CN207394802U - A kind of boiler safety protection device and energy-conserving intelligent ironing system - Google Patents

Abstract

The utility model embodiment discloses a kind of boiler safety protection device and energy-conserving intelligent ironing system, and the boiler safety protection device includes：Main heating furnace body 1, steam storage are with reheating furnace body 3, water inlet preheating furnace body 2, check valve 4 and security protection module；The main heating furnace body 1 connects the steam storage with reheating furnace body 3；The main heating furnace body 1 and the water inlet preheating furnace body 2 are connected respectively with the check valve 4；The main heating furnace body 1 is connected with the security protection module；The security protection module includes at least pressure sensor 10, pressure switch, safety valve, Thermal Cutoffs 19 and temperature sensor 21；It is protected by multi-level safety, boiler is avoided to be absorbed in the danger of single safeguard protection.

Description

A kind of boiler safety protection device and energy-conserving intelligent ironing system

Technical field

The utility model embodiment is related to the security fields of steam generator device more particularly to a kind of protection of boiler safety Device and energy-conserving intelligent ironing system.

Background technology

The safety measure of existing industry device, mostly using safety valve, the anti-safety of high pressure relief, the anti-safety of pressure switch or temperature The anti-safety of degree insurance waits three kinds of aspect anti-safety of one of which, and some is even without safety measure.If equipment safety valve damages Or other damage, secured fashion is single, and equipment can be made to be in a dangerous working condition.

Utility model content

The purpose of the utility model embodiment is to propose a kind of boiler safety protection device and energy-conserving intelligent flatiron System, it is intended to solve the problems, such as how to ensure boiler safety.

For this purpose, the utility model embodiment uses following technical scheme：

In a first aspect, a kind of boiler safety protection device, described device include：

Main heating furnace body 1, steam storage are with reheating furnace body 3, water inlet preheating furnace body 2, check valve 4 and safeguard protection mould Block；

The main heating furnace body 1 connects the steam storage with reheating furnace body 3；

The main heating furnace body 1 and the water inlet preheating furnace body 2 are connected respectively with the check valve 4；

The main heating furnace body 1 is connected with the security protection module；

The security protection module includes at least pressure sensor 10, pressure switch 18, safety valve 17, Thermal Cutoffs 19 With temperature sensor 21.

Optionally, the pressure sensor 10, for when the boiler reaches setup pressure value, stopping heating.

Optionally, the pressure switch, for when the pressure sensor 10 is in off working state, disconnecting the master The heating system of heating furnace body 1.

Optionally, the safety valve if be in off working state for the pressure switch, outwards loses heart.

Optionally, the Thermal Cutoffs, for when the temperature of the main heating furnace body 1 reaches preset temperature value, breaking Open the heating system of the main heating furnace body 1.

Second aspect, a kind of energy-conserving intelligent ironing system, which is characterized in that the energy-conserving intelligent ironing system bag It includes：Above-mentioned boiler safety protection device, automatic pollution discharge module and automatic desludging module；

The automatic pollution discharge module, for when recognizing trigger signal, opening the first blowoff electromagnetic valve 7 and the second blowdown Solenoid valve 8 discharges water and steam in the water inlet preheating furnace body 2；

The automatic desludging module, including detection module and starting module；The monitoring modular connects with the starting module It connects.

Optionally, the monitoring modular, for detecting whether reach default scale removal condition, the default scale removal condition bag It includes：Cumulative operation time reaches preset time threshold, and in " next key " triggering state；

If the starting module for reaching the default scale removal condition, starts pre- according to the default scale removal condition If scale removal program.

Optionally, the starting module, is specifically used for：

Water in the main heating furnace body 1 is exhausted by first blowoff electromagnetic valve 7, then passes through second blowdown electricity Magnet valve 8 exhausts the steam storage with reheating the water in furnace body 3；

By the switching of second solenoid valve 6, through first solenoid valve 5, water pump 9 from scale removal agent container 27 and water tank, Add water and scale remover to the water inlet preheating furnace body 2, the main heating furnace body 1 and steam storage with reheating furnace body 3, It heated, impregnated and is cleaned.

Optionally, the cleaning includes：

Water inlet preheating furnace body 2, main heating furnace body 1, steam storage and reheating furnace body 3 after scale removal and pipeline are carried out Secondary secondary wash cycles.

Optionally, the intelligent ironing system is additionally operable to：It is reminded according to different work and phenomenon of the failure into line code.

A kind of boiler safety protection device that the utility model embodiment provides, the boiler safety protection device include： Main heating furnace body 1, steam storage are with reheating furnace body 3, water inlet preheating furnace body 2, check valve 4 and security protection module；It is described Main heating furnace body 1 connects the steam storage with reheating furnace body 3；The main heating furnace body 1 and the water inlet preheating furnace body 2 It is connected respectively with the check valve 4；The main heating furnace body 1 is connected with the security protection module；The security protection module Including at least pressure sensor 10, pressure switch, safety valve and Thermal Cutoffs；It is protected by multi-level safety, boiler is avoided to fall into Enter the danger of single safeguard protection.

Description of the drawings

Fig. 1 is a kind of high-level schematic functional block diagram of boiler safety protection device provided in this embodiment；

Fig. 2 is a kind of high-level schematic functional block diagram of intelligent ironing system provided in this embodiment；

Fig. 3 is a kind of internal structure schematic diagram of intelligent ironing system provided in this embodiment；

Fig. 4 is a kind of external structure schematic diagram of intelligent ironing system provided in this embodiment；

Wherein, 1, main heating furnace body；2nd, water inlet preheating furnace body；3rd, steam storage is with reheating furnace body；4th, check valve；5、 First entering water electromagnetic valve；6th, the second entering water electromagnetic valve；7th, the first blowoff electromagnetic valve；8th, the second blowoff electromagnetic valve；9th, water pump；10、 Pressure sensor；11st, the first electric heating tube；12nd, the second electric heating tube；13rd, three electric heating tubes；14th, control panel is aided in；15、 First steam electromagnetic valve；16th, the second steam electromagnetic valve；17th, safety valve；18th, pressure switch；19th, Thermal Cutoffs；20th, connect Pipeline；21st, temperature sensor；22nd, hardware frame；23rd, water-cooling type radiator；24th, water-level detecting device；25th, transformer；26th, it is main Control plate；27th, scale removal agent container；28th, scale remover capacity checking apparatus；29th, pressure setting key；30th, temperature setting key；31st, iron Power key；32nd, pressure is shown；33rd, temperature display；34th, working ON/ comes off duty OFF control handles；35th, casing；36th, earth leakage protective Switch；37th, steam pipe；38th, the first iron；39th, the second iron；

Wherein, main heating furnace body 1 is used to generate steam；Water inlet preheating furnace body 2 is used to cold water becoming high-temperature water；Steam stores up It deposits and is used to store steam with reheating with reheating furnace body 3；Check valve 4 is used to prevent opposing steam flow；First entering water electromagnetic valve 5 is used In adding water management；Second entering water electromagnetic valve 6 is used to switch the selection of water and scale remover；First blowoff electromagnetic valve 7 is used for main stove Body blowdown；Second blowoff electromagnetic valve 8 is for neatly storage with reheating furnace body blowdown；Water pump 9, for adding water；Pressure sensor 10 for output pressure signal and control main furnace body and steam storage furnace body, reheating furnace body heating；First electric heating tube 11 is used In heating main furnace body；Second electric heating tube 12 preheats for intaking；Three electric heating tubes 13 reheat for heating steam；It is auxiliary Control panel 14 is helped for controlling water pump, heater circuit, solenoid valve；First steam electromagnetic valve 15 exports for steam；Second steam Solenoid valve 16 exports for steam；Safety valve 17 loses heart for superpressure；Pressure switch 18 powers off for superpressure；Thermal Cutoffs 19 It is powered off for overtemperature；Temperature sensor 21 preheats the in vivo temperature information of stove for exporting water inlet；Mounting bracket 22 is used for equipment The installation of internal components is fixed；Water-cooling type radiator 23 be used for aid in control panel radiating and cooling and meanwhile to recycling thermal energy into Water is tentatively preheated；Water-level detecting device 24 is used to detect the in vivo water level of main heating furnace；Transformer 25 is used to convert electricity Pressure；Master control borad 26 is used for the command and control of equipment various actions；Iron power key 31 is used for the switch of iron power supply.

Specific embodiment

The utility model embodiment is described in further detail with reference to the accompanying drawings and examples.It is appreciated that It is that specific embodiment described herein is used only for explaining the utility model embodiment rather than to the utility model embodiment Restriction.It also should be noted that it illustrates only for ease of description, in attached drawing relevant with the utility model embodiment Part rather than entire infrastructure.

With reference to figure 1, Fig. 1 is a kind of high-level schematic functional block diagram of boiler safety protection device provided in this embodiment.

As shown in Figure 1, the boiler safety protection device includes：

Main heating furnace body 1, steam storage are with reheating furnace body 3, water inlet preheating furnace body 2, check valve 4 and safeguard protection mould Block；

The main heating furnace body 1 connects the steam storage with reheating furnace body 3；

The main heating furnace body 1 and the water inlet preheating furnace body 2 are connected respectively with the check valve 4；

The main heating furnace body 1 is connected with the security protection module；

The security protection module includes at least pressure sensor 10, pressure switch 18, safety valve 17 and Thermal Cutoffs 19。

Optionally, the pressure sensor 10, for when the boiler reaches setup pressure value, stopping heating.

Optionally, the pressure switch, for when the pressure sensor 10 is in off working state, disconnecting the master The heating system of heating furnace body 1.

Optionally, the safety valve if be in off working state for the pressure switch, outwards loses heart.

Optionally, the Thermal Cutoffs, for when the temperature of the main heating furnace body 1 reaches preset temperature value, breaking Open the heating system of the main heating furnace body 1.

A kind of boiler safety protection device that the utility model embodiment provides, the boiler safety protection device include： Main heating furnace body 1, steam storage are with reheating furnace body 3, water inlet preheating furnace body 2, check valve 4 and security protection module；It is described Main heating furnace body 1 connects the steam storage with reheating furnace body 3；The main heating furnace body 1 and the water inlet preheating furnace body 2 It is connected respectively with the check valve 4；The main heating furnace body 1 is connected with the security protection module；The security protection module Including at least pressure sensor 10, pressure switch, safety valve and Thermal Cutoffs；It is protected by multi-level safety, boiler is avoided to fall into Enter the danger of single safeguard protection.

With reference to figure 2, the energy-conserving intelligent ironing system includes：Intelligent water supply module 201, water inlet pre-heating module 202, Steam is stored with reheating module 203, steam output and flatiron module 204, automatic pollution discharge module 205, automatic desludging module 206 With display module 207；

With reference to figure 3 and Fig. 4, the intelligent water supply module 201, for passing through water cooled heat radiating 23, the first entering water electromagnetic valve 5th, water pump 9 plus water preheat furnace body 2 to water inlet；

Wherein, the water-cooling type radiator 23 carries out water inlet while for cooling down to the water-cooling type radiator 23 Preliminary preheating, the thermal energy generated to control circuit recycle.

Wherein, the intelligent water supply module 201 is additionally operable in moisturizing, first covers the bottom of the water inlet preheating furnace body 2 Portion, then from the top of the water inlet preheating furnace body 2 the main heating furnace body 1 is output to through check valve 4.

Wherein, between the water inlet preheating furnace body 2 and the main heating furnace body 1, controlled by check valve 4.

Wherein, the intelligent water supply module 201 selects the best opportunity to preheat furnace body 2 to the main heating from the water inlet 1 moisturizing of furnace body, the best opportunity be：Steam pressure is in the working clearance not less than default threshold value, iron.

Illustratively, in intelligent water supply function, water inlet is by water-cooling type radiator 23, the first entering water electromagnetic valve 5, water pump 9 are added into water preheating furnace body 2.

When water passes through water-cooling type radiator 23, water inlet is heated while cooling to radiator, such design, rationally Utilize thermal energy, reduce the energy consumption of equipment.

Under the control of temperature sensor 21, the second electric heating tube 12 is controlled, the water in water inlet preheating furnace body 2 is carried out Heating, stops when reaching preset temperature.

To during main 1 moisturizing of heating furnace body, first filling into 2 bottom of water preheating furnace body, then exported from top through check valve 4 To main heating furnace body 1, it is ensured that the water for covering main heating furnace body 1 every time is all high-temperature water.

It between water inlet preheating furnace body 2 and main heating furnace body 1, is controlled by check valve 4, prevents from steaming in main heating furnace body 1 Vapour flows back.

What is covered every time in main heating furnace body 1 is all high-temperature water, effectively prevents main heating furnace body 1 caused by moisturizing Rapidly decompression, lose temperature and influence, greatly meet flatiron to the demand of steam stable, improve ironing efficiency.

Supplementary water time is made choice, the moisturizing under conditions of flatiron gap and steam pressure are up to standard avoids steam from losing Warm decompression.

Above design perfectly solves the decompression caused by moisturizing is equipment, loses temperature influence, improves ironing efficiency.

Illustratively, equipment total power switch is opened, equipment enters holding state, and total operation knob is pushed working key ON Shelves, equipment are started to work, and at this moment the water-level detecting device 24 in main heating furnace body 1, can carry out water level detecting, according to water level automatically The situation that detection device 24 detects if you need to add water, can control 9 automatic watering of water pump, after suitable water level, stop adding Water.

The water inlet pre-heating module 202, in temperature sensor 21, master control borad 26 and the control for aiding in control panel 14 Under, the second electric heating tube 12 is controlled, the water in the water inlet preheating furnace body 2 is heated, is stopped when reaching preset temperature Heating；

Illustratively, water inlet is by water-cooling type radiator 23, by the first entering water electromagnetic valve 5 and the second entering water electromagnetic valve 6, Under the action of 9 draft of water pump, furnace body 2 is preheated into water inlet, in temperature sensor 21, master control borad 26 and auxiliary control panel 14 Control under, control the second electric heating tube 12, the water in water inlet preheating furnace body 2 preheated and default reaching Stop heating (moreover, furnace body is equipped with Thermal Cutoffs 19, carrying out temperature anomaly protection) during 90 DEG C of temperature.

To water inlet during main 1 moisturizing of heating furnace body, to come from the interior conveying of water-cooling type radiator 23 first from water inlet pre-add hot stove The bottom of body 2 enters, and is connected from the top of water inlet preheating furnace body 2 by check valve 4 with main heating furnace body 1 outflow, guarantee The water for covering main heating furnace body 1 every time is all high-temperature water, reduces and temperature is lost caused by moisturizing is to heating furnace body, decompression influences.Unidirectionally The setting of valve 4 is to prevent the steam of main heating furnace body 1 is flowed back into water from preheating furnace body 2.

After hot water adds main heating furnace body 1, suitable amount of water is controlled by water-level detecting device 24, in pressure sensor 10th, under the control of master control borad 26 and auxiliary control panel 14, the heating of the first electric heating tube 11 is controlled, generates steam, pressure sensing Device 10, master control borad 26 and auxiliary control panel 14 control the startup of the first electric heating tube 11, stop.The steam of generation is defeated by pipeline Steam storage is sent to reheating furnace body 3.

Illustratively, the first electric heating tube 11 in main heating furnace body 1 contains two groups of electric heating tubes --- main heating tube With auxiliary heating tube.When steam demand amount is in reduced levels, main heating tube work；When steam demand amount is in high level When, auxiliary heating tube starts immediately and main heating tube works together, is met with the demand for ensureing steam.Particularly, herein Steam demand amount be by user according to flatiron object species and characteristic set by the pressure set key 29 on operation panel It puts, and the master control borad 26 of equipment sets according to this through pressure sensor 10, auxiliary control panel 14 that the first electricity is controlled to add The start and stop of two groups of electric heating tubes in heat pipe 11 determine to obtain suitable steam, both ensure that optimal ironing effect, realized Energy saving purpose.

Steam of the steam storage with reheating furnace body 3 is transported to, in pressure sensor 10, master control borad 26 and auxiliary control panel Under 14 control, control three electric heating tubes 13 carry out reheating to steam.Such way is not only effectively guaranteed steam Enough storages and steam saturation degree, and also assure the stability on steam pressure and temperature index.

The steam storage and reheating module 203, store for the steam and add with the 3rd electricity reheated in furnace body 3 Heat pipe 13 in pressure sensor 10, master control borad and under aiding in the control of control panel, to main heating furnace body 1 steam that comes of conveying into Row heats again；

Wherein, the steam storage is additionally operable to reheating module 203：

It is transported to steam of the steam storage with reheating furnace body 3, under the control of the pressure sensor 10, control Electric heating tube three electric heating tubes 13 carry out reheating to the steam；

The steam of the main heating furnace body 1 stores the bottom with reheating furnace body 3 by the steam, is reheated；

After the steam heating, first store through the steam and exported with the top for reheating furnace body 3.

Illustratively, in order to ensure the stability and mass dryness fraction of steam output, this structure employ independent steam storage with Furnace body 3 is reheated, the steam that main heating furnace body 1 generates is transported to steam storage and is handled with reheating furnace body 3：

The in vivo three electric heating tubes 13 of stove pressure sensor 10, master control borad 26 and aid in control panel 14 control under, The steam of main heating furnace body 1 conveying is heated again.

It conveys the steam to come and stores and reheat the heating of three electric heating tubes 13 in furnace body 3 by steam, keep foot Enough storage capacitys and saturation degree, it is achieved thereby that steam stablizes output.

Moreover, the vapor (steam) temperature of the saturation after heating again is high, moisture is few, also saved while improving ironing efficiency The energy also solves the overly wet subsequent drying process problem of flatiron.

Equipped with safety devices such as pressure switch 18, Temperature protections 19 on furnace body, the safety of equipment is protected.

Bottom of furnace body is equipped with the second blowoff electromagnetic valve 8, and come off duty carries out automatic pollution discharge daily to furnace body.

Multi-stove bodies combine, and each furnace body is done sufficiently small, according to different functional requirements, sets suitable furnace body temperature, Static thermal losses caused by reducing when furnace body is huge, amount of water is big, heating tube power is big, saves electric energy.

Multi-stove bodies combine, and have particularly been separately provided steam storage with reheating furnace body so that water and steam separation ensure Enough storages of steam and the saturation degree of steam avoid influencing ironing effect when rapidly losing temperature, decompression when work plus water.

Multi-stove bodies combine, and have particularly been separately provided water inlet preheating furnace body, it is ensured that intake and entering main heating furnace body It is preceding just to have passed through sufficient preheating so that main heating furnace body will not lose during the work time because of frequently cold water is added Warm decompression problem, it is ensured that steam is continually generated in main heating furnace body.

The steam output and flatiron module 204 convey what is come for receiving the steam storage with reheating furnace body 3 Steam, through 15 and (or) second steam electromagnetic valve 16 of the first steam electromagnetic valve, the steam pipe 37, the first iron and (or) Second iron, and be ejected to ironing fabrics after being heated again by 38 and (or) second iron 39 of the first iron and pressed；

The automatic pollution discharge module 205, for when recognizing trigger signal, opening the first blowoff electromagnetic valve 7 and second Blowoff electromagnetic valve 8 discharges the main heating furnace body 1 and steam storage with reheating waste water and remaining steam in furnace body 13；

Illustratively, when equipment is shut down every time, blowdown auxiliary control panel 14 can recognize off signal, shutdown it is same When, blowdown auxiliary control panel 14 opens the first blowoff electromagnetic valve 7 and the second blowoff electromagnetic valve 8.

The waste water of furnace interior and remaining steam under the effect of the pressure by the road, pass through the first blowoff electromagnetic valve 7 and the Two blowoff electromagnetic valves 8 are quickly discharged to blowdown tank and keep in, after blowdown, automatic power-off shutdown.

Per secondary device during shutdown, equipment can all carry out automatic pollution discharge, and personnel without waiting, can voluntarily leave, and solve equipment Manpower has been saved while scale problems.

Daily automatic pollution discharge, the remaining discharge of wastewater to have seethed with excitement in furnace body one day is clean, drastically reduce incrustation scale Formation, improve flatiron quality, the service life that reduces equipment failure rate, extend equipment.

The automatic desludging module 206, for detecting whether reach default scale removal condition, the default scale removal condition bag It includes：Cumulative operation time reaches preset time threshold, and in " come off duty key OFF " triggering state；If reach described preset to remove Dirty condition then starts default scale removal program according to the default scale removal condition.

Wherein, if described reach the default scale removal condition, default scale removal journey is started according to the default scale removal condition Sequence, including：

Waste water in the main heating furnace body 1 is exhausted by first blowoff electromagnetic valve 7, then passes through second blowdown Solenoid valve 8 exhausts the steam storage with reheating the waste water in furnace body 3；

By the switching of the second entering water electromagnetic valve 6, through first entering water electromagnetic valve from scale removal agent container 27 and water tank 5th, water pump 9 add water and scale remover to the water inlet preheating furnace body 2, the main heating furnace body 1 and steam storage with adding again Hot stove body 3 is heated, is impregnated, decomposes incrustation scale and cleaning.

Illustratively, after equipment cumulative operation time reaches given threshold, scale removal work, scale removal flow can be started：

The water in main heating furnace body 1 is exhausted by the first blowoff electromagnetic valve 7 first, then passes through 8 row of the second blowoff electromagnetic valve Fall steam storage with reheating the water in furnace body 3.

By the switching of the second entering water electromagnetic valve 6, the first entering water electromagnetic valve 5, water pump from scale removal agent container 27 and water tank 9, suitable water and scale remover is added, with reheating furnace body 3, to be carried out to water inlet preheating furnace body 2, main heating furnace body 1 and steam storage The automatic heating of sequencing impregnates, decomposes incrustation scale, cleaning.

Equipment is on the basis of daily blowdown, then carries out Periodic scale removal processing, perfectly solves the fouling of puzzlement industry Problem is greatly improved the service life of equipment, reduces the maintenance cost of equipment.

Illustratively, control switch pushes next key OFF position, and equipment is automatically closed all operation functions, automatically opens Blowdown valve when being discharged to 0.3KG/c ㎡ pressure, opens steam threshold switch, forms gas flow loop, allow the unimpeded blowdown of equipment, and blowdown 5 divides Zhong Hou is automatically shut power off.As long as control switch of coming off duty daily pulls out next key OFF, auxiliary control panel 14 carries out blowdown Function, a daily blowdown reduce equipment scaling probability, improve flatiron quality.

Wherein, decomposing incrustation scale includes, and the scale removing agent of this device-specific is housed in scale removal agent container 27, and scale remover passes through First entering water electromagnetic valve 5 and the second entering water electromagnetic valve 6 and water pump 9 preheat furnace body 2, main heating furnace body 1 and steam into water inlet Storage and reheating furnace body 3 and connected pipeline, and control the dilution ratio of scale remover and water and default temperature Degree.In the default time, scale remover generates chemical reaction with the incrustation scale adhered on furnace body and pipeline inner wall, and incrustation scale is broken down into Fine particle simultaneously comes off in waste water.

Wherein, the cleaning, specially：

Water inlet preheating furnace body 2, main heating furnace body 1, steam storage and reheating furnace body 3 after scale removal and pipeline are carried out At least secondary above wash cycles.

Unique automatic desludging mode reduces the problem of artificial scale removal, solves industry device dirt and does not remove problem, significantly Improve equipment practicability, stability.

Wherein, the display module 207, for being carried according to the different working condition of equipment and phenomenon of the failure into line code It wakes up.

Wherein, code includes：Auto sleep wake-up, failure code and operation code.

Auto sleep wake-up has：If 2 switching signals are not detected in steam cock, steam cock or iron electricity are pressed Source key can wake-up master and corresponding iron, normal operating conditions is entered after wake-up；Switching signal includes：If in 2 minutes, there is one It is a that switching signal is not detected, then it corresponds to iron and carries out dormancy；In 5 minutes, boiler enters dormancy, and (setting pressure is not arrived in just start Except value)；In 30S, preheating enters dormancy, (just during start, preheating does not work).

Failure code includes：Steam valve failure, blowdown valve failure, water valve failure, heating tube failure, pressure sensor event Barrier；Steam valve failure has switching signal, and 20S shows failure code, failure generation without apparent Pressure Fluctuation Signal, then corresponding temperature area Code F1；Blowdown valve failure has blowdown signal, and 20S is interior without boiler pressure, hence it is evident that declines, then panel red lamp bar flicker alarm, stops Machine, failure code all show simultaneously in dual temperature zones, not voice reminder, failure code F2；Water valve failure, water pump continuous work More than 300 seconds, there are no water level signal is detected, then panel red lamp bar flicker alarm, shut down, failure code is all in dual temperature It spends area to show simultaneously, not voice reminder, failure code F3；Heating tube failure rises for 5 minutes without apparent pressure, and 5 minutes without apparent Sensing electric current, the flicker alarm of panel red lamp bar is shut down, and failure code is all shown simultaneously in dual temperature zones, not voice reminder, Failure code F4；Pressure sensor failure rises for 5 minutes without apparent pressure, there is within 5 minutes apparent sensing electric current, panel red colored lamp Item flicker alarm, shuts down, failure code is all shown simultaneously in dual temperature zones, not voice reminder, failure code F5.

Operation code includes：Water shortage, scale removal；Water shortage is audio alert, and 10S is reported once, please add water；When scale remover lacks, Audio alert, 10S are reported once, please add scale remover.

Present embodiment discloses a kind of energy-conserving intelligent ironing system, the energy-conserving intelligent ironing system includes：Intelligence Water supply module, water inlet pre-heating module, steam storage with reheat module, steam output with flatiron module, automatic pollution discharge module, Automatic desludging module and working condition and failure code display module；The intelligent water supply module, it is real for managing water inlet system Now to the dynamic control of water inlet opportunity, inflow temperature and inflow；The water inlet pre-heating module, it is pre- for being carried out to water inlet It first heats, it is ensured that it is into main heating furnace body is high-temperature-hot-water；The steam storage is with reheating module, for main heating furnace The steam that body conveying comes is heated again, it is ensured that steam stablizes output；The automatic pollution discharge module, for identifying During to trigger signal, the main heating furnace body and steam storage and the in vivo waste water of reheating furnace and entrained steam are discharged；It is described Automatic desludging module, for starting default scale removal program according to default scale removal condition, automatically to furnace body, the electric heating tube in equipment Incrustation scale removing is carried out with pipeline；So-called display module, for human-computer interaction.

The technical principle of the utility model embodiment is described above in association with specific embodiment.These descriptions are intended merely to solve The principle of the utility model embodiment is released, and the limit to the utility model embodiment protection domain cannot be construed in any way System.Based on explanation herein, those skilled in the art, which would not require any inventive effort, can associate the utility model Other specific embodiments of embodiment, these modes are fallen within the protection domain of the utility model embodiment.

Claims (10)

1. a kind of boiler safety protection device, which is characterized in that described device includes：

Main heating furnace body (1), steam storage are protected with reheating furnace body (3), water inlet preheating furnace body (2), check valve (4) and safety Protect module；

The main heating furnace body (1) connects the steam storage with reheating furnace body (3)；

The main heating furnace body (1) and the water inlet preheating furnace body (2) are connected respectively with the check valve (4)；

The main heating furnace body (1) is connected with the security protection module；

The security protection module includes at least pressure sensor (10), pressure switch (18), safety valve (17), Thermal Cutoffs (19) and temperature sensor (21).

2. boiler safety protection device according to claim 1, which is characterized in that the pressure sensor (10) is used for When the boiler reaches setup pressure value, stop heating.

3. boiler safety protection device according to claim 2, which is characterized in that the pressure switch, for described When pressure sensor (10) is in off working state, the heating system of the main heating furnace body (1) is disconnected.

4. boiler safety protection device according to claim 3, which is characterized in that the safety valve, if for the pressure When power switch is in off working state, outwards lose heart.

5. boiler safety protection device according to claim 1, which is characterized in that the Thermal Cutoffs, for working as When stating the temperature of main heating furnace body (1) and reaching preset temperature value, the heating system of the main heating furnace body (1) is disconnected.

6. a kind of energy-conserving intelligent ironing system, which is characterized in that the energy-conserving intelligent ironing system includes：Claim 1 To boiler safety protection device, automatic pollution discharge module and the automatic desludging module described in 5 any one；

The automatic pollution discharge module, for when recognizing trigger signal, opening the first blowoff electromagnetic valve (7) and the second blowdown Solenoid valve (8) discharges water and steam in the water inlet preheating furnace body (2)；

The automatic desludging module, including detection module and starting module；The detection module is connected with the starting module.

7. energy-conserving intelligent ironing system according to claim 6, which is characterized in that

The detection module, for detecting whether reaching default scale removal condition, the default scale removal condition includes：During cumulative activation Between reach preset time threshold, and in " next key " triggering state；

If the starting module for reaching the default scale removal condition, starts default remove according to the default scale removal condition Dirty program.

8. energy-conserving intelligent ironing system according to claim 6, which is characterized in that the starting module is specifically used for：

Water in the main heating furnace body (1) is exhausted by first blowoff electromagnetic valve (7), then passes through second blowdown electricity Magnet valve (8) exhausts the steam storage with reheating the water in furnace body (3)；

By the switching of second solenoid valve (6), through the first solenoid valve (5), water pump (9) from scale removal agent container (27) and water tank, Add water and scale remover to the water inlet preheating furnace body (2), the main heating furnace body (1) and steam storage and reheating furnace Body (3), is heated, impregnated and is cleaned.

9. energy-conserving intelligent ironing system according to claim 8, which is characterized in that the cleaning includes：

To after scale removal water inlet preheating furnace body (2), main heating furnace body (1), steam storage with reheat furnace body (3) and pipeline into The secondary secondary wash cycles of row.

10. energy-conserving intelligent ironing system according to claim 6, which is characterized in that the intelligence ironing system is also used In：It is reminded according to different work and phenomenon of the failure into line code.