CN208398048U - A kind of energy-saving steam generating device - Google Patents
A kind of energy-saving steam generating device Download PDFInfo
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- CN208398048U CN208398048U CN201821116967.6U CN201821116967U CN208398048U CN 208398048 U CN208398048 U CN 208398048U CN 201821116967 U CN201821116967 U CN 201821116967U CN 208398048 U CN208398048 U CN 208398048U
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Abstract
A kind of energy-saving steam generating device, including water tank, left upper portion sets water tank water inlet, top sets water tank recirculated water introducing interface, bottom sets water tank blowdown interface;Water tank level detection mechanism is located at the right upper portion of water tank;Steam boiler is located at the right side of water tank, and following side sets heater, top has steam extraction interface, steam pressure display and safety vent valve, bottom to connect steam boiler blowdown interface, and side connects steam boiler water inlet interface;Steam boiler level detection mechanism is located at the right side of steam boiler;Diversion mechanism is connected between water tank and steam boiler water inlet interface;It is intracavitary that embedded in water storage tank coil pipe is located at water tank, one end is recovered steam inlet port, the other end is that recovered steam draws port, it is intracavitary to be located at steam boiler for coil pipe built in steam boiler, one end introduces interface mating, the other end and water with water tank recirculated water and is connected by circulation, water circulation mechanism and water tank piping connection.Shorten the time for generating steam, energy conservation.
Description
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 condenser 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.Also, for textile garment dyeing, due to can also be produced during to fabric post-treatment, clothes ironing etc
Raw a large amount of redundancy steam, thus if the redundancy steam can be recycled, equally it can yet be regarded as a kind of energy-efficient beneficial
Behave, technical solution described below generate in this background.
Summary of the invention
The task of the utility model is to provide a kind of facilitate using buying or voluntarily recycle in process of production
Steam improve boiler feed water basal temperature and use satisfaction need the energy saving and cost lowering requirement using the enterprise of steam and have
It is filled conducive to the energy-saving steam maximally utilized for improving economic benefit and embodiment resource that redundancy steam sells enterprise
It sets.
What the task of the utility model was performed by, a kind of energy-saving steam generating device, including a water tank,
The left upper portion of the water tank is provided with a water tank water inlet for the intracavitary diversion of water tank to water tank, the water tank
Water inlet is connect with water supply line, and the water tank recirculated water introducing that one communicates with water tank chamber is provided at the top of water tank and is connect
Mouthful, the bottom of water tank is provided with a water tank blowdown interface for discharging the intracavitary dirt of water tank;One water tank
Level detection mechanism, the water tank level detection mechanism be arranged in the right upper portion of the water tank and with the water tank chamber
It communicates;The right side of the water tank is arranged in one steam boiler, the steam boiler, and in the following side of the steam boiler, setting is useful
In the heater that the intracavitary water of the steam boiler to steam boiler is heated and vaporized, one and institute are connected at the top of steam boiler
It states the steam that steam copper furnace chamber communicates and draws interface, a steam pressure display and a safety vent valve, at the bottom of steam boiler
Portion, which matches, is connected to one for being coupled in the side of steam boiler by the steam boiler blowdown interface of the intracavitary dirt discharge of steam boiler
There is a steam boiler water inlet interface;One steam boiler level detection mechanism, the steam boiler level detection mechanism are arranged described
It the right side of steam boiler and is communicated with the steam copper furnace chamber;One for will be described in the intracavitary hot water of the water tank introduces
The intracavitary diversion mechanism of steam boiler, the diversion mechanism are connected between water tank and the steam boiler water inlet interface;One
Coil pipe and water circulation mechanism built in embedded in water storage tank coil pipe, a steam boiler, embedded in water storage tank coil pipe are arranged in the water tank
Intracavitary, one end of the embedded in water storage tank coil pipe is stretched over water tank chamber outside and is configured to recovered steam inlet port, and water storage
The other end of coil pipe built in case is located at that water tank is intracavitary and be configured to recovered steam and draw port, and coil pipe built in steam boiler sets
Set it is intracavitary in the steam boiler, one end of coil pipe built in the steam boiler be stretched over steam copper furnace chamber it is outer and with the water storage
Case recirculated water introduces interface mating, and the other end of coil pipe built in steam boiler is equally stretched over outside steam copper furnace chamber and and water
It is connected by circulation, and the water circulation mechanism and the water tank piping connection and is communicated with water tank chamber.
In a specific embodiment of the utility model, it is intracavitary in the water tank of the water tank and be located at water storage
The top of case chamber is provided with a cold plate, opens up steam through hole, the embedded in water storage tank with high density state on the cold plate
Coil pipe is located at the lower section of cold plate in the intracavitary position of water tank.
In another specific embodiment of the utility model, matches on the water tank water inlet and be connected to a water inlet control
Solenoid valve processed;The water supply line is tap water pipe line.
In another specific embodiment of the utility model, one and the storage are provided at the top of the water tank
What water tank chamber communicated is used to wrap the exhaust outlet of the intracavitary excess steam discharge water tank chamber of water tank on the outer wall of water tank
It is covered with storage water tank heat insulation layer.
In another specific embodiment of the utility model, one is provided with for feeling in the side of the steam boiler
The temperature sensor for knowing the temperature of the intracavitary water of the steam boiler is coated with steam boiler heat preservation on the outer wall of steam boiler
Layer.
In the utility model there are one in specific embodiment, the water tank level detection mechanism includes water storage
Interface, water tank lower interface, water tank level tank, water tank liquid level sensor and water tank level tank show pipe, water tank on case
Upper interface and water tank lower interface fixed with the right upper portion of self corresponding state and the water tank and with institute
Water tank chamber is stated to communicate, water tank level tank towards the side of water tank simultaneously with interface on water tank and water tank lower interface
Connection, and interface and water tank lower interface are communicated with the water tank liquid level chamber of water tank level tank on water tank, storage
The top fixation of high water tank sensor and water tank level tank and intracavitary, the water tank liquid that is stretched over the water tank level tank
Position tank shows that pipe is fixed with the side of water tank level tank back to water tank and equally communicated with water tank liquid level chamber.
In the utility model more and in a specific embodiment, the steam boiler level detection 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 lower right side of self corresponding state and the steam boiler and with the steam copper
Furnace 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
Interface and boiler lower interface are communicated with the boiler liquid level chamber of boiler liquid level tank on boiler, boiler liquid level sensor and boiler
It the top fixation of level tank and is stretched in the boiler liquid level chamber, boiler liquid level tank shows pipe and boiler liquid level tank back to steaming
The side of boiler furnace 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.
The utility model again more and in a specific embodiment, one and institute are provided on the right side of the water tank
State the irrigating gate pipe interface and a circulating pump water inlet tube interface that water tank chamber communicates, the diversion mechanism include primer pump and
Diversion motor, diversion motor and diversion pump drive cooperate and the terrace by primer pump together with diversion motor bearing in field of employment
On, the primer pump water inlet of primer pump is connect by irrigating gate pipeline with the irrigating gate pipe interface, and the diversion of primer pump
It pumps out the mouth of a river to connect by water outlet pipeline with the steam boiler water inlet interface, the water circulation mechanism is followed with described
The connection of ring pump water inlet interface tube.
The utility model again so that a specific embodiment in, the water circulation mechanism include a circulating pump and
One circulating pump motor, circulating pump motor and circulation pump drive cooperate and are supported on together with circulating pump motor using field by circulating pump
Terrace on, the circulating pump water inlet of circulating pump is connect by circulating pump water inlet pipe with the circulating pump water inlet tube interface,
The other end of coil pipe built in the steam boiler and the circulating pump water outlet of circulating pump connect.
Having the technical effect that for technical solution provided by the utility model will be from power plant etc by recovered steam inlet port
Enterprise's steam bought or the steam voluntarily recycled in process of production introduce embedded in water storage tank coil pipe and recovered steam
It draws port to draw and heat the water in water tank, improves the water temperature in water tank, improve the water of temperature by water diversion machine
Structure introduces steam copper furnace chamber, and can also steamed by water circulation mechanism according to need to be set the water for improving temperature in water tank
The water intracavitary to steam boiler of coil pipe built in the intracavitary steam boiler of boiler furnace recycles exchange, the base for the water for keeping steam boiler intracavitary
Plinth temperature significantly improves, and so as to significantly shorten the time that steam boiler generates steam, saves the power consumption of heater, not only
It can satisfy the energy saving and cost lowering requirement needed using the medium-sized and small enterprises of steam, and can be improved enterprise there are residual steam
Economic benefit plays maximally utilizing for resource and uses and avoid the wasting of resources.
Detailed description of the invention
Fig. 1 is the embodiments of the present invention schematic diagram.
Specific embodiment
Applicant will elaborate by way of examples below, but be not to this reality to the description of embodiment
It is any according to only formal but not substantive equivalent made by the utility model design with the limitation of New Scheme
Transformation is regarded as category of the technical solutions of the present invention.
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 Fig. 1, showing a water tank 1, the left upper portion of the water tank 1 is provided with one and is used for water tank 1
Water tank chamber 11 in diversion water tank water inlet 12, which connect with water supply line, in water tank
Top is provided with the water tank recirculated water that one communicates with water tank chamber 11 and introduces interface 13, and the bottom of water tank 1 is provided with one
Water tank blowdown interface 14 for discharging the dirt in water tank chamber 11;A water tank level detection mechanism 2 is shown, it should
Water tank level detection mechanism 2 is arranged in the right upper portion of aforementioned water tank 1 and communicates with aforementioned water tank chamber 11;It shows
The right side of aforementioned water tank 1 is arranged in one steam boiler 3, the steam boiler 3, and in the following side of the steam boiler 3, setting is useful
In the heater 32 that the water in the steam copper furnace chamber 31 to steam boiler 3 is heated and vaporized, it is connected at the top of steam boiler 3
One steam communicated with dedicated steam boiler chamber 31 draws interface 33, a steam pressure display 34 and a safety vent valve 35,
Match in the bottom of steam boiler 3 and be connected to a steam boiler blowdown interface 36 for discharging the dirt in steam copper furnace chamber 31,
Match in the side of steam boiler 3 and is connected to a steam boiler water inlet interface 37;A steam boiler level detection mechanism 4 is shown, it should
Steam boiler level detection mechanism 4 is arranged in the right side of dedicated steam boiler 3 and communicates with steam copper furnace chamber 31 above-mentioned;Show
Go out one for the hot water in aforementioned water tank chamber 11 to be introduced to the diversion mechanism 5 in dedicated steam boiler chamber 31, the water diversion machine
Structure 5 is connected between water tank 1 and steam boiler water inlet interface 37 above-mentioned;Show an embedded in water storage tank coil pipe 6, a steam
Coil pipe 7 built in boiler and water circulation mechanism 8, embedded in water storage tank coil pipe 6 are arranged in aforementioned water tank chamber 11, the embedded in water storage tank
One end of coil pipe 6 is stretched over water tank chamber 11 outside and is configured to recovered steam inlet port 61, and embedded in water storage tank coil pipe 6
The other end, which is located in water tank chamber 11 and is configured to recovered steam, draws port 62, and coil pipe 7 built in steam boiler is arranged preceding
State in steam copper furnace chamber 31, one end of coil pipe 7 built in the steam boiler be stretched over steam copper furnace chamber 31 it is outer and with aforementioned water storage
Case recirculated water introduces interface 13 and is coupled, and the other end of coil pipe 7 built in steam boiler is equally stretched over outside steam copper furnace chamber 31 simultaneously
And 8 connect with water circulation, and the water circulation mechanism 8 and aforementioned 1 piping connection of water tank and communicated with water tank chamber 11.
A cold plate 111 is provided in the water tank chamber 11 of aforementioned water tank 1 and positioned at the top of water tank chamber 11
(can also claim " web plate ", the same below) opens up steam through hole 1111, aforementioned water tank with high density state on the cold plate 111
Position of the built-in coil pipe 7 in water tank chamber 11 is located at the lower section of cold plate 111.
As shown in Figure 1, match on aforementioned water tank water inlet 12 and be connected to water inlet control solenoid valve 121.In the present embodiment
In, water supply line above-mentioned is tap water pipe line.
The top of aforementioned water tank 1 be provided with one communicated with aforementioned water tank chamber 11 for will be in water tank chamber 11
The exhaust outlet 15 of water tank chamber 11 is discharged in excess steam, in particular, extra steam is through being condensed into water droplet when cold plate 111
And water tank chamber 11 is fallen into, and have little time the steam condensed by cold plate 111 and water tank 11 is then discharged by exhaust outlet 15, to guarantee
Pressure (air pressure) in water tank chamber 11 is stablized.In addition, as a preferred option, being coated with water storage on the outer wall of water tank 11
Case insulating layer (not shown).
The side of dedicated steam boiler 3 is provided with the temperature of a temperature for perceiving the water in dedicated steam boiler chamber 31
Spend sensor 38.Preferably, steam boiler insulating layer (not shown) is coated on the outer wall of steam boiler 3.
Continue to see Fig. 1, water tank level detection mechanism 2 above-mentioned include interface 21 on water tank, water tank lower interface 22,
Water tank level tank 23, water tank liquid level sensor 24 and water tank level tank show pipe 25, interface 21 and water storage on water tank
Case lower interface 22 fixed with the right upper portion of self corresponding state and aforementioned water tank 1 and with aforementioned water tank chamber 11
It communicates, water tank level tank 23 connects with interface 21 on water tank and water tank lower interface 22 simultaneously towards the side of water tank 1
Connect, and on water tank interface 21 and water tank lower interface 22 with the water tank liquid level chamber phase of water tank level tank 23
It is logical, the top fixation of water tank liquid level sensor 24 and water tank level tank 23 and it is stretched over aforementioned water tank liquid level chamber
It is interior, water tank level tank show the side of pipe 25 and water tank level tank 23 back to water tank 1 fix and equally with water tank liquid
Position chamber communicates.
According to professional general knowledge, water tank liquid level sensor 24 above-mentioned has upper level probe and lower level probe, due to
Liquid level in water tank level tank 23 is identical with the liquid level in water tank chamber 11, thus level probe perceives water storage instantly
It is just by water tank liquid level sensor 24 that signal is anti-when liquid level in case chamber 11 is lower than critical low liquid level (can also claim minimum liquid level)
It feeds electric controller, so that the water inlet on the water tank water inlet 12 connecting with water supply line is controlled solenoid valve 121 by electrical device
It opens, the diversion into water tank chamber 11, until water level peaks.Conversely, when upper level probe perceives water tank chamber 11
Interior liquid level be higher by and (be more than) highest liquid level i.e. highest point above-mentioned when, then water tank liquid level sensor 24 feeds back to signal
Electric controller closes aforementioned water inlet control solenoid valve 121 by electric controller.
Continue to see that Fig. 1, steam boiler level detection mechanism 4 above-mentioned include 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
Self corresponding state is fixed with the lower right side of dedicated steam boiler 3 and is communicated with steam copper furnace chamber 31 above-mentioned,
Boiler liquid level tank 43 is connect with interface 41 on boiler and boiler lower interface 42 simultaneously towards the side of steam boiler 3, and pot
Interface 41 and boiler lower interface 42 are communicated with the boiler liquid level chamber of boiler liquid level tank 43 on furnace, boiler liquid level sensor 44
It top fixation with boiler liquid level tank 43 and is stretched in aforementioned boiler liquid level chamber, boiler liquid level tank shows pipe 45 and boiler liquid
The side of position tank 43 back to steam boiler 3 is fixed and is equally communicated with boiler liquid level chamber above-mentioned.
Such as the explanation to water tank liquid level sensor 24, aforementioned boiler liquid level sensor 44 has high liquid level probe simultaneously
With low liquid level probe, since the liquid level in boiler liquid level tank 43 is identical with the liquid level in steam copper furnace chamber 31, thus work as low
When level probe perceives the liquid level in steam copper furnace chamber 31 lower than critical low liquid level, just by boiler liquid level sensor 44 by signal
Electric controller is fed back to, issuing instruction by electric controller makes heater 32(the present embodiment using electric heating tube) stop adding
Heat, while diversion mechanism 5 being made to work, the water in water tank 1 is introduced into steam copper furnace chamber 31, until the liquid in steam copper furnace chamber 31
Position peaks, and heater 32 is resumed work.Conversely, when the liquid level that high liquid level probe perceives in steam copper furnace chamber 31 is higher by
When being more than highest liquid level, then signal is equally fed back to electric controller by boiler liquid level sensor 44, by electrical control
Device issues instruction and diversion mechanism 5 is made to stop working, and the steam introduced by embedded in water storage tank coil pipe 6 in water tank 1 heats
Water stop to steam boiler 3 pump.
Continue to see Fig. 1, the upper lateral part of steam boiler 3 above-mentioned is provided with a pressure regulator 39, through pressure regulator 38 with before
The safety vent valve 35 stated ensures the pressure security of steam copper furnace chamber 31, if the pressure anomaly in steam copper furnace chamber 31, then by
Signal is fed back to electric controller by pressure regulator 39, issues instruction by electric controller and heater 32 is made to stop heating (cutting
The power supply of heater 32), safety vent valve 35 automatically opens at this time, (puts except steam boiler to 31 releasing pressure automatically of steam copper furnace chamber
Excess steam in chamber 31).
Continue to see Fig. 1, the right side of aforementioned water tank 1 is provided with an irrigating gate pipeline communicated with aforementioned water tank chamber 11
Interface 16 and a circulating pump water inlet tube interface 17, diversion mechanism 5 above-mentioned include that primer pump 51(can also claim " booster pump ") and draw
Hydroelectric machine 52(can also claim " booster motor "), 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, the primer pump water inlet 511 of primer pump 51 by irrigating gate pipeline 5111 with
Aforementioned irrigating gate pipe interface 16 connects, and the primer pump water outlet 512 of primer pump 51 by water outlet pipeline 5121 with it is aforementioned
Steam boiler water inlet interface 37 connect, water circulation mechanism 8 above-mentioned connect with circulating pump water inlet tube interface 17 above-mentioned.
Water circulation mechanism 8 above-mentioned includes a circulating pump 81 and a circulating pump motor 82, circulating pump motor 82 and circulating pump
81 transmissions cooperate and are supported on the terrace of field of employment by circulating pump 81 together with circulating pump motor 82, the circulation of circulating pump 81
Pump water inlet mouth 811 is connect by circulating pump water inlet pipe 8111 with circulating pump water inlet tube interface 17 above-mentioned, in dedicated steam boiler
The aforementioned other end for setting coil pipe 7 is connect with the circulating pump water outlet 812 of circulating pump 81.
When diversion motor 52 works, primer pump 51 is driven by it, the water in water tank chamber 11 is successively through irrigating gate pipeline
Interface 16, irrigating gate pipeline 5111, primer pump water inlet 511, primer pump water outlet 512, water outlet pipeline 5121 and steam copper
Furnace water inlet interface 37 introduces steam copper furnace chamber 31;When circulating pump motor 82 works, water supply pump 81 is driven by it, water tank 1
High-temperature-hot-water in water tank chamber 11 is successively through circulating pump water inlet tube interface 17, circulating pump water inlet pipe 8111, circulating pump water inlet
811, circulating pump water outlet 812, coil pipe 78 built in steam boiler and water tank recirculated water introduce interface 13 and back into water tank chamber 11
Interior, coil pipe 7 exchanges heat to the water in steam copper furnace chamber 31 and makes in steam copper furnace chamber 31 as built in steam boiler in this process
The basal temperature of water improves.Shorten the heating vaporization time of heater 32, the steam generated in steam boiler is passed through equipped with valve 331
Steam draws interface 33 and leads to the station using steam.During heater 32 heats, steamed when temperature sensor 38 perceives
The temperature of water in steam-boiler furnace chamber 31 reaches setting value, and (setting value is generally slightly above the highest temperature of the water of water tank chamber 11
Degree, namely the basal temperature of aforementioned water being generally slightly above in steam copper furnace chamber 11) when, then by temperature sensor 38 by signal
Electric controller is fed back to, instruction is issued by electric controller and circulating pump motor 82 is made to stop working, to avoid heater 32
Water heating during the water in steam copper furnace chamber 31 is further heated and vaporized in related water tank chamber 11.
Steam that is that outside is bought or voluntarily recycling introduces embedded in water storage tank coil pipe 6 from recovered steam inlet port 61,
Steam port 62 is drawn from recovered steam while exchanging heat to the water in water tank chamber 11 by the embedded in water storage tank coil pipe 6 to draw
And the water in water tank chamber 11 is heated.That is heat is extended to by water tank chamber 11 by embedded in water storage tank coil pipe 6
Use the temperature for improving the tap water introduced by water tank water inlet 12 in water tank chamber 11.Then it is introduced by diversion mechanism 5
The basal temperature of water in steam copper furnace chamber 31 is significantly increased, in addition coil pipe 7 built in water circulation mechanism 8 and steam boiler
Effect carries out reheating to steam copper furnace chamber 31 and forms high-temperature water, to fully demonstrate energy conservation.
In conclusion technical solution provided by the utility model compensates for the shortcoming in prior art, favorably accomplish
Invention task has faithfully fulfilled the technical effect that applicant refers in technical effect column above.
Claims (10)
1. a kind of energy-saving steam generating device, it is characterised in that including a water tank (1), on the left side of the water tank (1)
Portion is provided with a water tank water inlet (12) for water tank chamber (11) interior diversion to water tank (1), water tank water inlet
Mouth (12) is connect with water supply line, and the water tank recirculated water that one communicates with water tank chamber (11) is provided at the top of water tank and is drawn
Incoming interface (13) is provided with one for arranging the water tank of the dirt discharge in water tank chamber (11) in the bottom of water tank (1)
Dirty interface (14);One water tank level detection mechanism (2), the water tank level detection mechanism (2) are arranged in the water tank (1)
Right upper portion and communicated with the water tank chamber (11);One steam boiler (3), the steam boiler (3) are arranged in the storage
The right side of water tank (1) is provided in the following side of the steam boiler (3) for the steam copper furnace chamber (31) to steam boiler (3)
The heater (32) that interior water is heated and vaporized is connected with one and the steam copper furnace chamber (31) at the top of steam boiler (3)
The steam communicated 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 steam boiler blowdown interface (36) for discharging the dirt in steam copper furnace chamber (31), in steam boiler
(3) side, which is matched, is connected to a steam boiler water inlet interface (37);One steam boiler level detection mechanism (4), the steam boiler liquid
Position detecting mechanism (4) is arranged the right side in the steam boiler (3) and communicates with the steam copper furnace chamber (31);One is used for
Hot water in the water tank chamber (11) is introduced into the diversion mechanism (5) in the steam copper furnace chamber (31), the diversion mechanism (5)
It is connected between water tank (1) and the steam boiler water inlet interface (37);One embedded in water storage tank coil pipe (6), a steam copper
Coil pipe built in furnace (7) and water circulation mechanism (8), embedded in water storage tank coil pipe (6) setting is in the water tank chamber (11), the water storage
One end of coil pipe built in case (6) is stretched over water tank chamber (11) outside and is configured to recovered steam inlet port (61), and water storage
The other end of coil pipe built in case (6), which is located in water tank chamber (11) and is configured to recovered steam, draws port (62), steam copper
Coil pipe built in furnace (7) setting is in the steam copper furnace chamber (31), and one end of coil pipe (7) is stretched over steam built in the steam boiler
Boiler chamber (31) introduces interface (13) mating outside and with the water tank recirculated water, and coil pipe built in steam boiler (7) is another
One end is equally stretched over steam copper furnace chamber (31) outside and connect with water circulation (8), and the water circulation mechanism (8) and the water storage
It case (1) piping connection and is communicated with water tank chamber (11).
2. according to energy-saving steam generating device described in claim 1, it is characterised in that in the water tank chamber of the water tank (1)
(11) cold plate (111) are provided in and positioned at the top of water tank chamber (11), with intensive shape on the cold plate (111)
State opens up steam through hole (1111), and position of the embedded in water storage tank coil pipe (7) in water tank chamber (11) is located at cold plate
(111) lower section.
3. according to energy-saving steam generating device described in claim 1, it is characterised in that on the water tank water inlet (12)
Solenoid valve (121) are controlled with a water inlet is connected to;The water supply line is tap water pipe line.
4. according to energy-saving steam generating device of any of claims 1 or 2, it is characterised in that at the top of the water tank (1)
Be provided with one communicated with the water tank chamber (11) for by water tank chamber (11) excess steam be discharged water tank chamber
(11) exhaust outlet (15), is coated with storage water tank heat insulation layer on the outer wall of water tank (1).
5. according to energy-saving steam generating device described in claim 1, it is characterised in that set in the side of the steam boiler (3)
It is equipped with the temperature sensor (38) of a temperature for perceiving the water in the steam copper furnace chamber (31), in steam boiler (3)
Steam boiler insulating layer is coated on outer wall.
6. according to energy-saving steam generating device described in claim 1, it is characterised in that the water tank level detection mechanism
It (2) include interface on water tank (21), water tank lower interface (22), water tank level tank (23), water tank liquid level sensor
(24) show pipe (25) with water tank level tank, interface (21) and water tank lower interface (22) are on water tank with self correspondence
State fix and communicated with the water tank chamber (11), water tank level tank with the right upper portion of the water tank (1)
(23) it connect, and stores up with interface on water tank (21) and water tank lower interface (22) simultaneously towards the side of water tank (1)
Interface (21) and water tank lower interface (22) are communicated with the water tank liquid level chamber of water tank level tank (23) on water tank, storage
The top fixation of high water tank sensor (24) and water tank level tank (23) and to be stretched over the water tank level tank intracavitary,
Water tank level tank shows that the side of pipe (25) and water tank level tank (23) back to water tank (1) is fixed and equally and water tank
Liquid level chamber communicates.
7. according to energy-saving steam generating device described in claim 1, it is characterised in that the steam boiler level sensing machine
Structure (4) includes interface on boiler (41), boiler lower interface (42), boiler liquid level tank (43), boiler liquid level sensor (44) and pot
Furnace level tank shows pipe (45) that interface (41) and boiler lower interface (42) are on boiler with self corresponding state and the steaming
The lower right side of boiler furnace (3) is fixed and is communicated with the steam copper furnace chamber (31), 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. according to energy-saving steam generating device described in claim 1 or 5 or 7, it is characterised in that in the steam boiler (3)
Upper lateral part be provided with a pressure regulator (39).
9. according to energy-saving steam generating device described in claim 1, it is characterised in that be arranged on the right side of the water tank (1)
There are an irrigating gate pipe interface (16) communicated with the water tank chamber (11) and a circulating pump water inlet tube interface (17), it is described
Diversion mechanism (5) includes primer pump (51) and diversion motor (52), diversion motor (52) and primer pump (51) transmission cooperation and
It is supported on the terrace of field of employment by primer pump (51) together with diversion motor (52), the primer pump water inlet of primer pump (51)
(511) it is connect by irrigating gate pipeline (5111) with the irrigating gate pipe interface (16), and the diversion of primer pump (51) pumps out
The mouth of a river (512) is connect by water outlet pipeline (5121) with the steam boiler water inlet interface (37), the water circulator
Structure (8) is connect with the circulating pump water inlet tube interface (17).
10. according to energy-saving steam generating device as claimed in claim 9, it is characterised in that the water circulation mechanism (8) includes
One circulating pump (81) and a circulating pump motor (82), circulating pump motor (82) and circulating pump (81) transmission cooperate and by circulating pump
(81) it is supported on the terrace of field of employment together with circulating pump motor (82), the circulating pump water inlet (811) of circulating pump (81) is logical
It crosses circulating pump water inlet pipe (8111) to connect with the circulating pump water inlet tube interface (17), coil pipe (7) built in the steam boiler
The other end connect with the circulating pump water outlet (812) of circulating pump (81).
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CN201821116967.6U CN208398048U (en) | 2018-07-13 | 2018-07-13 | A kind of energy-saving steam generating device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109882819A (en) * | 2019-04-10 | 2019-06-14 | 宜昌市禹猫智能科技有限公司 | Heated by electrothermal film energy-saving steam generating device |
CN114032666A (en) * | 2021-11-10 | 2022-02-11 | 常熟宁合新能源科技有限公司 | Energy-saving steam generating device with residual steam recycling function for steam iron |
-
2018
- 2018-07-13 CN CN201821116967.6U patent/CN208398048U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109882819A (en) * | 2019-04-10 | 2019-06-14 | 宜昌市禹猫智能科技有限公司 | Heated by electrothermal film energy-saving steam generating device |
CN114032666A (en) * | 2021-11-10 | 2022-02-11 | 常熟宁合新能源科技有限公司 | Energy-saving steam generating device with residual steam recycling function for steam iron |
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