CN102322679B - Instant boiling type water boiler - Google Patents

Abstract

The invention provides an instant boiling type water boiler, which comprises an influent water controller, a heating controller and an effluent water controller; a water level sensor is mounted in a cold water buffer pool, a temperature sensor and a boiling detector are mounted above a boiled water pool, the cold water buffer pool, a connector and the boiled water pool are connected together in sequence through a cold water tube and glass heating tubes, the cold water in the cold water buffer pool enters the glass heating tubes via the cold tube and the connector and is heated, the boiled water overflows from the upper ports of the glass heating tubes to enter the boiled water pool, steam enters the cold water buffer pool via a steam backflow tank, and is absorbed by the cold water sprinkled from a plurality of small holes of a cold water heat exchange layer, and the boiled water in the boiled water pool flows out via an effluent water control valve and a boiled water outlet. In the water boiler, water and electricity are separated from each other, unboiled water and boiled water are separated from each other, energy consumption is reduced, reboiled water does not exist in the water boiler, the interior of the water boiler cannot scale, consequently, the overall sanitation degree of drinking water is increased, and potential safety hazards are eliminated.

Description

Instant heating boiling type boiler device

Technical field

The present invention relates to a kind of instant heating boiling type boiler device, belong to the boiler technical field.

Background technology

The existing electrical heating boiling water feedway that drinking water is provided generally is that electric heating body is directly inserted in the water, adds that earth leakage protective device and boiling water storage device can use.It is that certain water yield is concentrated heating and insulation that its boiling water storage device mainly acts on.There are many shortcomings in conventional electric heating boiling water feedway: at first, water, electricity mix, and have potential safety hazard; Secondly, the boiling water storage device is concentrated heating and insulation, and energy consumption is big, repeats boiling, gives birth to, boiled water mixes, and drinks unhygienicly, and easily produces incrustation scale.

Summary of the invention

The purpose of this invention is to provide a kind of electricity separation, unboiled water and boiled water separation, saving energy, boiling water and do not repeat the instant heating boiling type boiler device that seethes with excitement.

The objective of the invention is to be achieved through the following technical solutions:

The present invention includes: go into water controller, heating control apparatus and effluent control device; Describedly go into water controller and comprise temperature sensor, flow control valve, switch valve, level sensor, cold water heat exchange layer and boiling detector; Described heating control apparatus comprises opposing steam flow groove, glass heats pipe, linker, cold water pipe, cold water Buffer Pool and boiling water pond; Described effluent control device is outlet water control valve; Switch valve, flow control valve and cold water heat exchange layer are connected by water pipe successively, and running water enters into cold water heat exchange layer through switch valve, flow control valve successively, and the heat in the absorption boiling water pond spills down by some apertures and enters in the cold water Buffer Pool; Level sensor is installed in the cold water Buffer Pool, and temperature sensor and boiling detector are installed in the top in boiling water pond, and the information of being sensed by level sensor, temperature sensor and boiling detector is gone into the size of the water yield jointly by Flux Valve Control; Cold water Buffer Pool, linker and boiling water pond are connected in turn by cold water pipe and glass heats pipe respectively, cold water in the cold water Buffer Pool enters in the glass heats pipe by linker through cold water pipe and heats, the boiling water of boiling overflows from glass heats pipe upper port and enters the boiling water pond, steam then enters in the cold water Buffer Pool by the opposing steam flow groove, absorbed by the cold water under spilling in the some aperture of cold water heat exchange layer, the water that seethes with excitement in the boiling water pond flows out through the boiling water outlet by outlet water control valve.

Beneficial effect of the present invention: compared with prior art, boiler internal water, electricity separate, and living, boiled water separates, need not insulation, the boiling water that seethes with excitement is not repeated in the saving energy in the boiler, less scaling in the boiler, integral body has improved the sanitation degree of drinking water, has eliminated potential safety hazard.

Description of drawings

Fig. 1 is the structural representation of the instant heating boiling type boiler device that provides of embodiment of the present invention;

Fig. 2 is the flow control valve schematic diagram;

Fig. 3 is cold water heat exchange layer schematic diagram;

Fig. 4 is boiling detector schematic diagram;

Fig. 5 is the outlet water control valve schematic diagram.

Reference numeral 10 among Fig. 1 is running water water inlets, the 11st, and the steam overfall.

Reference numeral 32 among Fig. 3 is water (flow) directions.

The specific embodiment

The present invention is described in further detail below in conjunction with accompanying drawing: present embodiment has provided detailed embodiment being to implement under the prerequisite with the technical solution of the present invention, but protection scope of the present invention is not limited to following embodiment.

As shown in Figure 1, a kind of instant heating boiling type boiler device that present embodiment is related comprises: go into water controller, heating control apparatus and effluent control device; Describedly go into water controller and comprise temperature sensor 2, flow control valve 8, switch valve 9, level sensor 12, cold water heat exchange layer 13 and boiling detector 16; Described heating control apparatus comprises opposing steam flow groove 1, glass heats pipe 5, linker 6, cold water pipe 7, cold water Buffer Pool 14 and boiling water pond 15; Described effluent control device is outlet water control valve 3.Switch valve 9, flow control valve 8 and cold water heat exchange layer 13 are connected by water pipe successively, running water enters into cold water heat exchange layer 13 through switch valve 9, flow control valve 8 successively, and the heat in the absorption boiling water pond 15 spills down by some apertures and enters in the cold water Buffer Pool 14; Level sensor 12 is installed in the cold water Buffer Pool 14, temperature sensor 2 and boiling detector 16 are installed in the top in boiling water pond 15, and the information of being sensed by level sensor 12, temperature sensor 2 and boiling detector 16 is gone into the size of the water yield jointly by flow control valve 8 controls; Cold water Buffer Pool 14, linker 6 and boiling water pond 15 are connected in turn by cold water pipe 7 and glass heats pipe 5 respectively, cold water in the cold water Buffer Pool 14 enters in the glass heats pipe 5 by linker 6 through cold water pipe 7 and heats, the boiling water of boiling overflows from glass heats pipe 5 upper port and enters the boiling water pond 15, steam then enters in the cold water Buffer Pool 14 by opposing steam flow groove 1, absorbed by the cold water under spilling in cold water heat exchange layer 13 some aperture, the water of boiling flows out through boiling water outlet 4 by outlet water control valve 3 in the boiling water pond 15.

As shown in Figure 2, described flow control valve includes the mouth of a river 21, delivery port 22, spool 23, direct current generator 24, train of reduction gears 25, following valve body 26, valve rod 27 and upper valve body 28; Following valve body 26 is fixedlyed connected with upper valve body 28, spool 23 and valve rod 27 are arranged on down in the valve body 26, train of reduction gears 25 is arranged in the upper valve body 28, the first end of the output of direct current generator 24 and train of reduction gears 25 is in transmission connection, the end of train of reduction gears 25 is connected with valve rod 27, and delivery port 22 is arranged on down the lower end of valve body 26, and water inlet 21 is arranged on down the upside of valve body 26, certainly, delivery port 22 and water inlet 21 also can be exchanged use.

Valve body 26 and spool 23 are similar to the tap in the daily life, the angle that rotation valve rod 27 changes 23 of spools can be regulated the unit interval by the discharge of delivery port, the rotation of valve rod 27 is to be finished by train of reduction gears by direct current generator, valve rod 0 degree (water yield maximum) is to about 10 seconds of rotation time of 90 degree (water yield minimum), control system can accurately be adjusted the water yield size that enters in the cold water Buffer Pool by control direct current generator conduction time forward or backwards.

As shown in Figure 3, described cold water heat exchange layer 13 includes the mouth of a river 31, watering aperture 33, cold and hot exchange area 34, cold water area 35, housing 36 and guide plate 37; Guide plate 37 is fixed in the housing 36, and the first half in the housing 36 is provided with water inlet 31 and watering aperture 33, and the first half in the housing 36 is cold water area 35, and the latter half in the housing 36 is cold and hot exchange area 34.

The cold water that enters into cold water Buffer Pool 14 must carry out preheating and absorb steam through subcooled water heat exchange layer 13 earlier.The cold and hot exchange area 34 of cold water heat exchange layer 13 is positioned at the top in boiling water pond 15, absorb the heat of boiling water in the boiling water pond 15 through the cold water of cold and hot exchange area 34, arrive cold water area 35 then and spill in cold water Buffer Pool 14 aperture 33 from watering, in the watering process, absorb the heat that passes through opposing steam flow groove 1 steam in the boiling water pond 15.

As shown in Figure 4, described boiling detector 16 comprises temperature sensor 2 and boiling detector probe 42; The bottom of temperature sensor 2 is arranged on water surface site in the boiling water pond 15 below 41, and the bottom of boiling detector probe 42 is arranged on water surface site in the boiling water pond 15 more than 41, has gap 43 between boiling detector probe 42 and the water surface.

The boiling detector can detect the severe degree whether water in the glass heats pipe 5 is in fluidized state and boiling.Boiling detector probe 42 is installed in 15 tops, boiling water pond, and the gap 43 between boiling detector probe 42 and the water surface is 10～20 millimeters, and boiling detector probe 42 is sensed the water wave that rises, and illustrates that the water in the glass heats pipe 5 is in fluidized state.The unit interval internal induction has directly reacted the severe degree of water boiling in the glass heat-generating pipe 5 to the frequency of the water wave that rises.

As shown in Figure 5, described outlet water control valve 3 comprises spring 51, electromagnet coil 52, iron prop 53, silica gel sheet 54, flowing water mouth 55, boiling water pond 15 and baffle plate 57; Outlet water control valve 3 is connected with boiling water pond 15, the horizontal component of baffle plate 57 is provided with flowing water mouth 55, and the top of flowing water mouth 55 is provided with silica gel sheet 54, and the upper end of silica gel sheet 54 is connected with the lower end of iron prop 53, the upper end of iron prop 53 is arranged in the electromagnet coil 52, and the top of iron prop 53 is provided with spring 51.

When the water in glass heats pipe 5 reaches boiling point, electromagnet coil 52 energisings in the outlet water control valve 3, by magneticaction, pull-up iron prop 53 and silica gel sheet 54 are opened flowing water mouth 55, and the boiling water in the boiling water pond 15 is flowed out through boiling water outlet 56.Described baffle plate 57 tops that go out water solenoid valve 3 are provided with 8～12 millimeters space 58, and this space 58 is connected with boiling water outlet 56.

The above; only be the preferable specific embodiment of the present invention; these specific embodiment all are based on the different implementations under the general idea of the present invention; and protection scope of the present invention is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the present invention discloses; the variation that can expect easily or replacement all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of claims.

Claims (6)

1. an instant heating boiling type boiler device is characterized in that, comprising: go into water controller, heating control apparatus and effluent control device; Describedly go into water controller and comprise temperature sensor, flow control valve, switch valve, level sensor, cold water heat exchange layer and boiling detector; Described heating control apparatus comprises opposing steam flow groove, glass heats pipe, linker, cold water pipe, cold water Buffer Pool and boiling water pond; Described effluent control device is outlet water control valve; Switch valve, flow control valve and cold water heat exchange layer are connected by water pipe successively, and running water enters into cold water heat exchange layer through switch valve, flow control valve successively, and the heat in the absorption boiling water pond spills down by some apertures and enters in the cold water Buffer Pool; Level sensor is installed in the cold water Buffer Pool, and temperature sensor and boiling detector are installed in the top in boiling water pond, and the information of being sensed by level sensor, temperature sensor and boiling detector is gone into the size of the water yield jointly by Flux Valve Control; Cold water Buffer Pool, linker and boiling water pond are connected in turn by cold water pipe and glass heats pipe respectively, cold water in the cold water Buffer Pool enters in the glass heats pipe by linker through cold water pipe and heats, the boiling water of boiling overflows from glass heats pipe upper port and enters the boiling water pond, steam then enters in the cold water Buffer Pool by the opposing steam flow groove, absorbed by the cold water under spilling in the some aperture of cold water heat exchange layer, the water that seethes with excitement in the boiling water pond flows out through the boiling water outlet by outlet water control valve.

2. instant heating boiling type boiler device according to claim 1 is characterized in that, described flow control valve includes the mouth of a river, delivery port, spool, direct current generator, train of reduction gears, following valve body, valve rod and upper valve body; Following valve body is fixedlyed connected with upper valve body, spool and valve rod are arranged on down in the valve body, train of reduction gears is arranged in the upper valve body, the first end of the output of direct current generator and train of reduction gears is in transmission connection, the end of train of reduction gears is connected with valve rod, delivery port is arranged on down the lower end of valve body, and water inlet is arranged on down the upside of valve body.

3. instant heating boiling type boiler device according to claim 1 is characterized in that, described cold water heat exchange layer includes the mouth of a river, watering aperture, cold and hot exchange area, cold water area, housing and guide plate; Guide plate is fixed in the housing, and the first half in the housing is provided with water inlet and watering aperture, and the first half in the housing is cold water area, and the latter half in the housing is cold and hot exchange area.

4. instant heating boiling type boiler device according to claim 1 is characterized in that described boiling detector is provided with the boiling detector probe; The bottom of temperature sensor is arranged on below the water surface site in the boiling water pond, and the bottom of boiling detector probe is arranged on more than the water surface site boiling water pond in, has the gap between the detector probe of seething with excitement and the water surface.

5. instant heating boiling type boiler device according to claim 4 is characterized in that, the gap between boiling detector probe and the water surface is 10～20 millimeters.

6. instant heating boiling type boiler device according to claim 1 is characterized in that described outlet water control valve comprises spring, electromagnet coil, iron prop, silica gel sheet, flowing water mouth and baffle plate; Outlet water control valve is connected with the boiling water pond of heating control apparatus, the horizontal component of baffle plate is provided with the flowing water mouth, and the upside of flowing water mouth is provided with the silica gel sheet, and the upper end of silica gel sheet is connected with the lower end of iron prop, the upper end of iron prop is arranged in the electromagnet coil, and the top of iron prop is provided with spring.

Images