CN1417542A - All-weather multifunctional microwave boiler unit and operation system - Google Patents

Abstract

The present invention relates to microwave boiler utilizing microwave electromagnetic field to heat or vaporize water, and is one all-weather multifunctional microwave boiler unit and operation system. The present invention incldues heat exchanger in the boiler casing, microwave source, waveguide unit, magnetron, transformer, water pump, controller, etc. It can be used in household, enterprises, factory, greenhouse, shop, hospital, etc and also used in warming, providing drinking water and bath water, indoor humidifying, ironing clothes, physiotherapeutic treatment, etc. and has power of 500-1000w. Compared with available electric heater, the present invention has 50% lower power consumption, and is safe and reliable.

Description

A kind of all-weather multifunctional microwave boiler plant and equipment operational system

The present invention relates to a kind of boiler plant of running water being heated, particularly a kind of all-weather multifunctional microwave boiler plant and equipment operational system with the microwave electromagnetic radiant energy.Microwave is meant that wavelength is 1m～1mm, and frequency is a kind of electromagnetic wave of 300MHz～3000MHz.Can adopt microwave frequency in the microwave boiler is 915MHz～2450MHz or higher frequency.

The structural principle of microwave boiler and the structural principle of known various boilers are different fully, and microwave boiler is a kind of brand-new " microwave electromagnetic field heat exchanger " structural principle.The heating using microwave water body is because microwave electromagnetic field rotates hydrone at a high speed, and friction produces the result of high heat mutually, is the process that electromagnetic energy converts heat energy to.In case heating finishes, deenergization, just microwave generator is closed, and at this moment microwave electromagnetic field also just disappears, and hydrone inside also just can't produce heat energy by electromagnetic energy again, so heating also just can not have microwave to be retained in the hydrone after finishing.Therefore the boiling water of drinking the microwave boiler burning can not produce harm to human body.

Microwave heating technique, be widely used in various heating, medicine equipment and dry field in recent years both at home and abroad: as various microwave physical therapies and therapeutic equipment, microwave drying sterilization machine, microwave food sterilization machine, dried beef microwave dryer, microwave plasma generator and microwave food firing equipment, microwave dry fruit roaster, baby meal microwave dryer, instant noodles microwave dryer, microwave food firing equipment, agricultural byproducts microwave dryer and microwave corrugated board drying machine, bamboo product microwave dryer etc.

The thermal conductivity of existing various energy mode of heatings is: coal stove 30%, coal gas 55%, heating wire stove 55～63%, heating using microwave then most effective 90～95%.(select from: Huang Ruixiang etc. write the 15th page of " micro-wave oven use maintenance 300 ask " Zhejiang science tech publishing house in November, 1997 front page) and heating using microwave can save 30～50% than electrical heating.(select from: anxiety is offered Wen Pengbao and advanced to compile the 250th page of " up-to-date household electrical appliance use and maintenance 999 " Electronic Industry Press's second edition in May nineteen ninety-five) is not difficult to find out with the thermal conductivity of heating using microwave water body the highest, that is to say with heating using microwave it is the most outstanding on the effective rate of utilization of the energy.The development and application of microwave boiler is the great breakthrough of power-saving technology, will be for the research of domestic microwave warmer and various industrial microwave boilers, develop and apply and open vast vistas.Of the present invention applying will be that the heating of China and global boiler saves 30～50% electric power resource, simultaneously, will be the high-tech new product of environmental protection boiler of pollution-free from now on, no waste gas a new generation, has wide domestic and international market.

Current, the heating of the northern area of China is achieved by coal-burning boiler mostly, yet long-term use burning heating has not only consumed valuable coal resources in a large number, and exist serious drawback, be mainly reflected in aspects such as contaminated environment, gigantic project, thermal source comfortableness difference, this also causes the rapid decline of high energy consumption, high pollution and air quality, has also damaged the image in human beings'health and city simultaneously.In traditional heating, because of coal heating need be built various large-sized boilers, relate to factors such as investments such as the construction of appropriation of land, boiler room, installation, pipe design and the engineering construction of boiler are huge, the duration is normal, and do not have the area of central heating for those, people generally use the native heating installation heating of small coal, not only serious breaking encircled ecological environment, but also can cause fire or gas poisoning because of improper use, brings about great losses to the people's lives and property.Therefore, heat supply in winter has become the last outstanding contradiction of present society.In order to solve the contradiction of heating and environmental protection, health, to seek, research and develop, popularize New-type boiler exactly, the main trend of central heating industry development is being represented in the appearance of microwave boiler.

" microwave heating boiler " is 21 century novel boilers heated electrically heating product, has performances such as environmental protection, energy-conservation, safe ready.Promoting the use of of it is sublimate into ordinary heating in the brand-new boundary of " environmental protection with healthy heating ", will start a revolution in the heat supply field." microwave heating boiler " do not have injury, all can not produce any pollution and harm to indoor and natural environment human body, and it is promoted the use of the great social environment benefit of generation and health and environmental benefit.

The object of the present invention is to provide a kind of all-weather multifunctional microwave boiler plant and equipment operational system, water body carried out heat temperature raising or vaporization, in order to warm oneself, drink, bathing, spraying humidification, Ironing and physical therapy treatment." energy savings, protect environment, alleviate the household economy burden and protect the health " is the starting point of " a kind of all-weather multifunctional microwave boiler plant and equipment operational system " design.

The present invention's's " a kind of all-weather multifunctional microwave boiler plant and equipment operational system " advantage

The microwave boiler heating technique is human eternal utilizable resource.It is few that microwave has consumes energy, the production efficiency height, and heating quality is good, and equipment takes up an area of few, small investment and instant effect is convenient to realize characteristics such as automated production.The thermal conductivity that adds hot water with microwave boiler is the highest, that is to say that adding hot water with microwave boiler is the most outstanding on the effective rate of utilization of the energy.

As everyone knows, no matter be the boiler of all sizes that burns bavin, burns coal, oil firing, burning liquefied gas, be modern boilers heated electrically in addition, all be by heat conduction and heat radiation, add hot water from outside to inside gradually, in heating process, heated metal boiler tubing container, furnace wall and surrounding air simultaneously, thermal loss is many.Microwave boiler adds hot water and has then fundamentally changed traditional heating means, and microwave only heats water body, and other all is not heated.Can make the inside and outside heating simultaneously of water body, in the extremely short time, just water body can be heated to certain high temperature.Compare with traditional boiler heating means, microwave boiler adds hot water following advantages:

(1) firing rate is fast.Because directly to the inside and outside heating simultaneously of water body, heating container not is so can shorten heat time heating time greatly for microwave boiler.The time that adds hot water with traditional electrical heat boiler and gas boiler is compared, and microwave boiler can save time 50%～60%.

(2) energy-conservation.Microwave directly interacts with being heated water body, and not needing does not have excess loss, so energy-conservation especially through any media.Compare with the boilers heated electrically heating, but general saves energy 30%～70%.Adopt electromagnetic wave resonance to increase substantially heat energy.

(3) water body is heated evenly inside and outside.General mode of heating is the surface that adds hot water earlier, by the heat conduction heat is passed to water body inside then.And microwave energy is penetrated into water body inside, and whole water body inside and outside is heated simultaneously, and heat transfer efficiency is high.

(4) sterilizing effect.Microwave boiler can make the temperature of water body sharply rise, and has stronger sterilizing effect, and the drinking water of microwave boiler heating can use general running water.The microwave magnetized drinking water can be used for treatment and prevents multiple disease.

(5) round-the-clock, multi-functional use.The microwave household warming is the household electronic products of multi-functional machine, and power is at 500W～1000W.Be mainly used in indoor heating in the winter time, can use drinking water, bathing, spraying humidification, Ironing and physical therapy treatment device simultaneously in the heating phase.In the season without heating of house, heating system promptly becomes a cover bath water device.Can use drinking water, bathing, spraying humidification, Ironing and physical therapy treatment device simultaneously.Family can purchase electric water boiler (about 1500W) and electric heating bathing device (about 2000W) equipment again.Concerning family: the one, save and to purchase fund, the 2nd, save the electricity charge, the 3rd, reduce the household electricity load, the 4th, reduce the electrical fire accident, the 5th, reduce the expense of household electricity significantly.

(6) application of microwave boiler can be disposed corresponding platform number according to usable floor area and get final product by tubulature road system.Can not surpass existing heating cost according to measuring and calculating in the expense of north of china in winter heating.In addition, can control automatically, the remote control or the online control of mobile phone or phone.

(7) the microwave boiler non-scaling, do not explode, do not injure human body, be not afraid of boiler freeze, easy to use, make simple, easy to maintenance, cheap, under lack of water or anhydrous situation, can not burn out or explode yet, the most safe and reliable.Be applicable to places such as family, enterprise, industry, office, commerce, hospital, school, army, greenhouse, poultry farming.

The present invention is achieved in that a kind of all-weather multifunctional microwave boiler plant and equipment operational system, comprises microwave boiler device, microwave source device, heat sink arrangement, cooling insulation bathing cartridge, water fountain device, bathing apparatus, humidifier, cabinet apparatus, instrument and meter device, water-level control apparatus, pumping plant, gate-valve device, makes things convenient for combination hub device, water supply installation, portable heat sink arrangement, plumbing installation, microwave hot water iron arrangement, microwave hot water physiotherapy bag, microwave physical therapy therapeutic equipment device to be formed by combining.

' microwave heat exchanger assembly ', ' microwave evaporimeter ' and " microwave source device " that ' microwave boiler housing ' that " microwave boiler device " made by metal material and nonmetallic materials are made assemble.

The profile of ' microwave boiler housing ' can be selected cheese, tubaeform, tubular and jar shape for use with spherical shell the best.

' microwave boiler housing ' can divide two sections ' loam cakes ', ' base ' or three sections ' loam cake ', ' extend neck ', ' base ' according to profile.

An aperture that is used for fixing " humidifier " is opened in the loam cake middle part of ' microwave boiler housing '.

The structure of being strictly on guard against that microwave is revealed has been adopted in the combination of ' microwave boiler housing ' each section.Promptly another section rim openings place is tightly filled in in ' ring flange that has 90 degree right-angle sides ' for ' ring flange on plane ' in the edge of one section opening part, and through the mode that mutually combines of all bolted.Connecting metal ' wave guide ' or ' waveguide ' on one or more snippets of ' microwave boiler housing '.' wave guide ' or ' waveguide ' is connected through bolted with ' magnetron '.Wave guide is standard size: 86.35mm * 43.18mm.It is one or more that ' wave guide ' can be connected ' boiler shell ' outer surface.' waveguide ' can be connected in ' boiler shell ' outer surface or the reeve ' boiler shell ' one or more.' waveguide ' can be made into single head or bull, can open one or more ' radiation port ' on ' waveguide '.' waveguide ' goes up the direction of ' magnetron ' if towards ground, can connect ' spilled water hole ' that one section anti-microwave is revealed in the middle of ' waveguide ' lowermost end, in order to get rid of unnecessary water body in ' boiler shell '.When normal operation, ' boiler shell ' itself do not have water body.The effect of ' boiler shell ' is the most effective microwave reflection electromagenetic wave radiation energy.So ' boiler shell ' do not generate heat when normal operation, and be identical with room temperature.

One section ' lid ' of ' microwave boiler housing ', connecting the metal ' pipe box ' that anti-microwave is revealed that is used for of several different purposes on ' end ' or ' extend neck '.' pipe box ' one is connected on ' microwave boiler housing ', and various pipes, circuit in ' microwave boiler housing ' pass from this sleeve pipe, have ' swivel nut ' to be connected and fixed with " cabinet apparatus " on the other end tube head.The port of export of ' sleeve pipe ' that is connected and fixed with " cabinet apparatus " not, should put english ' spiro cap ' is used for anti-microwave and reveals.

' microwave heat exchanger assembly ' made by nonmetallic materials.Can place many covers ' hot water heat exchanger ' simultaneously.

' hot water heat exchanger ' is made up of ' framework ' and ' climbing pipe '.' climbing pipe ' made by the nonmetallic materials of multi-turn or multilayer.Available one or more sets.Should leave the interval of certain width between ' circle and the circle ' of ' climbing pipe '.' climbing pipe ' is enclosed within on ' framework ', can overlap one or more layers.Every layer all separates with framework.

' framework ' made by nonmetallic materials.Be used to climb around with fixing ' climbing pipe ', assembling is simple, convenient.Its shape should design according to the shape of ' boiler shell '.

Steam boiler is made by nonmetallic materials with ' evaporimeter '.Can divide two sections or three sections to connect to form by bolt.Have: " microwave tubular evaparator ", " microwave hot-water heating steam combined evaporimeter " and types such as " microwave sponge formula evaporimeters ".

The top of " microwave tubular evaparator " is one ' semicircle loam cake ' that a plurality of efferent ducts are arranged, and a week of opening is a right-angle side, and a circle on limit has several screws.

' the evaporator tube group ' of " microwave tubular evaparator " is several tubule bottles of an opening, with one have the plate of corresponding tubule diametric hole and the opening periphery position of tubule bottle is sealedly connected on simultaneously, have one week of outside of plate and ' semicircle loam cake ' corresponding screw.The upper and lower limit of a tubule is therein respectively connecting one section tubule and is being used to connect water level meter or automatic control circuit usefulness.

' semicircle loam cake ' is connected or is tightly connected through nonmetal bolt with ' evaporator tube group ' and all can.

" microwave hot-water heating steam combined evaporimeter ".In ' evaporator tube group ', be inserted in ' climbing pipe ', just become ' heat exchanger ' in the cover " microwave hot-water heating steam combined boiler ".

" microwave sponge formula evaporimeter " made in nonmetallic materials, in the container of top end opening, places sponge shape hydroscopic substance and makes.Top end opening is a steam (vapor) outlet.And, form continuous steam supply steam generator system from this mouth or the constantly past interior additional water body of another mouth of pipe.

" microwave source device " is that the single phase ac electric energy is converted to microwave energy, and it is sent to the structure of heating boiler.It mainly is made up of magnetron, transformer, high-voltage diode and high-voltage capacitance etc.

The operating efficiency of magnetron is generally 50%～70%, and the power of own loss distributes by anode with the heat energy form, thus in the anode block outside fin is housed, and adopt forced air cooling, in case magnetron is crossed cause thermal damage.After tested, magnetron when forced air cooling, the temperature on its anode radiator up to 130 ℃～145 ℃.For the just necessary temperature of anode that reduces magnetron of the operating efficiency that improves magnetron, the present invention has adopted " crossing hydromagnetic keyholed back plate heat exchanger apparatus "." crossing hydromagnetic keyholed back plate heat exchanger apparatus " of the present invention can make the operating efficiency of magnetron bring up to more than 90%, and energy heat cycles water body provides bath water and no fan noise simultaneously.So just can make the operating efficiency of magnetron reach 90%." crossing hydromagnetic keyholed back plate heat exchanger apparatus " of the present invention designed two kinds of schemes, all can reach same purpose.

" glue sealed hydromagnetic keyholed back plate heat exchanger apparatus " of the present invention makes through installing the upper and lower covers and all slit and the louvres of sealing that have water inlet pipe and water outlet pipe additional on original magnetron.The principle of sealing is to allow water body enter in the anode of magnetron.Recirculated water is entered by the bottom, and flow out on top.

" industrial products are crossed hydromagnetic keyholed back plate heat exchanger apparatus " of the present invention is the original wind-cooling heat dissipating sheet of magnetron, is modified into new water cooling heat exchanger device.Promptly take off original fin, one in cover has the container of water inlet pipe and water outlet pipe to get final product on the anode of magnetron.

The observed temperature of high-tension transformer when forced air cooling in " microwave source device " is about 125 ℃～135 ℃.Here, power supply has been depleted by the heat energy of transformer.Thermal losses and heat cycles water that the present invention adopts " the transformer heat exchanger device is soaked in the glue water shutoff " or " crossing water transformer heat exchanger device " to reduce transformer are used for using for bathing.The conversion of the operating efficiency of " microwave source device " is brought up to more than 100% (referred to the utilization again of waste heat).

" the transformer heat exchanger device is soaked in the glue water shutoff " of the present invention is the waterproof insulation sleeve pipe that puts on all power supply lead wires of transformer above water surface elevation, the coil on position that sleeve pipe is connected with coil with heat-resisting insulating cement and both sides can be put into the water receptacle use simultaneously with the glue sealing after glue is done then.

" cross water transformer heat exchanger device " of the present invention is that the outer iron core of transformer is tightly injected in the container that has in the identical square hole of transformer outer iron core, and at the heat exchanger apparatus that inlet tube and outlet tube is housed up and down of container.

Operational system flow process of the present invention and general hot water space heating boiler or steam boiler are roughly the same, are not carefully stating.

Electrical system among the present invention can adopt general " magnetron waveguide type microwave electric circuit " or " magnetron waveguide type microwave computer control electric circuit ".

Water level among the present invention shows and control device can adopt general normal component.

Magnetic valve among the present invention and gate valve all adopt standardized product.

Water pump among the present invention is all selected small-sized immersible pump standardized product for use, and power is at 25W～100W.

Various instrument and meters among the present invention and components and parts and pipe fitting are all selected the GB product for use.

Fig. 1 is " a kind of all-weather multifunctional microwave boiler plant and equipment operational system " of the present invention schematic diagram

Fig. 2 is the spherical boiler shell structural representation of microwave of the present invention

Fig. 3 is the schematic diagram of microwave boiler of the present invention with humidifier

Fig. 4 is a built-in microwave radiation head boiler shell schematic diagram of the present invention

Fig. 5 is a single tube double end external microwave boiler schematic diagram of the present invention

Fig. 6 assembles schematic diagram for microwave boiler housing of the present invention with fixed flange

Fig. 7 assembles schematic diagram for microwave boiler housing of the present invention adds with ring flange

Fig. 8 is a pot type microwave boiler shell structure schematic diagram of the present invention

Fig. 9 is a nonmetallic heat exchanger assembly structural representation of the present invention

Figure 10 is a nonmetal main heat exchanger structural representation of the present invention

Figure 11 is a nonmetal drinking water heat exchanger structural representation of the present invention

Figure 12 puts into the cut-away view of hot-water heating heat exchanger for microwave boiler of the present invention

Figure 13 is a microwave hot water space heating boiler structural representation of the present invention

Figure 14 is the spherical microwave boiler schematic diagram of single tube of the present invention

Figure 15 is a single tube cheese microwave boiler schematic diagram of the present invention

Figure 16 is the tubaeform microwave boiler schematic diagram of single tube of the present invention

Figure 17 is the perpendicular pot type microwave boiler schematic diagram of single tube of the present invention

Figure 18 is a two-tube perpendicular pot type microwave boiler schematic diagram of the present invention

Figure 19 is a single tube horizontl tank type microwave boiler schematic diagram of the present invention

Figure 20 is the loam cake schematic diagram of microwave steam boiler of the present invention

Figure 21 is the base schematic diagram of microwave steam boiler of the present invention

Figure 22 is the microwave electromagnetic field radiation schematic diagram in the microwave boiler of the present invention

Figure 23 is the structural representation of microwave boiler evaporimeter of the present invention

Figure 24 is the water level meter structural representation on the microwave boiler evaporimeter of the present invention

Figure 25 is the nonmetal superstructure schematic diagram on the microwave evaporimeter of the present invention

Figure 26, Figure 29 are the sealing ring schematic diagram on the microwave evaporimeter of the present invention

Figure 27 is the profile schematic diagram of microwave evaporimeter of the present invention

Figure 28 is the structural representation of microwave evaporimeter of the present invention

Figure 30 is the evaporating pan water pan structure schematic diagram of microwave evaporimeter of the present invention

Figure 31 is a microwave steam boiler structure schematic diagram of the present invention

Figure 32 is microwave hot-water heating of the present invention and steam combination boiler structure schematic diagram

Figure 33 is the magnetron structures top view, and Figure 34 is the side view of magnetron

Figure 35, Figure 36, Figure 38 are the glue envelope schematic diagram of magnetron

Figure 37 is a thermal switch

Figure 39, Figure 40 make schematic diagram for the upper-lower seal lid that glue of the present invention sealed hydromagnetic keyholed back plate heat exchanger apparatus

Figure 41, Figure 42 sealed the sealing schematic diagram of hydromagnetic keyholed back plate heat exchanger apparatus upper and lower covers for glue of the present invention

Figure 43 was a water-to-water heat exchanger front cabinet schematic diagram

Figure 44 was a water-to-water heat exchanger bonnet schematic diagram

Figure 45 is the water-to-water heat exchanger schematic diagram excessively that is assembled into

Figure 46 is for inserting the water-to-water heat exchanger schematic diagram excessively of magnetron tube core

Figure 47 crosses water-to-water heat exchanger product schematic diagram for magnetron of the present invention

Figure 48 is that side view, Figure 49 of transformer is the front view of transformer

Figure 50, Figure 51 are the schematic diagram of transformer firm banking heat exchanger

Figure 52, Figure 53 are side-looking and the front view of having fixed base heat exchanger transformer

Figure 54, Figure 55 install side-looking and the front view behind the water string additional for power of transformer goes between

The side-looking and the front view of the transformer that Figure 56, Figure 57 are honored as a queen for glue

Figure 58, Figure 59 are the side-looking and the front view of transformer

Figure 60 was the structural representation of water-to-water heat exchanger

Figure 61 injected schematic diagram in the water-to-water heat exchanger for transformer

Figure 62 is microwave hot water space heating boiler heating plant of the present invention and equipment operational system schematic diagram

Figure 63 microwave boiler bathing apparatus and equipment operation schematic diagram

Figure 64 is microwave hot water space heating boiler drinking device of the present invention and equipment operational system schematic diagram

Figure 65 is the Versatile apparatus and the equipment operational system schematic diagram of microwave hot water space heating boiler of the present invention

Figure 66 is the Hot-water iron schematic diagram that microwave hot water space heating boiler of the present invention uses

Figure 67 is the hot water physiotherapy bag schematic diagram that microwave hot water space heating boiler of the present invention uses

Figure 68 is the structural representation of microwave boiler physical therapy device of the present invention

Figure 69 is microwave steam boiler plant structural principle of the present invention and equipment operation schematic diagram

Figure 70 is two-in-one boiler plant structural principle of microwave hot-water heating steam of the present invention and equipment operation schematic diagram

Figure 71 is the process flow diagram of the series connection heating system of microwave boiler of the present invention

Figure 72 is the process flow diagram of the heating system in parallel of microwave boiler of the present invention

Figure 73 is microwave boiler of the present invention employed " the temperature control of a microwave boiler " schematic diagram

Figure 74 is the general electric control theory diagram of microwave boiler of the present invention

Figure 75 is the general computer control principle diagram of microwave boiler of the present invention

Below in conjunction with accompanying drawing the present invention is further described." a kind of all-weather multifunctional microwave boiler plant and equipment operational system " is as Fig. 1, Figure 14, Figure 15, Figure 18, Figure 31, Figure 32, shown in Figure 69 and Figure 70: comprise that " microwave boiler device A " comprises " microwave heat exchanger assembly (2-0) ", " microwave source device B ", " heat sink arrangement C ", " cooling insulation bathing cartridge D ", " water fountain device E ", " bathing apparatus F ", " humidifier G ", " cabinet apparatus H ", " instrument and meter device I ", " water-level control apparatus K ", " pumping plant J ", " gate-valve device L ", " make things convenient for combination hub device M ", " water supply installation N ", " portable heat sink arrangement O ", " plumbing installation P ", " microwave hot water iron arrangement S ", " microwave hot water physiotherapy bag R ", " microwave physical therapy therapeutic equipment device T " is formed by combining.

One, " microwave hot water space heating boiler apparatus system " of the present invention:

" microwave boiler device A " as shown in Figure 2, " microwave heat exchanger assembly (2-0) " (1-0) and as shown in Figure 9 forms by " microwave boiler housing ".

" microwave boiler housing " (1-0): as Fig. 2, Fig. 4, Fig. 5, Fig. 8, Figure 15, shown in Figure 16, that metal material constitutes for adopting, divide two sections as shown in Figure 2 ' loam cake ' (1-1) ' base ' (1-2), as Fig. 4, Fig. 5 or divide three sections ' loam cake ' (1-1) ' extend neck ' (1-0-1) ' base ' canisters of (1-2) being combined into as shown in Figure 8.The thick sheet metal of 0.5～1.0 millimeters thick that can adopt usually of wall of a container is made.

As shown in Figure 2, metal ' wave guide ' (1-8) at " microwave boiler housing " ' base ' (1-0) (1-2) or ' radiation port ' (1-8-10) as shown in Figure 5 at two ends, ' radiation port ' (1-8-11) or as shown in figure 18 ' loam cake ' (1-2B), ' base ' (1-2A) or as shown in Figure 8 ' base ' (1-2), connecting metal ' waveguide ' or ' wave guide ' (1-8) or (1-8A), in ' waveguide ' other end bottom (1-8) (1-9) by ' spilled water hole ' of adorning an anti-microwave leakage, fixing a metal ' magnetron fixed base plate ' (1-10) at ' waveguide ' side lower part (1-8), and having screw in order to fixing magnetron (1-11).

As Fig. 2, Fig. 4, Fig. 5, Fig. 8, Figure 18, shown in Figure 32, " microwave boiler housing " on (1-0) ' wave guide ' or ' waveguide ' but (1-8) single head list output, as shown in Figure 2 ' wave guide ' (1-8), as shown in Figure 8 ' wave guide ' (1-8A) or the many outputs of single head as shown in Figure 5 ' radiation port ' (1-8-10), (1-8-11) or the many outputs of bull as shown in figure 18 ' waveguide ' (1-8) ' waveguide ' shown in Figure 32 (1-8), (1-8A).' wave guide ' (1-8) can be fixed on " microwave boiler housing " (1-0) outer or " microwave boiler housing " single head in (1-0) export more, as shown in Figure 4 ' wave guide ' many ' radiation port ' (1-8) (1-8-0), (1-8-1), (1-8-2).

As Fig. 2, Fig. 4, shown in Figure 5, the metal water inlet pipe and water outlet pipe pipe box of anti-microwave leakage, in " microwave boiler housing " ' base ' (1-0) end or (1-0-1) middle part of stage casing ' extend neck ' as shown in Figure 8 (1-2), the one or more pairs of metal water inlet pipe and water outlet pipe pipe boxes that connecting anti-microwave leakage, ' water inlet sleeve pipe ' as shown in Fig. 2, Fig. 4, Fig. 5, Fig. 8 (1-16), ' going out jacket pipe ' (1-17) or ' water inlet sleeve pipe ' (1-18), go out jacket pipe (1-19), ' swivel nut ', ' spiro cap ' that fixing usefulness arranged on the turnover pipe box are (1-20).

As shown in Fig. 2, Fig. 4, Fig. 5, Fig. 8, for making the safe handling of microwave boiler, " microwave boiler housing " (1-0) ' loam cake ' (1-1) (1-2) adopted anti-microwave leakage to be connected with ' base '.' loam cake ' of " microwave boiler housing (1-0) " (1-1) with ' base ' (1-2) or ' loam cake ' (1-1), ' extend neck ' (1-0-1), ' base ' (1-2) be connected employing ' loam cake ' (1-1) be 90 degree right-angle sides " ring flange of anti-microwave leakage " (1-3).As shown in Figure 6, ' base ' ' ring flange ' (1-2) (1-4) or ' ring flange ' shown in Figure 7 (1-4-1) tightly fill in ' loam cake ' " ring flange of anti-microwave leakage " (1-1) (1-3) or (1-3-1), and (1-5) fastening with anti-microwave leakage with ' bolt '.' base ' ring flange (1-4) (1-2) can be welded on ' base ' (1-2) end or ' extend neck ' (1-0-1) on the interface edge at two ends.

" humidifier device G " by dress: on " microwave boiler housing " ' loam cake ' top (1-1) (1-0) as shown in Figure 2, having a hole (1-7), is fixing " humidifier device G " usefulness, as shown in fig. 1 ' by the dress hole ' (1-7).

The structure of " humidifier device G ": shown in Fig. 3 (1-21), its shape is as a hollow discus, and there is a steam jet pipe mouth on interior dress the ' absorbent sponge ' top, and bolt is arranged on the mouth of pipe, in order to be fixed on ' by the dress hole ' (1-7) in.The employing nonmetallic materials are made.

As Fig. 9, Figure 10 and shown in Figure 11, " microwave heat exchanger assembly " (2-0) is made of nonmetallic materials, (2-0) as shown in Figure 9, (2-0-1) shown in Figure 10 and (2-0-2) shown in Figure 11.' the nonmetal framework ' (2-0-1) of " main heat exchanger " as shown in Figure 9 (2-1), (2-3) be inserted in by many covers framework and form, in every cover framework, can be inserted in ' the nonmetal pipe of climbing ' (2-3), ' the nonmetal pipe of climbing ' end (2-3) leaves one section ' water inlet tube head ' (2-4), and the other end leaves one section ' water outlet tube head ' (2-5)." drinking-water heat exchanger " as shown in figure 11 (2-0-2) available one the cover ' nonmetal framework ' (2-6), in ' nonmetal framework ' outer ring (2-6), be inserted in a cover ' the nonmetal pipe of climbing ' (2-7), and at one end leaving one section ' water inlet tube head ' (2-8), the other end leaves one section ' water outlet tube head ' (2-9).In use, can (2-0-2) be placed on " main heat exchanger " the inside (2-0-1) to " drinking-water heat exchanger ", as shown in Figure 9.

The assembling of " microwave boiler apparatus system A ": as shown in figure 12, " microwave heat exchanger assembly " ' water inlet tube head ' (2-0) (2-4), (2-8) and ' water outlet tube head ' (2-5), (2-9) respectively from as ' the water inlet sleeve pipe ' of Figure 12 " microwave boiler housing " ' base ' (1-0) on (1-2) (1-16), (1-18) and ' going out jacket pipe ' (1-17), pass in (1-19), be used for connecting ' the P ' of plumbing installation system.

" microwave source apparatus system B " ' magnetron ' ' base ' (1-11) as shown in Fig. 1, Figure 12 (1-13) (1-10) (1-12) is fastenedly connected through ' bolt ' with ' waveguide ' ' magnetron fixed base plate ' on (1-8).

Two, " microwave steam boiler plant " of the present invention:

As Figure 20, Figure 21 and shown in Figure 22, be " the microwave steam boiler shell " in " microwave boiler device A ".

As shown in figure 20, ' the semicircle loam cake ' of " microwave steam boiler " (1-1) made by metal material.' semicircle loam cake ' connecting steam output pipe pipe box (30), return pipe pipe box (31), Pressure gauge efferent duct pipe box (32), safety valve efferent duct pipe box (33), the thermometer efferent duct pipe box (34) of anti-microwave leakage on (1-1).The output of each pipe box is rotary with the metal cap of anti-microwave leakage." ring flange of anti-microwave leakage " of the right-angle side ring flange (1-3) of anti-microwave leakage and 90 shown in Fig. 2, Fig. 4, Fig. 5, Fig. 8 degree right-angle side (1-3) or (1-3-1) identical.

As shown in figure 21, ' semi-circular base ' of " microwave steam boiler " (1-2) made by metal material.' water level meter efferent duct pipe box ' (35), (36) that ' semi-circular base ' connecting anti-microwave leakage on (1-2) and ' draining valve pipe pipe box ' (37) and ' spilled water hole ' (1-9) and ' magnetron base ' (1-10A), and (1-10) (1-13) be fastenedly connected ' magnetron ' (1-11) with ' bolt ' with ' magnetron base '.' ring flange ' of anti-microwave leakage is (1-4) (1-4) identical with ' base ' shown in Fig. 6 ' ring flange ' (1-2).

As shown in figure 23, " evaporimeter in the microwave steam boiler " in " microwave boiler apparatus system A " made by nonmetallic materials.' semicircle loam cake ' among ' semicircle loam cake ' shape (A) and Figure 20 is (1-1) roughly similar.' semicircle loam cake ' connecting steam output pipe (40), bottom return pipe sealed tube (41), Pressure gauge efferent duct (42), safety valve efferent duct (43), thermometer efferent duct (44) on (A).

' evaporator tube group ' as shown in figure 23 (B) by many pipes with up and down two have the plate (52) of corresponding hole, (54) to be connected with the sealed at both ends of pipe.As shown in figure 27.The two boards piece place of keeping to the side leaves " hole " (51), ' go up fillet ' (52) through ' sealing ring ' (49) and ' loam cake ' (A) by fastening being connected of ' bolt ' (53).(A) go up on the outer pipe in ' evaporator tube group ', connecting two ' water level meter discharge conection ' (45), (46).Shown in Figure 24 be " water level display " and ' water level meter outlet pipe ' (46), ' water level meter water inlet pipe ' (45), transparent ' water level displaying tube ' (D).The profile of ' evaporator tube group ' as shown in figure 27.

As shown in figure 23, ' evaporimeter chassis ' (C) its profile is similar to plate, the below of plate connects ' drainpipe ' (47), web one circle is kept hole, through ' following fillet ' (54) of ' sealing ring ' (50) and ' evaporator tube group ' following plate (A) by fastening being connected of ' bolt ' (56).

As shown in figure 23, ' bottom return pipe ' (48) pass ' evaporator tube group ' pipe in (B), insert ' evaporimeter chassis ' (C) in.Top passes from ' semicircle loam cake ' return pipe sealed tube (41) (A), is connected with ' return pipe ' (8) of ' radiator ' (7) among Figure 69.

As Figure 31, shown in Figure 32, ' return pipe ' (48B) also can (A) be connected simultaneously with ' the semicircle loam cake ' shown in Figure 23, down refluxes from loam cake.

As Figure 25, Figure 26, Figure 28, Figure 29, shown in Figure 30 be the assembling schematic diagram of " evaporimeter in the microwave steam boiler ".

Be " microwave steam boiler plant " as shown in figure 31.Open ' metal top cover ' (1), ' evaporimeter ' (2) are put in ' metab ', each efferent duct passes each corresponding metal pipe box, as shown in Figure 24 connect two ' water level meter pipe ' (45), (46) and as shown in figure 23 one ' bottom return pipe ' (48), (1-3) He (1-4) get final product as Figure 20, Figure 21 and the bolt (1-5) fastening ' ring flange ' of using again shown in Figure 22.

Three, " microwave hot-water heating steam combination boiler plant system " of the present invention:

Shown in figure 32, " microwave hot-water heating steam combination boiler shell " (1-2) (1-2) is assembled with " microwave steam boiler foundation " shown in Figure 21 by ' base ' of as shown in Figure 2 " microwave hot water space heating boiler housing ".Wherein, (1-8) cancel need not for ' base ' shown in Figure 2 ' wave guide ' on (1-2)." microwave hot-water heating steam combination boiler heat-exchanger " (2-0) is formed with " microwave boiler evaporimeter " combined complete shown in Figure 23 by as shown in Figure 9 " nonmetallic heat exchanger ".When suit, with ' nonmetallic heat exchanger ' in " the microwave boiler evaporimeter " shown in Figure 23 (B) replace as shown in Figure 9 " nonmetallic heat exchanger " ' nonmetal framework ' in (2-0) (2-1).' nonmetallic heat exchanger ' evaporation tube that respectively encloses (B) that ' the nonmetal pipe of climbing ' (2-2) is enclosed within as shown in Figure 23 " the microwave boiler evaporimeter " gets final product outward." microwave hot-water heating evaporation combined boiler device " that cover installs as shown in Figure 32.

Shown in figure 32, " microwave hot-water heating steam combination boiler heat-exchanger " can adopt two covers or many covers " microwave source device B " ' magnetron ' (4), (5) shown in figure 32.

Shown in figure 32, ' electromagnetic wave resonant belt ' (8).In many covers " microwave source device B ", the electromagnetic radiation direction of ' magnetron ' should adopt resonant relatively by dress.

Four, the selection of " microwave boiler housing " of the present invention external form: preferably select as shown in figure 14 " spherical microwave boiler housing " for use, because the utilization rate of the microwave electromagnetic radiant energy of spherical shell is the highest, the conversion of the thermal efficiency is also the highest.As shown in figure 22, " the electromagnetic radiation schematic diagram of microwave in spherical boiler shell ", ' microwave electromagnetic field ' (00) does not have the dead angle in spherical boiler vessel, and ' microwave electromagnetic field ' (00) is all utilized to change into heat energy.Large-scale " microwave boiler housing " can adopt as Figure 17, Figure 18, " pot type microwave boiler housing " shown in Figure 19.Small-sized " microwave boiler housing " can adopt " cheese microwave boiler " or " tubaeform microwave boiler " shown in Figure 16 as shown in figure 15.

Five, the structural representation of " glue sealed hydromagnetic keyholed back plate heat exchanger apparatus " of the present invention:

As Figure 33, shown in Figure 34 be " magnetron structures figure ".

As Figure 35, Figure 36, Figure 37, Figure 38, Figure 39, Figure 40, Figure 41 and Figure 42 is the present invention's homemade " glue sealed hydromagnetic keyholed back plate heat exchanger apparatus " structural representation.Adopt high temperature resistant, insulating cement.

As Figure 35, Figure 36, shown in Figure 38 be the glue envelope schematic diagram of magnetron.Glue envelope place (H4), (H5) ' back magnet ring ' glue envelope place (H6), magnet ring front and back, (H7) (C8) before and after ' preceding magnet ring ' magnet ring (C9), ' plate behind the magnetron U-shaped ' (C1) with ' magnetron bonnet ' glue envelope place (H11) (C2), ' magnetron radiator top cover ' (H9) with ' bottom ' (H10) glue envelope place.

' magnetron U-shaped sidewall ' that ' thermal switch ' as shown in figure 37 is installed in as shown in figure 38 goes up (H8)

Make schematic diagram as Figure 39, the shown in Figure 40 lid for " glue sealed hydromagnetic keyholed back plate heat exchanger apparatus " of the present invention upper-lower seal.(H12) go up at ' metal roof cover plate ' by adorning one ' metal outlet pipe ' (H13).' metal bottom cover plate ' (H14) on also by adorning one ' metal water inlet pipe ' (H15).' metal roof cover plate ' (H12) be welded on as shown in figure 38 ' casting coping ' (H9) on, ' metal bottom cover plate ' (H14) be welded on ' metal bottom cover ' (H10) on.As shown in figure 41 for fixing and (H12) with ' the metal roof cover plate ' of glue envelope, fixing and (H14) with ' the metal bottom cover plate ' of glue envelope, ' louvre ' that glue is honored as a queen (H3).

" glue the sealed hydromagnetic keyholed back plate heat exchanger apparatus " schematic diagram that can use for good seal of the present invention as shown in figure 42.

Six, the making of " industrial products are crossed hydromagnetic keyholed back plate heat exchanger apparatus " of the present invention:

As Figure 43, Figure 44, Figure 45, Figure 46 and shown in Figure 47, be " industrial products are crossed hydromagnetic keyholed back plate heat exchanger apparatus " of the present invention structural representation.

Be " crossing the water-to-water heat exchanger front cabinet " (J2-1) schematic diagram as shown in figure 43.' front cabinet ' (J2-1) makes square box with metal material, and one ' circular hole ' opened (J2-2) in the centre, last termination one section ' outlet pipe ' (J2-3), the lower end also connects one section ' water inlet pipe ' (J2-4).

Be " crossing the water-to-water heat exchanger back shroud " (J2-5) schematic diagram as shown in figure 44.' back shroud ' (J2-5) uses metal material, and a thick circle has ' seal groove ' (J2-6) on its limit.One ' sealed tube ' fixed (J2-8) in the middle part, and the front end of ' sealed tube ' is kept one ' sealing platform ' (J2-7).

Be " crossing water-to-water heat exchanger " schematic diagram that is assembled into as shown in figure 45.' back shroud ' (J2-5) inject ' front cabinet ' (J2-1) in, ' sealed tube ' (J2-8) (J2-2) passes from ' front cabinet ' ' circular hole ' (J2-1).' front cabinet ' (J2-1) back press ' seal groove ' (J2-6) in, water-tight being as the criterion.' sealed tube ' (J2-8) pressed on (J2-7) to ' sealing platform ', make ' front cabinet ' ' circular hole ' (J2-1) (J2-2) be pressed in a week ' sealed tube ' (J2-8) with ' sealing platform ' centre (J2-7), water-tight being as the criterion.

As shown in figure 46 for inserting " crossing water-to-water heat exchanger " schematic diagram of ' magnetron tube core '.On the magnetron original fin can, insert ' tube core of magnetron ' at ' sealed tube ' in (J2-8) and get final product.Be " magnetron is crossed the water-to-water heat exchanger device " of the present invention product structure schematic diagram as shown in figure 47.' cross water-to-water heat exchanger ' (J), ' negative electrode ' (C1-1), ' thermal switch ' (H8), ' bonnet ' (C2), ' base ' (C5), ' attaching plug ' (C6), ' outlet pipe ' (J2-3) and ' water inlet pipe ' (J2-4).

Seven, the structural representation of " the transformer heat exchanger device is soaked in the glue water shutoff " of the present invention:

Side view, Figure 49 of being " transformer " as shown in figure 48 are the front view of transformer.' transformer ' (B1), ' iron core ' (B2), ' base ' (B3), ' ground connection anode ' (B4), ' 220V coil ' (B5), ' attaching plug ' (B6), ' high-tension coil ' (B7), ' heater winding ' (B8), ' negative electrode coil ' (B9).

Be depicted as the schematic diagram of " transformer firm banking heat exchanger " of the present invention as Figure 50, Figure 51.' transformer ' (B), homemade metal ' base heat exchanger ' is (D).

Be depicted as side-looking and the front view of having fixed " base heat exchanger transformer " as Figure 52, Figure 53.' transformer ' (B) is fixed on ' base heat exchanger ' (D) on.

' power supply lead wire ' that is depicted as " transformer " as Figure 54, Figure 55 installs side-looking and the front view after ' waterproof insulation sleeve pipe ' additional.' waterproof insulation sleeve pipe ' (H1), (H2), (H3), (H4) be enclosed within respectively outside each bar power supply lead wire.

Be depicted as the side-looking and the front view of " transformer that glue is honored as a queen " as Figure 56, Figure 57, adopt high temperature resistant, insulating cement envelope.' glue envelope place ' (H5), (H6), ' waterproof insulation sleeve pipe ' also sealed with glue by tube head of " transformer " coil.

Eight, the structural representation of " crossing water transformer heat exchanger device " of the present invention:

Be depicted as the side-looking and the front view of " transformer " as Figure 58, Figure 59.

Be depicted as the structural representation of " crossing water-to-water heat exchanger " as Figure 60.Use sheet metal, make one ' square box ' (D), ' transformer cover frame ' that " transformer " can be injected in the centre (J1-2), the below connects one ' water inlet pipe ' (H13), the top connects one ' outlet pipe ' (H15).

Be depicted as schematic diagram in " transformer " reeve " cross water-to-water heat exchanger " as Figure 61." transformer " (B) tightly got final product in the reeve ' transformer cover frame ' (J1-2).' cross water-to-water heat exchanger ' (D), ' 220V coil ' (B5), ' attaching plug ' (B6), ' high-tension coil ' (B7), ' heater lead ' (B8), ' cathode leg ' (B9), ' water inlet pipe ' (H13), ' outlet pipe ' (H15).

Nine, shown in Figure 62, be " microwave hot water space heating boiler heating plant and equipment operational system " of the present invention schematic diagram.Form by " microwave hot water space heating boiler " (1), " attached radiator " (2), " main radiator " (3), " cooling insulation bathing tube " (4), " humidifier " (6), " mobile cabinet " (7) etc.

Shown in Figure 62, the structure of " microwave hot water space heating boiler heating plant and equipment operational system " of the present invention and the technological process of equipment operational system: " the microwave main heat exchange assembly " in " microwave hot water space heating boiler A " (1) (2-0-1) be connected in " cooling insulation bathing tube D " (4) " heating hot water circulating pump J " (1-26) again with " heat sink arrangement C " (3), ' current meter ' (3-5), " heat sink arrangement C " (2) connect, turn back in " microwave hot water space heating boiler A " (1) " microwave main heat exchange assembly " (2-0-1).Constitute the complete hot water cyclesystem of a cover.

Summary: on " microwave hot water space heating boiler A " (1) " humidifier " (6) are housed, ' water inlet pipe ' (2-4) is connected on " cooling insulation bathing tube D " (4) interior " heating hot water circulating pump J " ' water inlet pipe ' (1-26) (3-9B), and ' water pipe ' (3-9) links to each other with the water outlet tube head of " heat sink arrangement C " (3).Be equipped with on " heat sink arrangement C " (3) ' steam escape valve ' (3-6) and ' water level controller ' (3-7).The water inlet tube head of " heat sink arrangement C " (3) (3-4) is connected with ' water pipe '.' water pipe ' (3-4) (3-5) (3-2) is connected with the outlet pipe ' pipe joint ' of " heat sink arrangement C " (2) through ' current meter ', and ' water inlet pipe ' (3-1) (2-5) is connected the back with " microwave hot water space heating boiler A " (1) interior ' microwave main heat exchange assembly ' ' outlet pipe ' (2-0-1) and constitutes a complete hot water circulation loop system.

Shown in Figure 62, the structure and technological process of " microwave source apparatus system B ": ' water inlet pipe ' that " water " warp " magnetron heat exchanger circulating pump J " in " cooling insulation bathing tube D " (4) (1-27) is connected (1-14) flows into " crossing hydromagnetic keyholed back plate heat exchanger apparatus " and (1-11) (1-15) turned back to by ' return pipe ' in " cooling insulation bathing tube D " (4) and " water transformer heat exchanger device " (1-22) (1-27) constitutes a complete hot water circulation loop system with " magnetron heat exchanger circulating pump J " again.

Shown in Figure 62, " cooling insulation bathing tube D " (4) are gone up by adorning one ' water-level control apparatus ' and (1-30) are installed (1-28) with one ' water supply electromagnetic valve '." cooling insulation bathing tube D " (4) interior splendid attire a certain amount of water, placing " heating hot water circulating pump J " (1-26), " magnetron heat exchanger circulating pump J " (1-27) and " crossing water transformer heat exchanger device " (1-22), ' power supply lead wire ' is (1-23), (1-24) drawn with ' magnetron ' by top and (1-11) connect.Water temperature generally about 45 ℃, can be used for washing, water for shower.

Shown in Figure 62, fixing on " cabinet apparatus H " (7) " microwave hot water space heating boiler A " (1), " instrument and meter device I " (7-1), ' universal wheel ' (1-29) and the joint, power line etc. of turnover pipe.

Ten, shown in Figure 63, be " microwave hot water space heating boiler bathing apparatus and equipment operation " of the present invention schematic diagram

As shown in Figure 62, when normally moving, can use " bathing apparatus L " system in " microwave hot water space heating boiler heating plant and equipment operational system ".

Shown in Figure 63, close in " microwave source device B " " cross hydromagnetic keyholed back plate heat exchanger apparatus " (1-11) below ' magnetic valve ' (8-7), open ' magnetic valve ' (4-2), open ' bathing shower nozzle ' ' taps ' on (4-4) again and (4-5) can carry out bathing.' magnetic valve ' (1-30) opened on " gate-valve device L " by " water-level control apparatus K " (1-28) replenishes running water in " cooling insulation bathing cartridge D ".

11, shown in Figure 63, be " microwave hot water space heating boiler drinking device and equipment operation " of the present invention schematic diagram

As shown in Figure 62, when normally moving, can use " water fountain device E " system in " microwave hot water space heating boiler heating plant and equipment operational system ".

Shown in Figure 64, the structure of " water fountain device E " in " microwave hot water space heating boiler drinking device and equipment operation " is; ' water fountain ' (5), ' heat insulating bucket ' (5-3), ' water inlet pipe ' (5-7), ' joint ' (5-8), ' lid ' (5-4), ' water level controller ' (5-5), ' drinking water switch ' (5-13), ' teacup ' (5-14), ' cup ' (5-15), ' water supply electromagnetic valve ' (5-10) and ' conversion electromagnetic valve ' composition such as (5-11).

Shown in Figure 64, the technological process of " water fountain device E " in " microwave hot water space heating boiler drinking device and equipment operation " is: " microwave drinking water heat exchange assembly " ' outlet pipe ' (2-0-2) in " microwave boiler device A " (2-9) then ' conversion electromagnetic valve ' (5-6) be connected ' water inlet pipe ' (5-7) with ' joint ' (5-8) enter in " water fountain device E " ' water tank ' (5-3) in, (5-9) (5-11) flow into by ' outlet pipe ' again in " cooling insulation bathing cartridge D " (4) through ' conversion electromagnetic valve ', through ' drinking water water pump ' (5-0) inject ' return pipe ' (2-8) turn back to " microwave drinking water heat exchange assembly " (2-0-2) in, constitute a complete drinking-water closed circuit system.

12, shown in Figure 65, be " Versatile apparatus of microwave hot water space heating boiler and equipment operation " of the present invention schematic diagram

As shown in Figure 65, when normally moving, can use the Versatile apparatus system at " microwave hot water space heating boiler heating plant "; " portable radiator " shown in Figure 65 (O), " Hot-water iron " shown in Figure 66 (S) and Figure 67 as shown in " hot water physiotherapy bag " (R).

Shown in Figure 65, by adorning " making things convenient for combination hub device M ", comprising on the plate face of " cabinet apparatus H " (7): outer ' socket ' (9), outer ' socket ' (11) and outer ' socket ' (12) of drawing of ' warm water ' (more than 40 ℃) of drawing of ' middle warm water ' (more than 60 ℃) of drawing of ' high-temperature-hot-water ' (more than 80 ℃).

Shown in Figure 65, the outer technological process of drawing ' socket ' (9) system architecture of ' high-temperature-hot-water ' (more than 80 ℃) is: shown in Figure 64, be to have adopted " the water fountain device E " system in " microwave hot water space heating boiler drinking device and equipment operation " to come water is heated.Shown in Figure 65, draw ' socket ' (9) outward and (5-9) draw one ' water inlet pipe socket ' (A1) from ' outlet pipe ', (5-9) draw one ' return pipe socket ' (A2) from ' conversion electromagnetic valve ' ' outlet pipe ' (5-11).During use, insert " Hot-water iron " hose plug (A3), (A4) (S), close ' conversion electromagnetic valve ' and (5-11) can move " Hot-water iron " (S) system.

Shown in Figure 66, the microwave hot water flatiron: by ' shell ' (13-0), ' water inlet steam inlet pipe ' (13-1), ' return pipe ' (13-2), ' water supply hose ' (13-3), ' water inlet fast-assembling plug ' (A3), backwater flexible pipe (13-4) ' backwater fast-assembling plug ' (A4) constitutes.

Shown in Figure 65, the outer technological process of drawing ' socket ' (11) system architecture of ' middle warm water ' (more than 60 ℃) is: " main heat exchange assembly " ' outlet pipe ' (2-0-1) (2-5) through close ' conversion electromagnetic valve ' (10-10) and open ' conversion electromagnetic valve ' (10-12) receive ' ' socket ' of water inlet pipe hot water output quick assembling socket M ' (11) (B1) go up and insert " hot water physiotherapy bag " ' fast-assembling plug ' (B3) and ' ' socket ' of outlet pipe hot water output quick assembling socket M ' (11) (B2) insert again ' fast-assembling plug ' (B4) and ' outlet pipe ' (2-5A), open ' conversion electromagnetic valve ' (10-13) flow to ' heating water pump ' (1-26) through ' water inlet pipe ' (2-4A) and ' return pipe ' (2-4) turn back to " main heat exchange assembly " (2-0-1) in, constitute complete ' middle warm water ' closed circuit system.

Shown in Figure 67, be " microwave hot water physiotherapy bag R ": hot water physiotherapy incrustation (10), ' water inlet steam inlet pipe ' (10-3), ' water supply hose ' (10-4), ' water inlet fast-assembling plug ' (B3), ' backwater fast-assembling plug ' (B4), ' backwater flexible pipe ' (10-5) and ' return pipe ' (10-2) constitute.

Shown in Figure 65, the outer technological process of drawing ' socket ' (12) system architecture of ' warm water ' (more than 40 ℃) is: " crossing hydromagnetic keyholed back plate heat exchanger apparatus " (1-11) connecting ' return pipe ' (1-15).' return pipe ' end (1-15) (8-7) is connected with ' conversion electromagnetic valve ' of closing, the other end and ' conversion electromagnetic valve ' opened (8-6) connects and with ' water inlet pipe ' (8-4) and ' outlet pipe hot water is exported quick assembling socket M ' (12) ' socket ' and (C1) is connected, ' socket ' (C1) insert ' fast-assembling plug ' (C3) in succession ' return pipe ' (8-3) enter " portable warm drum O " (8).(8-2) entering ' conversion electromagnetic valve ' opened from ' return pipe ' again (8-5) turns back in " cooling insulation bathing cartridge D ", turn back to " crossing hydromagnetic keyholed back plate heat exchanger apparatus " again and (1-11), constitute complete ' middle warm water ' closed circuit system.

Shown in Figure 65, " portable warm drum O " (8) by ' radiator ' (8-1), ' water supply hose ' (8-3), ' water inlet fast-assembling plug ' (C3), ' backwater fast-assembling plug ' (C4) and ' backwater flexible pipe ' (8-2) form.

13, shown in Figure 68, be " microwave boiler physical therapy device and equipment operation " of the present invention system schematic

Shown in Figure 68, structure and operation principle be with shown in Figure 62, " microwave hot water space heating boiler heating plant and equipment operational system ".

Shown in Figure 68, being used for microwave physical therapy or when treatment, " buckle closure formula humidifier " on " microwave boiler device A " (1) (14-0) taken off, add and load onto " microwave physical therapy therapeutic equipment " (14) and get final product.

Shown in Figure 68, " microwave physical therapy therapeutic equipment " (14) comprise ' the buckle closure interface ' that is made of metal (14-1), ' vertical tube ' (14-2), ' left comer pipe ' (14-3), ' horizontal telescoping tube ' (14-4), ' right corner pipe ' (14-5), ' perpendicular telescoping tube ' (14-6) and ' radiation shield treatment head ' (14-7) form.

14, shown in Figure 69, be microwave steam boiler plant structural principle of the present invention and equipment operation schematic diagram

Shown in Figure 69, microwave steam boiler plant of the present invention by, " microwave boiler device A " (1) comprises that " microwave steam heat exchanger assembly " (2) and " microwave source device B " reach " water or wind magnetron heat exchanger " (3), " water or wind transformer heat exchanger " (4), " instrument and meter device I " (5), " heat sink arrangement C " (7), " plumbing installation P " ' return pipe ' (8), ' hot blast ' (9), " cabinet apparatus H " (10) and ' power supply ' compositions such as (11).

15, shown in Figure 70, be two-in-one boiler plant structure of microwave hot-water heating steam of the present invention and equipment operation schematic diagram.

Shown in Figure 70, the two-in-one boiler plant of microwave hot-water heating steam of the present invention is by, ' microwave boiler ' (1) in " microwave boiler device A ", ' microwave evaporimeter ' (2), ' microwave main heat exchange assembly ' (3) and ' microwave drinking water heat exchange assembly ' (4), " cross hydromagnetic keyholed back plate heat exchanger apparatus " (5), (6) ' cool back water pipe ' (7), ' cooling water inlet pipe ' (8), ' main heat exchange outlet pipe ' (9) ' main heat exchange return pipe ' (10), ' hot water radiation ' (11), ' magnetic valve ' (12), ' water pump ' (13), " cross water transformer heat exchanger device " (14), " cooling insulation bathing tube " (15), ' water level controller ' (16), " water fountain " (17), ' steam output pipe ' (18), ' steam heating radiator ' (19), ' return pipe ' (20), ' instrument ' (21) and ' water main ' (22) are formed.Its structure and principle are as shown in Figure 32, Figure 62, Figure 69.

16, shown in Figure 71, be the process flow diagram of the series connection heating system of microwave boiler of the present invention

Shown in Figure 71, the operation principle of each microwave boiler is with shown in Figure 62.Be that pipeline by a plurality of microwave boilers is connected in series and forms in this system, and increased some covers " maintenance spare duct " (X) and " boiler room booster water pump " (Z).Be applicable to medium small boiler.

17, shown in Figure 72, be the process flow diagram of the heating system in parallel of microwave boiler of the present invention

Shown in Figure 72, the operation principle of each microwave boiler is with shown in Figure 62.Be that pipeline by a plurality of microwave boilers is connected in parallel and forms in this system, be applicable to large-sized boiler.

18, shown in Figure 73, be microwave boiler of the present invention employed " the temperature control of microwave boiler " schematic diagram.Available machinery or electronic circuit are controlled the through and off of magnetron, regulate the water temperature in the microwave boiler, reach the humidity of regulation and control radiator.

Shown in Figure 74, be the general electric control theory diagram of microwave boiler of the present invention.Shown in Figure 75, be the general computer control principle diagram of microwave boiler of the present invention.

Claims (10)

1. all-weather multifunctional microwave boiler plant and equipment operational system, comprise the microwave boiler device, the microwave source device, heat sink arrangement, cooling insulation bathing cartridge, the water fountain device, bathing apparatus, humidifier, cabinet apparatus, the instrument and meter device, water-level control apparatus, pumping plant, gate-valve device, make things convenient for the combination hub device, water supply installation, portable heat sink arrangement, plumbing installation, the microwave hot water iron arrangement, microwave hot water physiotherapy bag, microwave physical therapy therapeutic equipment device is formed by combining: it is characterized in that in ' microwave boiler housing ' (1-0 among Fig. 2) in " microwave boiler device " by adorning ' microwave heat exchanger assembly ' (2-0 among Fig. 9) or ' microwave evaporimeter ' (Figure 23), Inlet and outlet water, steam pipe is by external ' the pipe box ' (1-16 among Fig. 2 of ' boiler shell ' (1-0 among Fig. 2), 1-17) draw and ' water circulating pump ' (J among Fig. 1) and ' radiator ' (C among Fig. 1) and ' water cooling heat exchanger ' (Figure 42, Figure 47, Figure 56 and Figure 61) and " water fountain " (E among Fig. 1), " bathing " device (F among Fig. 1) connects; " humidifier " (G among Fig. 1) is fixed on ' buckle closure ' (G 14-0 among Figure 68) of ' boiler shell ' (1-0 among Fig. 2) ' loam cake ' (1-1 among Fig. 2); ' waveguide ' in inside and outside connection the " microwave source device " of ' boiler shell ' (1-0 among Fig. 2) (among Fig. 2 among 1-8, Fig. 4 1-8) or ' wave guide ' (1-8A among Fig. 8); ' boiler shell ' of segmentation by ' ring flange ' (Fig. 6), (Fig. 7) through bolted; Connecting ' magnetron ' (1-11 among Fig. 2) on ' waveguide ' or ' wave guide ', the power supply lead wire of ' magnetron ' is connected with ' transformer ' (B 1-22 among Figure 62), is adorning ' water cooling heat exchanger ' (Figure 42, Figure 47, Figure 56 and Figure 61) on ' magnetron ' and ' transformer ' and connects with ' water circulating pump ' (J among Fig. 1) that is placed in " cooling insulation bathing cartridge " (D among Fig. 1) water body; " making things convenient for the combination hub device " (M among Fig. 1) that draws from ' water circulating pump ' pipeline is installed on the outer container of " cabinet apparatus " (H among Fig. 1); " make things convenient for the combination hub device " with " portable heat sink arrangement " (O among Figure 65), " microwave hot water iron arrangement " (S among Figure 66), " microwave hot water physiotherapy bag " (R among Figure 67) and connect and use through flexible pipe; " microwave physical therapy therapeutic equipment device " (T among Figure 68) spiral-lock is located at ' buckle closure ' (G 14-0 among Figure 68) that ' boiler shell ' (1-0 among Fig. 2) ' loam cake ' (1-1 among Fig. 2) takes off " humidifier " (G among Fig. 1); Form complete round-the-clock all spendable multi-functional " microwave boiler " circulatory system of a cover by " plumbing installation " that connecting (P among Fig. 1), " water-level control apparatus " (K among Fig. 1), " gate-valve device " (L among Fig. 1), " water supply installation " (N among Fig. 1), " instrument and meter device " (I among Fig. 1) etc.

2. a kind of all-weather multifunctional microwave boiler plant according to claim 1 and equipment operational system is characterized in that ' microwave boiler housing ' (1-0 among Fig. 2) among " microwave boiler device " (A among Fig. 1) makes two sections (1-1,1-2 among Fig. 2) or multistage (1-1,1-2,1-0-1 among Fig. 8) edge by the thick sheet metal of 0.5～1.0mm to have the ring flange (Fig. 6) that anti-microwave reveals, metal-back container (Figure 14), (Figure 15), (Figure 16), (Figure 17), (Figure 18) that (Fig. 7) is formed by connecting through bolt.

3. a kind of all-weather multifunctional microwave boiler plant according to claim 1 and 2 and equipment operational system, it is characterized in that outside ' microwave boiler housing ' (1-0 among Fig. 2) or interior a plurality of ' sleeve pipes ' (1-16,1-17 among Fig. 2), (Figure 20), (Figure 21) and ' waveguide ' or ' wave guide ' (1-8 among Fig. 2), (1-8 among Fig. 4), (1-8 among Fig. 5), (1-8A among Fig. 8), (1-8 among Figure 18) of connecting, ' waveguide ' (1-8 among Fig. 2) bottom is connecting ' spilled water hole ' (1-9 among Fig. 2).

4. a kind of all-weather multifunctional microwave boiler plant according to claim 3 and equipment operational system is characterized in that ' framework ' that ' microwave heat exchanger assembly ' (2-0 among Fig. 9) in ' microwave boiler housing ' (1-0 among Fig. 2) make by nonmetallic materials (among Fig. 9 2-1,2-3) and ' climbing pipe ' (2-2 among Fig. 9) suit combine.' climbing pipe ' leaves the tube head (2-4,2-5 among Fig. 9) of a section ' water inlet pipe ' and ' outlet pipe '.

5. a kind of all-weather multifunctional microwave boiler plant according to claim 4 and equipment operational system, it is characterized in that ' microwave evaporimeter ' in ' microwave boiler housing ' (1-0 among Fig. 2) (Figure 23) be made up of ' non-metallic pipe group ' (B among Figure 23) that ' nonmetal loam cake ' (A among Figure 23) of arc connecting, be connected with ' to advance on ' nonmetal loam cake ' (A among Figure 23) of arc, go out pipe ' (among Figure 23 40,41,42,43,44), ' non-metallic pipe group ' (B among Figure 23) is that the opening periphery position of several tubule bottles of an opening and plate that has corresponding tubule diametric hole and tubule bottle is sealedly connected on simultaneously (among Figure 23 49,53), have one week of outside of plate and ' semicircle loam cake ' corresponding screw (among Figure 23 51).The upper and lower limit of a tubule is therein respectively connecting one section tubule (among Figure 23 45,46) and is being used to connect water level meter or automatic control circuit usefulness, and ' microwave evaporimeter ' puts into suction ' sponge ' (Figure 23 D) and water body in (Figure 23).

6. a kind of all-weather multifunctional microwave boiler plant according to claim 5 and equipment operational system is characterized in that being inserted in ' microwave evaporimeter ' ' non-metallic pipe group ' (B among Figure 23) (Figure 23) ' climbing pipe ' (2-2 among Fig. 9) suit and are combined into ' heat exchanger ' in " microwave hot-water heating steam combined boiler " (among Figure 32 2,6,7).' heat exchanger ' is fixed on ' pony sill ' (among Figure 32 9).

7. according to claim 1 or 3 described a kind of all-weather multifunctional microwave boiler plant and equipment operational systems, it is characterized in that installing additional on ' magnetron ' (1-11 among Fig. 2) and ' high-tension transformer ' among " microwave source device " (A among Fig. 1) have inlet tube and outlet tube " crossing the water-to-water heat exchanger device " (Figure 42), (Figure 61), (Figure 56).

8. a kind of all-weather multifunctional microwave boiler plant according to claim 1 and equipment operational system is characterized in that connecting in " microwave boiler device " ' drinking-water ' (E5 among Figure 64) ' bathing ' (F among Figure 63) device.

9. a kind of all-weather multifunctional microwave boiler plant according to claim 1 and equipment operational system, it is characterized in that ' water circulating pump ' (J among Fig. 1) is placed in " cooling insulation bathing cartridge " (D among Fig. 1), " making things convenient for the combination hub device " (M among Fig. 1) that draws from ' water circulating pump ' pipeline is installed on the outer container of " cabinet apparatus " (H among Fig. 1) to connect through flexible pipe with " portable heat sink arrangement " (O among Figure 65), " microwave hot water iron arrangement " (S among Figure 66), " microwave hot water physiotherapy bag " (R among Figure 67) and uses.

10. according to claim 1 or described a kind of all-weather multifunctional microwave boiler plant and equipment operational system, it is characterized in that " microwave physical therapy therapeutic equipment device " (T among Figure 68) spiral-lock locates at ' buckle closure ' (G14-0 among Figure 68) that ' boiler shell ' (1-0 among Fig. 2) ' loam cake ' (1-1 among Fig. 2) takes off " humidifier " (G among Fig. 1).

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