CN205026923U - High -efficient hot -blast hot -water heating system - Google Patents

Abstract

The utility model relates to a high -efficient hot -blast hot -water heating system, it includes a furnace body frame, a hot -blast heat exchanger and hot water heat exchange water tank group, hot -blast heat exchanger includes that one is located a casing and the furnace on furnace body frame, and a flue gas air damper is connected on furnace's top, is provided with a plurality of hot -blast heat transfer plywoods in furnace's periphery, in the clearance that each hot -blast heat transfer plywood formed, partly as high temperature flue gas passageway, another part is as a fresh air pipeline, and both do not feed through each other, the 2nd fresh air pipeline and a centrifugal fan's exit linkage is passed through in a fresh air pipeline's import, fresh air pipeline's an export and the hot -blast room of a collecing intercommunication that is located furnace horizontal segment below, the hot -blast other end and a hot air channel who extends along the horizontal direction who collects the room communicates, and hot air channel's end is provided with the hot air exitus who is used for connecting heating equipment.

Description

Efficient hot-air hot-water heating system

Technical field

The utility model relates to a kind of hot air and hot water system, especially a kind of efficient hot-air hot-water heating system that can realize residual heat recovery.

Background technology

Hot air and hot water system washes the comparatively general system of the industry applications such as dye, printing, cleaning, herding, can also for camping, exploring, the outdoor life guarantee of disaster relief personnel provides convenient.Hot air and hot water system common at present, the main technology type adopting active synchronization to heat new wind and cold water, is difficult to realize independent heating cold water or heat new wind separately.Even if indivedual hot air and hot water system can active heated cold water or newly wind separately, but in the process of heating cold water (or new wind), still have the passive supply of quite a few heat not need the new wind (or cold water) heated, cause thermal waste, add system energy consumption, reduce system thermal efficiency.In addition, lack the small-sized integrated hot air and hot water system of intellectuality, high efficiency, low power consuming at present both at home and abroad, be difficult to realize the optimal allocation of heat energy in hot blast and hot water and exchange utilizing by automatic control technology.

Summary of the invention

For the problems referred to above, the utility model provides a kind of intelligent high-efficient hot air and hot water system, can perform three kinds of operations according to applying working condition, independent heating cold water, the separately new wind of heating, simultaneously heating cold water and new wind.

For achieving the above object, the utility model takes following technical scheme: a kind of efficient hot-air hot-water heating system, is characterized in that: it comprises a furnace body frame, a hot air heat exchanger and a hot water heat-exchanging water tank group; Described hot air heat exchanger comprises a housing and be seated on described furnace body frame and is arranged on burner hearth in described housing, described burner hearth connects a burner, the top of described burner hearth connects a smoke damper, and the periphery of described burner hearth is provided with multiple hot air heat exchange laminate; In the arc-shaped gaps that each described hot air heat exchange laminate is formed, a part is as high temp. flue, and another part is as the first new wind passage; Described high temp. flue is not communicated with mutually with the described first new wind passage; Described high temp. flue comprises down going channel and data feedback channel, and the upper end of described down going channel is communicated with the top of described burner hearth, and the smoke backflow room that lower end and is positioned at below described burner hearth is communicated with; The lower end of described data feedback channel is communicated with described smoke backflow room, and upper end is collected diffuser casing with a flue gas between described hot air heat exchanger with described hot water heat-exchanging water tank group and is communicated with; The import of the described first new wind passage is connected with the outlet of a centrifugal blower by one second new wind passage; The hot blast merging chamber that the outlet and of the described first new wind passage is positioned at below described burner hearth horizontal segment is communicated with, the hot-air channel that the other end and of described hot blast merging chamber extends in the horizontal direction is communicated with, and the end of described hot-air channel is provided with the hot-blast outlet for connecting heating equipment; Described hot water heat-exchanging water tank group comprises the water tank that is fixedly connected on described hot air heat exchanger upper end, described water tank is provided with one for connecting the water tank import and of cold water source for exporting the tank outlet of hot water, the gas flue of a vertical direction is provided with in described water tank, the lower end of described gas flue is collected diffuser casing with described flue gas and is communicated with, and the upper end outlet of described gas flue is positioned at the top of described water tank.

Described water tank comprises vertical section and is positioned at the horizontal segment on described vertical section top; Described gas flue is positioned at the vertical section of described water tank; Collect in diffuser casing the heating tube being provided with multiple vertical direction at described flue gas, the bottom of described water tank is stretched in the upper end of described heating tube; In described gas flue, be evenly arranged the finned low temperature exhaust heat heat pipe of multiple V-arrangement, the finned endotherm section of the finned low temperature exhaust heat of V-arrangement described in each heat pipe is positioned at described gas flue, and two ends heat release section stretches in described water tank through the sidewall of described gas flue.

One fresh air preheating device is set in described water tank, described fresh air preheating device comprises a rectangular frame, the top of described rectangular frame is fixedly connected with base plate with the top board of described water tank respectively with bottom, the inner fin heat exchange tube of multiple vertical direction is provided with in described rectangular frame, the outer wall of described inner fin heat exchange tube is immersed in the water in described water tank, inwall then forms top-down air duct, the import of described air duct is positioned at the top of described water tank, outlet is positioned at the bottom of described water tank and is connected with the import of described centrifugal blower by a new wind commutation and filter assemblies.

In described water tank, a gas water heater is also set, described gas water heater comprises a rectangular frame, the top of described rectangular frame is fixedly connected with base plate with the top board of described water tank respectively with bottom, the inner fin heat exchange tube of multiple vertical direction is provided with in described rectangular frame, the outer wall of described inner fin heat exchange tube is immersed in the water in described water tank, inwall then forms the emptying passage of hot blast from bottom to top, and the import of the emptying passage of described hot blast connects the top of a vertical hot blast emptying pipe; The outlet of the emptying passage of described hot blast is positioned at the top of described water tank; The bottom of described hot blast emptying pipe connects described hot-air channel.

Described new wind commutation and filter assemblies comprise a new barb valve module, an electric operator, an air filter plate and one the 3rd new wind passage; Described new barb valve module comprises the framework of a upper and lower opening, one is arranged respectively as the rectangular through-hole of normal temperature fresh inlet in the both sides of described framework bottom, described in each, rectangular through-hole top edge is rotationally connected the valve plate that is used for opening or closing normal temperature fresh inlet, the inner side of valve plate described in two is rotationally connected an orifice plate respectively, and on orifice plate described in two, correspondence is provided with the equal through hole of quantity; Orifice plate mounted on top described in two and realize relative sliding under the driving of described electric operator, during to make that described in two, orifice plate closes up, through hole overlaps and forms air duct, and time separately, through hole is not communicated with closed air duct mutually; Further, when described in two, valve plate is opened, all mutual disconnected state of the through hole on orifice plate described in two; When valve plate described in two is closed, all through holes on orifice plate described in two are coincidence status; Described air filter plate is arranged on the lower ending opening place of described framework; One end of described 3rd new wind passage is fixedly connected on the lower end of described framework, and the other end is fixedly connected on the import of described off-line blower fan.

Described electric operator comprises one and is fixedly connected on dual-axle motor on described frame inner wall, two rotating shafts of described dual-axle motor are fixedly connected with a screw rod respectively, screw rod described in two is combined with a swivel nut respectively, and swivel nut described in two is fixedly connected with orifice plate described in respectively by a connecting rod.

Described smoke damper comprises a fixed disk and a rolling disc, described fixed disk is fixedly connected on the top of described burner hearth, the top of described fixed disk is fixedly connected with a central shaft, described rolling disc is connected to the top of described fixed disk by described central axis, and described rolling disc and fixed disk are offered quantity, fan-shaped pylone that size is equal simultaneously.

Described rolling disc arranges a bearing pin, and described bearing pin is connected with one end of one handle, and the other end of described handle is arranged on the outside of described hot air heat exchanger and is connected with the output of a step-by-step linear electric motor.One hot blast control valve is set at the hot-blast outlet place of described hot-air channel, described hot blast emptying pipe arranges the emptying control valve of a hot blast.

Also comprise a set of intelligence control system, described cover intelligence control system comprises an electric appliance control box, the controlled programmable controller of a PLC and a liquid crystal display; Described electric appliance control box is electrically connected the level sensor that the second temperature sensor, that hot blast control valve, that first temperature sensor, being positioned at described hot-blast outlet place is positioned at described hot-blast outlet place is positioned at described gas flue exit is positioned at the smoke components on-line analysis probe of described gas flue, a three-temperature sensor, be installed on described water tank is installed on described tank top respectively; The presetting various operating mode of the controlled programmable controller of described PLC, gives each executing agency by signal output function module feedback, adds hot blast, heating water, the new wind of heating cold water three kinds of mode of operations to perform; Described liquid crystal display is for showing the duty of hot air and hot water system.

The utility model is owing to taking above technical scheme, it has the following advantages: 1, the utility model arranges a hot water heat-exchanging water tank group above hot air heat exchanger, one L-shaped burner hearth is set in hot air heat exchanger, roof of the furnace arranges a smoke damper, the periphery of burner hearth arranges and forms mutual disconnected high temp. flue and the first new wind passage by multiple hot air heat exchange laminate, the outlet of the first new wind passage connects hot-air channel by a hot blast merging chamber, and the end of hot-air channel is arranged by the hot-blast outlet for connecting heating equipment; Hot water heat-exchanging water tank group comprises a water tank, a gas flue is provided with in water tank, the finned low temperature exhaust heat heat pipe of multiple V-arrangement has been evenly arranged in gas flue, therefore, the utility model is by controlling unlatching or the closedown of smoke damper, can switch under Hot-blast Heating pattern, hot water heating pattern and hot air and hot water heating mode, under different mode, moving towards of high-temperature flue gas is different, also different from the object of high-temperature flue gas heat exchange, then achieve and heat separately new wind, separately heating cold water and heat the several functions such as new wind and cold water simultaneously.2, the utility model is provided with a fresh air preheating device in water tank, can for being carried out preheating to a certain degree by the new wind of fresh air preheating device by the water that heats in water tank, and the energy that the heating process saving for follow-up new wind is certain, thus the utilization rate of energy is high.3, the utility model is provided with a gas water heater in water tank, become hot blast after new wind and high-temperature flue gas heat exchange, it is discharged, in discharge process eventually through the emptying passage of hot blast, its heat carried with the water heat exchange in water tank, can make heat to arrive and further utilizes.4, the utility model is provided with a new barb valve module, it is provided with two normal temperature fresh inlets and a preheating fresh inlet be connected with fresh air preheating device, and when normal temperature fresh inlet is closed, through hole conducting on two orifice plates forms air duct, when normal temperature fresh inlet is opened, and the through hole not conducting on two orifice plates, therefore, achieve the selection to new wind, centrifugal blower both can import the new wind of normal temperature in the first new wind passage, also can import the new wind after the preheating of fresh air preheating device.5, the utility model can adopt modularized design, i.e. rapid-assembling, quick-detachment, can meet field, the provisional or ambulant requirement such as vehicle-mounted like this.6, the utility model is provided with a set of intelligence control system, can according to using hot needs, the functional part such as electric control air valve, new barb valve is controlled by PLC, by the heat energy transmission feedwater in wind, also the heat in water can be passed to wind, the controlled conversion of heat is carried out thus between Feng Heshui, the efficiency utilization of heat can be realized thus, adopt PLC control system, each sensor terminal and liquid crystal display simultaneously, therefore unmanned can be realized, automatic operation, significantly reduces the labour intensity of producers, improves system intelligent degree.7, the utility model adopts cross-current in the structure of the new wind passage of hot air heat exchanger and high temp. flue, cooling layer, thermosphere wall-type heat exchange designs, particularly exhaust gases passes adopts the round trip stream design forcing decline passway and rising return flow line, therefore, the time of staying of high-temperature flue gas in hot air heat exchanger can be improved, also the heat exchange area between high-temperature flue gas and new wind can greatly be improved, thus in whole design and design, meet the requirement 8 of high efficiency heat exchange, burner hearth of the present utility model is set to L shape, at the horizontal latter end position install combustion device of burner hearth, thus add the length of burning zone, the fuel that burner is sprayed and air have sufficient blending space and burning time, what can not produce flame suppresses stewing phenomenon, oil, gas fuel combustion is abundant, do not produce the situations such as over-emitting black exhaust, and then can fuel be saved, increase efficiency of combustion, reduce energy consumption, improve the feature of environmental protection.9, the utility model is provided with smoke components on-line analysis probe in flue gas diffuser casing, can on-line monitoring smoke components, be used for analyzing the combustion case of fuel, play and judge burner malfunctions, the early warning of after-flame degree, the effects such as the qualified discharge situation of flue gas, thus improve the feature of environmental protection of equipment, security, reliability.

Accompanying drawing explanation

Fig. 1 is overall structure schematic diagram of the present utility model;

Fig. 2 is the structural representation of the utility model hot air heat exchanger;

Fig. 3 is the schematic top plan view of the utility model hot air heat exchanger;

Fig. 4 is the structural representation of the utility model smoke damper;

Fig. 5 is the structural representation of the utility model smoke damper fixed head;

Fig. 6 is the structural representation of the utility model smoke damper rotor plate;

Fig. 7 is the structural representation of the utility model hot water heat-exchanging water tank group;

Fig. 8 is the schematic top plan view of the utility model hot water heat-exchanging water tank group;

Fig. 9 is the structural representation of the utility model fresh air preheating device;

Figure 10 is the structural representation of the utility model gas water heater;

Figure 11 is the structural representation of the new wind commutation of the utility model and filter assemblies;

Figure 12 is the structural representation of the utility model orifice plate;

Figure 13 is the structural representation of another orifice plate of the utility model;

Figure 14 is the structural representation of the utility model air filter plate.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is described in detail.

As shown in Figure 1, the utility model comprises a furnace body frame 1, the new wind commutation of hot air heat exchanger 2, hot water heat-exchanging water tank group 3, one and filter assemblies 4, centrifugal blower 5 and a burner 6.

As shown in Figure 1 and Figure 2, hot air heat exchanger 2 of the present utility model comprises one and is seated in housing on furnace body frame 1 21 and and arranges L-shaped burner hearth 22 within the case 1, the end of burner hearth 22 horizontal segment is fixedly connected with burner 6 (oil burner or gas burner), and the top of the vertical section of burner hearth 22 connects a smoke damper 23.Smoke damper 23 comprises fixed disk 231 and a rolling disc 232 (as shown in figures 4-6), fixed disk 231 is fixedly connected on the top of burner hearth 22, its top is fixedly connected with a central shaft 233, rolling disc 232 is rotatably connected on fixed disk 232 top by central shaft 233, rolling disc 232 and fixed disk 231 are offered quantity, fan-shaped pylone 234 that size is equal simultaneously, the degree that overlaps of rolling disc 232 and the fan-shaped pylone 234 on fixed disk 231 can be controlled by adjusting the rotational angle of rolling disc 232, and then the On/Off of control smoke damper 23.As shown in Figure 2 and Figure 3, the hot air heat exchange laminate 24 of multiple circular arc is provided with in the periphery of burner hearth 22, each hot air heat exchange laminate 24 is in arranged in concentric circles, in the arc-shaped gaps that each hot air heat exchange laminate 24 is formed, a part is as high temp. flue, another part is as the first new wind passage, and both are not communicated with mutually.Wherein, high temp. flue comprises down going channel 251 and data feedback channel 252.The upper end of down going channel 25 is communicated with the top of burner hearth 22, and the smoke backflow room 26 that lower end and is positioned at below burner hearth 22 is communicated with; The lower end of data feedback channel 26 is communicated with smoke backflow room 26, and upper end is collected diffuser casing 34 with a flue gas between hot air heat exchanger 2 with hot water heat-exchanging water tank group 3 and is communicated with.The import 271 of the first new wind passage is connected by the outlet of centrifugal blower 5 of one second new wind passage 28 with the side being positioned at hot air heat exchanger 2, the hot blast merging chamber 29 that the outlet 272 and of the first new wind passage is positioned at below burner hearth 22 horizontal segment is communicated with, the hot-air channel 30 that the other end and of hot blast merging chamber 29 extends in the horizontal direction is communicated with, the end of hot-air channel is provided with hot-blast outlet, and hot-blast outlet is for connecting heating equipment (not shown).

As shown in Figure 7, Figure 8, hot water heat-exchanging water tank group 3 of the present utility model comprises a water tank 31, and water tank 31 comprises vertical section and is positioned at the horizontal segment on vertical section top, overall in inverted L-shaped.Arranging one at the top of water tank 31 for connecting the water tank import 311 of cold water source, arranging one in the bottom of water tank for exporting the tank outlet 312 of hot water.Wherein, water tank 31 vertically section is connected to the top of hot air heat exchanger 2, and in water tank 31 vertically section, be provided with the gas flue 32 of a vertical direction, lower end and the flue gas of gas flue 32 collect diffuser casing 34 and be communicated with.Collect the heating tube 35 being provided with multiple vertical direction in diffuser casing 34 at flue gas, the upper end of heating tube 35 is stretched into bottom water tank 31.The upper end outlet of gas flue 32 is positioned at the top of water tank, the finned low temperature exhaust heat heat pipe 33 of multiple V-arrangement has been evenly arranged in gas flue 32, the finned endotherm section of each V-arrangement finned low temperature exhaust heat heat pipe 33 is positioned at gas flue 32, and the heat release section at two ends stretches in water tank 31 through gas flue 32 sidewall.A fresh air preheating device 36 (as shown in Figure 9) is provided with at the middle part of water tank 31 horizontal segment, fresh air preheating device 36 comprises a rectangular frame 361, the top of rectangular frame 361 is fixedly connected with base plate with the top board of water tank 31 respectively with bottom, the inner fin heat exchange tube 362 of multiple vertical direction is provided with in rectangular frame 361, the outer wall of inner fin heat exchange tube 362 is immersed in the water of water tank 31, inwall then forms top-down air duct, the import of air duct is positioned at the top of water tank 31, outlet is positioned at the bottom of water tank 31 and is commutated by new wind and filter assemblies 4 is connected with the import of centrifugal blower 5.The end of water tank 31 horizontal segment is provided with a gas water heater 37 (as shown in Figure 10), gas water heater 37 comprises a rectangular frame 371, the top of rectangular frame 371 is fixedly connected with base plate with the top board of water tank 31 respectively with bottom, the inner fin heat exchange tube 372 of multiple vertical direction is provided with in rectangular frame 371, the outer wall of inner fin heat exchange tube 372 is immersed in the water of water tank 31, inwall then forms the emptying passage of hot blast from bottom to top, the import of the emptying passage of hot blast connects the top (as shown in Figure 1) of a vertical hot blast emptying pipe 373, the outlet of the emptying passage of hot blast is positioned at the top of water tank 31.The bottom of hot blast emptying pipe 373 connects hot-air channel 30.

As shown in Fig. 1, Figure 11 ~ 14, new wind commutation of the present utility model and filter assemblies 4 comprise new barb valve module 41, electric operator 42, air filter plate 43 and one a 3rd new wind passage 44.New barb valve module 41 comprises the framework 411 of a upper and lower opening, arranges a rectangular through-hole respectively, as normal temperature fresh inlet in the both sides of framework 411 bottom.Rotate at each rectangular through-hole top edge and a valve plate 412,413 is set, be used for On/Off normal temperature fresh inlet.The inner side of two valve plates 412,413 is rotationally connected an orifice plate 414,415 respectively, on two orifice plates 414,415, correspondence is provided with the equal through hole of quantity, two orifice plate 414,415 mounted on top and can relative sliding be realized under the driving of electric operator 42, when closing up to make two orifice plates 414,415, through hole overlaps and forms air duct, through hole not relative closed air duct mutually time separately.Further, when two valve plates 412,413 are opened, the through hole on two orifice plates 414,415 is all in closure state; When two valve plates 412,413 are closed, all through holes on two orifice plates 414,415 are coincidence status.Electric operator 42 comprises one and is fixedly connected on dual-axle motor 421 on framework 411 inwall, two rotating shafts of dual-axle motor 421 are fixedly connected with a screw rod 422 respectively, two screw rods is combined with respectively swivel nut 423, two swivel nut 423 and is fixedly connected with an orifice plate 414,415 respectively by a connecting rod 424.Under the driving of dual-axle motor 421, two swivel nuts 423 can drive two orifice plates 414,415 to draw close or separate.Air filter plate 43 is arranged on the lower ending opening place of framework 411.As shown in Figure 1, one end of the 3rd new wind passage 44 is fixedly connected on the lower end of framework 411, and the other end is fixedly connected on the import of frequency conversion centrifugal blower 5.

In above-described embodiment, a bearing pin 235 can be set on the rolling disc 232 of smoke damper 23, bearing pin 235 is connected with one end of one handle 236, the other end of handle 236 is arranged on the outside of hot air heat exchanger 2, and the output of a stepper motor (not shown) can be connected like this, the rotation of rolling disc 232 can be realized by stepper motor drawing handle 236, thus control the On/Off of smoke damper 23.

In above-described embodiment, a hot blast control valve 301 can be set at the hot-blast outlet place of hot-air channel 30, hot blast emptying pipe 373 arranges the emptying control valve 3731 of a hot blast.

The utility model can work under three kinds of mode of operations, is air heating pattern, hot water heating pattern and hot air and hot water heat supply mode respectively, and the course of work under three kinds of mode of operations is as follows respectively:

(1) during air heating pattern, smoke damper 23 need be adjusted to closure state, the high-temperature flue gas produced after burner hearth 22 combustion rises, due to the stop of top smoke damper 23, high-temperature flue gas enters down going channel 251, after arriving the bottom of hot air heat exchanger 2, enters again data feedback channel 252, arrive flue gas and collect diffuser casing 34, discharge eventually through gas flue 32.

Meanwhile, new wind is centrifuged blower fan 5 and imports from the normal temperature fresh inlet of new barb valve module 41 or air duct, enters in the first new wind passage, after the heat of absorption high-temperature flue gas, become hot blast, hot blast is pooled to hot-blast outlet by hot-air channel 30, to provide heat to heating equipment.

(2) during hot water heating pattern, smoke damper 23 need be adjusted to full open state, the high-temperature flue gas produced after burner hearth 22 combustion is not substantially by the stop of top smoke damper 23, overwhelming majority high-temperature flue gas directly enters flue gas and collects diffuser casing, its heat is used for for the water heating use in water tank 3, and fraction enters flue gas again collect diffuser casing 34 through down going channel 251, data feedback channel 252.Water after heating can be discharged for use by tank outlet 312.

Meanwhile, new wind is imported by centrifugal blower 5, enters in the first new wind passage, hot air heat exchanger 2 is cooled, the hot blast that heat exchange is formed, successively through hot-air channel 30, hot blast emptying pipe 373, is finally discharged by the emptying passage of the hot blast of waste hot air water heater 37.Hot blast through waste hot air water heater 37 time, its heat may be used for and the water heat exchange in water tank 3, improves capacity usage ratio further.

(3) during hot air and hot water heat supply mode, smoke damper 23 is in certain open degree, and the high-temperature flue gas in burner hearth 22 is subject to certain stop, and a part successively enters down going channel 251, data feedback channel 252, enters flue gas and collects diffuser casing 34.Another part high-temperature flue gas directly collects diffuser casing 34 through entering flue gas, and its heat is used for for the water heating in water tank 3 is used.

While like this, new wind is centrifuged blower fan 5 importing and enters the first new wind passage, with the heat exchange of front portion high-temperature flue gas, becomes hot blast, be pooled to hot-blast outlet, to provide heat to heating equipment by hot-air channel 30 after absorbing the heat of high-temperature flue gas.

The utility model also comprises a set of intelligence control system (not shown), and it comprises an electric appliance control box, the controlled programmable controller of a PLC and a liquid crystal display.Wherein, the level sensor that the second temperature sensor, that electric appliance control box is electrically connected first temperature sensor being positioned at hot-blast outlet place respectively, hot blast control valve 301, is positioned at gas flue 32 exit is positioned at the smoke components on-line analysis probe of gas flue 32, a three-temperature sensor, be installed on water tank 31 is installed on water tank 31 top.The presetting various operating mode of the controlled programmable controller of PLC, each executing agency is given by signal output function module feedback, realize thus adding separately the conversion, association etc. between the functions such as hot blast, separately heating water, the simultaneously new wind of heating cold water, can perform and add hot blast, heating water, the new wind of heating cold water three kinds of mode of operations.Liquid crystal display can show the duty of hot air and hot water system intuitively, and can switch the operation between each pattern fast.

In addition, for realizing Based Intelligent Control, burner 5 of the present utility model adopts self-control oil-burning (gas) burner, and it comprises a burner and carries control system, a fuel tank and oil (gas) connecting pipe road.Self-control oil-burning (gas) burner can realize: accept instruction and automatically start, close, accept instruction and burn stage by stage, and meets special feelings and automatically close protection etc.Centrifugal blower 5 adopts frequency conversion centrifugal blower, and it comprises a centrifugal blower body and a variable ratio frequency changer speed regulator, can regulate the rotating speed of frequency conversion centrifugal blower motor as required, realize the adjustment of new wind flow.

The various embodiments described above are only for illustration of the utility model; wherein the structure of each parts, connected mode and manufacture craft etc. all can change to some extent; every equivalents of carrying out on the basis of technical solutions of the utility model and improvement, all should not get rid of outside protection domain of the present utility model.

Claims (10)

1. an efficient hot-air hot-water heating system, is characterized in that: it comprises a furnace body frame, a hot air heat exchanger and a hot water heat-exchanging water tank group;

Described hot air heat exchanger comprises a housing and be seated on described furnace body frame and is arranged on burner hearth in described housing, described burner hearth connects a burner, the top of described burner hearth connects a smoke damper, and the periphery of described burner hearth is provided with multiple hot air heat exchange laminate; In the arc-shaped gaps that each described hot air heat exchange laminate is formed, a part is as high temp. flue, and another part is as the first new wind passage; Described high temp. flue is not communicated with mutually with the described first new wind passage; Described high temp. flue comprises down going channel and data feedback channel, and the upper end of described down going channel is communicated with the top of described burner hearth, and the smoke backflow room that lower end and is positioned at below described burner hearth is communicated with; The lower end of described data feedback channel is communicated with described smoke backflow room, and upper end is collected diffuser casing with a flue gas between described hot air heat exchanger with described hot water heat-exchanging water tank group and is communicated with; The import of the described first new wind passage is connected with the outlet of a centrifugal blower by one second new wind passage; The hot blast merging chamber that the outlet and of the described first new wind passage is positioned at below described burner hearth horizontal segment is communicated with, the hot-air channel that the other end and of described hot blast merging chamber extends in the horizontal direction is communicated with, and the end of described hot-air channel is provided with the hot-blast outlet for connecting heating equipment;

Described hot water heat-exchanging water tank group comprises the water tank that is fixedly connected on described hot air heat exchanger upper end, described water tank is provided with one for connecting the water tank import and of cold water source for exporting the tank outlet of hot water, the gas flue of a vertical direction is provided with in described water tank, the lower end of described gas flue is collected diffuser casing with described flue gas and is communicated with, and the upper end outlet of described gas flue is positioned at the top of described water tank.

2. efficient hot-air hot-water heating system as claimed in claim 1, is characterized in that: described water tank comprises vertical section and is positioned at the horizontal segment on described vertical section top; Described gas flue is positioned at the vertical section of described water tank; Collect in diffuser casing the heating tube being provided with multiple vertical direction at described flue gas, the bottom of described water tank is stretched in the upper end of described heating tube; In described gas flue, be evenly arranged the finned low temperature exhaust heat heat pipe of multiple V-arrangement, the finned endotherm section of the finned low temperature exhaust heat of V-arrangement described in each heat pipe is positioned at described gas flue, and two ends heat release section stretches in described water tank through the sidewall of described gas flue.

3. efficient hot-air hot-water heating system as claimed in claim 1 or 2, it is characterized in that: a fresh air preheating device is set in described water tank, described fresh air preheating device comprises a rectangular frame, the top of described rectangular frame is fixedly connected with base plate with the top board of described water tank respectively with bottom, the inner fin heat exchange tube of multiple vertical direction is provided with in described rectangular frame, the outer wall of described inner fin heat exchange tube is immersed in the water in described water tank, inwall then forms top-down air duct, the import of described air duct is positioned at the top of described water tank, outlet is positioned at the bottom of described water tank and is connected with the import of described centrifugal blower by a new wind commutation and filter assemblies.

4. efficient hot-air hot-water heating system as claimed in claim 1 or 2, it is characterized in that: in described water tank, a gas water heater is also set, described gas water heater comprises a rectangular frame, the top of described rectangular frame is fixedly connected with base plate with the top board of described water tank respectively with bottom, the inner fin heat exchange tube of multiple vertical direction is provided with in described rectangular frame, the outer wall of described inner fin heat exchange tube is immersed in the water in described water tank, inwall then forms the emptying passage of hot blast from bottom to top, the import of the emptying passage of described hot blast connects the top of a vertical hot blast emptying pipe, the outlet of the emptying passage of described hot blast is positioned at the top of described water tank, the bottom of described hot blast emptying pipe connects described hot-air channel.

5. efficient hot-air hot-water heating system as claimed in claim 3, is characterized in that: described new wind commutation and filter assemblies comprise a new barb valve module, an electric operator, an air filter plate and one the 3rd new wind passage; Described new barb valve module comprises the framework of a upper and lower opening, one is arranged respectively as the rectangular through-hole of normal temperature fresh inlet in the both sides of described framework bottom, described in each, rectangular through-hole top edge is rotationally connected the valve plate that is used for opening or closing normal temperature fresh inlet, the inner side of valve plate described in two is rotationally connected an orifice plate respectively, and on orifice plate described in two, correspondence is provided with the equal through hole of quantity; Orifice plate mounted on top described in two and realize relative sliding under the driving of described electric operator, during to make that described in two, orifice plate closes up, through hole overlaps and forms air duct, and time separately, through hole is not communicated with closed air duct mutually; Further, when described in two, valve plate is opened, all mutual disconnected state of the through hole on orifice plate described in two; When valve plate described in two is closed, all through holes on orifice plate described in two are coincidence status; Described air filter plate is arranged on the lower ending opening place of described framework; One end of described 3rd new wind passage is fixedly connected on the lower end of described framework, and the other end is fixedly connected on the import of described centrifugal blower.

6. efficient hot-air hot-water heating system as claimed in claim 5, it is characterized in that: described electric operator comprises one and is fixedly connected on dual-axle motor on described frame inner wall, two rotating shafts of described dual-axle motor are fixedly connected with a screw rod respectively, screw rod described in two is combined with a swivel nut respectively, and swivel nut described in two is fixedly connected with orifice plate described in respectively by a connecting rod.

7. efficient hot-air hot-water heating system as claimed in claim 1 or 2, it is characterized in that: described smoke damper comprises a fixed disk and a rolling disc, described fixed disk is fixedly connected on the top of described burner hearth, the top of described fixed disk is fixedly connected with a central shaft, described rolling disc is connected to the top of described fixed disk by described central axis, and described rolling disc and fixed disk are offered quantity, fan-shaped pylone that size is equal simultaneously.

8. efficient hot-air hot-water heating system as claimed in claim 7, it is characterized in that: a bearing pin is set on described rolling disc, described bearing pin is connected with one end of one handle, and the other end of described handle is arranged on the outside of described hot air heat exchanger and is connected with the output of a step-by-step linear electric motor.

9. efficient hot-air hot-water heating system as claimed in claim 4, is characterized in that: arrange a hot blast control valve at the hot-blast outlet place of described hot-air channel, described hot blast emptying pipe arranges the emptying control valve of a hot blast.

10. efficient hot-air hot-water heating system as claimed in claim 1, it is characterized in that: also comprise a set of intelligence control system, described cover intelligence control system comprises an electric appliance control box, the controlled programmable controller of a PLC and a liquid crystal display; Described electric appliance control box is electrically connected the level sensor that the second temperature sensor, that hot blast control valve, that first temperature sensor, being positioned at described hot-blast outlet place is positioned at described hot-blast outlet place is positioned at described gas flue exit is positioned at the smoke components on-line analysis probe of described gas flue, a three-temperature sensor, be installed on described water tank is installed on described tank top respectively; The presetting various operating mode of the controlled programmable controller of described PLC, gives each executing agency by signal output function module feedback, adds hot blast, heating water, the new wind of heating cold water three kinds of mode of operations to perform; Described liquid crystal display is for showing the duty of hot air and hot water system.