CN206131425U - Gas hanging stove and have its hot water supply system - Google Patents

Abstract

The utility model relates to a gas hanging stove, include: the heat exchanger, the heat exchanger enough makes the fluid pass through, just each other not communicate including the first route and the alternate path that are used for carrying on heat exchange with the flue gas of gas combustion production, first route and alternate path homoenergetic, first inlet tube and first outlet pipe, first inlet tube and first outlet pipe are linked together with the both ends of first route respectively, form a heat supplying units, second inlet tube and second outlet pipe, second inlet tube and second outlet pipe are linked together with the both ends of alternate path respectively, form the 2nd heat supplying units, a heat supplying units and the 2nd heat supplying units can distinguish independent ground or export the heat source simultaneously. Gas hanging stove can provide the hot water that is used for heating and daily use simultaneously, avoids because the too big problem that results in heating space heat transfer quantity not sufficient, temperature reduction of the hot water quantity of daily use.

Description

A kind of burnt gas wall hanging furnace and the hot water supply system with it

Technical field

This utility model is related to wall-hung boiler technical field, and in particular to a kind of burnt gas wall hanging furnace and the hot water with it are supplied System.

Background technology

Conventional burnt gas wall hanging furnace has the dual work(for providing heating hot water and domestic hot-water with combustion gas as main energy sources, generally Energy.Normally, according to seasonal variations, burnt gas wall hanging furnace can be with switching working mode.For example, in summer mode, fuel wall hanging Stove heating function is closed, and it is only used for providing the user domestic hot-water；In the winter time during pattern, the heating function of burnt gas wall hanging furnace and The function of providing domestic hot-water is opened, for heating and the need of domestic water.

But, in the winter time under pattern, it is preferential that the burnt gas wall hanging furnace commonly used at present is disposed as domestic hot-water, i.e. works as user When needing domestic water, burnt gas wall hanging furnace is preferentially used for providing heat for domestic hot-water, and stops heating water.Work as user When opening domestic water function overlong time or the excessive frequency, burnt gas wall hanging furnace cannot be taken into account needed for heating and domestic water, hold Indoor heating shortage of heat is easily caused, room temperature declines, and to user uncomfortable experience is brought.

Utility model content

In order to solve the problems referred to above of prior art presence, this utility model provides a kind of burnt gas wall hanging furnace and with it Hot water supply system.Purpose is to enable burnt gas wall hanging furnace while providing for heating and hot water used in everyday, it is to avoid The problem for causing heating space heat exchange amount deficiency, temperature to reduce because amount of hot water used in everyday is excessive.

The technical scheme that this utility model is adopted for：

A kind of burnt gas wall hanging furnace, including：

Heat exchanger, the heat exchanger include the flue gas for producing with fuel gas buring carry out the first path of heat exchange and Alternate path, first path can be enabled flow through with the alternate path and mutually do not connected；

First water inlet pipe and the first outlet pipe, first water inlet pipe and first outlet pipe are logical with described first respectively The two ends on road are connected, and form the first heating unit；

Second water inlet pipe and the second outlet pipe, second water inlet pipe and second outlet pipe are logical with described second respectively The two ends on road are connected, and form the second heating unit；

First heating unit and second heating unit can separately or simultaneously export thermal source.

Preferably, first heating unit provides the first current for heating, and first current to be heated lead to Cross first water inlet pipe to flow into first path and exchanged heat with the flue gas, afterwards by the first water outlet pipe flow Go out；

Second heating unit provides the second current for using, and second current to be heated are by described the Two water inlet pipes flow into the alternate path and are exchanged heat with the flue gas, are flowed out by second outlet pipe afterwards.

Preferably, also including inner tube, said inner tube includes first end and the second end, the first end and the described first water inlet Pipe is connected, and second end is connected with first outlet pipe；Said inner tube forms current with first heating unit Closed circuit；

A part of pipeline section on second water inlet pipe is configured to accommodate the outer tube that said inner tube is extended there through, institute State between the inwall of outer tube and the outer wall of said inner tube sandwiched and form cavity, second current to be heated are into described the Before two paths, can be exchanged heat by the cavity and with said inner tube.

Preferably, second end is connected with first outlet pipe by three-way valve, and the three-way valve can Make first current in first outlet pipe that said inner tube is flowed out or flowed into along first outlet pipe.

Preferably, velocity fluctuation pump is provided with first water inlet pipe, the velocity fluctuation pump can change described first and supply Flow rate of water flow in hot cell.

Preferably, the flow transducer for monitoring discharge, first water outlet are provided with second water inlet pipe Be provided with the first temperature sensor for monitoring water temperature at pipe, second water outlet pipe part be provided with for monitor water temperature Two temperature sensors.

Preferably, first path and the alternate path set gradually along the flow direction of the flue gas, make described Flue gas first can be exchanged heat with first path, then be exchanged heat with the alternate path.

Preferably, the alternate path includes a plurality of heat exchanger tube being arranged in parallel, and a plurality of heat exchanger tube spread configuration In the plane in vertical flow of flue gas direction, flowing through the fluid in the alternate path can be carried out point by a plurality of heat exchanger tube Stream.

Preferably, first path is coiled structure；The heat exchanger is made up of copper material.

Preferably, first path and the alternate path are put into fork arrangement, to improve the heat exchanger with the cigarette Heat exchange efficiency between gas.

A kind of hot water supply system, including described burnt gas wall hanging furnace.

The beneficial effects of the utility model are：

1st, the burnt gas wall hanging furnace includes the heat exchanger with the first path and alternate path, first path and described The flue gas that alternate path can be produced respectively with burning carries out heat exchange and does not mutually connect so that the first heating unit and second Heating unit can separately or simultaneously export thermal source, thus be not in when first heating unit works, Second heating unit quits work；Or when second heating unit works, first heating unit quits work Problem, so as to ensure that burnt gas wall hanging furnace can be reached while the effect that provides thermal source for two kinds of different purposes.

2nd, the burnt gas wall hanging furnace also includes inner tube and the outer tube that is sheathed on outside said inner tube, and said inner tube is by described the One heating unit connects to form water circulation loop so that, when second heating unit work and first heating unit When not working, the first current in first heating unit are circulated in the water circulation loop, in said inner tube Place, first current can carry out heat exchange with second current in the outer tube, can not only reduce described the The temperature of one current, it is to avoid the first heating unit is heated continuously and the overheated problem of dry combustion method occurs, additionally it is possible to the outer tube The second interior current are preheated, and so as to improve the leaving water temperature of second current, are strengthened the life of fuel wall hanging stove heat and are used The ability of water, and combustion gas utilization ratio can be improved.

3rd, the hot water supply system can be provided separately and use hot water, or offer makes while heating hot water is provided With hot water, it is prevented effectively from when excessive using hot-water consumption, heat exchange amount deficiency, the problem of temperature drop occurs in heating space.

Description of the drawings

Fig. 1 is the structural representation of burnt gas wall hanging furnace described in the utility model；

Fig. 2 is the front view of heat exchanger described in the utility model；

Fig. 3 is the right view of heat exchanger described in the utility model；

Fig. 4 is the upward view of heat exchanger described in the utility model.

In figure：1st, heat exchanger；2nd, the first water inlet pipe；3rd, the first outlet pipe；4th, the second water inlet pipe；5th, the second outlet pipe；6、 Inner tube；7th, outer tube；8th, three-way valve；9th, velocity fluctuation pump；10th, flow transducer；11st, the first path；12nd, alternate path；13rd, One temperature sensor；14th, second temperature sensor；15th, heat exchanger tube；16th, blower fan；17th, gas ratio valve；18th, expansion tank.

Specific embodiment

It is to reach technological means and effect that predetermined purpose is taken for this utility model is expanded on further, below in conjunction with attached Figure and preferred embodiment, the specific embodiment, structure, feature and its effect to foundation this utility model application, specifically It is bright as after.In the following description, in one or more embodiments special characteristic, structure or feature can be by any suitable form groups Close.

As shown in figure 1, this specific embodiment is related to a kind of burnt gas wall hanging furnace, including：

Heat exchanger 1, the heat exchanger 1 includes that the flue gas for producing with fuel gas buring carries out the first path of heat exchange 11 and alternate path 12, first path 11 can be enabled flow through with the alternate path 12 and mutually do not connected；

First water inlet pipe 2 and the first outlet pipe 3, first water inlet pipe 2 and first outlet pipe 3 are respectively with described The two ends of one path 11 are connected, and form the first heating unit；

Second water inlet pipe 4 and the second outlet pipe 5, second water inlet pipe 4 and second outlet pipe 5 are respectively with described The two ends of two paths 12 are connected, and form the second heating unit；

First heating unit and second heating unit can separately or simultaneously export thermal source.Fig. 1 The direction indication of middle hollow arrow is the flow direction of the flue gas.

The heat exchanger 1 is set to the form of binary channel, first path 11 and the alternate path 12 is divided The flue gas directly not produced with burning carries out heat exchange, while in heating first path 11 and the alternate path 12 Fluid so that the first heating unit and the second heating unit can separately or simultaneously export thermal source.Therefore, will not Occur when first heating unit works, second heating unit quits work；Or when the second heating unit work When making, the out-of-work problem of first heating unit, so as to ensure that burnt gas wall hanging furnace can be reached simultaneously for two kinds of differences Purpose the effect of sufficient thermal source is provided.

Used as a kind of preferably embodiment, first heating unit provides the first current for heating, to be heated First current first path 11 is flowed into by first water inlet pipe 2 and is exchanged heat with the flue gas, afterwards Flowed out by first outlet pipe 3；Second heating unit provides the second current for using, and to be heated described second Current flow into the alternate path 12 and are exchanged heat with the flue gas by second water inlet pipe 4, afterwards by described second Outlet pipe 5 flows out.Normally, main purpose of user when using burnt gas wall hanging furnace is to need using hot water and/or carry out Heating, by first heating unit heating purpose is applied to, and second heating unit is applied to produce using the mesh of hot water So that the burnt gas wall hanging furnace disclosure satisfy that user for needs while heating and domestic hot-water.

Used as a kind of preferably embodiment, the burnt gas wall hanging furnace also includes inner tube 6, and said inner tube 6 includes first end With the second end, the first end is connected with first water inlet pipe 2, and second end is connected with first outlet pipe 3； Said inner tube 6 forms water circulation loop with first heating unit；

A part of pipeline section on second water inlet pipe 4 is configured to accommodate the outer tube that said inner tube 6 is extended there through 7, sandwiched forms cavity between the inwall of the outer tube 7 and the outer wall of said inner tube 6, and second current to be heated are being entered Before the alternate path 12, can be exchanged heat by the cavity and with said inner tube 6.Said inner tube 6 and the outer tube 7 The sleeve structure that formation is mutually arranged, inwall and the outer wall of said inner tube 6 of the outer tube 7 are oppositely arranged, therefore form described Cavity, enables second current to pass through from the cavity.

In the case of second heating unit works and first heating unit is idle, described sleeve pipe structure For preventing from occurring the overheated problem of local dry burning in first heating unit, while can also be to into the alternate path Second current before 12, to be heated are preheated.Specifically, in the institute of water circulation loop internal circulation flow The first current are stated after the heat exchange temperature-rise period of first path 11, said inner tube 6 is flowed into, is flowed with the cavity Relatively low second current of temperature between exchange heat, reduce by first water flow temperature, second water flow temperature Raise.First current after cooling back flow back into first path 11 along first water inlet pipe 2, enter and follow next time Ring, the problem for so avoiding the part of first heating unit from being heated continuously and causing current boiling, shut down.Heat up Second current afterwards enter the alternate path 12 along second water inlet pipe 4, by institute after being exchanged heat with the flue gas State the second outlet pipe 5 to flow out, so that for users to use, the leaving water temperature of second current after preheating is higher, is conducive to Improve described in fuel wall hanging stove heat using the ability of hot water, improve combustion gas utilization ratio.

Used as a kind of preferably embodiment, second end is connected with first outlet pipe 3 by three-way valve 8 Connect, the three-way valve 8 can change the flow direction of current in first outlet pipe 3, make described in first outlet pipe 3 First current flow out or flow into said inner tube 6 along first outlet pipe 3.First current are flowing through first water outlet Different flow directions during pipe 3 correspond respectively to the different working condition of the burnt gas wall hanging furnace, the three-way valve 8 and fuel wall hanging The corresponding relation of the specific works state of stove sees below literary preferred embodiment explanation.

As a kind of preferably embodiment, velocity fluctuation pump 9, the velocity fluctuation pump 9 are provided with first water inlet pipe 2 The flow rate of water flow in first heating unit can be changed.When need open heating function when, the velocity fluctuation pump 9 with, High-speed cruising, the flow and flow velocity for making first current in first heating unit increases, and has in a large number so as to provide First current of higher temperature are meeting heating requirement.When only need open system use hot water function, without the need for heating when, institute Velocity fluctuation pump 9 is stated with low cruise, first current is made in first heating unit with less flow and less stream Speed flowing, so that first current disclosure satisfy that the requirement of anti-dry, for having more for the selection of speed reason of velocity fluctuation pump 9 The description of body, is shown in the explanation of the control method in this specific embodiment with regard to the hot water supply system.The velocity fluctuation pump 9 By changing rotating speed changing the flow rate of water flow in first heating unit, in this utility model, the velocity fluctuation pump 9 with Low cruise, the rotating speed for referring to the velocity fluctuation pump 9 is 900-1200rpm, when the velocity fluctuation pump 9 is run with middle and high speed, The rotating speed for referring to the velocity fluctuation pump 9 is 1600-2400rpm.

As a kind of preferably embodiment, the flow for monitoring discharge is provided with second water inlet pipe 4 and is passed Sensor 10, is provided with the first temperature sensor 13 for monitoring water temperature, second outlet pipe 5 at first outlet pipe 3 Place is provided with the second temperature sensor 14 for monitoring water temperature.The flow transducer 10 is used to detect the second heat supply list The flow of inlet water signal of unit, the second temperature sensor 14 is used to detect the leaving water temperature signal of second heating unit, With reference to water flow signal and leaving water temperature signal, the gas consumption of the gas heater can be controlled, so as to obtain Water outlet is set to reach user temperature required.In the same manner, first temperature sensor 13 is used to conduct to be gone out by first heating unit The water temperature signal of water, so as to the leaving water temperature for ensureing first heating unit can be adjusted to setting value.The sensor Specific work process see below literary preferred embodiment explanation.

As a kind of preferably embodiment, the flowing of first path 11 and the alternate path 12 along the flue gas Direction sets gradually, and enables the flue gas first to be exchanged heat with first path 11, then carries out with the alternate path 12 Heat exchange.First heating unit be used for heating water is provided, normally, heating water need carrying can with entirely treat heating The heat that space is exchanged heat, therefore the required water yield is larger.At this preferably in embodiment, first path 11 first with The flue gas is exchanged heat, and now the temperature of flue gas is higher, higher with the heat exchange efficiency between first path 11, is conducive to The leaving water temperature of first heating unit is improved, the heating ability of burnt gas wall hanging furnace is improved.Hot water needed for routine use The water yield is less, required water temperature is lower, therefore heats the heat needed for it less, makes to enter with the flue gas after the alternate path 12 Row heat exchange, you can meet the needs of hot water for life.

As in Figure 2-4, it is preferable that the alternate path 12 includes a plurality of heat exchanger tube 15 being arranged in parallel, and a plurality of institute The spread configuration of heat exchanger tube 15 is stated in the plane in vertical flow of flue gas direction, flowing through fluid in the alternate path 12 can be by The a plurality of heat exchanger tube 15 is shunted.Second current to be heated are further separated into a plurality of when into the alternate path 12 The heat exchanger tube 15, the fluid in a plurality of heat exchanger tube 15 can carry out heat exchange with flue gas simultaneously, not only increase The heat exchange pipe range and heat exchange area of alternate path 12 are stated, the heat exchange efficiency of the alternate path 12 is effectively improved, while also causing One-way process and flowing time of second current in the alternate path 12 shortens, so as to accelerate the alternate path 12 Go out the speed of hot water, to meet requirement of the user for the water outlet that is rapidly heated using hot water.It is further preferred that changing described in a plurality of Heat pipe 15 be arranged in parallel.

Preferably, first path 11 is coiled structure, is conducive to increasing the heat-transfer surface of first path 11 Product so that first current for heating can fully be exchanged heat with flue gas, improves combustion gas energy utilization efficiency, and carries The high heating leaving water temperature of first current, to improve heating effect.Preferably, the heat exchanger 1 is by copper material system Into, radiating fin is preferably provided with the outside of first path 11 of the heat exchanger 1 and the pipeline of the alternate path 12, with Further strengthen the heat transfer effect between current and flue gas.The radiating fin is also made up of copper material.Copper material thermal conductivity Rate is higher, is conducive to improving the heat exchange efficiency of heat exchanger 1, and use cost is relatively low.

Preferably, first path 11 and the alternate path 12 are put along flow of flue gas direction into fork arrangement, to improve Heat exchange efficiency between the heat exchanger 1 and the flue gas.More specifically, first path 11 and the edge of the alternate path 12 The flow direction of the flue gas is put into fork arrangement, it should be noted that when first path 11 is set to snakelike tubular structure, Clearance space is accompanied between each adjacent tubular segments of first path 11, a plurality of heat exchanger tube 15 is empty with the interval respectively Between be correspondingly arranged, as described fork row's arrangement (see Fig. 2-4).This kind of fork row's arrangement causes first path 11 Bigger disturbance can be produced to the flowing of the flue gas, reduce the flowing velocity of the flue gas with the alternate path 12, and The flue gas is set more fully to be exchanged heat with first path 11 and the alternate path 12 respectively, so as to improve The heat exchange efficiency of heat exchanger 1 is stated, the purpose of enhanced heat exchange is reached.

This specific embodiment further relates to a kind of hot water supply system, including described burnt gas wall hanging furnace.The hot water is supplied Answer system also to include the heat-exchanger rig for carrying out heating heat-exchange, the heat-exchanger rig respectively with first outlet pipe 3 and institute State the first water inlet pipe 2 to be connected, first current after heating up that are heated in first heating unit can flow into described Heat-exchanger rig and with treat that heating space is exchanged heat, afterwards first heating unit is flowed back to by first water inlet pipe 2, realize Heating cycle heat exchange.The heat-exchanger rig include but is not limited to fin, the fan coil that warms up etc..The hot water supply system Can be provided separately and use hot water, or offer uses hot water while heating hot water is provided, and is prevented effectively from and is using hot water When consumption is excessive, there is heat exchange amount deficiency, the problem of temperature drop in heating space.

The control method of described hot water supply system is, when including the three-way valve 8, first current, described During the second current；

When only producing using hot water, second water inlet pipe 4 is opened so that second current flow into described second Water inlet pipe 4 simultaneously carries out heat exchange intensification via the alternate path 12；Simultaneously second outlet pipe 5 is opened, make the institute after intensification Stating the second current can be flowed out by second outlet pipe 5；

When not only needing to produce using hot water but also need to produce heating hot water, first water inlet pipe 2 and described the are opened Two water inlet pipes 4, first current first path 11 is flowed into by first water inlet pipe 2 and with the flue gas heat exchange and Second current by second water inlet pipe 4 flow into the alternate path 12 and with the flue gas heat exchange；Also, adjust described Three-way valve 8, first current are enable to flow out along first outlet pipe 3；Simultaneously second outlet pipe 5 is opened, made Second current after intensification can be flowed out by second outlet pipe 5.

The hot water supply system mainly includes two kinds of working conditions as above, i.e. use heat when only needing to produce Water, heating need not be carried out for seasonable, it is not necessary to make combustion gas sustained combustion, only when needing to use hot water can carry out combustion gas Burning, so as to produce high-temperature flue gas, for heating second current.Now, it is preferable that adjust the three-way valve 8, make institute State the first current and flow into said inner tube 6, while the low cruise of the velocity fluctuation pump 9 is adjusted, to prevent in first path 11 The overheated boiling by continuous heating of static current.Make the low cruise of the velocity fluctuation pump 9 so that said inner tube 6 and described The water yield that flowing is circulated in first heating unit is less, its absorb heat it is less, the circulating water flow with the outer tube 7 When second current in interior cavity carry out heat exchange, temperature can be reduced quickly, and so as to reach overheated mesh is prevented , while can ensure that second current in the alternate path 12 can absorb enough heats.Preferably, when both needing Produce when needing to produce heating hot water again using hot water, while the first water inlet pipe 2 are opened, adjust the speed change Water pump 9 is run with middle and high speed, the requirement of a large amount of hot water needed for meet heating.

Preferably, described need produce the summer operation mould that the hot water supply system is corresponded to using the situation of hot water Formula, it is described not only to need to produce using hot water but also need to produce the winter of the situation corresponding to the hot water supply system of heating hot water Season mode of operation.But this utility model will not need to be produced and be confined to summer using the situation of hot water, also will not both need to produce The situation for producing heating hot water is needed to be confined to winter again using hot water.

Operation principle of the present utility model and preferred embodiment is described below：

This utility model solve technical problem be：

Pattern in the winter time, domestic hot-water's function of burnt gas wall hanging furnace and heating function can not start simultaneously, using life heat During water, heating stops.If user is longer using the time of domestic hot-water or the frequency is more, wall-hung boiler is by long-time in life Hot water conditions, it is impossible to provide enough thermic loads to room, room temperature can be reduced, and heating effect be affected, if the frequency is too many Also room temperature can be made fluctuation occur, reduces thermal comfort

The beneficial effects of the utility model are：

Using double double passage heat exchanger 1, velocity fluctuation pump 9, sleeve structure, the wall-hung boiler is allow while providing life Hot water and heating hot water, even if in the winter time pattern uses domestic hot-water, heating system also in operation, is carried so as to lasting to room Heating load, reduces room temperature fluctuation, improves the thermal comfort of heating.Additionally, only needing to use domestic hot-water, without the need for heating When, tap water can be preheated.

A preferred embodiment of the present utility model is：

The burnt gas wall hanging furnace is mainly by gas ratio valve 17, burner, heat exchanger 1, blower fan 16, velocity fluctuation pump 9, swelling water Case 18, flow transducer 10, the first temperature sensor 13, second temperature sensor 14, three-way valve, the first water inlet pipe 2, first go out Water pipe 3, the second water inlet pipe 4, second outlet pipe 5 etc. are constituted.Wherein, the first water inlet pipe 2, expansion tank 18, velocity fluctuation pump 9, change Hot device 1, three-way valve, the composition heating system of the first outlet pipe 3.Second water inlet pipe 4, flow transducer 10, outer tube 7, heat exchanger 1, Second outlet pipe 5 constitute hot water supply system, the first outlet pipe 3, velocity fluctuation pump 9, heat exchanger 1, the first water inlet pipe 2, three-way valve, Inner tube 6 constitutes interior circulation water system.

Above-mentioned heat exchanger 1 is double copper pipe copper fin heat exchanger 1, is put in fork arrangement along flow of flue gas direction, can be increased Disturbance to the flue gas, enhanced heat exchange, the row of heat exchanger 1 time is heating water route, and upper row is domestic hot-water water route, domestic hot-water's water Stream is parallel flow paths, and tap water (the second current to be heated) can be shunted, and shortens operation length, quickly goes out heat Water.

In summer mode, heating function is unavailable, and domestic hot-water's function can use.When there is domestic hot-water's demand, flow is passed When sensor 10 detects water-flow signal and second temperature sensor 14 detects water temperature less than domestic hot-water's design temperature, blower fan 16 Operation, gas ratio valve 17 is opened, and system ignition, gas ratio valve 17 carries out ratio tune according to domestic hot-water's design temperature Section.Tap water is then flowed into from second water inlet pipe 4, successively Jing after flow transducer 10, outer tube 7 into the second of heat exchanger 1 Path 12, the heat absorbed in flue gas becomes high-temperature-hot-water, then the second outlet pipes of Jing 5 flow out, and provide the user domestic hot-water.For The water in the heating water route of heat exchanger 1 is avoided to occur overheated, velocity fluctuation pump 9 is opened and with low cruise, three-way valve is in life Hot water conditions, i.e., described first outlet pipe 3 is connected with said inner tube 6, now the high-temperature-hot-water in the heating water route of heat exchanger 1 according to It is secondary to flow through the first outlet pipe 3, three-way valve, inner tube 6, the first water inlet pipe 2, then Jing velocity fluctuation pumps 9 flow back to heat exchanger 1.In inner tube 6 In, the heat of the high-temperature-hot-water in heating water route can be absorbed by tap water, and the tap water after preheating is again at alternate path 12 described in Jing High-temperature flue gas heating, it is possible to obtain higher leaving water temperature, so as to improve the effect of water heating.

Pattern in the winter time, heating and domestic hot-water's function can use, and heating function acquiescence is opened, when the first temperature sensor 13 detect water temperature less than heating hot water design temperature when, velocity fluctuation pump 9, blower fan 16 run, and gas ratio valve 17 is opened, system Ignition, gas ratio valve 17 carries out proportion adjustment according to heating design temperature.Now water pump high-speed cruising, three-way valve is in Heating state, i.e. heating outlet pipe is connected up and down.High-temperature-hot-water Jing first outlet pipes 3, three-way valve in the heating water route of heat exchanger 1 Flow into afterwards to room radiating in the radiator in room, the low temperature heating water after radiating flows Jing after the first water inlet pipe 2, velocity fluctuation pump 9 Enter heat exchanger 1, absorb the heat in flue gas and become high-temperature-hot-water, then flow to room radiating, so circulation.In heating operation process In burn away if domestic hot-water's demand, system, three-way valve is still in heating state, but gas ratio valve 17 is according to life Hot water design temperature carries out proportion adjustment.Tap water is flowed into from second water inlet pipe 4, and Jing flow transducers 10, outer tube 7 are laggard Enter the alternate path 12 of heat exchanger 1, the heat absorbed in flue gas becomes high-temperature-hot-water, then the second outlet pipes of Jing 5 flow out, meanwhile, Heating water is still in circular flow.Due to domestic hot-water should be provided, heating hot water is provided again, system presses maximum fire burning Possibly demand cannot be met, i.e., when gas ratio valve 17 reaches maximum, if domestic hot-water's leaving water temperature still not up to sets temperature Degree, velocity fluctuation pump 9 starts reduction of speed, the heat that heating water absorbs is reduced, until domestic hot-water meets demand.When domestic hot-water's demand At the end of, gas ratio valve 17 carries out proportion adjustment further according to heating design temperature, and system recovery is to normal heating state.

This method can simultaneously provide domestic hot-water and heating hot water, even if in the winter time pattern uses domestic hot-water, Heating system also in operation, so as to continue to provide heat to room, reduces room temperature fluctuation, improves the thermal comfort of heating.

To sum up, skilled addressee readily understands that, on the premise of not conflicting, above-mentioned each advantageous manner can from By combination, superposition.

The above, better embodiment only of the present utility model not does any pro forma to this utility model Limit.Anyone can draw other various forms of products under enlightenment of the present utility model, however, in its shape or knot Make any change on structure, it is every with technical scheme identical or similar to the present application, all fall within protection of the present utility model Within the scope of.

Claims (11)

1. a kind of burnt gas wall hanging furnace, it is characterised in that include：

Heat exchanger (1), the heat exchanger (1) includes that the flue gas for producing with fuel gas buring carries out the first path of heat exchange (11) and alternate path (12), first path (11) and the alternate path (12) can be enabled flow through and mutually not Connection；

First water inlet pipe (2) and the first outlet pipe (3), first water inlet pipe (2) and first outlet pipe (3) respectively with institute The two ends for stating the first path (11) are connected, and form the first heating unit；

Second water inlet pipe (4) and the second outlet pipe (5), second water inlet pipe (4) and second outlet pipe (5) respectively with institute The two ends for stating alternate path (12) are connected, and form the second heating unit；

First heating unit and second heating unit can separately or simultaneously export thermal source.

2. burnt gas wall hanging furnace according to claim 1, it is characterised in that first heating unit is provided for heating First current, first current to be heated by first water inlet pipe (2) flow into first path (11) and with institute State flue gas to be exchanged heat, flowed out by first outlet pipe (3) afterwards；

Second heating unit provides the second current for using, and second current to be heated enter by described second Water pipe (4) flows into the alternate path (12) and is exchanged heat with the flue gas, is flowed out by second outlet pipe (5) afterwards.

3. burnt gas wall hanging furnace according to claim 2, it is characterised in that also including inner tube (6), said inner tube (6) includes First end and the second end, the first end is connected with first water inlet pipe (2), second end and first outlet pipe (3) it is connected；Said inner tube (6) forms water circulation loop with first heating unit；

A part of pipeline section on second water inlet pipe (4) is configured to accommodate the outer tube that said inner tube (6) is extended there through (7), sandwiched forms cavity, second current to be heated between the inwall of the outer tube (7) and the outer wall of said inner tube (6) Before into the alternate path (12), can be exchanged heat by the cavity and with said inner tube (6).

4. burnt gas wall hanging furnace according to claim 3, it is characterised in that second end and first outlet pipe (3) It is connected by three-way valve (8), the three-way valve (8) can make first current in first outlet pipe (3) Said inner tube (6) is flowed out or flowed into along first outlet pipe (3).

5. the burnt gas wall hanging furnace according to any one of claim 1-4, it is characterised in that the first water inlet pipe (2) place sets Velocity fluctuation pump (9) is equipped with, the velocity fluctuation pump (9) can change the flow rate of water flow in first heating unit.

6. the burnt gas wall hanging furnace according to any one of claim 1-4, it is characterised in that the second water inlet pipe (4) place sets Be equipped with the flow transducer (10) for monitoring discharge, the first outlet pipe (3) place be provided with for monitor water temperature One temperature sensor (13), the second outlet pipe (5) place is provided with the second temperature sensor (14) for monitoring water temperature.

7. the burnt gas wall hanging furnace according to any one of claim 1-4, it is characterised in that first path (11) and described Alternate path (12) sets gradually along the flow direction of the flue gas, the flue gas is first entered with first path (11) Row heat exchange, then exchanged heat with the alternate path (12).

8. the burnt gas wall hanging furnace according to any one of claim 1-4, it is characterised in that the alternate path (12) is including more The heat exchanger tube (15) that bar is arranged in parallel, and a plurality of heat exchanger tube (15) spread configuration is in the plane in vertical flow of flue gas direction On, flowing through the fluid in the alternate path (12) can be shunted by a plurality of heat exchanger tube (15).

9. the burnt gas wall hanging furnace according to any one of claim 1-4, it is characterised in that first path (11) is snakelike Tubular structure；The heat exchanger (1) is made up of copper material.

10. the burnt gas wall hanging furnace according to any one of claim 1-4, it is characterised in that first path (11) and institute State alternate path (12) to put into fork arrangement, to improve the heat exchange efficiency between the heat exchanger (1) and the flue gas.

11. a kind of hot water supply systems, it is characterised in that including the burnt gas wall hanging furnace described in any one of claim 1-10.