CN103017126A - High-frequency electromagnetic steam engine - Google Patents

Abstract

The invention belongs to the technical field of heating devices and relates to a high-frequency electromagnetic steam engine. The defect that high-temperature and low-pressure steam and high-temperature and high-pressure steam are high in water content in the prior art is overcome by the invention. Conduction oil is not needed, and the thermal efficiency is higher. The high-frequency electromagnetic steam engine comprises a water supply system, a tank, a water inlet pipeline and a steam pipeline, wherein the water inlet pipeline and the steam pipeline are respectively communicated with the interior of the tank. The high-frequency electromagnetic steam engine also comprises a high-pressure electromagnetic coil, a high-pressure electromagnetic generating device, a steam temperature sensor and a programmable logic controller (PLC) electronic control system, wherein the high-pressure electromagnetic coil is wound at the periphery of the tank; the high-pressure electromagnetic generating device is mutually connected with the high-pressure electromagnetic coil; the steam temperature sensor is arranged in the tank; the PLC electronic control system is used for performing automatic control on the temperature and the pressure of the steam to be treated and equipment; the steam pipeline is connected with a steam pressure sensor; and the high-pressure electromagnetic generating device, the steam temperature sensor and the steam pressure sensor are respectively and mutually connected with the PLC electronic control system. The steam is generated by utilizing electromagnetic energy, so that the high-frequency electromagnetic steam engine is high in thermal efficiency, is environmentally friendly and is convenient in maintenance.

Description

A kind of high-frequency electromagnetic steam engine

Technical field

The invention belongs to heating device technology area, relate to a kind of high-frequency electromagnetic steam engine.

Background technology

Utilize the boiler of heat-conducting oil heating heat conducting oil boiler.Conduction oil claims again organic heat carrier or thermal medium oil, as the existing history more than 50 years of the application of middle heat transfer medium in the industrial heat exchange process.Heat conducting oil boiler is a kind of direct current cooker of researching and developing based on the forced circulation design philosophy.Seal newborn circulation heating and communicate with atmosphere, but the service life of prolonged boiler, liquid phase or gas-phase transport heat supply.Heat conducting oil boiler adopts three backhaul coil design, default the swelling water fuel tank, realized the low-voltage high-temperature heat supply.Adopt the coiled structure, heating surface is sufficient, and expanding fully absorbs.

For the electrical heating oil oven, heat is by the electrical heating elements generation of immersing conduction oil and transmits, take conduction oil as medium, utilize circulating pump, force conduction oil to carry out liquid phase circulation, with heat transferred with one or multiplely use hot equipment, after with hot equipment unloading, again by circulating pump, get back to heater, absorbing heat again, pass to and use hot equipment, so go round and begin again, realize the continuous transmission of heat, the heating object temperature is raise, reach the technological requirement of heating.Therefore existing electric-heating heat-conductive oil steam boiler must be provided with water-level gauge at furnace outer wall owing to need to control the water yield in the stove inner coil pipe, and the steam boiler of water-level gauge is arranged, and steam is difficult to accomplish high temperature, low pressure and high temperature, high pressure.The water content of steam is large, is difficult to reach client's requirement.

Summary of the invention

The object of the present invention is to provide a kind of high-frequency electromagnetic steam engine, is a kind of high-frequency electromagnetic steam engine without water-level gauge, thereby has overcome the large defective of steam water content of high temperature, low pressure and high temperature, high pressure in the prior art, does not need conduction oil, and the thermal efficiency is higher.

The technical solution adopted for the present invention to solve the technical problems is:

A kind of high-frequency electromagnetic steam engine, comprise water system, tank body, the inlet pipeline that is communicated with tank interior respectively and steam pipework, this electromagnetism steam engine also comprises the high-frequency electromagnetic coil that is wrapped in the tank body periphery, the high-frequency electromagnetic generating means that links to each other with the high-frequency electromagnetic coil, be arranged on the vapor (steam) temperature sensor in the tank body, and for the treatment of the temperature of steam, pressure and the PLC electric-control system that equipment is controlled automatically, steam pipework is connected with the steam pressure sensor, described high-frequency electromagnetic generating means, the vapor (steam) temperature sensor is connected with the PLC electric-control system respectively with the steam pressure sensor; Be provided with inner sleeve and at least one intermediate sleeve in the described tank body, intermediate sleeve is between inner sleeve and tank body, and described inner sleeve and intermediate sleeve make tank inner chamber form the baffling path that supplies vapor flow, and the end of inlet pipeline is deep into inner sleeve inside; Described tank body is the container made of iron of magnetic conduction.The present invention utilizes electromagnetic energy to produce steam, and the thermal efficiency is high, and is safe and reliable, clean environment, and energy-conserving and environment-protective, simple to operate, a key starts, unmanned.Easy for installation, maintenance rate is low.

As preferably, the external diameter of described tank body is 120mm-140mm, and tank body thickness is 8-10mm; The external diameter of described inner sleeve is 50mm-60mm, and tank body thickness is 3-4mm; The external diameter of described intermediate sleeve is 90mm-100mm, and tank body thickness is 4.5-5mm.In the situation that does not affect the steam conveying, the wall thickness of cylinder body is tried one's best thicker, takes full advantage of the high-frequency electromagnetic coil and produces heat energy.

As preferably, described vapor (steam) temperature sensor has two, and one is positioned at the inner sleeve middle part, and another is between intermediate sleeve and tank body.Two vapor (steam) temperature sensors are controlled respectively the vapor (steam) temperature that produces in the inner sleeve and the vapor (steam) temperature that will enter steam pipework, therefore can control inflow and steam generation by the PLC electric-control system.

As preferably, described water system comprises attemperater, and attemperater links to each other with tank body by inlet pipeline, is provided with overfall and blowoff valve on the attemperater.

As preferably, be connected with high-pressure hydraulic pump on the described inlet pipeline, high-pressure hydraulic pump is connected with the PLC electric-control system.At regular time and quantity control feedwater.

As preferably, described steam pipework terminal is connected with steam-water separator, and steam-water separator top is provided with steam (vapor) outlet, is provided with water return pipeline between steam-water separator and the attemperater.

As preferably, be disposed with safety valve and stop valve from an end that is connected with tank body on the described steam pipework, described steam pressure sensor is connected on the pipeline between safety valve and the stop valve by pipeline.

As preferably, the below of described inner sleeve barrel top and intermediate sleeve barrel is provided with several and portals for the steam that steam passes through; The lower surface that another kind of scheme is upper surface, intermediate sleeve bottom and the tank body of described inner sleeve top and tank body leaves respectively the gap of passing through for steam.

As preferably, be disposed with stop valve, check-valves, high-pressure hydraulic pump and gate valve from an end that is connected with tank body on the described inlet pipeline; Be provided with drain valve on the water return pipeline.

As preferably, described tank body is outside equipped with heat-insulation layer, and described inner sleeve and intermediate sleeve are the container made of iron of magnetic conduction.

The invention has the beneficial effects as follows: compact equipment, take full advantage of the space, reduce floor space; Its thermal efficiency is the 150%-200% of the product such as existing steam boiler, and energy utilization rate is high, produces without the three wastes in its use procedure, and device security is reliable, is conducive to environmental protection and energy saving.

Description of drawings

Fig. 1 is a kind of structural representation of the present invention;

Fig. 2 is another kind of structural representation of the present invention;

Fig. 3 is the third structural representation of the present invention;

Among the figure: 1. overfall, 2. vapor (steam) temperature sensor, 3. attemperater, 4. drain valve, 5. steam-water separator, 6. stop valve, 7. steam pressure sensor, 8. safety valve, 9. heat-insulation layer, 10. tank body, 11. inner sleeves, 12. high-frequency electromagnetic coils, 13. the high-frequency electromagnetic generating means, 14.PLC electric-control system, 15. blowoff valves, 16. power supply, 17. check-valves, 18. high-pressure hydraulic pumps, 19. gate valve, 20. intermediate sleeves, 21. inlet pipelines, 22. steam pipework, 23. steam portal, 24. water return pipelines, 25. baffling path, 26. steam (vapor) outlet, 27. gaps, 28. second intermediate sleeves.

The specific embodiment

Below by specific embodiment, and by reference to the accompanying drawings, technical scheme of the present invention is described in further detail.Should be appreciated that enforcement of the present invention is not limited to the following examples, any pro forma accommodation and/or change that the present invention is made all will fall into protection domain of the present invention.

Embodiment 1:

A kind of electromagnetism steam engine as shown in Figure 1, comprise water system, tank body 10, the inlet pipeline 21 that is communicated with tank interior respectively and steam pipework 22, be wrapped in tank body 10 peripheries high-frequency electromagnetic coil 12, the high-frequency electromagnetic generating means 13 that links to each other with the high-frequency electromagnetic coil, be arranged on the vapor (steam) temperature sensor 2 in the tank body, and for the treatment of temperature, the pressure of steam and the PLC electric-control system 14 that equipment is controlled automatically.Steam pipework is connected with steam pressure sensor 7, and high-frequency electromagnetic generating means 13, vapor (steam) temperature sensor 2 and steam pressure sensor 7 are connected with PLC electric-control system 14 respectively.High-frequency electromagnetic generating means 13 is connected to power supply 16.

Tank body 10 is wrapped with heat-insulation layer 9, be mounted with inner sleeve 11 and an intermediate sleeve 20 in the tank body, intermediate sleeve is between inner sleeve and tank body, and the below of inner sleeve barrel top and intermediate sleeve barrel is provided with several and portals 23 for the steam that steam passes through.Intermediate sleeve 20 top seals, bottom opening also is connected with tank base, and steam portals and 23 opens on the barrel of intermediate sleeve 20 near tank base; Inner sleeve 11 is the cylindrical shell of upper and lower opening, and its bottom is fixedly attached to tank base, and its top is fixedly attached to the top of intermediate sleeve 20, and the steam on the inner sleeve 11 portals and 23 opens on the barrel near the tank body top.Portal 23 number of steam is decided according to operating position.Inner sleeve and intermediate sleeve make tank inner chamber form the baffling path 25 that supplies vapor flow, and the end of inlet pipeline enters from bottom one side of tank wall, and is deep into the inside of inner sleeve 11.

In baffling path 25, under the effect of high-frequency electromagnetic, become steam by the steam of entrainment with steam.For the effect that makes steam in the baffling path 25 and steam all be subject to high-frequency electromagnetic, tank body, inner sleeve and intermediate sleeve are the container made of iron of magnetic conduction, like this, can produce the steam than the larger flow of existing steam raising plant, and the thermal efficiency reaches highest level.Vapor (steam) temperature sensor 7 has two, and one is positioned at the inner sleeve middle part, and another is between intermediate sleeve and tank body.Vapor (steam) temperature sensor 7 is used for the vapor (steam) temperature in the monitoring tank body, in order to the generation of steam is controlled and regulated.

Water system comprises attemperater 3, and attemperater links to each other with tank body by inlet pipeline 21, reaches the purpose of water delivery, is provided with overfall 1 and blowoff valve 15 on the attemperater.Be disposed with stop valve 6, check-valves 17, high-pressure hydraulic pump 18 and gate valve 19 from an end that is connected with tank body on the inlet pipeline, high-pressure hydraulic pump 18 is connected with the PLC electric-control system, namely control switching by the PLC electric-control system, gate valve 19 is arranged on the delivery port of high-pressure hydraulic pump.

The initiating terminal of steam pipework 22 is connected with tank body 10, its terminal is connected with steam-water separator 5, steam-water separator top is provided with the steam (vapor) outlet 26 for delivery of steam, is provided with water return pipeline 24 between steam-water separator and the attemperater, is provided with drain valve 4 on the water return pipeline.Be disposed with safety valve 8 and stop valve 6 from the end that is connected with tank body on the steam pipework, steam pressure sensor 7 is connected on the pipeline between safety valve and the stop valve by pipeline.

For safety and reach thermal efficiency maximum, the external diameter of tank body described in the present embodiment is 140mm, and tank body thickness is 10mm; The external diameter of described inner sleeve is 60mm, and tank body thickness is 4mm; The external diameter of described intermediate sleeve is 100mm, and tank body thickness is 5mm.

This device in use, gather vapor (steam) temperature and steam pressure signal by vapor (steam) temperature sensor 2 and steam pressure sensor 7, be transferred to the PLC electric-control system and analyze by circuit, and then by the switch control feedwater to high-pressure hydraulic pump, the quantity of steam that the indirectly control steam (vapor) outlet is discharged.The present invention is simple in structure, and later period maintenance and cost of use are low, and the thermal efficiency is the 150%-200% of existing product, can realize by the control of PLC electric-control system automatic generation and the conveying of steam.

Embodiment 2

A kind of electromagnetism steam engine as shown in Figure 2, concrete structure are with embodiment 1, and difference is structure and the set-up mode of inner sleeve and intermediate sleeve, and is specific as follows:

Intermediate sleeve 20 and inner sleeve 11 are the cylindrical shell of upper and lower opening, and the top of intermediate sleeve 20 is connected to the tank body top, and inner sleeve 11 bottoms are fixedly attached to tank base.The lower surface of the upper surface of inner sleeve top and tank body, intermediate sleeve bottom and tank body leaves respectively the gap 27 of passing through for steam, the steam that generates in inner sleeve and steam flow out by gap 27, and namely the gap of the gap on inner sleeve top and intermediate sleeve low side has formed the baffling path 25 for vapor flow.

Embodiment 3

A kind of electromagnetism steam engine, concrete structure are with embodiment 1, and difference is that the external diameter of tank body described in the present embodiment is 120mm, and tank body thickness is 8; The external diameter of described inner sleeve is 50mm, and tank body thickness is 3mm; The external diameter of described intermediate sleeve is 90mm, and tank body thickness is 4.5mm.

Embodiment 4

A kind of electromagnetism steam engine, concrete structure are with embodiment 1, and difference is that the external diameter of tank body described in the present embodiment is 130mm, and tank body thickness is 9mm; The external diameter of described inner sleeve is 55mm, and tank body thickness is 3.5mm; The external diameter of described intermediate sleeve is 95mm, and tank body thickness is 4.5mm.

Embodiment 5

A kind of electromagnetism steam engine, concrete structure is with embodiment 2, and difference is:

As shown in Figure 3, be mounted with inner sleeve 11 and intermediate sleeve 20 in the tank body, and the second intermediate sleeve 28 that increases.The second intermediate sleeve 28 also is the tubular structure of upper and lower opening, and its mounting means is with inner sleeve 11, and its top and tank body roof leave the gap for the steam circulation equally.Increased by the second intermediate sleeve, can produce the steam of larger flow velocity, to adapt to the need of production of different quantity of steams.

Above-described embodiment is a kind of better scheme of the present invention, is not that the present invention is done any pro forma restriction, also has other variant and remodeling under the prerequisite that does not exceed the technical scheme that claim puts down in writing.

Claims (10)

1. electromagnetism steam engine, comprise water system, tank body (10), the inlet pipeline that is communicated with tank interior respectively (21) and steam pipework (22), it is characterized in that: this electromagnetism steam engine also comprises the high-frequency electromagnetic coil (12) that is wrapped in the tank body periphery, the high-frequency electromagnetic generating means (13) that links to each other with the high-frequency electromagnetic coil, be arranged on the vapor (steam) temperature sensor (2) in the tank body, and for the treatment of the temperature of steam, pressure and the PLC electric-control system (14) that equipment is controlled automatically, steam pipework is connected with steam pressure sensor (7), described high-frequency electromagnetic generating means (13), vapor (steam) temperature sensor (2) is connected with PLC electric-control system (14) respectively with steam pressure sensor (7); Be provided with inner sleeve (11) and at least one intermediate sleeve (20) in the described tank body, intermediate sleeve is between inner sleeve and tank body, described inner sleeve and intermediate sleeve make tank inner chamber form the baffling path (25) that supplies vapor flow, and the end of inlet pipeline is deep into inner sleeve inside; Described tank body is the container made of iron of magnetic conduction.

2. a kind of electromagnetism steam engine according to claim 1, it is characterized in that: the external diameter of described tank body is 120mm-140mm, tank body thickness is 8-10mm; The external diameter of described inner sleeve is 50mm-60mm, and tank body thickness is 3-4mm; The external diameter of described intermediate sleeve is 90mm-100mm, and tank body thickness is 4.5-5mm.

3. a kind of electromagnetism steam engine according to claim 1 and 2, it is characterized in that: described vapor (steam) temperature sensor has two, and one is positioned at the inner sleeve middle part, and another is between intermediate sleeve and tank body.

4. a kind of electromagnetism steam engine according to claim 1 and 2, it is characterized in that: described water system comprises attemperater (3), and attemperater links to each other with tank body by inlet pipeline, is provided with overfall and blowoff valve on the attemperater.

5. a kind of electromagnetism steam engine according to claim 1, it is characterized in that: be connected with high-pressure hydraulic pump (18) on the described inlet pipeline, high-pressure hydraulic pump is connected with the PLC electric-control system.

6. a kind of electromagnetism steam engine according to claim 1, it is characterized in that: described steam pipework terminal is connected with steam-water separator (5), steam-water separator top is provided with steam (vapor) outlet (26), is provided with water return pipeline (24) between steam-water separator and the attemperater.

7. according to claim 1 or 6 described a kind of electromagnetism steam engines, it is characterized in that: be disposed with safety valve and stop valve from the end that is connected with tank body on the described steam pipework, described steam pressure sensor is connected on the pipeline between safety valve and the stop valve by pipeline.

8. a kind of electromagnetism steam engine according to claim 1 is characterized in that: the below of described inner sleeve barrel top and intermediate sleeve barrel is provided with several steam that pass through for steam portal (23);

Or the lower surface of the upper surface of described inner sleeve top and tank body, intermediate sleeve bottom and tank body leaves respectively the gap (27) of passing through for steam.

9. a kind of electromagnetism steam engine according to claim 6 is characterized in that: be disposed with stop valve, check-valves, high-pressure hydraulic pump and gate valve from an end that is connected with tank body on the described inlet pipeline; Be provided with drain valve on the water return pipeline.

10. a kind of electromagnetism steam engine according to claim 1, it is characterized in that: described tank body is outside equipped with heat-insulation layer (9), and described inner sleeve and intermediate sleeve are the container made of iron of magnetic conduction.

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