CN105571119A - Electrode-type hot water and steam boiler system - Google Patents

Abstract

The present invention relates to an electrode-type hot water and steam boiler system, comprising: an electrode boiler; a heat storage tank connected to the electrode boiler and storing hot water heated by the electrode boiler; a hot water and steam boiler including a hot water discharge line for discharging hot water and a steam discharge line arranged above the hot water discharge line and discharging steam, and arranged partially inside the heat storage tank to be kept hot by the heat storage tank; a heat exchange tube arranged inside the hot water and steam boiler; a hot water circulation line connected to the heat storage tank and the heat exchange tube; and a pump which is arranged on the hot water circulation line and pumps water so that water in the heat storage tank can be forcibly circulated in the heat exchange tube of the hot water and steam boiler.

Description

Electric pole type hot water and steam boiler system

Technical field

The present invention relates to a kind of electric pole type hot water and steam boiler system, relate to a kind of electric pole type hot water and steam boiler system in more detail, it is to be different from the structure of existing steam generator system completely, can within the shorter time Heat of Formation water and steam.

Background technology

Boiler (Boiler) is that the water heated by piping loop carries out the device heated by after the water heating in water tank.

According to the mode of heating water, boiler can be divided into the polytype such as electric boiler and electrode boiler.

Electric boiler is the boiler plant that often can touch at periphery.Electric boiler has heating sources such as utilizing heating rod thus water is carried out to the mode of indirect.

If the situation of described electric boiler, because employing is indirect heating manner, therefore can there is energy loss when converting heat energy to from electric energy, thus may efficiency be reduced.

When particularly using electric boiler for a long time, there is following shortcoming: the high temperature because of resistance can occur the heating source such as oxidizing process or heating rod adheres to foreign matter, thus reduces efficiency further.

Such as, the efficiency at the what is called heating bar type electric boiler initial stage of known employing heating rod is about 80%, but the high temperature that heating rod is sent by self and heating, heating rod is more lower by efficiency thus, required heat can not be generated afterwards, therefore there is the problem needing to change heating rod after the use of short time.

In order to solve the shortcoming of described heating bar type electric boiler, break away from the indirect heating manner of heating water after heating heating source, streaming current in medium between electrode bar and electrode bar, thus the boiler plant utilizing the direct heating water of the electric conductivity of water, namely electrode boiler is commercially used.

As mentioned above, electrode boiler the chemical composition in water is reduced by physical reactions by electrode bar, thus the device of producing heat, when therefore considering that comparing heating bar type electric boiler can provide the higher thermal efficiency with identical electricity, need the advantages by existing heating bar type electric boiler and electrode boiler, technological development goes out can the steam generator system of the new ideas of Heat of Formation water and steam at short notice.

Look-ahead technique document

Patent document

No. 10-2011-0018549th, (patent document 0001) Koran Office's application number

No. 10-2011-0106059th, (patent document 0002) Koran Office's application number

No. 10-2013-0051981st, (patent document 0003) Koran Office's application number

No. 20-1979-0006152nd, (patent document 0004) Koran Office's application number

Summary of the invention

The object of the present invention is to provide a kind of electric pole type hot water and steam boiler system, it is different from the structure of existing steam generator system completely, can within the shorter time Heat of Formation water and steam.

Described object is realized by electric pole type hot water and steam boiler system, and its electric pole type hot water and steam boiler system are characterised in that and comprise: electrode boiler; Heat-accumulator tank, it is connected with described electrode boiler, and stores the hot water heated by described electrode boiler; Hot water and steam boiler, it comprises hot water discharge pipe's line and vapour-discharge tube line, described hot water discharge pipe's line makes hot water discharge, described vapour-discharge tube line is positioned at the top of described hot water discharge pipe's line and steam is discharged, and hot water and steam boiler are arranged in described heat-accumulator tank with the form making a part for upper end and expose, thus be incubated by described heat-accumulator tank; Heat exchange tube, it is arranged in described hot water and steam boiler; Hot water circuit pipeline, itself and described heat-accumulator tank, described heat-exchange tube sub-connection; And for the pump of circulating hot water, it is arranged at described hot water circuit pipeline, and pumps water is to make the water of described heat-accumulator tank to the heat exchange tube forced circulation of described hot water and steam boiler.

Overfall (overflow) is formed in the bottom of described vapour-discharge tube line at the side upper area of described heat-accumulator tank, described hot water circuit pipeline is configured at the lower area of described overfall, and described hot water circuit pipeline comprises hot water Drainage Division, hot water enters water portion and hot water connecting portion, the lower area that described hot water Drainage Division is configured at described overfall to described heat-accumulator tank upper end region and the hot water in described heat-accumulator tank is discharged, described hot water enters water portion and is configured at the lower end region of described heat-accumulator tank and makes hot water enter described heat exchange tube, described hot water connecting portion connects described hot water Drainage Division and described hot water enters water portion, drain-side valve and water inlet side valve that water portion can be respectively arranged with opening and closing respective lines is entered in described hot water Drainage Division and described hot water.

Also comprise: the first supplementing water supply pipeline, it is to described hot water and steam boiler supply supplementing water; Second supplementing water supply pipeline, it is from described first supplementing water supply pipeline fork, and end is communicated with described heat-accumulator tank; And ball-cock assembly, it is connected with described second supplementing water supply pipeline, and described second supplementing water supply pipeline can be provided with the check-valves for preventing adverse current, and it is for preventing the supplementing water adverse current along described second supplementing water supply pipeline flowing.

Also can comprise: temperature sensor, it is arranged at described hot water and steam boiler; And controller, its transducing signal based on described temperature sensor (sensingsignal) controls the operation of described hot water and steam boiler and described electrode boiler.

Described electrode boiler comprises: boiler body; Multiple electrode bar, it is respectively used to the heating of water with a pair of isolation configuration in described boiler body; Water discharge portion, it is arranged at the bottom of described boiler body, and makes the water in described boiler body be discharged to described heat-accumulator tank; Water inflow part, it is arranged at the upper end of described boiler body, and make the water in heat-accumulator tank flow in described boiler body, water discharge pipe line is connected with at described heat-accumulator tank and described water discharge portion, water inflow line is connected with at described heat-accumulator tank and described water inflow part, flow into pipeline installing pipeline pump at described water, described pipeline pump pumps the water flowing into pipeline inflow along water, and can arrange main check valve in the described water inflow line of adjacent described pipeline pump.

According to the present invention, there is following effect: to be different from the structure of existing steam generator system completely, hot water and steam can be produced in shorter time.

Particularly, according to the present invention, have following effect: have nothing to do with service time, boiler can play the efficiency of 100%, therefore economical and practical, can also reduce the expense and labour that produce because frequently changing heating rod in addition.

Accompanying drawing explanation

Fig. 1 is the pie graph of electric pole type hot water according to the first embodiment of the present invention and steam boiler system.

Fig. 2 is the controlling party block diagram of Fig. 1.

Fig. 3 is the pie graph of electric pole type hot water according to a second embodiment of the present invention and steam boiler system.

Fig. 4 is the controlling party block diagram of Fig. 3.

Fig. 5 is the pie graph of electric pole type hot water according to the third embodiment of the invention and steam boiler system.

Fig. 6 is the controlling party block diagram of Fig. 5.

Detailed description of the invention

With reference to accompanying drawing and embodiment described later will will specify advantage of the present invention, feature and their implementation method.

But the present invention will be not limited to the embodiment of following discloses, and can embody with multiple pattern.

In this manual, the present embodiment is of the present invention open more complete in order to make, and provides to provide complete invention scope to the people with general knowledge of the technical field belonging to the present invention.In addition, the present invention is only by the scope definition of claims.

Therefore, in several embodiments, in order to avoid explanation of the invention causes unnecessary fuzzy, specific description is not done to known inscape, known operation and known technology.

In whole description, identical refers to identical inscape with reference to label.In addition, (mentioning) term used in this manual is for illustration of embodiment, instead of of the present invention in order to limit.

In this manual, odd number shape statement also comprises plural shape in case of no particular description.In addition, the inscape mentioned with " comprising (or possessing) " and operation (effect) are not got rid of the existence of other inscape more than one and operation or are added.

If do not have other to define, the implication that all terms (comprising technology and scientific terminology) that this description uses can be understood jointly with the people having general knowledge in the technical field of genus of the present invention uses.

In addition, to the term defined in the general dictionary used, idealized or overinterprete is not carried out if do not defined.

Below, with reference to accompanying drawing, the preferred embodiments of the present invention are described.

Fig. 1 is the pie graph of electric pole type hot water according to the first embodiment of the present invention and steam boiler system, and Fig. 2 is the controlling party block diagram of Fig. 1.

With reference to described figure, according to electric pole type hot water and the steam boiler system of the present embodiment, to be different from the structure of existing steam generator system completely, can produce hot water and steam within the shorter time, electric pole type hot water and steam boiler system can comprise electrode boiler 110, heat-accumulator tank 120, hot water and steam boiler 130, heat-exchange tube (tube) 135, hot water circuit pipeline (line) 140 and the pump 145 for hot water circuit.

First, electrode boiler 110 is boilers normal-temperature water being heated into hot water.In the present embodiment, electrode boiler 110 utilizes controller (controller) 170 independently can carry out ON/OFF (on/off) operation.

The electrode boiler 110 being applicable to the present embodiment is the boilers of the complete different concepts being different from existing electric boiler.

As above-mentioned, the mode of heating of existing electric boiler is with the unshowned heating rod of electrical heating, by the heating rod heating water heated.

But the electrode boiler 110 being applicable to the present embodiment does not have heating rod, and be suitable for multiple electrode bar 112.

Even if power supply still multiple electrode bar 112 also can not be generated heat.When electrode bar 112 accesses power supply, the while that the water between them being ionizable, hydrone plays the effect of flowing resistive element, and every 1Kw generates the Joule heat of 860Kcal.Along with the rising of water temperature, the resistance value of water sharply increases, thus can obtain the high-temperature water of needs within the shorter time.

In addition, the heat of generation is vaporized at low temperatures because of the conduction oil in electrode bar 112, improves the coefficient of overall heat transmission further, is increased the heat of water by thermal diffusion fast, thus the highest thermal efficiency of realization heats water within the shorter time.

The energy reduction efficiency that existing electric boiler reduces by more than 20% compared by known electrodes boiler 110, and the present embodiment has been suitable for the electrode boiler 110 with described advantage.

Described electrode boiler 110 comprises: boiler body 111, and it forms the space that water is flowed into; Electrode bar 112, it also heats water in boiler body 111 respectively with a pair of isolation configuration.

The bottom of boiler body 111 is provided with water discharge portion 113, and water discharge portion 113 makes the water in boiler body 111 discharge.

In addition, the upper end of boiler body 111 is provided with water inflow part 114, and water inflow part 114 moves the water to flow in boiler body 111.

Then, heat-accumulator tank 120 is connected with electrode boiler 110, forms the space that the hot water heated at electrode boiler 110 is stored.The capacity of heat-accumulator tank can arbitrarily change.

Overfall (overflow) 121 is formed in the bottom of the vapour-discharge tube line 132 being formed at hot water and steam boiler 130 at the side upper area of heat-accumulator tank 120.Because be form overfall 121 at the side upper area of heat-accumulator tank 120, therefore water can only be filled into the position of overfall 121.

In order to make heat-accumulator tank 120 be connected with electrode boiler 110, water being set and discharging line 181 and water inflow line 182.

Water discharge pipe line 181 is the pipes (pipe) of the water discharge portion 113 connecting heat-accumulator tank 120 and electrode boiler 110, and water inflow line 182 is the pipes (pipe) of the water inflow part 114 connecting heat-accumulator tank 120 and electrode boiler 110.

Control valve V1, V2 of controlling respective lines is respectively provided with at water discharge pipe line 181 and water inflow line 182.Control valve V1, V2 also can be magnetic valves (solenoidvalve).

Different from water discharge pipe line 181, water inflow line 182 is provided with pipeline pump (linepump) 183, and pipeline pump is pumped the water flowed along water inflow line 182.Pipeline pump 183 drives as the water in heat-accumulator tank 120 circulates to electrode boiler 110.

In addition, the periphery water inflow line 182 of pipeline pump 183 is provided with main check valve (checkvalve) 184, main check valve stops the adverse current of water in water inflow line 182.In other words, main check valve 184 stops water from water inflow part 114 adverse current of electrode boiler 110 to heat-accumulator tank 120.

Secondly, hot water and steam boiler 130, as the boiler of partial configuration in heat-accumulator tank 120, are incubated by heat-accumulator tank 120.Now, a upper end part for hot water and steam boiler 130 can be exposed from heat-accumulator tank 120.

Described hot water and steam boiler 130 are provided with hot water discharge pipe's line 131 that hot water is discharged and the vapour-discharge tube line 132 that steam is discharged.Now, vapour-discharge tube line 132 is configurable in the top of hot water discharge pipe's line 131.

Secondly, heat exchange tube 135 is arranged at the pipe in hot water and steam boiler 130.In order to increase heat exchange area, heat-exchange tube 135 can be wound around with spring (spring) shape and be arranged in hot water and steam boiler 130.

In addition, hot water circuit pipeline 140 is the pipes being connected to heat-accumulator tank 120 and heat-exchange tube 135.

Hot water circuit pipeline 140 is configurable in the lower area of overfall 121.Described hot-water circulation pipe 140 comprises: hot water Drainage Division 140a, and it is configured at the upper end region of lower area to heat-accumulator tank 120 of overfall 121, and the hot water in heat-accumulator tank 120 is discharged; Hot water enters water portion 140b, and it is configured at the lower end region of heat-accumulator tank 120 and makes hot water enter water to heat exchange tube 135; Hot water connecting portion 140c, it connects hot water Drainage Division 140a and hot water enters water portion 140b.

Now, enter at hot water Drainage Division 140a and hot water draining side valve 141 and the water inlet side valve 142 that water portion 140b is respectively arranged with the corresponding pipeline of opening and closing.The operation of described valve is controlled by controller 170.

Secondly, the pump 145 for circulating hot water is arranged at hot-water circulation pipe 140, and performs the function of pumps water, to make the water of described heat-accumulator tank 120 to heat-exchange tube 135 forced circulation of hot water and steam boiler 130.

In other words, the hot water that the pump 145 for circulating hot water is arranged at hot water circuit pipeline 140 enters 140b region, water portion, is operated by controller 170 in relevant position, and hot water is circulated to heat-exchange tube 135 by hot water circuit pipeline 140.

As mentioned above, heat-exchange tube 135 is also set in hot water and steam boiler 130, makes the hot water in heat-accumulator tank 120 to described heat-exchange tube 135 Inner eycle by force, thus hot water and steam can be produced within the shorter time.

The periphery of hot water and steam boiler 130 is provided with the first supplementing water supply pipeline 151, first supplementing water supply pipeline 151 and supplies supplementing water to hot water and steam boiler 130.Then, the second supplementing water supply pipeline 152 diverges out from the first supplementing water supply pipeline 151, and its end is communicated with heat-accumulator tank 120.

Now, connect ball-cock assembly (Balltop) 153 at the second supplementing water supply pipe 152, to supply supplementing water in heat-accumulator tank 120.

In addition, the second supplementing water supply pipeline 152 is provided with the check-valves 154 for preventing supplementing water adverse current, it is for preventing the adverse current of the supplementing water flowed along the second supplementing water supply pipeline 152.Therefore, there will not be the phenomenon of the hot water adverse current in heat-accumulator tank 120.

Temperature sensor 175 is arranged at hot water and steam boiler 130, the temperature of perception hot water and steam boiler 130.Based on the operation of the controlled water heating of the temperature value perceived and steam boiler 130 and electrode boiler 110.

Finally, controller 170 based on the transducing signal of temperature sensor 175, thus controls the operation of hot water and steam boiler 130 and electrode boiler 110.

Described controller 170 can comprise central processing unit (CPU) 171, memory (MEMORY) 172, auxiliary circuit (SUPPORTCIRCUIT) 173.

With regard to central processing unit 171, it can be the one in the multiple computer processor of commercial Application, and in the present embodiment, it is in order to control the operation of hot water and steam boiler 130 and electrode boiler 110 based on the transducing signal of temperature sensor 175.

Memory (MEMORY) 172 is connected with central processing unit 171.Memory 172 can arrange in the machine (local) as the recording medium read by computer and also can long-rangely arrange, such as, memory can be random access memory (RandomAccessMemory, RAM), read-only storage (readonlymemory, ROM), floppy disk (floppydisk), hard disk or arbitrary as digital file layout etc. can at least more than one memory wieldy.

Auxiliary circuit (SUPPORTCIRCUIT) 173 is combined with central processing unit 171 thus supports the typical operation of processor.Described auxiliary circuit 173 can comprise buffer memory (cache), power supply (powersupply), clock circuit (ClockCircuit), input/output circuitry, subsystem (subsystem) etc.

In the present embodiment, the transducing signal control hot water of controller 170 based on temperature sensor 175 and the operation of steam boiler 130 and electrode boiler 110.Now, a series of program etc. based on the transducing signal control hot water of temperature sensor 175 and the operation of steam boiler 130 and electrode boiler 110 can be stored in memory 172.Typically can at memory 172 storing software program (softwareroutine).In addition, software program also can be undertaken storing or implementing by other central processing units (not shown).

Implemented by software program although the description of program (process) according to the present invention, but also can be performed by hardware at least partially in program of the present invention.As mentioned above, program of the present invention can realize with the software form that computer system performs, or directly realizes with the example, in hardware being similar to circuit, or realizes with the form of software and hardware combination.

As described in explanation, according to electric pole type hot water and the steam boiler system of the present embodiment, except electrode boiler 110, be suitable for hot water and steam boiler 130 simultaneously, therefore compare existing steam generator system can within the shorter time Heat of Formation water and steam.

According to the present embodiment with described structure and effect, be different from completely existing steam generator system structure can within the shorter time Heat of Formation water and steam.

Particularly, according to the present embodiment, the efficiency of 100% can be played all the time with the boiler that has nothing to do service time, therefore economical and practical, the expense and labour that produce because frequently changing heating rod can also be reduced in addition in the past.

Fig. 3 is the pie graph of electric pole type hot water according to a second embodiment of the present invention and steam boiler system, and Fig. 4 is the controlling party block diagram of Fig. 3.

With reference to these figure, also can comprise according to the electric pole type hot water of the present embodiment and steam boiler system: electrode boiler 110; Heat-accumulator tank 120; Hot water and steam boiler 130; Heat-exchange tube 135; Hot water circuit pipeline 140; For the pump 145 of circulating hot water; First and second supplementing water supply pipeline 151,152.

In described structure, be connected with electrolyte supply pipeline 291 at the second supplementing water supply pipeline 152, described electrolyte supply pipeline 291 is connected with electrolyte tank 290.

Further, electrolyte supply pipe 291 is provided with the magnetic valve 292 for supplying electrolyte.Magnetic valve 292 for supplying electrolyte is controlled by controller 270.

In addition, when supplying supplementing water by the second supplementing water supply pipeline 152 in heat-accumulator tank 120, such as, during the supply very high supplementing water of conductivity, overcurrent between electrode bar 112 can make the water in heat-accumulator tank 120 boiled rapidly, cause heat-accumulator tank 120 inside to be full of steam, the circulation of electric current is hindered thus, thus becomes the state that cannot continue to heat up water.

On the contrary, during the supply low-down supplementing water of conductivity, the electric current between electrode bar 112 is very little, may need long time when therefore raising the water temperature of the water of heat-accumulator tank 120.

So supply after needing to add a certain amount of electrolyte in supplementing water, be provided with electrolyte tank 290, electrolyte supply pipeline 291 and the magnetic valve 292 for electrolyte supply for this reason in the present embodiment, thus supply a certain amount of electrolyte by the second supplementing water supply pipeline 152 to being supplied in heat-accumulator tank 120 supplementing water.

Even if be suitable for the structure as the present embodiment, not only can be configured in Heat of Formation water and steam in the shorter time with what be different from existing steam generator system completely, and with the boiler efficiency that can play 100% that has nothing to do service time, therefore economical and practical, the expense and labour that produce because frequently changing heating rod can also be reduced in addition in the past.

Fig. 5 is the pie graph of electric pole type hot water according to the third embodiment of the invention and steam boiler system, and Fig. 6 is the controlling party block diagram of Fig. 5.

With reference to these figure, also can comprise according to the electric pole type hot water of the present embodiment and steam boiler system: electrode boiler 110; Heat-accumulator tank 120; Hot water and steam boiler 130; Heat exchange tube 135; Hot water piping 140; For the pump 145 of circulating hot water; And first and second supplementing water supply pipeline 151,152.

Moreover, also be provided with electrolyte tank 290, electrolyte supply pipeline 291 and the magnetic valve 292 for supplying electrolyte according to the electric pole type hot water of the present embodiment and steam boiler system, thus in the supplementing water being supplied to heat-accumulator tank 120, supply a certain amount of electrolyte by the second supplementing water supply pipe 152.

In described structure, in heat-accumulator tank 120, be also provided with electrolyte concentration determination part 395, measure the electrolyte concentration of water in heat-accumulator tank 120.The value measured at electrolyte concentration determination part 395 is sent to controller 370, and controller 370 controls the operation of the magnetic valve 292 for supplying electrolyte based on described value, thus realizes the weight feed of electrolyte.

Even if be suitable for the structure as the present embodiment, not only can there is hot water and steam to be different from being configured in the shorter time of existing steam generator system completely, but also can with the boiler efficiency of the performance 100% that has nothing to do service time, therefore economical and practical, the expense and work that produce because frequently changing heating rod can also be reduced in addition in the past.

As mentioned above, the present invention is not limited to the embodiment recorded, and under the prerequisite not exceeding thought of the present invention and scope, carries out multiple revision and distortion it will be apparent to those skilled in the art that.Therefore, such revision example or variation should be included in right of the present invention.

Symbol description

110: electrode boiler 111: boiler body

112: electrode bar 113: water discharge portion

114: water inflow part 120: heat-accumulator tank

121: overfall 130: hot water and steam boiler

131: hot water discharge pipe's line 132: vapour-discharge tube line

135: heat exchange tube 140: hot water circuit pipeline

140a: hot water Drainage Division 140b: hot water enters water portion

140c: hot water connecting portion 141: drain-side valve

142: water inlet side valve 145: for the pump of circulating hot water

151: the first supplementing water supply pipeline 152: the second supplementing water supply pipelines

153: ball-cock assembly 154: for preventing the check-valves of supplementing water adverse current

170: controller 175: temperature sensor

181: water discharge pipe line 182: water inflow line

183: pipeline pump 184: main check valve

Claims (5)

1. electric pole type hot water and a steam boiler system, is characterized in that, comprising:

Electrode boiler;

Heat-accumulator tank, it is connected with described electrode boiler, and stores the hot water heated by described electrode boiler;

Hot water and steam boiler, it comprises hot water discharge pipe's line and vapour-discharge tube line, described hot water discharge pipe's line makes hot water discharge, described vapour-discharge tube line is positioned at the top of described hot water discharge pipe's line and steam is discharged, and hot water and steam boiler are arranged in described heat-accumulator tank with the form making a part for upper end and expose, thus be incubated by described heat-accumulator tank;

Heat exchange tube, it is arranged in described hot water and steam boiler;

Hot water circuit pipeline, itself and described heat-accumulator tank, described heat-exchange tube sub-connection; And

For the pump of circulating hot water, it is arranged at described hot water circuit pipeline, and pumps water is to make the water of described heat-accumulator tank to the heat exchange tube forced circulation of described hot water and steam boiler.

2. electric pole type hot water according to claim 1 and steam boiler system, is characterized in that:

Overfall is formed in the bottom of described vapour-discharge tube line at the side upper area of described heat-accumulator tank,

Described hot water circuit pipeline is configured at the lower area of described overflow,

Described hot water circuit pipeline comprises hot water Drainage Division, hot water enters water portion and hot water connecting portion, described hot water Drainage Division is configured at the upper end region of lower area to described heat-accumulator tank of described overfall, and the hot water in described heat-accumulator tank is discharged, described hot water enters the lower end region that water portion is configured at described heat-accumulator tank, and make hot water enter described heat exchange tube, described hot water connecting portion connects described hot water Drainage Division and described hot water enters water portion

Described hot water Drainage Division and described hot water enter drain-side valve and the water inlet side valve that water portion can be respectively arranged with opening and closing respective lines.

3. electric pole type hot water according to claim 1 and steam boiler system, is characterized in that, also comprise:

First supplementing water supply pipeline, it is to described hot water and steam boiler supply supplementing water;

Second supplementing water supply pipeline, it is from described first supplementing water supply pipeline fork, and end is communicated with described heat-accumulator tank; And

Ball-cock assembly, it is connected to described second supplementing water supply pipeline,

Can be provided with the check-valves for preventing adverse current at described second supplementing water supply pipeline, it is for preventing the supplementing water adverse current along described second supplementing water supply pipeline flowing.

4. electric pole type hot water according to claim 1 and steam boiler system, is characterized in that, also comprise:

Temperature sensor, it is arranged at described hot water and steam boiler; And

Controller, its transducing signal based on described temperature sensor controls the operation of described hot water and steam boiler and described electrode boiler.

5. electric pole type hot water according to claim 1 and steam boiler system, is characterized in that,

Described electrode boiler comprises: boiler body; Multiple electrode bar, it is respectively used to the heating of water with a pair of isolation configuration in described boiler body; Water discharge portion, it is arranged at the bottom of described boiler body, and makes the water in described boiler body be discharged to described heat-accumulator tank; Water inflow part, it is arranged at the upper end of described boiler body, and makes the water in described heat-accumulator tank flow in described boiler body,

Water discharge pipe line is connected with at described heat-accumulator tank and described water discharge portion,

Water inflow line is connected with at described heat-accumulator tank and described water inflow part,

Flow into pipeline installing pipeline pump at described water, described pipeline pump pumps the water flowing into pipeline inflow along described water,

At the described water inflow pipe of adjacent described pipeline pump, main check valve is set.