano energy-saving electric boiler according to claim 1, is characterized in that: be provided with water inlet pipe (10) and return pipe (11) on described communicating pipe (7).

4. a kind of silicon magnetic efficient nano energy-saving electric boiler according to claim 1 is characterized in that: the method step of the upper sprayed silicon magnetic nano electroheating membrane coat (5) of described quartz glass tube (6) is as follows:

Raw material silicon wafer soil, magnetic powder, magnesia, the reactive resin (activating agent) that 1., will take are in proportion put into reactor after mixing, be heated to 900～1000 ℃, time is 80 minutes, then cool to room temperature, the taking-up material is put into mixer and is stirred, and it is stand-by that final powder is broken into nanoscale powder material;

2., the nanoscale powder material that adopts the mode of electrostatic spraying to make in will be 1. is sprayed at equably and forms silicon magnetic nano electroheating membrane coat on the quartz glass tube wall;