CN208295889U - Energy-saving steam generating device - Google Patents

Abstract

A kind of energy-saving steam generating device, belongs to steam generator technical field.Including drainer, sieve is set, outsourcing steam has been received on outer wall introduces that interface, top sets drainer pressure display unit and drainer pressure releasing device, bottom drainer blowdown interface drainer is intracavitary；Drainer level responsive mechanism is located at the side of drainer and communicates with condensation chamber；Steam boiler is located at the side of drainer, and following side, which sets heater, top has steam to draw interface, steam pressure display and safety vent valve, bottom boiler blow-off interface；Steam boiler level responsive mechanism is located at the side of steam boiler and communicates with steam copper furnace chamber；Diversion mechanism is connected between water supply line and the top of drainer；Boiler water supply mechanism is connected between drainer steam boiler.Shorten the time that steam boiler generates steam, save the power consumption of heater, meets the energy saving and cost lowering requirement needed using the medium-sized and small enterprises of steam, avoid the wasting of resources.

Description

Energy-saving steam generating device

Technical field

The utility model belongs to steam generator technical field, and in particular to a kind of energy-saving steam generating device.

Background technique

As is known in the industry, in such as food, petrochemical industry, biological medicine, power generation, heating, universities and colleges, hotel wineshop, bathing The industries such as center, textile printing and dyeing and clothes are generally needed using steam, and steam is usually provided by steam boiler, support steam The energy of boiler work has electricity, coal, natural gas and biomass fuel, etc..Further, since coal-burning boiler effect on environment compared with Greatly, thus at present mostly using the steam boiler of electrically heated rod heating or using gas-steam boiler.

And then as is known in the industry, 1Kg water is heated to from 10 DEG C of environment temperature 50 DEG C need to consume energy about 210 kilojoules (1Kg water It is 4.2 kilojoules that temperature, which increases 1 degree of calorific requirement, (50 DEG C are equal to 210 kilojoules multiplied by 4.2 kilojoules)；1Kg water is heated to 100 by 60 DEG C It DEG C need to consume energy for 168 kilojoules (40 DEG C multiplied by 4.2 kilojoules)；1Kg, which water is vaporized into water vapour, need to consume energy about 2260 kilojoules；By 1Kg It is 2638 kilojoules that water, which is heated to the power consumption of 100 DEG C of steam ideally by 10 DEG C, and actual needs electric energy is calculated by efficiency 80%, So 2638 kilojoules are equal to 3297 kilojoules divided by 0.8, i.e., 1Kg water, which is converted into steam to 100 DEG C by electric energy heating, needs the consuming electric power to be 3297 kilojoules.

As shown in the above description, the energy consumption cost as the steam boiler of steam generation facility scope is needing to rely on steam Production in occupy important ratio, thus the power saving of steam generation facility is always by the concern of people.Especially Actively advocate in the whole society in recent years economizing type, energy-saving circulating economy spirit overall situation under, boiler energy-saving emission-reduction is quite by each Each industry of row is paid attention to.

Heat-pump-type steam generation facility (also referred to as " air energy heat pump steam generation facility ") is a kind of to make heat using high potential The energy saver for flowing to high-order heat source from low level heat energy air is measured, is to pass through compressor system according to " inverse Kano " circulation theory System operation, absorbs the heat in air.Specifically: compressor compresses refrigerant (refrigerant), and temperature is raised after compression Refrigerant is through the drainer in water tank, and refrigerant returns to compressor and carries out subsequent cycle after heat exchange, in this process the heat in air Amount is absorbed by evaporator and is imported in refrigerant, and refrigerant imports in water again, generates hot water.To this reference can be made to being not limited to enumerate Following patent document: CN201396938Y(heat-pump-type fast energy-saving hot water, steam generator), CN201074799Y(heat-pump-type Steam generator), a kind of air energy of CN107166349A(, electric energy steam generating device), CN105570858A(steam generator Heat pump energy-conserving device), CN207196448U(air energy heat pump steam unit), CN202733867U(energy-saving heat pump type steam hair Generating apparatus) and CN203963888U(energy saving heat pump steam unit), etc..

Although the above-mentioned patent formula for being not limited to enumerate can embody ultimate attainment energy-saving effect, there are complete set of equipments Invest confined space restrictions and the daily shortcoming for managing and protecting inconvenience relatively large, by certain application places.

Show through the applicant investigation made by power plant: the generally existing a large amount of redundancy steam in power plant, redundancy are steamed Although a part in vapour can supply the use vapour enterprise of other industries by jet chimney in a manner of paid, but still generally existing surplus Remaining situation, and these remaining steam can only helplessly be emitted into the external world because of no place to go, on the one hand there is the anxiety for undermining environment, Such as add fuel to the flames to greenhouse effects, the energy-saving economic spirit of economizing type is on the other hand contrary to because resulting in waste of resources.In addition, What the enterprise of some industries especially pharmaceutical and chemical enterprises were outwardly discharged there is also self-produced steam surplus and by surplus steam Phenomenon.Therefore, if residual steam can be sold to the enterprise of various lots of medium-sized and small enterprises especially textile garment dyeing Industry, then can yet be regarded as is a kind of beneficial behave of positive effect more carved with an arrow, technical solution described below is just It generates in this background.

Summary of the invention

The task of the utility model is to provide a kind of basis temperature for being conducive to improve boiler feed water using the steam bought It spends and uses the energy saving and cost lowering requirement met need using the medium-sized and small enterprises of steam and at the same time improving residual steam sells department Economic benefit and avoid the energy-saving steam generating device of the wasting of resources.

What the task of the utility model was performed by, a kind of energy-saving steam generating device, including a drainer, The drainer of the drainer is intracavitary and the top of condensation chamber is provided with sieve, has received one on the outer wall of drainer Introduce interface with the outsourcing steam that communicates of condensation chamber, be provided at the top of drainer one equally communicated with condensation chamber it is cold Solidifying pressure tank display and a drainer pressure releasing device are received the drainer that one communicates with condensation chamber in the bottom of drainer and are arranged Dirty interface；One drainer level responsive mechanism, the drainer level responsive mechanism be arranged in the side of the drainer and with The condensation chamber communicates；One steam boiler, which is arranged in the side of the drainer, in the steam boiler Having heaters is arranged in following side, and the steam boiler which is stretched over steam boiler is intracavitary, receives at the top of steam boiler There is a steam to draw interface, a steam pressure display and a safety vent valve, matches in the bottom of steam boiler and be connected to a boiler Blowdown interface；The side of the steam boiler is arranged in one steam boiler level responsive mechanism, the steam boiler level responsive mechanism It portion and is communicated with the steam copper furnace chamber；One diversion mechanism, the diversion mechanism are connected to water supply line and the condensation Between the top of tank；One boiler water supply mechanism, the boiler water supply mechanism are connected between the drainer and the steam boiler.

In a specific embodiment of the utility model, it is connected with a drainpipe in the bottom of the drainer, Match on the drainpipe and is connected to a draining control valve.

In another specific embodiment of the utility model, the top of the drainer be connected to a drainer into Water interface, and match in the following side of the steam boiler and be connected to a drainer water outlet mouthpiece is connected in the following side of drainer One steam boiler water inlet interface, the diversion mechanism are connected between the water supply line and the drainer water inlet interface, The boiler water supply mechanism is connected between the drainer water outlet mouthpiece and the steam boiler water inlet interface.

In another specific embodiment of the utility model, the water supply line is for tap water pipe line and at this Match on water supply line and is connected to water supply line control solenoid valve.

In another specific embodiment of the utility model, the drainer pressure display unit is pressure gauge；Institute The drainer pressure releasing device stated includes a drainer pressure release interface and a drainer relief valve, and drainer pressure release interface is fixed on described The top of drainer, drainer relief valve are coupled on drainer pressure release interface.

In the utility model there are one in specific embodiment, the drainer level responsive mechanism includes condensation Interface on tank, drainer lower interface, drainer level tank, liquid level sensor and cold under liquid level sensor, drainer on drainer Solidifying tank level tank shows pipe, and interface and drainer lower interface are on drainer with self corresponding state and the drainer Upper lateral part is fixed and is communicated with the condensation chamber, drainer level tank towards the side of drainer simultaneously with connect on drainer Mouth and the connection of drainer lower interface, and the condensation of interface and drainer lower interface with drainer level tank on drainer Tank liquid level chamber communicates, and the top of liquid level sensor and drainer level tank is solid under liquid level sensor and drainer on drainer It is fixed and be stretched over that the drainer level tank is intracavitary, and drainer level tank shows pipe and drainer level tank back to the one of drainer Side is fixed and is equally communicated with the drainer liquid level chamber.

In the utility model more and in a specific embodiment, the steam boiler level responsive mechanism includes pot Interface, boiler lower interface, boiler liquid level tank, boiler liquid level sensor and boiler liquid level tank show pipe on furnace, on boiler interface and Boiler lower interface fixed with the following side of self corresponding state and the steam boiler and with the steam boiler Chamber communicates, and boiler liquid level tank is connect with interface on boiler and boiler lower interface simultaneously towards the side of steam boiler, and pot Interface and boiler lower interface are communicated with the boiler liquid level chamber of boiler liquid level tank on furnace, boiler liquid level sensor and boiler liquid It the top fixation of position tank and is stretched in the boiler liquid level chamber, boiler liquid level tank shows pipe and boiler liquid level tank back to steam The side of boiler is fixed and is equally communicated with the boiler liquid level chamber.

In a specific embodiment in turn of the utility model, the upper lateral part of the steam boiler is provided with one Pressure regulator, and a temperature sensor is provided on front side of steam boiler.

The utility model again more and in a specific embodiment, the diversion mechanism includes primer pump and diversion Motor, diversion motor and diversion pump drive cooperate and by primer pump together with diversion motor bearing on the terrace of field of employment, The primer pump water inlet of primer pump is connect by irrigating gate pipeline with the water supply line, and the primer pump water outlet of primer pump It is connect by water outlet pipeline with the drainer water inlet interface.

The utility model again so that a specific embodiment in, the boiler water supply mechanism include water supply pump and Water supplying motor, water supplying motor and water supply pump drive cooperate and are supported on the terrace of field of employment together with water supplying motor by water supply pump On, the supply-water pump water inlet of water supply pump is connect by water inlet pipe with the drainer water outlet mouthpiece, and the water supply pump of water supply pump Water outlet is connect by outlet pipe with the steam boiler water inlet interface.

Technical solution provided by the utility model have the technical effect that by it is outer for steam introduce interface will be from power plant etc The steam bought of enterprise introduce that drainer is intracavitary to be heated to introducing the intracavitary water of drainer by diversion mechanism, make in drainer Water temperature improve, improve the water of temperature by boiler water supply mechanism and introduce steam boiler, it is raw so as to significantly shorten steam boiler At the time of steam, the power consumption of heater is saved, not only can satisfy the energy conservation drop needed using the medium-sized and small enterprises of steam This requirement, and can be improved the economic benefit of the enterprise there are residual steam, avoid the wasting of resources.

Detailed description of the invention

Fig. 1 is the embodiments of the present invention schematic diagram.

Specific embodiment

The directionality or directionality of all upper, lower, left, right, front and rear for being possible to occur in the following description Concept thus cannot be understood as to technical side provided by the utility model with for the location of Fig. 1 state Case is particularly limited to.

Referring to Figure 1, a drainer 1 is shown, in the condensation chamber 11 of the drainer 1 and is located at condensation chamber 11 Top be provided with sieve 111, received on the outer wall of drainer 1 one with condensation chamber 11 communicate outsourcing steam introducing connect Mouth 12 is provided with the drainer pressure display unit 13 that one equally communicates with condensation chamber 11 and a condensation at the top of drainer 1 Tank pressure releasing device 14 receives a drainer blowdown interface 15 communicated with condensation chamber in the bottom of drainer 1；It is cold to show one Ning Guan level responsive mechanism 2, the drainer level responsive mechanism 2 be arranged in aforementioned drainer 1 side (the present embodiment for a left side Side) and communicated with condensation chamber 11 above-mentioned；A steam boiler 3 is shown, which is arranged in aforementioned drainer 1 Side, the following side of the steam boiler 3 is provided with a pair of of heater 31, the present embodiment uses electric heater, the heater 31 are stretched in the steam copper furnace chamber 32 of steam boiler 3, have received a steam at the top of steam boiler 3 and have drawn interface 33, one Steam pressure display 34 and a safety vent valve 35 match in the bottom of steam boiler 3 and are connected to a boiler blow-off interface 36；It shows Side (this of dedicated steam boiler 3 is arranged in one steam boiler level responsive mechanism 4, the steam boiler level responsive mechanism 4 Embodiment is right side) and communicated with steam copper furnace chamber 32 above-mentioned；A diversion mechanism 5 is shown, which is connected to Between water supply line 7 and the top of drainer above-mentioned 1；A boiler water supply mechanism 6 is shown, the boiler water supply mechanism 6 connection Between aforementioned drainer 1 and dedicated steam boiler 3.

Preferably, insulating layer can be coated on the outer wall of aforementioned drainer 1 and steam boiler 3.

As shown in Figure 1, it is connected with a drainpipe 16 in the bottom of aforementioned drainer 1, matches on the drainpipe 16 and is connected to one Draining control valve 161.

Match at the top of aforementioned drainer 1 and be connected to a drainer water inlet interface 17, and matches in the following side of drainer 1 and be connected to One drainer water outlet mouthpiece 18 matches in the following side of dedicated steam boiler 3 and is connected to a steam boiler water inlet interface 37, above-mentioned to draw Water dispenser structure 5 is connected between aforementioned water supply line 7 and aforementioned drainer water inlet interface 17, and boiler water supply mechanism 6 above-mentioned connects Between drainer water outlet mouthpiece 18 above-mentioned and steam boiler water inlet interface 37 above-mentioned.

In the present embodiment, water supply line 7 above-mentioned be tap water pipe line and on the water supply line 7 with being connected to a water Source capsule road controls solenoid valve 71.

In the present embodiment, drainer pressure display unit 13 above-mentioned is pressure gauge；Drainer pressure releasing device 14 above-mentioned wraps A drainer pressure release interface 141 and a drainer relief valve 142 are included, drainer pressure release interface 141 is fixed on aforementioned drainer 1 Top, drainer relief valve 142 are coupled on drainer pressure release interface 141.

Please continue to refer to Fig. 1, drainer level responsive above-mentioned mechanism 2 includes interface 21, drainer lower interface on drainer 22, drainer level tank 23, liquid level sensor 25 and drainer level tank show pipe under liquid level sensor 24, drainer on drainer 26, interface 21 and drainer lower interface 22 are with the upper lateral part of self corresponding state and aforementioned drainer 1 on drainer It is fixed and communicated with aforementioned condensation chamber 11, drainer level tank 23 towards the side of drainer 1 and meanwhile with connect on drainer Mouthfuls 21 and drainer lower interface 22 connect, and on drainer interface 21 and drainer lower interface 22 with drainer liquid level The drainer liquid level chamber of tank 23 communicates, liquid level sensor 25 and drainer under liquid level sensor 24 and drainer on drainer The top fixation of level tank 23 and it is stretched over that aforementioned drainer level tank is intracavitary, and drainer level tank shows pipe 26 and drainer liquid The side of position tank 23 back to drainer 1 is fixed and is equally communicated with drainer liquid level chamber above-mentioned.

The steam that interface 12 is introduced in condensation chamber 11 is introduced by outsourcing steam and passes upward through sieve 111 above-mentioned, one Some vapor is condensed into water when sieve 111, another part steam and mixed by the cold water that diversion mechanism 5 introduces and generated high temperature Water is simultaneously saved in the lower part of drainer chamber.

(it can also claim when the liquid level that liquid level sensor 25 perceives in condensation chamber 11 under drainer above-mentioned is lower than high liquid level Highest liquid level) when, signal is fed back into electric controller by liquid level sensor 25 under the drainer, water source is made by electric controller Water supply line control solenoid valve 71 on pipeline 7 is opened, and the mechanism of diversion at this time 5 enters working condition, draws into condensation chamber 11 Water.Conversely, when the liquid level that liquid level sensor 24 perceives in condensation chamber 11 on drainer is higher by highest liquid level, then by this Signal is fed back to electric controller by liquid level sensor 24 on drainer, makes draining control valve 161 above-mentioned by electric controller The redundancy water in chamber 11 will be condensed by, which opening, is discharged, and avoids the liquid level in condensation chamber 11 excessively high, that is, avoids exceeding setting most High liquid level.

If causing the pressure in condensation chamber 11 excessive (being disclosed by drainer pressure display unit 13) because back-steam is too fast, that Diversion mechanism 5 stops working and opens in a manual manner the drainer relief valve of the structural system of aforementioned drainer pressure releasing device 14 142 and use reduce condensation chamber 11 in pressure.

Continue to see Fig. 1, steam boiler level responsive above-mentioned mechanism 4 includes interface 41, boiler lower interface 42, pot on boiler Furnace level tank 43, boiler liquid level sensor 44 and boiler liquid level tank show pipe 45, on boiler interface 41 and boiler lower interface 42 with The following side (right side portion on the lower side shown in FIG. 1) of self corresponding state and dedicated steam boiler 3 it is fixed and with it is aforementioned Steam copper furnace chamber 32 communicate, boiler liquid level tank 43 towards the side (i.e. left side) of steam boiler 3 simultaneously with interface 41 on boiler And boiler lower interface 42 connects, and on boiler interface 41 and boiler lower interface 42 with the boiler liquid of boiler liquid level tank 43 Position chamber communicates, and the top fixation of boiler liquid level sensor 44 and boiler liquid level tank 43 and is stretched over aforementioned boiler liquid level chamber It is interior, the side (diagram left side) that boiler liquid level tank shows pipe 45 and boiler liquid level tank 43 back to steam boiler 3 it is fixed and equally with Boiler liquid level chamber above-mentioned communicates.

As shown in Figure 1, the upper lateral part of steam boiler 3 above-mentioned is provided with a pressure regulator 38, and before steam boiler 3 Side is provided with a temperature sensor 39.

When the liquid level in steam copper furnace chamber 32 is reduced to by the degree of the lower level probe perception of boiler liquid level sensor 44 When, heater 31 disconnects power supply and signal is fed back to electric controller by the boiler liquid level sensor 44 simultaneously, by electrical control Device to boiler water supply mechanism 6 issue instruct, boiler water supply mechanism 6 enter working condition and will be in the condensation chamber 11 of drainer 1 Hot water introduce steam copper furnace chamber 32 in, avoid heater 31(a pair of electrically heated rod) dry combustion method and damage and ensure steam boiler 3 safety.Otherwise when the liquid level in steam copper furnace chamber 32 is increased to be perceived by the upper level probe of boiler liquid level sensor 44 Degree when, then making boiler water supply mechanism 6 stop working in the manner aforesaid.

The pressure security that steam copper furnace chamber 32 is ensured by pressure regulator 38 above-mentioned and safety vent valve 35, if steam boiler Pressure anomaly in chamber 32, then signal is fed back to electric controller by pressure regulator 38, by electric controller sending instruction Heater 31 is set to stop heating (power supply of cutting heater 31), safety vent valve 35 automatically opens at this time, to steam copper furnace chamber 32 releasing pressure automaticallies (are put except the excess steam in steam copper furnace chamber 32).

Continue to see Fig. 1, diversion mechanism 5 above-mentioned includes primer pump 51 and diversion motor 52, diversion motor 52 and primer pump 51 transmissions cooperate and are supported on the terrace of field of employment by primer pump 51 together with diversion motor 52, the primer pump of primer pump 51 Water inlet 511 is connect by irrigating gate pipeline 5111 with water supply line 7 above-mentioned, and the primer pump water outlet 512 of primer pump 51 It is connect by water outlet pipeline 5121 with drainer water inlet interface 17 above-mentioned.

Boiler water supply mechanism 6 above-mentioned includes water supply pump 61 and water supplying motor 62, and water supplying motor 62 and water supply pump 61 are driven Cooperate and is supported on the terrace of field of employment by water supply pump 61 together with water supplying motor 62, the supply-water pump water inlet of water supply pump 61 611 are connect by water inlet pipe 6111 with drainer water outlet mouthpiece 18 above-mentioned, and the water supply pump water outlet 612 of water supply pump 61 passes through Outlet pipe 6121 is connect with steam boiler water inlet interface 37 above-mentioned.

When diversion motor 52 works, primer pump 51 is driven by it, opening state is in by water supply line control solenoid valve 71 The water supply line of state is by tap water successively through irrigating gate pipeline 5111, primer pump water inlet 511, primer pump water outlet 512, water outlet Mouth pipeline 5121 and drainer water inlet interface 17 introduce in the condensation chamber 11 of drainer 1.When water supplying motor 62 works, by it Water supply pump 61 is driven, the high-temperature-hot-water in the condensation chamber 11 of drainer 1 is successively through drainer water outlet mouthpiece 18, water inlet pipe 6111, supply-water pump water inlet 611, water supply pump water outlet 612, outlet pipe 6121 and steam boiler water inlet interface 37 introduce steam copper In furnace chamber 32.Steam in steam copper furnace chamber 32 is made by drawing the steam of interface valve 331 equipped with steam and drawing interface 33 and draw With.

In conclusion the utility model due to using recovered steam to add the water in drainer 1, both saves disappearing for electric energy Consumption, and avoid the waste of resource.

Claims (10)

1. a kind of energy-saving steam generating device, it is characterised in that including a drainer (1), in the drainer of the drainer (1) Sieve (111) are provided in chamber (11) and positioned at the top of condensation chamber (11), have received one on the outer wall of drainer (1) Introduce interface (12) with condensation chamber (11) outsourcing steam for communicating, be provided at the top of drainer (1) one equally with condensation The drainer pressure display unit (13) and a drainer pressure releasing device (14) that chamber (11) communicates, are received in the bottom of drainer (1) There is a drainer blowdown interface (15) communicated with condensation chamber (11)；One drainer level responsive mechanism (2), the drainer liquid Position response means (2) are arranged the side in the drainer (1) and communicate with the condensation chamber (11)；One steam boiler (3), which is arranged in the side of the drainer (1), and the following side of the steam boiler (3) is provided with heating Device (31), the heater (31) are stretched in the steam copper furnace chamber (32) of steam boiler (3), prolong at the top of steam boiler (3) It is connected to a steam and draws interface (33), a steam pressure display (34) and a safety vent valve (35), in steam boiler (3) Bottom, which is matched, is connected to a boiler blow-off interface (36)；One steam boiler level responsive mechanism (4), the steam boiler level responsive mechanism (4) side in the steam boiler (3) is set and is communicated with the steam copper furnace chamber (32)；One diversion mechanism (5), should Diversion mechanism (5) is connected between water supply line (7) and the top of the drainer (1)；One boiler water supply mechanism (6), should Boiler water supply mechanism (6) is connected between the drainer (1) and the steam boiler (3).

2. energy-saving steam generating device according to claim 1, it is characterised in that connect in the bottom of the drainer (1) A drainpipe (16) are connected to, matches on the drainpipe (16) and is connected to a draining control valve (161).

3. energy-saving steam generating device according to claim 1, it is characterised in that match at the top of the drainer (1) It is connected to a drainer water inlet interface (17), and in the following side of drainer (1) with a drainer water outlet mouthpiece (18) is connected to, in institute The following side for stating steam boiler (3) is connected to described with a steam boiler water inlet interface (37), the diversion mechanism (5) is connected to Between water supply line (7) and the drainer water inlet interface (17), the boiler water supply mechanism (6) is connected to the condensation Between tank water outlet mouthpiece (18) and the steam boiler water inlet interface (37).

4. energy-saving steam generating device according to claim 1 or 3, it is characterised in that the water supply line (7) is Tap water pipe line and on the water supply line (7) be connected to a water supply line control solenoid valve (71).

5. energy-saving steam generating device according to claim 1, it is characterised in that the drainer pressure display unit It (13) is pressure gauge；The drainer pressure releasing device (14) includes a drainer pressure release interface (141) and a drainer relief valve (142), drainer pressure release interface (141) is fixed on the top of the drainer (1), and drainer relief valve (142) is coupled cold On solidifying tank pressure release interface (141).

6. energy-saving steam generating device according to claim 1, it is characterised in that the drainer level responsive machine Structure (2) includes interface on drainer (21), drainer lower interface (22), drainer level tank (23), level sensing on drainer Liquid level sensor (25) and drainer level tank are shown pipe (26) under device (24), drainer, interface (21) and condensation on drainer Tank lower interface (22) fixed with the upper lateral part of self corresponding state and the drainer (1) and with the condensation chamber (11) communicate, drainer level tank (23) towards the side of drainer (1) simultaneously with interface on drainer (21) and drainer Lower interface (22) connection, and on drainer interface (21) and drainer lower interface (22) with drainer level tank (23) Drainer liquid level chamber communicates, liquid level sensor (25) and drainer liquid under liquid level sensor (24) and drainer on drainer The top fixation of position tank (23) and it is stretched over that the drainer level tank is intracavitary, and drainer level tank shows pipe (26) and drainer The side of level tank (23) back to drainer (1) is fixed and is equally communicated with the drainer liquid level chamber.

7. energy-saving steam generating device according to claim 1, it is characterised in that the steam boiler level responsive Mechanism (4) include interface on boiler (41), boiler lower interface (42), boiler liquid level tank (43), boiler liquid level sensor (44) and Boiler liquid level tank shows pipe (45), on boiler interface (41) and boiler lower interface (42) with self corresponding state with it is described The following side of steam boiler (3) is fixed and is communicated with the steam copper furnace chamber (32), and boiler liquid level tank (43) is towards steam The side of boiler (3) is connect with interface on boiler (41) and boiler lower interface (42) simultaneously, and on boiler interface (41) with And boiler lower interface (42) is communicated with the boiler liquid level chamber of boiler liquid level tank (43), boiler liquid level sensor (44) and boiler It the top fixation of level tank (43) and is stretched in the boiler liquid level chamber, boiler liquid level tank shows pipe (45) and boiler liquid level The side of tank (43) back to steam boiler (3) is fixed and is equally communicated with the boiler liquid level chamber.

8. energy-saving steam generating device described according to claim 1 or 3 or 7, it is characterised in that in the steam boiler (3) upper lateral part is provided with a pressure regulator (38), and a temperature sensor (39) are provided on front side of steam boiler (3).

9. energy-saving steam generating device according to claim 3, it is characterised in that the diversion mechanism (5) includes drawing Water pump (51) and diversion motor (52), diversion motor (52) and primer pump (51) are driven cooperation and by primer pump (51) together with drawing Hydroelectric machine (52) is supported on the terrace of field of employment, and the primer pump water inlet (511) of primer pump (51) passes through irrigating gate pipeline (5111) it is connect with the water supply line (7), and the primer pump water outlet (512) of primer pump (51) passes through water outlet pipeline (5121) it is connect with the drainer water inlet interface (17).

10. energy-saving steam generating device according to claim 3, it is characterised in that the boiler water supply mechanism (6) Including water supply pump (61) and water supplying motor (62), water supplying motor (62) and water supply pump (61) transmission cooperate and by water supply pump (61) It is supported on the terrace of field of employment together with water supplying motor (62), the supply-water pump water inlet (611) of water supply pump (61) passes through water inlet Pipe (6111) is connect with the drainer water outlet mouthpiece (18), and the water supply pump water outlet (612) of water supply pump (61) is by going out Water pipe (6121) is connect with the steam boiler water inlet interface (37).