CN207162633U - A kind of energy-saving heater - Google Patents

Abstract

A kind of energy-saving heater is the utility model is related to, it includes the 3rd water jacket for being arranged on the first water jacket of outside and being arranged in the first water jacket；Exhaust opening is provided with the top of first water jacket, the first water jacket bottom is provided with the circulating water inlet connected with its chuck；Thermoreceptor is provided with the top of 3rd water jacket, is provided with water inlet pipe and delivery port, water inlet pipe is connected with the chuck of the 3rd water jacket, and delivery port is connected with circulating water outlet pipe；The first waste heat recovery component with internal flow path is additionally provided with first water jacket, first waste heat recovery component is located above thermoreceptor, connected at the top of first waste heat recovery component by connecting tube with the chuck of the first water jacket, the bottom of the first waste heat recovery component is connected by connecting tube with the chuck of the 3rd water jacket.The present apparatus reclaims to the heat in flue gas, farthest utilizes the heat of burner, improves the conversion ratio of heat, saves the energy.And the device can be heated directly using gas-cooker, energy-conserving and environment-protective are easy to use.

Description

A kind of energy-saving heater

Technical field

It the utility model is related to civil heating equipment, more particularly to a kind of energy-saving heater.

Background technology

Winter rural area heating is substantially burning coal, and because equipment is relatively backward, the heat utilization ratio of coal is relatively low, substantial amounts of small Type domestic boiler burns coal and warms oneself serious burden is brought to atmosphere pollution, and it is higher not only result in heating cost, and can aggravate mist The formation of haze, influences air quality.With natural gas, the popularization of coal bed gas, combustion type heating equipment is with its low emission, user Just advantage and obtain more and more extensive application, meanwhile, with the development in epoch, people also increasingly focus on the reasonable of resource Using and make full use of.Natural gas is sent into the vast rural areas, it is also inevitable trend to be passed through every family, utilizes natural gas Heating has larger advantage.And existing combustion type heating equipment, due to its own reasons in structure, it is small, hot to there is heating surface area The problems such as efficiency is low, cause a large amount of wastes of the energy.Therefore it is badly in need of the thermoreceptor that a kind of heating surface area is big, the thermal efficiency is high, comes Make up the deficiencies in the prior art.

Utility model content

Technical problem to be solved in the utility model, which is to provide one kind, directly to be fired using commercially available coal gas or natural gas Burner is heated, converting heat rate is high, the heating stove of energy-conserving and environment-protective.

To solve the above problems, technical solution adopted in the utility model is：

A kind of energy-saving heater, its key technology are：It includes being arranged on the first water jacket of outside and is arranged on described The 3rd water jacket in first water jacket, first water jacket and the 3rd water jacket are provided with chuck；Set at the top of first water jacket There is exhaust opening, the first water jacket bottom is provided with the circulating water inlet connected with its chuck；Set at the top of 3rd water jacket Thermoreceptor is equipped with, the thermoreceptor has internal cavities, is provided with water inlet pipe and delivery port, the water inlet pipe and described the The chuck connection of three water jackets, the delivery port are connected with circulating water outlet pipe；It is additionally provided with first water jacket with inside First waste heat recovery component of stream, the first waste heat recovery component are located above the thermoreceptor, and first waste heat returns Receive and connected at the top of component by connecting tube with the chuck of first water jacket, the bottom of the first waste heat recovery component passes through connecting tube Connected with the chuck of the 3rd water jacket.

As further improvement of the utility model, the thermoreceptor includes a cylinder with internal cavities, the cylinder Dividing plate is provided with vivo, and the internal cavities of cylinder are divided into upper cavity and lower chamber, set at the top of the cylinder by the dividing plate Have a delivery port connected with the upper cavity, the cylinder bottom is provided with the water inlet connected with the lower chamber, it is described enter Water pipe is connected with the water inlet；The cylinder body outer wall week circle distribution is provided with multiple heated blades with internal flow path, phase Leave gap between adjacent heated blade, internal flow path one end of the heated blade connects with the lower chamber, the other end and The upper cavity connection.

As further improvement of the utility model, in addition to it is arranged on having between first water jacket and the 3rd water jacket The second water jacket of tubular is pushed up, second water jacket is provided with chuck, and the bottom of the first waste heat recovery component passes through connecting tube With being connected at the top of second water jacket, the second water jacket bottom is connected by connecting tube with the chuck of the 3rd water jacket.

As further improvement of the utility model, in addition to the condenser at the top of first water jacket is arranged on, it is described Condenser includes the condenser water jacket with chuck and the second waste heat recovery component with internal flow path being provided at its inner portion, The condenser water jacket bottom peripheral edge and airtight connection at the top of first water jacket, condenser water jacket top are provided with exhaust opening, Water inlet pipe is provided with the circulating water inlet, the water inlet pipe connects with the chuck of the condenser water jacket, described Connected at the top of second waste heat recovery component by connecting tube with the chuck of the condenser water jacket, the second waste heat recovery component Bottom is connected by connecting tube with the chuck of first water jacket, and fin is provided with the second waste heat recovery component, described Water storage disk is provided with below second waste heat recovery component, condensation water drainage pipe is provided with the water storage disk.

As further improvement of the utility model, the first waste heat recovery component includes multiple spaced first Waste-heat recoverer and the second waste-heat recoverer, first waste-heat recoverer are the disc-shaped structure for being internally provided with cavity, institute It is the cirque structure for being internally provided with cavity to state the second waste-heat recoverer, and the first adjacent waste-heat recoverer and the second waste heat return Its internal cavities is set to be connected by connecting tube between receipts device, the first waste-heat recoverer diameter is less than first water jacket Internal diameter, the inwall airtight connection of the periphery of second waste-heat recoverer and first water jacket.

As further improvement of the utility model, the second waste heat recovery component includes multiple spaced first Waste-heat recoverer and the second waste-heat recoverer, first waste-heat recoverer are the disc-shaped structure for being internally provided with cavity, institute It is the cirque structure for being internally provided with cavity to state the second waste-heat recoverer, and the first adjacent waste-heat recoverer and the second waste heat return Its internal cavities is set to be connected by connecting tube between receipts device, first waste-heat recoverer and the second waste-heat recoverer bottom are equal It is provided with the fin extended downwardly, the first waste-heat recoverer diameter is less than the internal diameter of the condenser water jacket, and described second The inwall airtight connection of the periphery of waste-heat recoverer and the condenser water jacket.

As further improvement of the utility model, the heated blade lean is set, and the heated blade is away from described The low side in the end side of cylinder is high, and its low side is the minimum point of whole heated blade, the heated blade it is close The root of the cylinder directly connects with lower chamber, away from the cylinder end high side by communicating pipe with it is described on Cavity connects.

As further improvement of the utility model, the quantity of the heated blade is 3 ~ 6.

As further improvement of the utility model, the 3rd water jacket bottom is provided with adjutage, the adjutage with The chuck connection of 3rd water jacket.

It is using beneficial effect caused by above-mentioned technical proposal：

The utility model sets thermoreceptor by setting the water jacket of multiple layer overlaps at the top of inner most water jacket, Waste heat recovery component is set in outermost water jacket, recirculated water is passed through again after flowing waste heat recovery component by the water jacket of outside Inner most water jacket is flowed into thermoreceptor, is then flowed out again by thermoreceptor, and hot water is conveyed to heat abstractor, and below thermoreceptor Chamber can prevent burner, burner directly heats to thermoreceptor, and flue gas enters by the gap of radiator By being discharged again through the exhaust opening at the top of the first water jacket after waste heat recovery component, the process makes waste heat recovery component in flue gas for side Heat reclaimed, farthest utilize the heat of burner, improve the conversion ratio of heat, save the energy.And the dress Put directly to be heated using gas-cooker, and energy-conserving and environment-protective are easy to use.

Brief description of the drawings

, below will be right in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art The required accompanying drawing used is briefly described in embodiment or description of the prior art, it should be apparent that, describe below In accompanying drawing be some embodiments of the present utility model, for those of ordinary skill in the art, do not paying creativeness On the premise of work, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the cross section structure diagram of the utility model embodiment one.

Fig. 2 is the external structure schematic diagram of the utility model embodiment one.

Fig. 3 is the dimensional structure diagram of thermoreceptor.

Fig. 4 is the cross section structure diagram of thermoreceptor.

Fig. 5 is the overlooking the structure diagram of thermoreceptor.

Fig. 6 is the structural representation of waste heat recovery device assembly.

Fig. 7 is the structural representation of the utility model embodiment two.

Fig. 8 is the structural representation of condenser in the utility model embodiment two.

Wherein：The heated blade of 1 first water jacket, 2 thermoreceptors, 2-1 water inlets, 2-2,2-3 communicating pipes, 2-4 cylinders, 2-5 go out The mouth of a river, 2-6 upper cavities, 2-7 lower chambers, 2-8 dividing plates, 2-9 water inlet pipes, 3 second water jackets, 4 the 3rd water jackets, 5 first waste heat recoveries Device, 6 second waste-heat recoverers, 7 connecting tubes, 8 circulating water inlets, 9 circulating water outlet pipes, 10 adjutages, 11 condensation water drainages Pipe, 12 stove mouths, 13 chimneys, 14 control valves, 15 condenser water jackets, 16 water inlet pipes, 17 water storage disks, 18 condensation water drainage pipes, 19 Fin, 20 bottom plates.

Embodiment

To make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with the accompanying drawings and specific embodiment Clear, complete description is carried out to utility model.

Embodiment one

A kind of energy-saving heater as illustrated in fig. 1 and 2, it includes being arranged on the first outside water jacket 1 and is arranged on described The 3rd water jacket 4 in first water jacket 1, in addition to having top tubular the be arranged between first water jacket 1 and the 3rd water jacket 4 Two water jackets 3, first water jacket 1, the second water jacket 3 and the 3rd water jacket 4 are provided with chuck, and the chuck is the flowing of recirculated water Space, and first water jacket 1, the second water jacket 3 and the sequential communication of the 3rd water jacket 4, form a coherent circulating water passage.

First water jacket 1 is the barrel for having top, and cross section is circular or rectangle, and its top is provided with exhaust opening, should Exhaust opening is provided with chimney 13, and the root of the chimney 13 is provided with control valve 14, and the control valve 14 can control chimney 13 Aperture, so as to control the flow of flue gas.

The bottom of first water jacket 1 is provided with the circulating water inlet 8 connected with its chuck；The top of 3rd water jacket 4 Thermoreceptor 2 is provided with, the thermoreceptor 2 has internal cavities, is provided with water inlet pipe 2-9 and delivery port 2-5, the water inlet Pipe 2-9 is connected with the chuck of the 3rd water jacket 4, and the delivery port 2-5 is connected with circulating water outlet pipe 9.

The first waste heat recovery component with internal flow path is additionally provided with first water jacket 1, first waste heat returns Receive component and pass through connecting tube 7 and first water jacket 1 at the top of the top of thermoreceptor 2, the first waste heat recovery component Chuck connection, the bottom of the first waste heat recovery component by connecting tube 7 with being connected at the top of second water jacket 3, it is described The bottom of second water jacket 3 is connected by connecting tube 7 with the chuck of the 3rd water jacket 4.

The first waste heat recovery component includes multiple spaced waste-heat recoverers of first waste-heat recoverer 5 and second 6, first waste-heat recoverer 5 is the disc-shaped structure for being internally provided with cavity, and second waste-heat recoverer 6 sets for inside The cirque structure of cavity is equipped with, is made between adjacent the first waste-heat recoverer 5 and the second waste-heat recoverer 6 by connecting tube 7 Its internal cavities is connected.The diameter of first waste-heat recoverer 5 is less than the internal diameter of first water jacket 1, second waste heat The inwall airtight connection of the periphery of recover 6 and first water jacket 1.

As shown in figures 1 to 6, in the present embodiment, the first waste heat recovery component includes two Hes of the first waste-heat recoverer 5 Two the second waste-heat recoverers 6, its top are the first waste-heat recoverer 5, and bottommost is the second waste-heat recoverer 6.

Wherein, described connecting tube 7 not only has connection effect, while also has supporting role.The bottom of second water jacket 3 leads to Cross multiple connecting tubes 7 to be fixedly connected with the 3rd water jacket 4, and be located at by the supporting role of connecting tube 7 outside the 3rd water jacket 4 Portion, the first waste heat recovery component bottom are supported on the top of the second water jacket 3, the first waste heat recovery group by multiple connecting tubes 7 It is fixedly connected at the top of part by multiple connecting tubes 7 with the top of the first water jacket 1, while also there is supporting role, the first waste heat returns Supported by connecting tube 7 between the first waste-heat recoverer 5 and the second waste-heat recoverer 6 of receipts component and mutually.

As shown in figure 1, present apparatus bottom is provided with bottom plate 20, the bottom of the water jacket 4 of the first water jacket 1 and the 3rd is fixed It is arranged on the bottom plate 20, bottom plate makes the flue gas flow channel bottom lock formed between multiple water jackets.And make flue gas flow channel The collection chamber of condensate is formed on bottom, and condensation water drainage pipe 11 is provided with the bottom plate, can be by its internal condensate Periodically discharge.

Such as Fig. 2, stove mouth 12 is further opened with the present apparatus, the stove mouth 12 is also cross the first water jacket 1, the second water jacket 3 and Three water jackets 4, burner can be made to be placed in the 3rd water jacket 4 not, located at the underface of thermoreceptor 2.

The bottom of 3rd water jacket 4 is provided with adjutage 10, and the chuck of the adjutage 10 and the 3rd water jacket 4 connects It is logical, the recirculated water inside device can be released by adjutage 10 when maintenance.

As in Figure 3-5, described thermoreceptor 2 includes setting in cylinder a 2-4, the cylinder 2-4 with internal cavities It is equipped with dividing plate 2-8, the dividing plate 2-8 and cylinder 2-4 internal cavities is divided into upper cavity 2-6 and lower chamber 2-7, the cylinder The delivery port 2-5 connected with the upper cavity 2-6 is provided with the top of 2-4, the cylinder 2-4 bottoms are provided with and the lower chamber The water inlet 2-1 of 2-7 connections.The delivery port 2-5 is connected with outlet pipe, and the recirculated water heated on thermoreceptor is sent into water outlet Guan Zhong.

Water inlet pipe 2-9 is fixedly installed on the water inlet 2-1, the water inlet pipe 2-9 is obliquely installed, water inlet pipe 2-9 with 3rd water jacket 4 is fixedly connected, and is communicated with its internal clip cover., will be heated meanwhile water inlet pipe 2-9 also functions to supporting role Device 2 is supported on the top of the 3rd water jacket 4.Recirculated water in 3rd water jacket 4 by the water inlet pipe 2-9 and water inlet 2-1 enter by Hot device is heated.

The water inlet pipe 2-9, which is obliquely installed, is advantageous to water inlet 2-1 water inlets, due to natural gas or liquefied gas burning when Time can produce moisture, and moisture, which runs into object, can condense into water droplet, and therefore, the water inlet pipe 2-9 being obliquely installed makes to coagulate on water inlet pipe 2-9 The water droplet of knot collects to relatively low side, facilitates the water conservancy diversion of condensate, the water inlet pipe 2-9 also act as support, it is hanging entirely by The effect of hot device.The water inlet 2-1 is more than one, and more than one water inlet 2-1 is uniformly set at the cylinder On 2-4 outer walls Zhou Yuan, the utility model uses and fixes a water inlet pipe 2- respectively on three water inlets 2-1, three water inlet 2-1 9, three water inlet pipe 2-9 support whole thermoreceptor.

The cylinder 2-4 outer walls week circle distribution is provided with multiple heated blade 2-2 with internal flow path, and adjacent is heated Leave gap between blade 2-2, internal flow path one end of the heated blade 2-2 connects with the lower chamber 2-7, the other end with The upper cavity 2-6 connections.Recirculated water by lower chamber 2-7 connection enter in the heated blade 2-2, be heated blade 2-2 with The contact area of flame is big, can preferably absorb heat, improves the transmission efficiency and utilization rate of heat, recirculated water is again from heated Entered in blade 2-2 in upper cavity 2-6, the process makes the orderly flowing of recirculated water, is heated evenly it.

The upward air-flow of spiral can be formed by leaving gap between the heated blade 2-2, can both make flue gas quickly upward Discharge, and can contact upper and lower surface of the flame fully with heated blade 2-2, increase heating surface area, fully heated.This practicality is new The blade 2-2 that is heated described in type is obliquely installed, and the low side in end sides of the heated blade 2-2 away from the cylinder 2-4 is high, and Its low side is whole heated blade 2-2 minimum point.

The heated blade 2-2 is obliquely installed, can make fuel gas buring generate a large amount of water on the heated blade 2-2 by High one lateral low side flows down, beneficial to the collection of these water and other water.The water droplet condensed on heated blade 2-2 converges to one Point, guide functions are formed, condensate flows to the position specified from the minimum point, avoids dropping onto on flame, is influenceing equipment just Often work.

In the present embodiment, the close cylinder 2-4 of heated blade 2-2 root directly connects with lower chamber 2-7, The high side of end away from the cylinder 2-4 is connected by communicating pipe 2-3 with the upper cavity 2-6.The heated blade 2-2 quantity is 3 ~ 6.Recirculated water first enters lower chamber 2-7 by the water inlet 2-1, then by the lower chamber 2-7 into by Hot blade 2-2, during this, recirculated water is fully heated in cylinder 2-4 and heated blade 2-2 surfaces, then fully heated to follow Ring water is entered the upper cavity 2-6 of cylinder by the heated blade 2-2 by communicating pipe 2-3, described again by upper cavity 2-6 through water outlet Mouth 2-5 sends out recirculated water into outlet pipe.In whole process, the cylinder 2-4, heated blade 2-2 and communicating pipe 2-3 by Heat, absorbs most heat, and remaining heat enters exhaust-heat absorption device with spiralling air-flow.It is described in the utility model Heated blade 2-2 quantity is 6.

As another embodiment, the heated blade 2-2 is straight close to the root of the cylinder 2-4 and upper cavity 2-6 Lead in succession, the high side of the end away from the cylinder 2-4（Or low side）Pass through communicating pipe 2-3 and the lower chamber 2- 7 connections.Or the cavity inside the heated blade 2-2 is separated to form internal flow path by dividing plate, it is close to the cylinder 2-4's Root is obliquely installed, and it is stepped up cavity 2-6 and is connected with lower chamber 2-7, and one end of internal flow path connects for import and lower chamber 2-7 Connect, the other end is connected for outlet with upper cavity 2-6.

Heated blade lean is set, and can form the upward air-flow of spiral, makes heated blade two-sided heated, heating surface area is bigger The thermal efficiency is higher；Heated blade lean is provided with the recovery beneficial to water simultaneously；Cylinder is divided into upper and lower cavity, and upper and lower two chambers Connected by the internal flow path for the blade that is heated, enable the well-regulated effect for flowing, increasing heat transfer of recirculated water of inside Rate, and be heated evenly, recirculated water heat cycles effect can be made more preferable.

When the present apparatus works, the circulating water inlet 8 is connected with the return pipe of radiator, the circulating water outlet pipe 9 It is connected with the water inlet pipe of radiator, forms the water flow circuits of a closure, and booster pump is set on circulating water inlet 8, Help current flowing.

Current are entered in the first water jacket 1 by circulating water inlet 8, and current enter first from the top of the first water jacket 1 In waste heat recovery component, then by the first waste-heat recoverer 5 and the second waste-heat recoverer layer by layer of the first waste heat recovery component 6, then entered by the top of the second water jacket 3, then the bottom of the 3rd water jacket 4 is flowed into from the bottom of the second water jacket 3, then by the 3rd water jacket 4 tops are entered in thermoreceptor 2, are passed through above-mentioned flow of turning back into the recirculated water in thermoreceptor 2, are fully absorbed furnace interior Waste heat, then discharged again after burner directly heats by circulating water outlet pipe 9, give radiator hot-water supply.

Heat caused by burner combustion, thermoreceptor 2 is directly heated first, flue gas by be heated blade 2-2 seam Gap is risen into the second water jacket 3, because the second water jacket 3 has a top, therefore flue gas along the 3rd water jacket 4 and the second water jacket 3 it Between crack flow downward, from bottom flow out after enter in the space between the first water jacket 1 and the second water jacket 3, then roll over again On back, the second waste-heat recoverer 6 of bottom is run into, flue gas collects to middle part, and by the middle part of the second waste-heat recoverer 6 Empty circulation upwards, runs into discoidal first waste-heat recoverer 6, flue gas circulates to surrounding again, via the first waste-heat recoverer 6 Gap between periphery and the first water jacket 1 circulates upwards, is entered after multiple turn back by the exhaust opening at the top of the first water jacket 1 Enter into chimney 13.During flue gas turns back circulation, the first water jacket 1, the second water jacket 3, the 3rd water jacket 4 and the first waste heat Recovery component recycles to the heat in flue gas, meanwhile, the vapor in flue gas condenses in the process, release heat Amount is absorbed by recirculated water.

Embodiment two

As shown in FIG. 7 and 8, the present embodiment is compared with embodiment one, in addition to is arranged on the cold of the top of the first water jacket 1 Condenser, the condenser include the condenser water jacket 15 with chuck and more than second with internal flow path being provided at its inner portion Recuperation of heat component, the bottom peripheral edge of condenser water jacket 15 and the top airtight connection of the first water jacket 1, condenser water jacket 15 push up Portion is provided with exhaust opening, and water inlet pipe 16, the water inlet pipe 16 and the condenser are provided with the circulating water inlet 8 The chuck connection of water jacket 15, the second waste heat recovery component top passes through connecting tube and the chuck of the condenser water jacket 15 connects Logical, the second waste heat recovery component bottom is connected by connecting tube with the chuck of first water jacket 1, and second waste heat returns Receive and fin 19 is provided with component, be provided with water storage disk 17 below the second waste heat recovery component, set on the water storage disk 17 It is equipped with condensation water drainage pipe 18.

The second waste heat recovery component includes multiple spaced waste-heat recoverers of first waste-heat recoverer 5 and second 6, first waste-heat recoverer 5 is the disc-shaped structure for being internally provided with cavity, and second waste-heat recoverer 6 sets for inside The cirque structure of cavity is equipped with, it is made by connecting tube between adjacent the first waste-heat recoverer 5 and the second waste-heat recoverer 6 Internal cavities are connected, and the bottom of 5 and second waste-heat recoverer of the first waste-heat recoverer 6 is provided with the fin extended downwardly 19.The diameter of first waste-heat recoverer 5 is less than the internal diameter of the condenser water jacket 15, the week of second waste-heat recoverer 6 The inwall airtight connection of edge and the condenser water jacket 15.

In the present embodiment, the top exhaust opening of the first water jacket 1 is not provided with chimney, and chimney 13 is arranged at the top of condenser water jacket 15 Exhaust opening on.Flue gas is entered in the condenser water jacket 15 by exhaust opening, then by the second waste heat recovery component, from cold The exhaust opening at the top of condenser water jacket 15 is exited into chimney 13.During being somebody's turn to do, the bottom of condenser water jacket 15 is by water inlet pipe 16 are passed through recirculated water, are entered back into from the top of condenser water jacket 15 into the second waste heat recovery component, current return from the second waste heat again Receive component bottom and enter the top of the first water jacket 1.Second waste heat recovery component and the first waste heat recovery modular construction are identical, therefore Its internal circulating water flow flowing mode and outside flow of flue gas mode are also identical, are not repeating herein.

Flue-gas temperature in condenser in internal current and its flue is relatively low, it is easier to makes the hydrogenesis shape in flue gas Into condensed water, the fin 19 of the first waste-heat recoverer 5 and the bottom of the second waste-heat recoverer 6 is triangular in shape, and its underpart is tip, Vapor is easier to condense on fin 19, and then drop is converged in water storage disk 17 under condensate, is passing through condensation water drainage pipe 18 Discharge.Vapor in flue gas largely condenses within the condenser, and release heat is absorbed by recirculated water, improves the utilization rate of heat.

Finally it should be noted that：Above example is only to illustrate the technical solution of the utility model, rather than its limitations； Although the utility model is described in detail with reference to the foregoing embodiments, it will be understood by those within the art that： It can still be modified to the technical scheme described in previous embodiment, or which part technical characteristic is equal Replace；And these modifications or replacement, the essence of appropriate technical solution is departed from the utility model embodiment technical scheme Spirit and scope.

Claims (9)

1. A kind of 1. energy-saving heater, it is characterised in that：It includes the first water jacket for being arranged on outside（1）Be arranged on described first Water jacket（1）The 3rd interior water jacket（4）, first water jacket（1）With the 3rd water jacket（4）It is provided with chuck；First water jacket （1）Top is provided with exhaust opening, first water jacket（1）Bottom is provided with the circulating water inlet connected with its chuck（8）；Institute State the 3rd water jacket（4）Top is provided with thermoreceptor（2）, the thermoreceptor（2）With internal cavities, water inlet pipe is provided with （2-9）And delivery port（2-5）, the water inlet pipe（2-9）With the 3rd water jacket（4）Chuck connection, the delivery port（2-5） With circulating water outlet pipe（9）Connection；First water jacket（1）Inside it is additionally provided with the first waste heat recovery group with internal flow path Part, the first waste heat recovery component are located at the thermoreceptor（2）Top, the first waste heat recovery component top pass through connection Pipe and first water jacket（1）Chuck connection, the bottom of the first waste heat recovery component passes through connecting tube and the 3rd water jacket （4）Chuck connection.
2. A kind of 2. energy-saving heater according to claim 1, it is characterised in that：The thermoreceptor（2）Have including one interior The cylinder of portion's cavity（2-4）, the cylinder（2-4）Inside it is provided with dividing plate（2-8）, the dividing plate（2-8）By cylinder（2-4）It is interior Portion's cavity is divided into upper cavity（2-6）And lower chamber（2-7）, the cylinder（2-4）Top is provided with and the upper cavity（2-6） The delivery port of connection（2-5）, the cylinder（2-4）Bottom is provided with and the lower chamber（2-7）The water inlet of connection（2-1）, The water inlet pipe（2-9）With the water inlet（2-1）Connection；The cylinder（2-4）The circle distribution of outer wall week, which is provided with, multiple to be had The heated blade of internal flow path（2-2）, adjacent heated blade（2-2）Between leave gap, the heated blade（2-2）It is interior Portion stream one end and the lower chamber（2-7）Connection, the other end and the upper cavity（2-6）Connection.
3. A kind of 3. energy-saving heater according to claim 1, it is characterised in that：Also include being arranged on first water jacket （1）With the 3rd water jacket（4）Between have top tubular the second water jacket（3）, second water jacket（3）It is provided with chuck, described The bottom of one waste heat recovery component passes through connecting tube and second water jacket（3）Top connects, second water jacket（3）Bottom leads to Cross connecting tube and the 3rd water jacket（4）Chuck connection.
4. A kind of 4. energy-saving heater according to claim 1, it is characterised in that：Also include being arranged on first water jacket （1）The condenser at top, the condenser include the condenser water jacket with chuck（15）It is interior with having of being provided at its inner portion Second waste heat recovery component of portion's stream, the condenser water jacket（15）Bottom peripheral edge and first water jacket（1）Top is closed Connection, condenser water jacket（15）Top is provided with exhaust opening, the circulating water inlet（8）On be provided with water inlet pipe（16）, The water inlet pipe（16）With the condenser water jacket（15）Chuck connection, pass through company at the top of the second waste heat recovery component Adapter and the condenser water jacket（15）Chuck connection, the second waste heat recovery component bottom passes through connecting tube and described the One water jacket（1）Chuck connection, be provided with fin on the second waste heat recovery component（19）, the second waste heat recovery component Lower section is provided with water storage disk（17）, the water storage disk（17）On be provided with condensation water drainage pipe（18）.
5. A kind of 5. energy-saving heater according to claim 1, it is characterised in that：The first waste heat recovery component includes more Individual spaced first waste-heat recoverer（5）With the second waste-heat recoverer（6）, first waste-heat recoverer（5）For inside It is provided with the disc-shaped structure of cavity, second waste-heat recoverer（6）It is adjacent to be internally provided with the cirque structure of cavity The first waste-heat recoverer（5）With the second waste-heat recoverer（6）Between by connecting tube its internal cavities is connected, described One waste-heat recoverer（5）Diameter is less than first water jacket（1）Internal diameter, second waste-heat recoverer（6）Periphery and institute State the first water jacket（1）Inwall airtight connection.
6. A kind of 6. energy-saving heater according to claim 4, it is characterised in that：The second waste heat recovery component includes more Individual spaced first waste-heat recoverer（5）With the second waste-heat recoverer（6）, first waste-heat recoverer（5）For inside It is provided with the disc-shaped structure of cavity, second waste-heat recoverer（6）It is adjacent to be internally provided with the cirque structure of cavity The first waste-heat recoverer（5）With the second waste-heat recoverer（6）Between by connecting tube its internal cavities is connected, described One waste-heat recoverer（5）With the second waste-heat recoverer（6）Bottom is provided with the fin extended downwardly（19）；First waste heat Recover（5）Diameter is less than the condenser water jacket（15）Internal diameter, second waste-heat recoverer（6）Periphery with it is described cold Condenser water jacket（15）Inwall airtight connection.
7. A kind of 7. energy-saving heater according to claim 2, it is characterised in that：The heated blade（2-2）It is obliquely installed, The heated blade（2-2）Away from the cylinder（2-4）The low side in end side it is high, and its low side is entirely heated leaf Piece（2-2）Minimum point, the heated blade（2-2）The close cylinder（2-4）Root and lower chamber（2-7）Directly connect It is logical, away from the cylinder（2-4）The high side of end pass through communicating pipe（2-3）With the upper cavity（2-6）Connection.
8. A kind of 8. energy-saving heater according to claim 2, it is characterised in that：The heated blade（2-2）Quantity be 3 ~ 6.
9. A kind of 9. energy-saving heater according to claim 1, it is characterised in that：3rd water jacket（4）Bottom is provided with Adjutage（10）, the adjutage（10）With the 3rd water jacket（4）Chuck connection.