CN103528184A - Novel energy-saving water boiler - Google Patents

Abstract

The invention discloses a novel energy-saving water boiler which comprises a tap water storage tank, an electric heating device, a hot boiling water outlet, a main pipeline, a switching control structure, an energy-saving water manifold and a cold boiled water storage tank. The electric heating device is used for heating tap water, the main pipeline is used for transferring water flow, the switching control structure is positioned on the main pipeline and used for controlling water flow rate, the energy-saving water manifold is used for transferring heat energy of hot water to cold water, the main pipeline comprises a first pipeline, a second pipeline and a third pipeline, the first pipeline is positioned between the tap water storage tank and the electric heating device, the second pipeline is positioned in the electric heating device, the third pipeline is positioned between the electric heating device and the hot boiling water outlet, one end of the energy-saving water manifold is communicated with the third pipeline, and the other end of the energy-saving water manifold is arranged in the first pipeline and connected to the cold boiled water storage tank. By the aid of the novel energy-saving water boiler, the water boiling process of an existing water boiler is optimized, energy utilization rate is increased, consumption of electric quantity is reduced, and boiling water and cold boiled water can be rapidly provided.

Description

A kind of novel energy-conserving boiler

Technical field

The present invention relates to a kind of boiler, be specifically related to a kind of novel energy-conserving boiler.

Background technology

At present, the main structure of known boiler is that heating component, the power line by a container and internal tank setting formed, occupation mode is first will in boiler, add water, switches on power by heating component heating, and the water in container is burnt drinkable to the rear of seething with excitement.

Existing boiler can be boiled by water, for people, drink, for daily life is provided convenience, but its power consumption is large, energy utilization rate is low, do not there is energy saver, and existing boiler needs the long period to wait for that water is boiled, can not be fast, can not continue or boiling water and cold water be uninterruptedly provided.

Summary of the invention

Problem to be solved by this invention is, for the deficiency of above-mentioned technology, design a kind of rational in infrastructure, energy utilization rate is high, quick, lasting and the novel energy-conserving boiler of boiling water and cold water is uninterruptedly provided.

The present invention is that the technical scheme that its problem of solution adopts is:

A kind of novel energy-conserving boiler, comprise running water storage box, for adding the electric calorifie installation of hot tap-water, hot boiling water outlet, for transmitting the main pipeline of current, be positioned on main pipeline for controlling the switch control structure of discharge, also comprise for making hot water to the energy-conservation aqueduct of cold water transferring heat energy, cold water storage box, described main pipeline is by the first pipeline being positioned between running water storage box and electric calorifie installation, be positioned at the second pipe of electric calorifie installation, the 3rd pipeline being positioned between electric calorifie installation and the outlet of hot boiling water forms, described energy-conservation aqueduct one end is communicated on the 3rd pipeline, the other end is arranged in the first pipeline and is connected in cold water storage box.

In the present invention, described electric calorifie installation comprises heating cabinet, for controlling the pressure in heating cabinet and the pressure controller of power supply being provided to heating cabinet, in described heating cabinet, be provided with the electric heater of coiled coil, for the heat-conductive water as thermal energy transfer conductor, for the real-time pressure probe of eddy-current heating case internal pressure, described electric heater, pressure probe are all connected with the pressure controller outside heating cabinet.

In the present invention, the junction of described energy-conservation aqueduct and the 3rd pipeline is provided with for controlling the threeway gauge tap of the flow direction of current.

In the present invention, described second pipe is to be arranged on thin aluminum pipe between electric heater, coiled coil.

In the present invention, the junction of described running water storage box and the first pipeline is provided with the discharge gauge tap that flows into discharge in heating cabinet for controlling, and described discharge gauge tap is connected in pressure controller.

In the present invention, the junction of the junction of described heating cabinet and the first pipeline, heating cabinet and the 3rd pipeline is equipped with water proof mechanism, described water proof mechanism comprises the water proof cavity that internal diameter is larger than main pipeline, the silica-gel sphere less and larger than main pipeline internal diameter than water proof cavity internal diameter, described silica-gel sphere is connected in water proof cavity by bracing wire, the junction of described heating cabinet and the first pipeline is also provided with upper and lower roundabout heating cabinet water inlet pipe, and described heating cabinet water inlet pipe is communicated in the first pipeline and water proof cavity.

In the present invention, described heating cabinet, the first pipeline, the 3rd pipeline external surface are equipped with one deck thermal insulation layer.

The invention has the beneficial effects as follows: the novel energy-conserving boiler that the application of the invention provides, optimized the process of heating up water of existing boiler, improve energy utilization rate, reduce the consumption of electric weight, meanwhile, can also continue and boiling water and cold water be uninterruptedly provided.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in embodiments of the invention, below the accompanying drawing of required use during embodiment is described is briefly described.Obviously, described accompanying drawing is a part of embodiment of the present invention, rather than whole embodiment, and those skilled in the art is not paying under the prerequisite of creative work, can also obtain other designs and accompanying drawing according to these accompanying drawings.

Fig. 1 is the principle schematic of the present embodiment;

Fig. 2 is the enlarged diagram at the A place of Fig. 1;

Fig. 3 is the mounting structure schematic diagram of the present embodiment;

Fig. 4 is first pipeline of the present embodiment and the mounting structure schematic diagram of thermal insulation layer.

The specific embodiment

Referring to figs. 1 through Fig. 3, as shown in the figure, a kind of novel energy-conserving boiler, comprise running water storage box 1, for adding the electric calorifie installation of hot tap-water, hot boiling water outlet 2, for transmitting the main pipeline of current, be positioned on main pipeline for controlling the switch control structure of discharge, also comprise for making hot water to the energy-conservation aqueduct 3 of cold water transferring heat energy, cold water storage box 4, described main pipeline is by the first pipeline 5 being positioned between running water storage box 1 and electric calorifie installation, be positioned at the second pipe 6 of electric calorifie installation, the 3rd pipeline 7 that is positioned at 2 of electric calorifie installation and the outlets of hot boiling water forms, described energy-conservation aqueduct 3 one end are communicated on the 3rd pipeline 7, the other end is arranged in the first pipeline 5 and is connected in cold water storage box 4.The novel energy-conserving boiler that the application of the invention provides, has optimized the process of heating up water of existing boiler, improve energy utilization rate, reduce the consumption of electric weight, meanwhile, can also Quick for boiling water and cold water.As preferred embodiment: the cavity body that described running water storage box 1, cold water storage box 4 are made for high strength composite is circular cavity or square cavity; In described cold water storage box 4, be provided with built-in for exporting the flip-shell tap of cold water; Described main pipeline is that the Environmental Safety aluminum pipe of internal diameter 8mm is made, and the Environmental Safety aluminum pipe that energy-conservation aqueduct 3 is 6mm by external diameter is made.

Further, described electric calorifie installation comprises heating cabinet 8, for controlling pressure in heating cabinet 8 and the pressure controller 9 of power supply being provided to heating cabinet 8, in described heating cabinet 8, be provided with the electric heater 81 of coiled coil, for the heat-conductive water 82 as thermal energy transfer conductor, for the real-time pressure probe 83 of eddy-current heating case 8 internal pressures, described electric heater 81, pressure probe 83 are all connected with the pressure controller 9 outside heating cabinet 8.As preferred embodiment: described electric heater 81 is shape double-deck, multi-circle spiral flow coiling; The liquid level of described heat-conductive water 82 is higher than electric heater 81; Real-time eddy-current heating case 8 internal pressures of described pressure probe 83, and Simultaneous Pressure is transferred to pressure controller 9, according to heating cabinet 8 internal pressure sizes, change at any time the power of the interior electric heater 81 of heating cabinet 8.

Further, the junction of described energy-conservation aqueduct 3 and the 3rd pipeline 7 is provided with for controlling the threeway gauge tap 10 of the flow direction of current.Described threeway gauge tap 10 is controlled the flow direction of the boiling water after heater heating, can directly via hot boiling water outlet 2, flow out, also can flow into cold water storage box 4 through energy-conservation aqueduct 3, described energy-conservation aqueduct 3 and the first pipeline 5 are combined into pair of lamina pipe, outer the first pipeline 5 is for transmitting cool running water, the energy-conservation aqueduct 3 of internal layer is for transmitting hot boiling water, transferring heat energy between hot boiling water and running water, make to be about to enter the running water heating of heater, the hot boiling water that makes to be about to enter cold water storage box 4 cools off.

Further, described second pipe 6 is for being arranged on thin aluminum pipe 81 of electric heaters, coiled coil.As preferred embodiment, described second pipe 6 is shape between electric heater 81, bilayer for being arranged on, multi-circle spiral flow coiling in heating cabinet 8, in order to increase the water yield volume of second pipe 6 in heating cabinet 8, improve boiling water memory space and the heating space that larger volume is provided.

Further, the junction of described running water storage box 1 and the first pipeline 5 is provided with the discharge gauge tap 11 that flows into heating cabinet 8 interior discharges for controlling, and described discharge gauge tap 11 is connected in pressure controller 9.As preferred embodiment: described running water storage box 1 top is provided with artificial filler 17, below this artificial filler 17, be provided with the buoyancy water inlet switch 19 of built-in automatic feeding water mouth 18, filter and round pie, described built-in automatic feeding water mouth 18 is connected in the city water tank automatic feeding water interface 21 that is arranged on cold water storage box 4 bottoms by small-bore water pipe 20.As preferred embodiment: pressure controller 9 also controls by controlling discharge gauge tap 11 water yield that flows into second pipe 6, controls pressure and the heating-up temperature in heating cabinet 8 thereby realize comprehensively.

In order to prevent the mutual transferring heat energy of water in main pipeline and to prevent cold water, between boiling water and running water, mutually mix, the junction of described heating cabinet 8 and the first pipeline 5, the junction of heating cabinet 8 and the 3rd pipeline 7 is equipped with water proof mechanism, described water proof mechanism comprises the water proof cavity 12 that internal diameter is larger than main pipeline, little and larger than the main pipeline internal diameter silica-gel sphere 13 than water proof cavity 12 internal diameters, described silica-gel sphere 13 is connected in water proof cavity 12 by bracing wire 14, the junction of described heating cabinet 8 and the first pipeline 5 is also provided with upper and lower roundabout heating cabinet water inlet pipe 15, described heating cabinet water inlet pipe 15 is communicated in the first pipeline 5 and water proof cavity 12.Described water proof mechanical work principle is: because the density ratio water of silica-gel sphere 13 is large, when current are static, can automatically down drop on nozzle position, and when water flow, by current, washed away and leave nozzle position, can only be in the interior activity of water proof cavity 12 but bracing wire 14 limits it, and not downstream diffluence stop up other the mouth of pipe.Because the water of the water inlet interface of heating cabinet 8 outsides flows from top to bottom, and the water at water outlet mouthpiece place under flow upward, so water inlet interface is provided with upper and lower roundabout heating cabinet water inlet pipe 15 for realizing its function.

With reference to Fig. 4, as shown in the figure, described heating cabinet 8, the first pipeline 5, the 3rd pipeline 7 outer surfaces are equipped with one deck thermal insulation layer 16.As preferred embodiment, described thermal insulation layer 16 is processed into for extremely low rubber and plastic or other heat-barrier materials of thermal conductivity, can trap heat not distribute, reduce heat energy loss, prevent boiler and scald the generation of people's accident, reduce indoor thermal source simultaneously, reduce room conditioning power consumption, reduce secondary energy sources waste.

Operation principle: running water enters in small-bore water pipe 20 by city water tank automatic feeding water interface 21, by buoyancy water inlet switch 19, enter running water storage box 1 again, when water level arrives setting height, buoyancy water inlet switch 19 will be closed built-in automatic feeding water mouth 18, after opening power, first pressure controller 9 can start the electric heater 81 in heating cabinet 8, and under full power state the heat-conductive water 82 in quick boiled heating cabinet 8, make the interior generation pressure of heating cabinet 8, pressure controller 9 is by the real-time pressure in the pressure probe 83 perception heating cabinets 8 in heating cabinet 8 simultaneously, when heating cabinet 8 internal pressures reach the numerical value of setting, first pressure controller 9 can reduce rapidly the power of the interior electric heater 81 of heating cabinet 8, make the pressure in heating cabinet 8 can not continue to increase and remain in the number range of setting, simultaneously, pressure controller 9 flow control switch 11 of fetching boiling water, running water in running water storage box 1 flows into the first pipeline 5 and energy-conservation aqueduct 3 cooperation places under the effect of gravity, enter into second pipe 6 places, at this moment the pressure slow decreasing in heating cabinet 8, pressure controller 9 can be increased to by the power of electric heater 81 degree that is enough to keep heating cabinet 8 internal pressures and temperature rapidly, the mode of the power by plus-minus electric heater 81 and control pressure and the temperature that mode that discharge gauge tap 11 reduces the water yield makes to remain in heating cabinet 8 setting when needs continue the hot boiling water of supply for a long time, when not needing for a long time water intaking during powered-down, discharge gauge tap 11 cuts out, water in water pipe stops flowing, by water proof mechanism, automatically intercept cold water, boiling water, running water.Heating through electric heater 81 and heat-conductive water 82, running water temperature in second pipe 6 has reached 100 degrees Celsius of left and right becomes hot boiling water, hot boiling water can directly flow out via hot boiling water outlet 2 by threeway gauge tap 10 again, also can flow into cold water storage box 4 through energy-conservation aqueduct 3, energy-conservation aqueduct 3 and the first pipeline 5 are combined into pair of lamina pipe, outer the first pipeline 5 is for transmitting cool running water, the energy-conservation aqueduct 3 of internal layer is for transmitting hot boiling water, transferring heat energy between hot boiling water and running water, make to be about to enter the running water heating of heater, the hot boiling water that makes to be about to enter cold water storage box 4 cools off.The running water temperature after preheating that enters heater can reach 99 degrees Celsius, only need be in heating cabinet 8 a little heating just can reach 100 degrees Celsius and continue energy recovery and circulate, thereby cause the power of electric heater 81 to be lowered to soon minimum numerical value, in theory, the power of the at this moment electric heater 81 required consumption faint heat energy that just just thermal insulation layer 16 runs off.

Above better embodiment of the present invention is illustrated, but the present invention is not limited to described embodiment, those of ordinary skill in the art also can make all equivalent modifications or replacement under the prerequisite without prejudice to spirit of the present invention, and the modification that these are equal to or replacement are all included in the application's claim limited range.

Claims (7)

1. a novel energy-conserving boiler, comprise running water storage box (1), for adding the electric calorifie installation of hot tap-water, hot boiling water outlet (2), for transmitting the main pipeline of current, be positioned on main pipeline for controlling the switch control structure of discharge, characterized by further comprising for making hot water to the energy-conservation aqueduct (3) of cold water transferring heat energy, cold water storage box (4), described main pipeline is by the first pipeline (5) being positioned between running water storage box (1) and electric calorifie installation, be positioned at the second pipe (6) of electric calorifie installation, the 3rd pipeline (7) being positioned between electric calorifie installation and hot boiling water outlet (2) forms, described energy-conservation aqueduct (3) one end is communicated on the 3rd pipeline (7), the other end is arranged in the first pipeline (5) and is connected in cold water storage box (4).

2. a kind of novel energy-conserving boiler according to claim 1, it is characterized in that described electric calorifie installation comprises heating cabinet (8), the pressure controller (9) that is used for controlling the interior pressure of heating cabinet (8) and power supply is provided to heating cabinet (8), in described heating cabinet (8), be provided with the electric heater (81) of coiled coil, for the heat-conductive water (82) as thermal energy transfer conductor, pressure probe (83) for real-time eddy-current heating case (8) internal pressure, described electric heater (81), pressure probe (83) is all connected with the pressure controller (9) outside heating cabinet (8).

3. a kind of novel energy-conserving boiler according to claim 1, is characterized in that described energy-conservation aqueduct (3) and the junction of the 3rd pipeline (7) are provided with for controlling the threeway gauge tap (10) of the flow direction of current.

4. a kind of novel energy-conserving boiler according to claim 2, is characterized in that described second pipe (6) is for being arranged on thin aluminum pipe between electric heater (81), coiled coil.

5. a kind of novel energy-conserving boiler according to claim 2, it is characterized in that described running water storage box (1) and the junction of the first pipeline (5) are provided with the discharge gauge tap (11) that flows into the interior discharge of heating cabinet (8) for controlling, described discharge gauge tap (11) is connected in pressure controller (9).

6. a kind of novel energy-conserving boiler according to claim 2, the junction that it is characterized in that described heating cabinet (8) and the first pipeline (5), heating cabinet (8) is equipped with water proof mechanism with the junction of the 3rd pipeline (7), described water proof mechanism comprises the water proof cavity (12) that internal diameter is larger than main pipeline, the silica-gel sphere (13) less and larger than main pipeline internal diameter than water proof cavity (12) internal diameter, described silica-gel sphere (13) is connected in water proof cavity (12) by bracing wire (14), described heating cabinet (8) is also provided with upper and lower roundabout heating cabinet water inlet pipe (15) with the junction of the first pipeline (5), described heating cabinet water inlet pipe (15) is communicated in the first pipeline (5) and water proof cavity (12).

7. a kind of novel energy-conserving boiler according to claim 2, is characterized in that described heating cabinet (8), the first pipeline (5), the 3rd pipeline (7) outer surface are equipped with one deck thermal insulation layer (16).

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