CN202166031U - Unattended intelligent high-frequency electromagnetic superconducting atomization boiler - Google Patents

Abstract

The utility model provides an unattended intelligent high-frequency electromagnetic superconducting atomization boiler, which is mainly characterized in that the liner of an interlayer boiler is filled with a superconducting fluid. An atomization device equipped with a plurality of spray nozzles is arranged in the inner layer of the liner of the boiler. A boiler water inlet pipe is connected with a water tank through a frequency-conversion and constant-pressure water supply device. An insulated high-temperature resistant thermal-insulating layer is coated below the middle part on the outer side of the liner of the boiler. A magnetic coil uniformly wound on the insulated high-temperature resistant thermal-insulating layer is connected with an electromagnetic heating controller in a controlling way. A sewage discharge device and a superconducting fluid discharge device are arranged at the bottom of the boiler. A steam discharge device is arranged on the top of the boiler. A relief valve and a pressure sensor are arranged on the top of the boiler. A boiler shell is provided with a visual control platform. The unattended intelligent high-frequency electromagnetic superconducting atomization boiler has the advantages of simple structure, high controllable degree, environmental friendliness, high efficiency and energy conservation and is modularized and safe.

Description

Unattended intelligent high-frequency electromagnetic superconduction atomizing boiler

Technical field

The utility model belongs to the boiler technology field, relates to a kind of unattended intelligent high-frequency electromagnetic superconduction atomizing boiler.

Background technology

At present, miniature boiler mainly contains the boiler of oil burning boiler, gas fired-boiler, coal-burning boiler and the heating of use electrothermal tube.Yet that oil burning boiler, gas fired-boiler, coal-burning boiler in use exist is seriously polluted, energy consumption is high, potential safety hazard is many, purchase cost and construction cost is high, cost of labor is high, take local big, noise exceeds standard, the Installation and Debugging cycle is long, difficult in maintenance, maintenance parts expense height, the low defectives such as (having only 60%) of heat utilization efficiency; Electrothermal tube heating boiler in use electrothermal tube is fragile, and maintenance cost is high, and this kind boiler thermal output is low.

The inventor is according to the present existing defective of miniature boiler; Once applied for that patent " 201020279023.8 ", invention and created name were the patent of " electromagnetism heating steam boiler "; The patented product is in ground uses such as Sichuan, Henan, Hebei, Shandong, and the inventor finds that this electromagnetic boiler exists that heating power is big relatively, preheating time is long, the thermal efficiency is relatively low, can promptly produce steam after first intensification will be warmed up to water all in the container higher temperature; Quantity of steam is difficult to control; And the hot water temperature in the container is also very high behind the end-of-job, having dissipated in vain, defective such as energy dissipation is serious.

Summary of the invention

The inventor is in the daily course of work; Find that existing boiler exists above-mentioned many defectives; Through constantly research, improvement, test; The utility model technical problem to be solved provides a kind of change conventional boiler pattern, and simple in structure, unmanned, controlledization degree are high, energy-efficient, the unattended intelligent high-frequency electromagnetic superconduction atomizing boiler of safety, environmental protection, miniature (can directly be put in the place that the production scene need be heated).

For solving the problems of the technologies described above; The technical scheme that the utility model is taked is that the structure of this unattended intelligent high-frequency electromagnetic superconduction atomizing boiler comprises the inside of boiler in shell, the shell; Said inside of boiler is the jacketed pan furnace internal-lining; Establish the superconducting fluid injection channel that is connected with the inside of boiler interlayer in cover top portion, in the inside of boiler interlayer, fill out and establish superconducting fluid; In the inside of boiler internal layer, establish the atomising device of being made up of a plurality of shower nozzles, atomising device links to each other with boiler water inlet pipe, is connected through the constant pressure water supply device between boiler water inlet pipe and water tank; At the following coated insulation high temperature resistant heat insulation of the outer middle side part layer of inside of boiler, uniform winding has the magnetic conduction coil on insulation high temperature resistant heat insulation layer, the magnetic conduction coil be arranged on the boiler electromagnetism heating controller control connection in the control centre on the boiler jacket; Establish the blowdown apparatus that constitutes by the blowoff valve on blow-off pipe and the blow-off pipe in inside of boiler internal layer bottom, establish the row's superconducting fluid device that constitutes by row's superconducting fluid pipe and the tapping valve of arranging on the superconducting fluid pipe at the inside of boiler skin; Establish the steam exhaust device that constitutes by the pressure-regulating valve on gland steam exhauster and the gland steam exhauster at inside of boiler internal layer top; Establish safety valve and pressure sensor at the top of inside of boiler; In the control centre of boiler jacket, establish the visual platform of controlling.

In order to reduce the lost of heat, fill insulant material in the inside of said shell.

Be heated the moisture that uniform temperature is arranged that the equipment condensation is produced in order to make full use of; Establish the hot water pipeline that is connected with water tank on the equipment being heated, the hot water in the hot water pipeline enters in the inside of boiler through water tank, constant pressure water supply device, boiler water inlet pipe again.

In order to guarantee that gyp does not influence the efficiency of heating surface, on inside of boiler, establish supersonic generator, be used for regularly removing the incrustation scale on the inside of boiler internal layer tank skin.

For can mixed vapour and cold water, regulate required hot water temperature arbitrarily, also can establish steam and cold water mixed valve at the boiler top.

Use for the ease of many parallel operation, on the base of boiler, establish T shape frame and the universal wheel that can lock, be used to be placed on and can hold 2 U-shaped bases of platform boiler at the most, T shape frame can with the U-shaped base mutually cutting ferrule make boiler stable.

The utility model adopts technique scheme, establishes in the inside of boiler middle and lower part and is wound with the magnetic conduction coil that is connected with the electromagnetism heating controller, and the water in the inside of boiler leans on electromagnetic induction and superconducting fluid heating; Electric leakage is dangerous, does not also pollute, again owing to the outside of magnetic conduction coil uniform winding at inner bag; The heat transfer rate of superconducting fluid is very fast, and the temperature around the inner bag internal layer all reaches higher temperature, and air and tube wall temperature in the internal bladder cavity are very high; The spray water that atomising device sprayed is by vaporization rapidly, and steam produces rapidly, promptly opens and promptly produces steam; The big I of quantity of steam is through constant pressure water supply device flexible output; The regular automatic desludging of ultrasonic wave guarantees the thermal efficiency, reduces dangerous.The utlity model has modularization, simple in structure, controlledization degree height, safety, environmental protection, efficient, energy-saving advantages.

Elaborate below in conjunction with accompanying drawing and the specific embodiment concrete structure to the utility model unattended intelligent high-frequency electromagnetic superconduction atomizing boiler.

Description of drawings

Fig. 1 representes the structural representation of the utility model unattended intelligent high-frequency electromagnetic superconduction atomizing boiler.

The specific embodiment

Referring to Fig. 1; The structure of the utility model unattended intelligent high-frequency electromagnetic superconduction atomizing boiler comprises the inside of boiler 2 in boiler jacket 1, the shell 1; Said inside of boiler 2 is the jacketed pan furnace internal-lining; Establish the superconducting fluid injection channel 21 that is connected with inside of boiler 2 interlayers at shell 1 top, in inside of boiler 2 interlayers, fill out and establish superconducting fluid 3; In inside of boiler 2 internal layers, establish the atomising device of being made up of a plurality of shower nozzles 4, atomising device links to each other with boiler water inlet pipe 9, and 15 in boiler water inlet pipe 9 and water tank are connected through constant pressure water supply device 10; The following coated insulation high temperature resistant heat insulation of outer middle side part layer 5 at inside of boiler 2; Uniform winding has magnetic conduction coil 6 on insulation high temperature resistant heat insulation layer 5, magnetic conduction coil 6 be arranged on the boiler electromagnetism heating controller (not shown) control connection in the control centre on the boiler jacket 1; Establish the blowdown apparatus that constitutes by the blowoff valve 13 on blow-off pipe 11 and the blow-off pipe 11 in inside of boiler 2 internal layers bottom, establish the row's superconducting fluid device that constitutes by row's superconducting fluid pipe 12 and the tapping valve of arranging on the superconducting fluid pipe 12 14 at inside of boiler 2 skins; Establish the steam exhaust device that constitutes by the pressure-regulating valve 24 on gland steam exhauster 23 and the gland steam exhauster 23 at inside of boiler 2 internal layer tops; Establish the safety valve 25 that is communicated in inside of boiler 2 internal layers respectively, the safety valve 26 and the pressure sensor 27 of inside of boiler 2 interlayers at the top of inside of boiler 2; In the control centre of boiler jacket 1, establish the visual platform (not shown) of controlling.In order to reduce the lost of heat, energy savings, also fill insulant material 8 in the inside of shell.Because boiler is in use understood fouling on the inner bag inwall, in order to guarantee not influence the efficiency of heating surface after the gyp, on inside of boiler 2, establish the supersonic generator that supersonic oscillator 7 is formed, be used for regularly removing the incrustation scale on the inside of boiler inwall.In the boiler use; Be heated the moisture that uniform temperature is arranged that the equipment condensation is produced in order to make full use of; Establish the hot water pipeline 16 that is connected with water tank 15 on the equipment being heated; Hot water in the hot water pipeline 16 enters in the inside of boiler 2 through water tank 15, constant pressure water supply device 10, boiler water inlet pipe 9 again, also establishes normal make-up water pipeline 17 on the water tank 15.For can mixed vapour and cold water, regulate required hot water temperature arbitrarily, also can establish steam and cold water mixed valve 22 at the boiler top.The utility model can use by many boilers simultaneously; Use for the ease of many parallel operation; On the base of boiler, establish T shape frame 18 and the universal wheel 19 that can lock; Be positioned over can hold 2 at the most on the U-shaped base 20 of platform boiler after, T shape frame 18 can with U-shaped base 20 mutually cutting ferrule make boiler keep stable.

The utility model course of work is by control centre's centralized Control, and the parameter of required adjusting all can need not artificially to regulate with feeling by rule of thumb in visual platform (visualized operation screen) adjusted of controlling.Control section can be installed wireless control module according to user's needs, at night shift room a watch-dog machine is installed, and can monitor evaluation equipment ruuning situation with browser.System not only can watch at night shift room, and authorized user can watch on the microcomputer of oneself easily, does not need complicated software and hardware to install.

The utility model through test of many times trial-production with use on the spot, compare with the boiler of electromagnetism, have that control vapour amount is accurate, efficient is high, safety, environmental protection, a plurality of advantages such as energy-conservation.

Claims (6)

1. unattended intelligent high-frequency electromagnetic superconduction atomizing boiler; Comprise the inside of boiler in shell, the shell; It is characterized in that said inside of boiler is the jacketed pan furnace internal-lining, establish the superconducting fluid injection channel that is connected with the inside of boiler interlayer, in the inside of boiler interlayer, fill out and establish superconducting fluid in cover top portion; In the inside of boiler internal layer, establish the atomising device of being made up of a plurality of shower nozzles, atomising device links to each other with boiler water inlet pipe, is connected through the constant pressure water supply device between boiler water inlet pipe and water tank; At the following coated insulation high temperature resistant heat insulation of the outer middle side part layer of inside of boiler, uniform winding has the magnetic conduction coil on insulation high temperature resistant heat insulation layer, the magnetic conduction coil be arranged on the boiler electromagnetism heating controller control connection in the control centre on the boiler jacket; Establish the blowdown apparatus that constitutes by the blowoff valve on blow-off pipe and the blow-off pipe in inside of boiler internal layer bottom, establish the row's superconducting fluid device that constitutes by row's superconducting fluid pipe and the tapping valve of arranging on the superconducting fluid pipe at the inside of boiler skin; Establish the steam exhaust device that constitutes by the pressure-regulating valve on gland steam exhauster and the gland steam exhauster at inside of boiler internal layer top; Establish safety valve and pressure sensor at the top of inside of boiler; In the control centre of boiler jacket, establish the visual platform of controlling.

2. unattended intelligent high-frequency electromagnetic superconduction atomizing boiler as claimed in claim 1 is characterized in that the fill insulant material in the inside of said shell.

3. unattended intelligent high-frequency electromagnetic superconduction atomizing boiler as claimed in claim 1; It is characterized in that establishing the hot water pipeline that is connected with water tank on the equipment being heated, the hot water in the hot water pipeline enters in the inside of boiler through water tank, constant pressure water supply device, boiler water inlet pipe again.

4. unattended intelligent high-frequency electromagnetic superconduction atomizing boiler as claimed in claim 1 is characterized in that on inside of boiler, establishing supersonic generator.

5. unattended intelligent high-frequency electromagnetic superconduction atomizing boiler as claimed in claim 1 is characterized in that also can establishing steam and cold water mixed valve at the boiler top.

6. unattended intelligent high-frequency electromagnetic superconduction as claimed in claim 1 atomizing boiler is characterized in that on the base of boiler, establishing T shape frame and the universal wheel that can lock, T shape frame can with the U-shaped base of placing many boilers cutting ferrule mutually.

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