CN105953429A - Energy-saving warm water and boiled water supply device - Google Patents

Abstract

The invention provides an energy-saving warm water and boiled water supply device and belongs to the field of water boiler equipment. The energy-saving warm water and boiled water supply device is used for heating tap water into boiled water and warm water. The energy-saving warm water and boiled water supply device comprises a device body, a water tank arranged in the device body and used for providing constant-temperature boiled water, and a heated pipe arranged in the water tank. The heated pipe is provided with a switch device. The heated pipe comprises a water inlet section, a heated section, a first water outlet section and a second water outlet section. The water inlet section is connected with a tap water pipe. The heated section is arranged inside the water tank. The second water outlet section is connected with the water inlet section, so that heat exchange is formed. According to the energy-saving warm water and boiled water supply device, drinking water can be heated through a water bath, boiled water and warm water can be provided, neither boiled water heated repeatedly nor a mixture of unboiled water and boiled water exist in the production process of boiled water and warm water, and warm water is formed by cooling boiled water through cold water of the water inlet section.

Description

Energy-saving warm boiler

Technical field

The present invention relates to drinking water field, be specifically related to a kind of boiler without pressure gallbladder.

Background technology

Boiler is equipment indispensable in people's daily life, and particularly for the boiler of many people, this kind of boiler is usually used in the places such as a lot of company, factory.

Having a class boiler is to be drunk for people after heating by the water in tap water, this kind of boiler mainly has two kinds: one is hot liner type boiler, hot liner type boiler is to have one can be incubated rustless steel circle gallbladder with the band of compression resistance, heat-generating pipe is arranged in round gallbladder the process of heating.When water enters gallbladder for the first time, under the effect of tap water pressure, fill water gallbladder, owing to water gallbladder is not having water outlet when, be a hermetic container only connecting water source from the beginning.After the water in hot tank is heated to set boiling temperature under the control of system, heat-generating pipe just stops heating, and the boiled water in hot gallbladder just flows out under the effect of tap water pressure.Another kind is stepping water boiler, it be the most boiled in water steps into attemperater by the way of.When water enters water tank through electromagnetic valve, when arriving low water level, heat-generating pipe begins to heating and heats the water to the temperature arranged, often add the water of a little deal, in water tank, temperature just declines, and then heating arrives the temperature arranged the most at once, the most progressively intakes, progressively heat, until cistern water level arrives high water level.

Problems of the prior art have: the water entered in hot gallbladder is extruded by tap water, and the boiled water in cold tap water and hot gallbladder can be sufficiently mixed, and produce water.Owing to mineral in some region tap water, limestone are the most, when heating boiled water processed, incrustation scale is the most, and hot gallbladder mode of heating itself is an airtight static heating system, incrustation scale is very easy to deposit bottom and the heat-generating pipe surface being attached to hot gallbladder, causes heat-generating pipe to burn.Step-by-step movement water tank is stress-free, and its water outlet is entirely down flows out from height by water weight, and it is often smaller for going out water speed.Due to the construction features of step-by-step movement water tank, when often entering a water, heat up once, there is situation about repeatedly seething with excitement.Therefore, invent a kind of do not produce water, to drive device be the problem that technical staff is studying to the energy-saving warm of thousand boiling water.

Summary of the invention

In view of this, in order to solve the problems referred to above that prior art exists, the present invention provides a kind of energy-saving warm boiler, this energy-saving warm boiler, without pressure gallbladder, will not produce water, there are not thousand boiling water repeatedly heated, this energy-saving warm boiler can provide boiled water and warm water, and the most energy-conservation.

A kind of boiler, including body, also includes the heat pipe being located in body and the water tank providing constant temperature boiling water；Described water tank is provided with heater block；Described heat pipe includes inlet segment, heating section, the first water exit end and the second water exit end；Described heater block is with thinking that described heating section heats；Described first water exit end is provided with switching device；Second water exit end includes that condensation segment, described inlet segment include bringing-up section, the water of described condensation segment and the water generation heat exchange of bringing-up section, and in order to make bringing-up section to heating section input warm water and make condensation segment export warm water, the delivery outlet of described condensation segment is provided with switching device.

Further, described body is provided with temperature display unit, and described temperature display unit is connected with described heat pipe.

Further, boiler also includes controlling device and the temperature sensing component being located in water tank, water level monitoring parts, switching device；Described switching device is arranged on the porch of water tank water intake；Described temperature sensing component, water level monitoring parts electrically connect with described control device；When the temperature value that described temperature sensing component detects is not higher than preset temperature threshold value, described control device starts described heater block, when the temperature value that described temperature sensing component detects is not less than preset temperature threshold value, described control device closes described heater block；When the water level value that described water level monitoring parts detect not higher than presets the first watermark threshold, described control device starts described switching device, when the water level value that described water level monitoring parts detect is not less than default second watermark threshold, described control device closes described switching device.

Further, described first water exit end end is communicated with multiple water outlet piece.Water outlet piece can be water nozzle or the fire hose first-class, be used for boiled water.

Further, described second water exit end end is communicated with multiple water outlet piece.Water outlet piece can be water nozzle or the fire hose first-class, be used for warm water.

Further, described first water exit end is connected by hydrid component with the described condensation segment of described second water exit end.This hydrid component can regulate boiled water and the ratio of warm water mixing, to form the warm water of different temperatures.

Further, described switching device is electromagnetic valve.Electromagnetic valve can realize the refrigeration control to this energy-saving warm boiler, can improve the experience of user.

Further, described inlet segment is provided with filtration members.This filtration members can filter off the foreign material etc. from the tap water entering this energy-saving warm boiler.

Further, described heat pipe is stainless steel tube or copper pipe.

Further, described water tank bottom is provided with mudhole.Dirt in discharge water tank when this mudhole is for cleaning water tank.

Compared with prior art, the beneficial effects of the present invention is: the energy-saving warm boiler of the present invention arranges the water tank of an offer boiling water in body, and heater block is located in water tank.Heat pipe is placed in the boiling water of water tank, the heating section of heat pipe directly contacts with boiling water, the heating of this boiling water is utilized to produce boiled water, boiled water flows out from the first water exit end, heat pipe is additionally provided with out the second water exit end of warm water, and this second water exit end includes condensation segment, the water generation heat exchange of the water of condensation segment and the bringing-up section of inlet segment, utilize inlet segment to the water for cooling of the second water exit end, to produce warm water.The energy-saving warm boiler of the present invention does not has hot gallbladder, do not have dry combustion method etc., heat pipe, when water inlet, will not occur the mistake polyhybird of tap water and boiled water, not have water, the boiling water utilizing water tank heats, boiled water can be instantly available, easy to use, do not have thousand boiling water, the cold water and the meeting that utilize inlet segment out arrange heat exchange and produce warm water, the most energy-conservation.

Accompanying drawing explanation

Fig. 1 shows the structural representation of energy-saving warm boiler of the present invention.

Fig. 2 shows the water tank control circuit schematic diagram of energy-saving warm boiler of the present invention.

Main element symbol description:

60-controls device；20-body；10-water tank；11-heater block；13-temperature sensing component；15-water level monitoring parts；17-mudhole；171-delivery pipe；19-steam vent；30-heat pipe；30a-filtration members；31-inlet segment；311-bringing-up section；33-heating section；35-the first water exit end；351-water nozzle；37-the second water exit end；371-condensation segment；373-hydrid component；40-water inlet pipe；50-switching device；51-shift knob；70-temperature display unit.

Detailed description of the invention

For the ease of understanding the present invention, below with reference to relevant drawings, energy-saving warm boiler is described more fully.Accompanying drawing gives the embodiment of energy-saving warm boiler, but, energy-saving warm boiler can realize in different forms, however it is not limited to embodiment described herein.On the contrary, providing the purpose of these embodiments is to make the disclosure to energy-saving warm boiler more thorough comprehensively.

In describing the invention, it will be appreciated that, term " on ", D score, "front", "rear", "left", "right", " vertically ", " level ", " top ", " end ", " interior ", the orientation of the instruction such as " outward " or position relationship be based on orientation shown in the drawings or position relationship, it is for only for ease of the description present invention and simplifies description, rather than instruction or hint indication device or element must have specific orientation, with specific azimuth configuration and operation, be therefore not considered as limiting the invention.

In the description of this specification, the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means that the specific features, structure, material or the feature that combine this embodiment or example description are contained at least one embodiment or the example of the present invention.In this manual, the schematic representation to above-mentioned term is not necessarily referring to identical embodiment or example.And, the specific features of description, structure, material or feature can combine in any one or more embodiments or example in an appropriate manner.

In describing the invention, unless otherwise prescribed and limit, it should be noted that term " is installed ", " being connected ", " connection ", " connection ", " connection " should be interpreted broadly, such as, can be mechanical attachment or electrical connection, can also be the connection of two element internals, can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, for the ordinary skill in the art, the concrete meaning of above-mentioned term can be understood as the case may be.

Fig. 1 shows that the structural representation of energy-saving warm boiler of the present invention, Fig. 2 show the control circuit schematic diagram of energy-saving warm water tank of water boiler 10 of the present invention.As shown in Figure 1 and Figure 2, the energy-saving warm boiler of the present invention, the water tank 10 including body 20 and being located at body 20 interior offer constant temperature boiling water and the heat pipe 30 being placed in described water tank 10, described heat pipe 30 is provided with switching device 50；Described heat pipe 30 includes inlet segment 31, heating section the 33, first water exit end the 35, second water exit end 37；Described inlet segment 31 is connected with outside tap water, described heating section 33 is placed in described water tank 10, second water exit end 37 includes condensation segment 371, described inlet segment 31 includes bringing-up section 311, the water of described condensation segment 371 and the water generation heat exchange of bringing-up section 311, in order to make bringing-up section 311 input warm water to heating section 33 and make condensation segment 371 export warm water, the delivery outlet of described condensation segment 371 is provided with switching device 50.Heat pipe 30 is provided with inlet segment 31, and this inlet segment 31 is connected with running water pipe, and this inlet segment 31 is provided with switching device 50, for controlling and the connection of tap water or disconnection, easily it is envisioned that, this switching device 50 can also be arranged on running water pipe.The heating section 33 of heat pipe 30 is placed in water tank 10, and under the heat effect of water tank 10 constant temperature boiling water, water heated member 11 therein is heated as boiling water, and the water in inlet segment the 31, first water exit end the 35, second water exit end 37 in heat pipe 30 is also with boiling.First water exit end 35 produces hot water, and the condensation segment 371 of the second water exit end 37 carries out heat exchange with the bringing-up section 311 of inlet segment 31 so that entered the boiled water cooling of the second water exit end 37, and formed warm water.The water of inlet segment 31 is improved through the heat exchange temperature of the boiled water of the second water exit end 37, and such design is the most energy-conservation.

The energy-saving warm boiler of the present invention, is the boiler that can provide boiled water and warm water, realizes going out boiled water and going out warm water of this energy-saving warm boiler by switching device 50.Can set a switching device 50 before or after inlet segment 31, first water exit end the 35, second water exit end 37 is provided with switching device 50.During water intaking, first opening the switching device 50 on inlet segment 31, after a period of time, the switching device 50 opened on the first water exit end 35 takes away water, and the switching device 50 opened on the second water exit end 37 can take warm water.

Water tank 10 in the present invention, is a heating in water bath water tank 10 providing boiling water, and heat pipe 30 is put in the water of water tank 10.It is to be understood that the thermal medium that adds used in this water tank 10 can also is that other media, such as, this adds thermal medium can be fire resistant oil (such as silicone oil etc.), coolant (glycerol type), paraffin oil etc..When use water as in water tank when adding thermal medium, heat pipe 30 heating section 33 is placed in water tank 10, occupies certain water in water tank 10, and heating section 33 is placed in water, and the boiling water produced by water tank 10 is to heat pipe 30 continuous heating.This water tank 10 is configured with power supply, heater block 11, temperature sensing component 13, water level monitoring parts 15, switching device 50 and some necessary water pipes.It is easily understood that this water tank 10 is arranged in the body 20 of boiler, and on body 20, it is provided with a shift knob 51, for starting the heater block 11 of this water tank 10.Switching device 50 may be provided on water inlet pipe 40, and for controlling opening or closing of water inlet pipe 40, this control can be electric control, and therefore, this switching device 50 is specifically as follows electromagnetic valve.When using first, starting the shift knob 51 being located on body 20, this shift knob 51 is the total control switch of water tank 10, and water level monitoring parts 15 monitor water tank 10 water level and not higher than preset the first watermark threshold, control to start electromagnetic valve after device receives this signal to start, start to add water to water tank 10.Water level monitoring parts 15 in water tank 10, these water level monitoring parts 15 can be monitored water level and whether are not less than default first watermark threshold and not higher than and preset the second watermark threshold.When in water tank 10, water level is not less than default first watermark threshold, this signal is passed to the control device 60 of boiler by these water level monitoring parts 15, controls device 60 and starts heater block 11, and this heater block 11 can be one to add heat pipe.Temperature sensing component 13 it is additionally provided with in water tank 10, the signal of the water temperature value in the water tank 10 that temperature sensing component 13 will detect passes to the control device 60 of boiler, when aforementioned water temperature value be not less than one preset water temperature threshold value time, control device 60 control heater block 11 makes its stop heating；In water tank 10, temperature sensing component 13 detects that water temperature value is not higher than one when presetting water temperature threshold value, controls device 60 and starts again heater block 11 and begin to warm up.Based Intelligent Control so the most repeatedly, it is possible to achieve in water tank 10, water temperature and water level is constant, thus provides the heating source of constant temperature for heat pipe 30.

Heat pipe 30 in the present invention is that the boiling water environment utilizing water tank 10 to provide carries out heating.Direction along water turnover is divided into: inlet segment 31, heating section the 33, first water exit end the 35, second water exit end 37.Heat pipe 30 in Fig. 1, can use the metal tube that heat conductivity is good, specifically, this heat pipe 30 can be stainless steel tube, copper pipe, stainless steel tube is safe and reliable, hygienic environment-protecting, economic and practical, metal tube being assert, thin-wall stainless steel is one of best tubing of combination property.Thin-wall stainless steel, is the newborn race shown up prominently of current tubing field, has been widely used in the pipeline of building water supply and direct drinking.Copper pipe, also known as copper tube, is the one of nonferrous metal tube, is compacting and the seamless pipe drawn.Copper pipe possesses characteristic firm, corrosion resistant, and becomes the first-selection that modern contractor installs at the water supply pipe of all Commercial Residential Building's, heat supply, refrigeration piping.Copper pipe is optimal water supply line, copper pipe lighter in weight, and heat conductivity is good, and low temperature intensity is high, is usually used in manufacturing heat transmission equipment (such as condenser etc.), is also used in oxygen generating plant assembling cryogenic pipe.The copper pipe that diameter is little is usually used in carrying the liquid of pressure, such as lubricating system, oil hydraulic system etc..Copper be safe, non-leakage, the most combustion-supporting, do not produce toxic gas, corrosion-resistant.Copper plumbing is good for health, and copper plumbing water saving antifouling sterilizes again, and along with isolating trace copper ion in copper pipe, the water containing copper ion can supplement the human body demand to copper, and copper is also one of the metallic element that can not lack of health.

The inlet segment 31 of above-mentioned heat pipe 30, this inlet segment 31 is for connecting with outside running water pipe, tap water enters in heat pipe 30 by inlet segment 31, inlet segment 31 is provided with bringing-up section 311, this bringing-up section 311 is that the boiled water utilizing the second water exit end 37 carries out heating, and utilizes the remaining temperature of boiled water to carry out heat exchange during this heating.In order to realize Based Intelligent Control, being provided with an electromagnetic valve before this water inlet pipe 40, the control device 60 of this electromagnetic valve and a shift knob 51, boiler electrically connects.This shift knob 51 is located on boiler body 20.Pressing this shift knob 51, electromagnetic valve is opened, and starts to add water in heat pipe 30, enters the boiling water in water tank 10 of the water in heat pipe 30 and indirectly heats,

The heating section 33 of above-mentioned heat pipe 30, it accepts external heat source to heat water therein, and external heat source is constant temperature boiling water in water tank 10.This heated at constant temperature ensure that heat pipe 30 does not haves situations such as burning out, greatly improves the service life of heat pipe 30.In order to increase the heating surface area of heating section 33, this heating section 33 can be set to spiral type.Heating section 33 directly contacts with boiling water, it is possible to achieve the heating to heating section 33.

Second water exit end 37 of above-mentioned heat pipe 30 is used for providing warm water, and this warm water is obtained through supercooling by boiled water.This second water exit end 37 connects with heating section 33, and the second water exit end 37 is provided with condensation segment 371, and this condensation segment 371 carries out heat exchange with the bringing-up section 311 of inlet segment 31.In a particular embodiment, this heat exchange can have various ways to carry out.In one embodiment, condensation segment 371 can pass bringing-up section 311, i.e. forms condensation segment 371 and is immersed in cold water.In another embodiment, condensation segment 371 is intertwined with inlet segment 31, carries out heat exchange by the contact between tube wall.In another embodiment, can arrange a little water tank 10, be full of water in water tank 10, condensation segment 371 and bringing-up section 311 are all placed in water tank 10, adding water in water tank 10, which is to realize heat exchange by the way of condensation segment 371 and bringing-up section 311 mediate contact.It is to be understood that this heat exchange is not limited to above-mentioned three kinds of modes, that every those skilled in the art can determine that after reading this specification, the beyond all doubt embodiment drawn is all invention which is intended to be protected.In above-mentioned heat exchange, on the one hand, the tap water of the bringing-up section 311 entering inlet segment 31 can improve temperature, take full advantage of boiled water cooling liberated heat, saved the energy；On the other hand, in the second water exit end 37, water temperature after supercooling of condensation segment 371 reduces, it is possible to obtain warm water.

The present invention also can set temperature display unit 70, in one embodiment, this temperature display unit 70 is for pointing out whether the water in heat pipe 30 reaches the standard drunk, and when its displays temperature has reached drinkable standard, water intaking person can open corresponding switch and carry out taking away water or warm water.In another embodiment, this temperature display unit 70 can realize Based Intelligent Control with control device 60 connection starting device, specifically, the temperature value of the water of detection is passed to control device 60 by this temperature display unit 70, when it is not less than a preset temperature value, this control device 60 activate switch device 50 thus complete water outlet.

Said temperature display unit 70, temperature during for showing water intaking, it is to be understood that can simultaneously show the temperature of boiled water, warm water, it is also possible to only display boiled water or the temperature of warm water.Specifically, this temperature display unit 70 includes a temperature sensor and a temperature indicator, temperature indicator is arranged on the surface of body 20, and temperature sensor is arranged on the first water exit end 35 and/or the second water exit end 37, the temperature of taken water thus can be detected.Easily it is envisioned that this temperature indicator can be character display may also mean that pin display, character display is directly perceived, and therefore pointer display device low cost, can select according to the concrete mating situation of the present invention.

The energy-saving warm boiler of the present invention, may be used for demand is bigger boiled water, the supply of warm water simultaneously, therefore, it can arrange multiple water outlet piece, like this, it is possible to achieve many people water intaking simultaneously.It is understood that corresponding multiple water outlet piece can be arranged at first water exit end the 35, second water exit end 37.This water outlet piece can be faucet, water nozzle etc..

As it is shown in figure 1, one first water exit end 35 can be connected by a hydrid component 373 with one second water exit end 37, this connection can realize the regulation of the temperature to warm water.First water exit end 35 is boiled water, and in the second water exit end 37 for the water through one-step cooling, the temperature of the water in this section is also maintained in the range of a relative constancy, and the drinkable water in two kinds of pipelines carries out a certain proportion of mixing can obtain the warm water of different temperatures.Specifically, this hydrid component 373 is specifically as follows mixing valve, combustion taps etc..

Switching device 50 in the present invention, is specifically as follows mechanical switch, such as faucet, it is also possible to electric-controlled switch, such as electromagnetic valve.When this switching device 50 is electromagnetic valve, needing to be provided electric energy by the external power supply of boiler, this electromagnetic valve can be controlled by shift knob 51, it is also possible to realizes automatically controlling by controlling device 60.In shift knob 51 controls, can arrange a press button on body 20, this switch is the switch of electromagnetic valve place circuit, and actuation button switchs, and electromagnetic valve closes, and the pipeline at electromagnetic valve place is opened, and can complete water outlet.Actuation button switch again, closed electromagnetic valve, the pipeline at electromagnetic valve place is closed, and closes water outlet, and water intaking process terminates.It is understood that the switching device 50 in the present invention may be mounted on inlet segment 31, it is also possible to being arranged on water exit end, reason is, the boiled water in this heat pipe 30 is that the pressure by tap water completes water outlet.Specifically, when switching device 50 is arranged on inlet segment 31, when being arranged on inlet segment 31 such as electromagnetic valve, before shift knob 51 is not switched on, the water in heat pipe 30 is without driving force, water whole in heat pipe 30 all rests in heat pipe 30, when pressing the button switch, the electromagnetic valve of inlet segment 31 is opened, and the boiled water in heat pipe 30 is under the driving of tap water pressure, flow out from water nozzle 351, complete water outlet.When electromagnetic valve is arranged on the first water exit end 35 or the second water exit end 37, exiting water process, with aforementioned, is not repeated herein.

In Fig. 1, heat pipe 30 inlet segment 31 is provided with filtration members 30a, and this filtration members 30a is specifically as follows a water purifier, for purifying the harmful substances such as granule in tap water.It is understood that this inlet segment 31 can also install a descaler, for removing the material easily forming incrustation scale in water.

Steam vent 19 in Fig. 1, mudhole 17 are the passages in water tank 10 for aerofluxus and blowdown, easily it is envisioned that, steam vent 19 is used to discharge the pore of the steam of high pressure, and mudhole 17 is used for being carried out the mudhole 17 during water tank 10.This steam vent 19 is normally opened, and it can be connected with a pipeline, and the water-cooled of this steam is solidifying to be recycled in water tank 10, like this can be with using water wisely.This mudhole 17 is normally closed, can arrange a switch manually regulated, such as the faucet of a good airproof performance on this mudhole 17.Like this, can be as desired to whether regulation mudhole 17 be opened.

The above; being only the detailed description of the invention of the present invention, but protection scope of the present invention is not limited thereto, any those familiar with the art is in the technical scope that the invention discloses; change can be readily occurred in or replace, all should contain within protection scope of the present invention.Therefore, protection scope of the present invention should described be as the criterion with scope of the claims.

Claims (10)

1. a boiler, including body, it is characterised in that: also include the heat pipe being located in body And the water tank of constant temperature boiling water is provided；

Described water tank is provided with heater block；

Described heat pipe includes inlet segment, heating section, the first water exit end and the second water exit end；Described add Thermal part is with thinking that described heating section heats；

Described first water exit end is provided with switching device；Second water exit end includes condensation segment, described inlet segment Including bringing-up section, the water of described condensation segment and the water generation heat exchange of bringing-up section, in order to make bringing-up section to Heating section inputs warm water and makes condensation segment export warm water, and the delivery outlet of described condensation segment is provided with switch dress Put.

Boiler the most according to claim 1, it is characterised in that: described body is provided with temperature Display unit, described temperature display unit is connected with described heat pipe.

Boiler the most according to claim 1, it is characterised in that: also include controlling device, setting Temperature sensing component in water tank, water level monitoring parts, switching device；

Described switching device is located at the porch of water tank water intake；

Described temperature sensing component, water level monitoring parts electrically connect with described control device；When described temperature When the temperature value that degree sensing element detects is not higher than preset temperature threshold value, described control device starts institute Stating heater block, the temperature value detected when described temperature sensing component is not less than preset temperature threshold value Time, described control device closes described heater block；

When the water level value that described water level monitoring parts detect not higher than presets the first watermark threshold, institute Stating control device and start described switching device, the water level value detected when described water level monitoring parts is the lowest In time presetting the second watermark threshold, described control device closes described switching device.

Boiler the most according to claim 1, it is characterised in that: described first water exit end end It is communicated with multiple water outlet piece.

Boiler the most according to claim 1, it is characterised in that: described second water exit end end It is communicated with multiple water outlet piece.

Boiler the most according to claim 1, it is characterised in that: the first water exit end described in Described in one, the second water exit end is connected by hydrid component.

Boiler the most according to claim 1, it is characterised in that: described switching device is electromagnetism Valve.

Boiler the most according to claim 1, it is characterised in that: described heat pipe is rustless steel Pipe or copper pipe.

Boiler the most according to claim 1, it is characterised in that: described inlet segment is provided with filtration Part.

Boiler the most according to claim 1, it is characterised in that: described water tank bottom is provided with Mudhole.