CN105496265A - Intelligent energy-saving radiator bathtub application method - Google Patents

Intelligent energy-saving radiator bathtub application method Download PDF

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Publication number
CN105496265A
CN105496265A CN201510853425.1A CN201510853425A CN105496265A CN 105496265 A CN105496265 A CN 105496265A CN 201510853425 A CN201510853425 A CN 201510853425A CN 105496265 A CN105496265 A CN 105496265A
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China
Prior art keywords
bathtub
controller
water
inner casing
temperature
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Granted
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CN201510853425.1A
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Chinese (zh)
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CN105496265B (en
Inventor
郑景文
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Nantong Haihua Building Material Co ltd
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Individual
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    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47KSANITARY EQUIPMENT NOT OTHERWISE PROVIDED FOR; TOILET ACCESSORIES
    • A47K3/00Baths; Douches; Appurtenances therefor
    • A47K3/02Baths
    • A47K3/04Built-in baths
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24DDOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
    • F24D13/00Electric heating systems
    • F24D13/04Electric heating systems using electric heating of heat-transfer fluid in separate units of the system
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24DDOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
    • F24D19/00Details
    • F24D19/10Arrangement or mounting of control or safety devices
    • F24D19/1096Arrangement or mounting of control or safety devices for electric heating systems
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24HFLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
    • F24H1/00Water heaters, e.g. boilers, continuous-flow heaters or water-storage heaters
    • F24H1/18Water-storage heaters
    • F24H1/20Water-storage heaters with immersed heating elements, e.g. electric elements or furnace tubes
    • F24H1/201Water-storage heaters with immersed heating elements, e.g. electric elements or furnace tubes using electric energy supply
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24HFLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
    • F24H9/00Details
    • F24H9/0005Details for water heaters
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24HFLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
    • F24H9/00Details
    • F24H9/18Arrangement or mounting of grates or heating means
    • F24H9/1809Arrangement or mounting of grates or heating means for water heaters
    • F24H9/1818Arrangement or mounting of electric heating means
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24HFLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
    • F24H9/00Details
    • F24H9/20Arrangement or mounting of control or safety devices
    • F24H9/2007Arrangement or mounting of control or safety devices for water heaters
    • F24H9/2014Arrangement or mounting of control or safety devices for water heaters using electrical energy supply
    • F24H9/2021Storage heaters
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24DDOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
    • F24D2200/00Heat sources or energy sources
    • F24D2200/08Electric heater

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Epidemiology (AREA)
  • General Health & Medical Sciences (AREA)
  • Control For Baths (AREA)

Abstract

The invention relates to an intelligent energy-saving radiator bathtub application method. An intelligent energy-saving radiator bathtub comprises a heat-dissipation bathtub and a controller, the heat-dissipation bathtub comprises a double-layer bathtub, a bathtub mat, a heat supply solenoid valve, an electric water drain valve and a water supply solenoid valve, and the controller is provided with a water supply button, a water draining button, a heat supply button, a temperature sensor, a liquid level sensor, an inductive switch, a Bluetooth device, a temperature controller and an intelligent control switch. The double-layer bathtub is provided with a sealed cavity, when the intelligent energy-saving radiator bathtub serves as a radiator, hot water of a heating system is introduced into the sealed cavity, and heat is dissipated into the indoor space through an inner cylinder of the double-layer bathtub; when intelligent energy-saving radiator bathtub s used for shower or bath, tap water is put into the double-layer bathtub, and the hot water of the heating system heats the tap water through the inner cylinder; the intelligent energy-saving radiator bathtub is controlled remotely and intelligently through a mobile phone and the Internet, the intelligent energy-saving radiator bathtub is controlled to work in advance when the user is outdoor, and hot water is prepared in advance.

Description

The using method of intelligent power saving radiator bathtub
Technical field
The present invention relates to a kind of using method of bathtub, particularly a kind of using method of intelligent power saving radiator bathtub.
Background technology
At present, the bathtub that people use, just uses as bathing, particularly in the north, if bathtub uses as radiator, not only can save the material of radiator, meanwhile, also can save indoor limited space; There is a using method for the intelligent power saving radiator bathtub of radiator function, become people and saved radiator material resource and joint space-efficient needs.
Summary of the invention
The object of the invention is to overcome the deficiencies in the prior art, providing a kind of intelligent power saving radiator bathtub using method, for saving radiator material resource.
The technical solution adopted in the present invention is: intelligent power saving radiator bathtub, include heat radiation bathtub and controller, heat radiation bathtub includes double-layer bathtub, bathtub mat, supplies thermoelectrical magnetic valve, the first check valve, the second check valve, Manual water drain valve, electronic discharging valve and water supply electromagnetic valve; Double-layer bathtub is connected and composed by outer shell and inner casing, is provided with sealing die cavity between outer shell and inner casing, and be provided with hot water in sealing die cavity, bathtub mat is positioned at inner casing, avoids bather directly to step down on inner casing, is scalded by inner casing; Be provided with heat conduction space between bathtub mat and inner casing, bathtub mat is provided with thermal hole, and thermal hole is communicated with heat conduction space, makes room air or bath water can enter heat conduction space by thermal hole; First check valve is connected with for thermoelectrical magnetic valve, be connected with outer shell for thermoelectrical magnetic valve, be communicated with sealing die cavity for thermoelectrical magnetic valve, outer shell is connected with the second check valve, second check valve is communicated with sealing die cavity, first check valve is connected with the water inlet pipe of heating system, and the second check valve is connected with the return pipe of heating system; Inner casing is connected with Manual water drain valve and electronic discharging valve, the water inlet of Manual water drain valve and electronic discharging valve is positioned at the cylinder bottom of inner casing, Manual water drain valve and electronic discharging valve are connected with downcomer, and water supply electromagnetic valve is connected with running water pipe, and the delivery port of water supply electromagnetic valve is towards bathtub mat; Controller is provided with water supply button, drain button, heat supply button, temperature sensor, temperature indicator, liquid level sensor, inductive switch, blue-tooth device, temperature controller and intelligent control switch, temperature sensor and liquid level sensor are positioned at inner casing, inductive switch is positioned at the cylinder bottom of inner casing, and temperature controller is located at indoor; Controller is connected with for thermoelectrical magnetic valve, electronic discharging valve and water supply electromagnetic valve by control line; The state of a control of controller includes Non-follow control state and Based Intelligent Control state.
The using method of intelligent power saving radiator bathtub is: when intelligent power saving radiator bathtub uses as radiator, when controller is Non-follow control state, click heat supply button, heat supply button by its Signal transmissions to controller, controller controls to open for thermoelectrical magnetic valve, the hot water of heating system enters the sealing die cavity between outer shell and inner casing by the first check valve and for thermoelectrical magnetic valve, hot water is made to be full of sealing die cavity, hot water is got back to the return pipe of heating system after entering full sealing die cavity by the second check valve; Heat is delivered to inner casing by hot water, heat is radiated between bathtub mat and inner casing to heat conduction space by inner casing, by the air heat in heat conduction space, the air of heating is again by thermal hole and the indoor air convection of bathtub mat, room air is heated, intelligent power saving radiator bathtub is used as radiator; When needing to stop heat supply, then press a heat supply button, heat supply button is by its Signal transmissions to controller, and controller controls heat supply closed electromagnetic valve; When intelligent power saving radiator bathtub uses as bathing, click water supply button, water supply button by its Signal transmissions to controller, controller controls water supply electromagnetic valve and opens, running water is put into double-layer bathtub and is used as bath water by water supply electromagnetic valve, bath water flows into the heat conduction space between inner casing and bathtub mat by the thermal hole of bathtub mat, makes the heat conduction space between bathtub mat and inner casing be full of bath water; When the water level arrival of inner casing requires, then click water supply button, water supply button is by its Signal transmissions to controller, and controller controls water supply electromagnetic valve and cuts out, and supplies water and stops; Simultaneously, heat is delivered to inner casing by the hot water in sealing die cavity, inner casing by the bath water heating in heat conduction space, by the bath water heat exchange by thermal hole and other positions of the bath water that heats in heat conduction space, utilize inner casing by bath water heating, for user provides bath hot water.
When intelligent power saving radiator bathtub uses as bathing or bathing Based Intelligent Control, utilize intelligent control switch that controller is set and enter Based Intelligent Control state, controller controls water supply electromagnetic valve and opens, and running water is put in the inner casing of double-layer bathtub by water supply electromagnetic valve, uses as bath water; When the water level of inner casing arrives the liquid level of the control of liquid level sensor, liquid level sensor is by its Signal transmissions to controller, and controller controls water supply electromagnetic valve and cuts out, and water supply electromagnetic valve stops putting into running water; Simultaneously, controller controls to open for thermoelectrical magnetic valve, and the hot water of heating system enters the sealing die cavity between outer shell and inner casing by the first check valve and for thermoelectrical magnetic valve, makes hot water be full of sealing die cavity, hot water is got back to the return pipe of heating system after entering full sealing die cavity by the second check valve; Heat is delivered to inner casing by hot water, heat is delivered to the bath water in heat conduction space by inner casing, heat is delivered to the bath water of non-conductive locus by the bath water in heat conduction space by the thermal hole of bathtub mat, by the bath water heating of inner casing, for user provides bath hot water; When bath water heating is to during higher than the temperature upper limit set, temperature sensor is by its Signal transmissions to controller, and controller controls heat supply closed electromagnetic valve, for user provides the bath water of applicable bathing temperature; Bathing or bathing complete, utilize controller to control electronic discharging valve and open, the bath water above inner casing is discharged to downcomer through electronic discharging valve.
The invention has the beneficial effects as follows: intelligent power saving radiator bathtub does not have double-layer bathtub and controller, and double-layer bathtub is provided with sealing die cavity; When using as radiator, the hot water of heating system is passed in sealing die cavity, utilize the inner casing of double-layer bathtub to distribute in the interior space by heat; When using as bathing or bathing, running water is put into double-layer bathtub, utilize the hot water of heating system by inner casing by tap water heating, use as bath water; Controller is provided with temperature sensor, liquid level sensor and blue-tooth device, implements the Based Intelligent Control of intelligent power saving radiator bathtub; And utilize mobile phone and the Based Intelligent Control of internet enforcement to controller, control the work of intelligent power saving radiator bathtub outside in advance, get hot water ready in advance.
Accompanying drawing explanation
Fig. 1 is the structural representation of intelligent power saving radiator bathtub.
Detailed description of the invention
Below in conjunction with accompanying drawing, the present invention is further detailed:
The structural representation of the intelligent power saving radiator bathtub shown in Fig. 1, intelligent power saving radiator bathtub includes heat radiation bathtub 1 and controller 2, and heat radiation bathtub 1 includes double-layer bathtub 3, bathtub mat 4, supplies thermoelectrical magnetic valve 5, first check valve 6, second check valve 7, Manual water drain valve 8, electronic discharging valve 9 and water supply electromagnetic valve 10; Double-layer bathtub 3 is connected and composed by outer shell 11 and inner casing 12, is provided with and seals die cavity 13 between outer shell 11 and inner casing 12, and in sealing die cavity, 13 are provided with hot water, and bathtub mat 4 is positioned at inner casing 12, avoids bather directly to step down on inner casing 12, is scalded by inner casing 12; Be provided with heat conduction space 14 between bathtub mat 4 and inner casing 12, bathtub mat 4 is provided with thermal hole 15, and thermal hole 15 is communicated with heat conduction space 14, makes room air or bath water can enter heat conduction space 14 by thermal hole 15; First check valve 6 is connected with for thermoelectrical magnetic valve 5, be connected with outer shell 11 for thermoelectrical magnetic valve 5, be communicated with sealing die cavity 13 for thermoelectrical magnetic valve 5, outer shell 11 is connected with the second check valve 7, second check valve 7 is communicated with sealing die cavity 13, first check valve 6 is connected with the water inlet pipe 16 of heating system, and the second check valve 7 is connected with the return pipe 17 of heating system; Inner casing 12 is connected with Manual water drain valve 8 and electronic discharging valve 9, and Manual water drain valve 8 and electronic discharging valve 9 are connected with downcomer 18, for being drained by the bath water of inner casing 12; Water supply electromagnetic valve 10 is connected with running water pipe 19, the delivery port of water supply electromagnetic valve 10 towards bathtub mat 4, for putting into running water to inner casing 12; Controller 2 is provided with water supply button 20, drain button 21, heat supply button 22, temperature sensor 23, temperature indicator 24, liquid level sensor 25, inductive switch 26, blue-tooth device 27, temperature controller 28 and Based Intelligent Control button 29, temperature sensor 23 and liquid level sensor 25 are positioned at inner casing 12, inductive switch 26 is positioned at the cylinder bottom 30 of inner casing 12, and temperature controller 28 is located at indoor; Controller 2 is connected with for thermoelectrical magnetic valve 5, electronic discharging valve 9 and water supply electromagnetic valve 10 by control line; Controller 2 includes Non-follow control state and Based Intelligent Control state, and during Based Intelligent Control state, controller 2 is contacted by blue-tooth device 27 and internet and mobile phone, utilizes the work of mobile phone and internet-based control controller 2; To implement the Based Intelligent Control of intelligent power saving radiator bathtub.
The using method of intelligent power saving radiator bathtub is: when intelligent power saving radiator bathtub uses as radiator Non-follow control state, click heat supply button 22, heat supply button 22 by its Signal transmissions to controller 2, controller 2 controls to open for thermoelectrical magnetic valve 5, the hot water of heating system enters the sealing die cavity 13 between outer shell 11 and inner casing 12 by the first check valve 6 and for thermoelectrical magnetic valve 5, hot water is made to be full of sealing die cavity 13, after hot water enters full sealing die cavity 13, got back to the return pipe 17 of heating system by the second check valve 7; Heat is delivered to inner casing 12 by hot water, heat is radiated between bathtub mat 4 and inner casing 12 to heat conduction space 14 by inner casing 12, by the air heat in heat conduction space 14, the air of heating is again by thermal hole 15 and the indoor air convection of bathtub mat 4, room air is heated, intelligent power saving radiator bathtub is used as radiator; When needing to stop heat supply, then press a heat supply button 22, heat supply button 22 is by its Signal transmissions to controller 2, and controller 2 controls to cut out for thermoelectrical magnetic valve 5.
When intelligent power saving radiator bathtub uses as bathing, click water supply button 20, water supply button 20 by its Signal transmissions to controller 2, controller 2 controls water supply electromagnetic valve 10 and opens, running water is put into double-layer bathtub 3 and is used as bath water by water supply electromagnetic valve 10, bath water flows into the heat conduction space 14 between inner casing 12 and bathtub mat 4 by the thermal hole 15 of bathtub mat 4, makes the heat conduction space 14 between bathtub mat 4 and inner casing 12 be full of bath water; When the water level arrival of inner casing 12 requires, then click water supply button 20, water supply button 20 is by its Signal transmissions to controller 2, and controller 2 controls water supply electromagnetic valve 10 and cuts out, and supplies water and stops; Simultaneously, heat is delivered to inner casing 12 by the hot water in sealing die cavity 13, inner casing 12 is by the bath water heating in heat conduction space 14, in heat conduction space 14 by the bath water that heats by the bath water heat exchange of thermal hole 15 with other positions, utilize inner casing 12 by bath water heating, for user provides bath hot water;
In order to control the temperature of bath water, after the bath water of inner casing 12 is heated, the temperature sensor 23 being located at inner casing 12 is by its Signal transmissions to controller 2, and the temperature indicator 24 of controller 2 shows the temperature of bath water; When the temperature of bath water reaches the temperature of setting, utilize the heat supply button 22 of controller 2 to close for thermoelectrical magnetic valve 5, the hot water of heating system stops at flowing in sealing die cavity 13, avoids bath water temperature to continue to rise; After inner casing 12 bath water temperature reaches the temperature of setting, bather enters heat radiation bathtub 1, is sitting in or lies on bathtub mat 4, carry out bathing or bathing, avoid human body to contact with inner casing 12; Along with the continuous decline of bath water temperature, when needing heating bath water, again heat supply button 22 is clicked, heat supply button 22 is by its Signal transmissions to controller 2, and controller 2 controls to open for thermoelectrical magnetic valve 5, the hot water flowing in sealing die cavity 13 again of heating system, hot water transfers heat to inner casing 12, inner casing 12 transfers heat to bath water, when the temperature of bath water reaches the temperature of setting, utilizes heat supply button 22 to close for thermoelectrical magnetic valve 5; So constantly circulation.
In order to implement to provide heat source of hot water to heat radiation bathtub 1, the water inlet pipe 16 of heating system is connected with the water inlet of the first check valve 6, the delivery port of the first check valve 6 is connected with the water inlet for thermoelectrical magnetic valve 5, delivery port for thermoelectrical magnetic valve 5 is connected with outer shell 11, and the delivery port for thermoelectrical magnetic valve 5 is communicated with sealing die cavity 13; The water inlet of the second check valve 7 is connected with outer shell 11, and the water inlet of the second check valve 7 is communicated with sealing die cavity 13, and the delivery port of the second check valve 7 is connected with the return pipe 17 of heating system.
In order to the function making heat radiation bathtub 1 have radiator, make inner casing 12 have good heat conductivility, and outer shell 11 has good heat-proof quality, reduce the loss of heat, inner casing 12 is made up of Heat Conduction Material, and Heat Conduction Material includes aluminium alloy or stainless steel; Outer shell 11 is made up of non-thermally conductive material, and non-thermally conductive material includes pottery, resin and plastics, is provided with hollow molded cavity, improves its heat-proof quality in pottery, resin and plastics.
In order to the direction of the inflow and outflow that control the hot water of heating system, the conducting direction of the first check valve 6 points to for thermoelectrical magnetic valve 5 by the water inlet pipe 16 of heating system, not conducting in the other direction; Second check valve 7 conducting direction is the return pipe 17 being pointed to heating system by sealing die cavity 13, not conducting in the other direction;
In order to can not inner casing 12 bath water overflow, inner casing 12 upper end is provided with spilling water joint 37, and spilling water joint 37 is connected with downcomer 18; When the bath water of inner casing 12 exceedes the position of spilling water joint 37, spilling water joint 37 is discharged to downcomer 18 by bath water.
When intelligent power saving radiator bathtub uses as bathing or bathing Based Intelligent Control, press a Based Intelligent Control button 29 to arrange controller 2 and enter Based Intelligent Control state, controller 2 controls water supply electromagnetic valve 10 and opens, the inner casing 12 li of double-layer bathtub 3 put into by running water by water supply electromagnetic valve 10, uses as bath water; When the water level of inner casing 12 arrives the liquid level of the control of liquid level sensor 25, liquid level sensor 25 is by its Signal transmissions to controller 2, and controller 2 controls water supply electromagnetic valve 10 and cuts out, and water supply electromagnetic valve 10 stops putting into running water; Simultaneously, controller 2 controls to open for thermoelectrical magnetic valve 5, the hot water of heating system enters the sealing die cavity 13 between outer shell 11 and inner casing 12 by the first check valve 6 and for thermoelectrical magnetic valve 5, hot water is made to be full of sealing die cavity 13, after hot water enters full sealing die cavity 13, got back to the return pipe 15 of heating system by the second check valve 7; Heat is delivered to inner casing 12 by hot water, heat is delivered to the bath water in heat conduction space 14 by inner casing 12, heat is delivered to the bath water of position, non-conductive space 14 by the bath water in heat conduction space 14 by the thermal hole 15 of bathtub mat 4, by the bath water heating of inner casing 12, for user provides bath hot water; When bath water heating is to during higher than the temperature upper limit set, temperature sensor 23 is by its Signal transmissions to controller 2, and controller 2 controls to cut out, for user provides the bath water of applicable bathing temperature for thermoelectrical magnetic valve 5; Bathing or bathing complete, then press a Based Intelligent Control button 29, Based Intelligent Control button 29 is by its Signal transmissions to controller 2, and controller 2 controls electronic discharging valve 9 and opens, and the bath water above inner casing 12 is discharged to downcomer 18 through electronic discharging valve 9; Meanwhile, controller 2 exits Based Intelligent Control state.
In order to implement the Long-distance Control of intelligent power saving radiator bathtub, after controller 2 exits Based Intelligent Control state, user utilizes mobile phone and controller 2 to contact, controller 2 is issued in the instruction preparing bath hot water, after controller 2 receives the instruction of mobile phone, controller 2 controls water supply electromagnetic valve 10 and opens, running water is put into the inner casing 12 li of double-layer bathtub 3, when the water level of inner casing 12 rises to liquid level sensor 25, liquid level sensor 25 is by its Signal transmissions to controller 2, and controller 2 controls water supply electromagnetic valve 10 and cuts out; Meanwhile, controller 2 controls to open for thermoelectrical magnetic valve 5, and the hot water of heating system enters sealing die cavity 13, and then hot water is by the return pipe 15 completely sealing die cavity 13 and get back to heating system; Utilize the hot water of heating system by bath water heating, for user gets out bath hot water in advance, implement the long-distance intelligent control of intelligent power saving radiator bathtub.
When intelligent power saving radiator bathtub uses as bathing or bathing Based Intelligent Control, when user's bathing or bathing, along with constantly distributing of heat radiation bathtub 1 bath water heat, when the temperature of bath water is lower than the lowest temperature set, temperature sensor 23 by its Signal transmissions to controller 2, controller 2 controls to open for thermoelectrical magnetic valve 5, and the hot water of heating system recovers flowing in sealing die cavity 13, and bath water is heated by inner casing 12 by the hot water of heating system again; Along with the continuous rising of bath water temperature, when the temperature of bath water rises to the temperature upper limit of setting, temperature sensor 23 is by its Signal transmissions to controller 2, and controller 2 controls to cut out for thermoelectrical magnetic valve 5; So constantly circulation, controls in the scope of setting by the temperature of bath water, implement the Based Intelligent Control of bath water temperature.
When intelligent power saving radiator bathtub uses as radiator Based Intelligent Control, after the bath water of inner casing 12 is drained, utilize intelligent control switch 29 that controller 2 is set and enter Based Intelligent Control state, controller 2 controls to open for thermoelectrical magnetic valve 5, the hot water of heating system is by the sealing die cavity 13 entered for thermoelectrical magnetic valve 5 between outer shell 11 and inner casing 12, and then hot water is got back to the return pipe 17 of heating system by the second check valve 7; Double-layer bathtub 3 is used as radiator, utilizes inner casing 12 to be heated by room air; When the temperature of indoor reaches the temperature of setting, temperature controller 28 is by its Signal transmissions to controller 2, and controller 2 cuts out for thermoelectrical magnetic valve 5, implements the Based Intelligent Control of intelligent power saving radiator bathtub heating.
In order to implement to be drained by the bath water of inner casing 12, the water inlet of Manual water drain valve 8 and electronic discharging valve 9 is positioned at the cylinder bottom 30 of inner casing 12, and the delivery port of Manual water drain valve 8 and electronic discharging valve 9 is connected with downcomer 18; In order to implement to put into running water from trend heat radiation bathtub 1, the water inlet of water supply electromagnetic valve 10 is connected with running water pipe 19, and the delivery port of water supply electromagnetic valve 10 is towards inner casing 12; In order to control the liquid level of heat radiation bathtub 1, liquid level sensor 25 includes the first liquid level sensor 31 and the second liquid level sensor 32, first liquid level sensor 31 is positioned at above the second liquid level sensor 32, first liquid level sensor 31 is positioned at the top of inner casing 12, the position of the first liquid level sensor 31 is lower than the position of spilling water joint 37, second liquid level sensor 32 is positioned at the middle part of inner casing 12, for controlling the water level of heat radiation bathtub 1.
For making the bath water in inner casing 12 have different water levels to select, controller 2 is provided with liquid level selector switch 41, and liquid level selector switch 41 is provided with the first gear and the second gear; First gear of liquid level selector switch 41 is connected with the first liquid level sensor 31, and when liquid level selector switch 41 pushes the position of the first gear, the first liquid level sensor 31 is connected with the control circuit of controller 2 by liquid level selector switch 41; Second gear of liquid level selector switch 41 is connected with the second liquid level sensor 32, and when liquid level selector switch 41 pushes the position of the second gear, the second liquid level sensor 32 is connected with the control circuit of controller 2 by liquid level selector switch 41.
Controller 2 controls water supply electromagnetic valve 10 when putting running water, and bather selects water level according to demand; When needs high water level, liquid level selector switch 41 is pushed the position of the first gear; Controller 2 controls water supply electromagnetic valve 10 and opens, and running water is put into the inner casing 12 li of double-layer bathtub 3; When water level arrives the first liquid level sensor 31, the first liquid level sensor 31 passes through liquid level selector switch 41 by its Signal transmissions to controller 2, and controller 2 controls water supply electromagnetic valve 10 and cuts out, and running water stops putting into; When needs low water level, liquid level selector switch 41 is pushed the position of the second gear; Controller 2 controls water supply electromagnetic valve 10 and opens, and running water is put into the inner casing 12 li of double-layer bathtub 3; When water level arrives the second liquid level sensor 32, the second liquid level sensor 32 passes through liquid level selector switch 41 by its Signal transmissions to controller 2, and controller 2 controls water supply electromagnetic valve 10 and cuts out, and running water stops putting into.
In order to ensure the normal use of intelligent power saving radiator bathtub, the original state for thermoelectrical magnetic valve 5, water supply electromagnetic valve 10, Manual water drain valve 8 and electronic discharging valve 9 is: be in closed condition for thermoelectrical magnetic valve 5, water supply electromagnetic valve 10, Manual water drain valve 8 and electronic discharging valve 9.
In order to detect bathtub mat 4 whether someone enter bathing and avoid bathtub mat 4 glutinous with inner casing 12 together with, bathtub mat 4 is provided with foot pad 33, be provided with Compress Spring 34 between bathtub mat 4 and inner casing 12, the upper end of Compress Spring 34 contacts with bathtub mat 4, and the lower end of Compress Spring 34 contacts with inner casing 12; The height of Compress Spring 34 is greater than the thickness of foot pad 33; Bathtub mat 4, under the effect of Compress Spring 34 elastic force, makes to form a heat conduction space 14 between the cylinder bottom 30 of cylinder pad 4 and inner casing 12.
In order to avoid people are in the process of bathing or bathing, malfunctioning for thermoelectrical magnetic valve 5, can not close, water temperature rises, and scald bather, bathtub mat 4 is provided with induction pieces 35, and induction pieces 35 is positioned at the top of inductive switch 26, and controller 2 is provided with temperature alarm 36; When intelligent power saving radiator bathtub Based Intelligent Control uses, bather lies in bathtub mat 4 bathing, the gravity of human body overcomes the elastic force of Compress Spring 34, bathtub mat 4 is declined, make induction pieces 35 close to inductive switch 26, bather to controller 2, is passed to controller 2 in the information of heat radiation bathtub 1 bathing by its Signal transmissions by inductive switch 26; When malfunctioning for thermoelectrical magnetic valve 5, the temperature of bath water exceedes the upper of design temperature and prescribes a time limit, and temperature sensor 23 is by its Signal transmissions to controller 2, and controller 2 control temperature alarm 36, reminds user to stop bathing.
A heat conduction space 14 is maintained in order to make inner casing 12 and bathtub mat 4, when bather lies in bathtub mat 4 bathing, bathtub mat 4 overcomes Compress Spring 34 and declines, when the foot pad 33 of bathtub mat 4 contacts with inner casing 12, bathtub mat 4 stops declining, make bathtub mat 4 and inner casing 12 maintain a heat conduction space 14, avoid human body to contact with inner casing 12.
In order to the manual drain of the bath water by inner casing 12, when electronic discharging valve 9 damages, open Manual water drain valve 8, bath water is discharged to downcomer 18.
In order to improve the effect of heat insulation of outer shell 11, wrapping up in outside outer shell 11 and being surrounded by one layer of heat preservation cotton 38, for improving outer shell 11 effect of heat insulation; In order to improve the bonding strength of inner casing 12 and outer shell 11, inner casing 12 is provided with rabbet along 39, and rabbet is embedded into inside outer shell 11 along 39, makes inner casing 12 and outer shell 11 be tightly connected integral; In order to ensure the intensity of heat radiation bathtub 1, inner casing 12 is provided with reinforcement 40, reinforcement 40 is fixedly connected with inner casing 12 and outer shell 12, reinforcement 40 is made up of aluminium alloy or stainless steel, reinforcement 40 welds with inner casing 12, reinforcement 40 embeds outer shell 5 li, and reinforcement 40 is linked together by adhesive and outer shell 5; Reinforcement 40 is provided with many, and reinforcement 40 is distributed near closed hollow ring 13.

Claims (8)

1. the using method of intelligent power saving radiator bathtub, intelligent power saving radiator bathtub includes heat radiation bathtub (1) and controller (2), and heat radiation bathtub (1) includes double-layer bathtub (3), bathtub mat (4), supplies thermoelectrical magnetic valve (5), the first check valve (6), the second check valve (7), Manual water drain valve (8), electronic discharging valve (9) and water supply electromagnetic valve (10); Double-layer bathtub (3) is connected and composed by outer shell (11) and inner casing (12), be provided with between outer shell (11) and inner casing (12) and seal die cavity (13), heat conduction space (14) is provided with between bathtub mat (4) and inner casing (12), bathtub mat (4) is provided with thermal hole (15), and controller (2) is provided with temperature sensor (23), temperature indicator (24), liquid level sensor (25), inductive switch (26), blue-tooth device (27), temperature controller (28) and Based Intelligent Control button (29); Liquid level sensor (25) includes the first liquid level sensor (31) and the second liquid level sensor (32), and bathtub mat (4) is provided with foot pad (33), is provided with Compress Spring (34) between bathtub mat (4) and inner casing (12); It is characterized in that: the using method of described intelligent power saving radiator bathtub is: when intelligent power saving radiator bathtub uses as bathing or bathing Based Intelligent Control, press a Based Intelligent Control button (29) to arrange controller (2) and enter Based Intelligent Control state, controller (2) controls water supply electromagnetic valve (10) and opens, the inner casing (12) that double-layer bathtub (3) put into by running water by water supply electromagnetic valve (10) is inner, uses as bath water; When the water level of inner casing (12) arrives the liquid level of the control of liquid level sensor (25), liquid level sensor (25) by its Signal transmissions to controller (2), controller (2) controls water supply electromagnetic valve (10) and cuts out, and water supply electromagnetic valve (10) stops putting into running water; Simultaneously, controller (2) controls to open for thermoelectrical magnetic valve (5), the hot water of heating system enters the sealing die cavity (13) between outer shell (11) and inner casing (12) by the first check valve (6) and for thermoelectrical magnetic valve (5), hot water is made to be full of sealing die cavity (13), after hot water enters full sealing die cavity (13), got back to the return pipe (15) of heating system by the second check valve (7); Heat is delivered to inner casing (12) by hot water, heat is delivered to the bath water of heat conduction space (14) by inner casing (12), heat is delivered to the bath water of non-conductive space (14) position by the bath water in heat conduction space (14) by the thermal hole (15) of bathtub mat (4), by the bath water heating of inner casing (12), for user provides bath hot water; When bath water heating is to during higher than the temperature upper limit set, temperature sensor (23) is by its Signal transmissions to controller (2), and controller (2) controls to cut out, for user provides the bath water of applicable bathing temperature for thermoelectrical magnetic valve (5); Bathing or bathing complete, press a Based Intelligent Control button (29) again, Based Intelligent Control button (29) by its Signal transmissions to controller (2), controller (2) controls electronic discharging valve (9) and opens, and the bath water above inner casing (12) is discharged to downcomer (18) through electronic discharging valve (9); Meanwhile, controller (2) exits Based Intelligent Control state.
2. the using method of intelligent power saving radiator bathtub according to claim 1, it is characterized in that: after described controller (2) exits Based Intelligent Control state, user utilizes mobile phone and controller (2) to contact, controller (2) is issued in the instruction preparing bath hot water, after controller (2) receives the instruction of mobile phone, controller (2) controls water supply electromagnetic valve (10) and opens, the inner casing (12) running water being put into double-layer bathtub (3) is inner, when the water level of inner casing (12) rises to liquid level sensor (25), liquid level sensor (25) by its Signal transmissions to controller (2), controller (2) controls water supply electromagnetic valve (10) and cuts out, meanwhile, controller (2) controls to open for thermoelectrical magnetic valve (5), and the hot water of heating system enters sealing die cavity (13), and then hot water is by the return pipe (15) completely sealing die cavity (13) and get back to heating system, utilize the hot water of heating system by bath water heating, for user gets out bath hot water in advance, implement the Based Intelligent Control of intelligent power saving radiator bathtub.
3. the using method of intelligent power saving radiator bathtub according to claim 1, it is characterized in that: when described intelligent power saving radiator bathtub uses as bathing or bathing, along with constantly distributing of heat radiation bathtub (1) bath water heat, when the temperature of bath water is lower than the lowest temperature set, temperature sensor (23) by its Signal transmissions to controller (2), controller (2) controls to open for thermoelectrical magnetic valve (5), the hot water of heating system recovers flowing in sealing die cavity (13), bath water is heated by inner casing (12) by the hot water of heating system again, along with the continuous rising of bath water temperature, when the temperature of bath water rises to the temperature upper limit of setting, temperature sensor (23) is by its Signal transmissions to controller (2), and controller (2) controls to cut out for thermoelectrical magnetic valve (5), so constantly circulation, controls in the scope of setting by the temperature of bath water, implement the Based Intelligent Control of bath water temperature.
4. the using method of intelligent power saving radiator bathtub according to claim 1, it is characterized in that: when described intelligent power saving radiator bathtub uses as radiator, after the bath water of inner casing (12) is drained, utilize intelligent control switch (29) that controller (2) is set and enter Based Intelligent Control state, controller (2) controls to open for thermoelectrical magnetic valve (5), the hot water of heating system is by the sealing die cavity (13) entered for thermoelectrical magnetic valve (5) between outer shell (11) and inner casing (12), then hot water is got back to the return pipe (17) of heating system by the second check valve (7), double-layer bathtub (3) is used as radiator, utilizes inner casing (12) to be heated by room air, when the temperature of indoor reaches the temperature of setting, temperature controller (28) is by its Signal transmissions to controller (2), and controller (2) cuts out for thermoelectrical magnetic valve (5), implements the Based Intelligent Control of heating.
5. the using method of intelligent power saving radiator bathtub according to claim 1, is characterized in that: when described controller (2) control water supply electromagnetic valve (10) puts running water, bather selects water level according to demand; When needs high water level, liquid level selector switch (41) is pushed the position of the first gear; Controller (2) controls water supply electromagnetic valve (10) and opens, and the inner casing (12) running water being put into double-layer bathtub (3) is inner; When water level arrives the first liquid level sensor (31), the first liquid level sensor (31) by liquid level selector switch (41) by its Signal transmissions to controller (2), controller (2) control water supply electromagnetic valve (10) close, running water stop put into; When needs low water level, liquid level selector switch (41) is pushed the position of the second gear; Controller (2) controls water supply electromagnetic valve (10) and opens, and the inner casing (12) running water being put into double-layer bathtub (3) is inner; When water level arrives the second liquid level sensor (32), the second liquid level sensor (32) by liquid level selector switch (41) by its Signal transmissions to controller (2), controller (2) control water supply electromagnetic valve (10) close, running water stop put into.
6. the using method of intelligent power saving radiator bathtub according to claim 1, it is characterized in that: described bathtub mat (4), under the effect of Compress Spring (34) elastic force, makes to form a heat conduction space (14) between the cylinder bottom (30) of cylinder pad (4) and inner casing (12).
7. the using method of intelligent power saving radiator bathtub according to claim 1, it is characterized in that: when described intelligent power saving radiator bathtub uses, bather lies in bathtub mat (4) bathing, the gravity of human body overcomes the elastic force of Compress Spring (34), bathtub mat (4) is declined, make induction pieces (35) close to inductive switch (26), bather to controller (2), is passed to controller (2) in the information of heat radiation bathtub (1) bathing by its Signal transmissions by inductive switch (26); When malfunctioning for thermoelectrical magnetic valve (5), the temperature of bath water exceedes the upper of design temperature and prescribes a time limit, and temperature sensor (23) is by its Signal transmissions to controller (2), and controller (2) control temperature alarm (36), reminds user to stop bathing.
8. the using method of intelligent power saving radiator bathtub according to claim 1, it is characterized in that: when described bather lies in bathtub mat (4) bathing, bathtub mat (4) overcomes Compress Spring (34) and declines, when the foot pad (33) of bathtub mat (4) contacts with inner casing (12), bathtub mat (4) stops declining, make bathtub mat (4) and inner casing (12) maintain a heat conduction space (14), avoid human body to contact with inner casing (12).
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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108433595A (en) * 2018-02-08 2018-08-24 上海理工大学 A kind of removable automatically cleaning water-saving type Constant temperature bathtub
CN111685993A (en) * 2020-07-27 2020-09-22 广州市宇益能源科技有限公司 Integrated medicinal bathtub with heating function
CN112869602A (en) * 2021-02-25 2021-06-01 杭州云节日用百货有限公司 Multifunctional oxygen supply bathtub
CN114010088A (en) * 2021-11-10 2022-02-08 深圳市第二人民医院(深圳市转化医学研究院) Multi-functional cleaning equipment is used in paediatrics nursing

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0386426A2 (en) * 1989-03-04 1990-09-12 Schock & Co. Gmbh Bathtub with sanitary fixtures
CN2121648U (en) * 1992-04-06 1992-11-11 黄绳 Warm water heating bath sleeve unit of metal bath
CN101311640A (en) * 2006-07-19 2008-11-26 王宝根 Bathtub utilizing microwave energy for heating and controlling water temperature
CN202078225U (en) * 2011-04-27 2011-12-21 苏忆 Energy-saving heat insulation bathtub
CN203226729U (en) * 2013-04-15 2013-10-09 郑运婷 Insulation tub

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0386426A2 (en) * 1989-03-04 1990-09-12 Schock & Co. Gmbh Bathtub with sanitary fixtures
CN2121648U (en) * 1992-04-06 1992-11-11 黄绳 Warm water heating bath sleeve unit of metal bath
CN101311640A (en) * 2006-07-19 2008-11-26 王宝根 Bathtub utilizing microwave energy for heating and controlling water temperature
CN202078225U (en) * 2011-04-27 2011-12-21 苏忆 Energy-saving heat insulation bathtub
CN203226729U (en) * 2013-04-15 2013-10-09 郑运婷 Insulation tub

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108433595A (en) * 2018-02-08 2018-08-24 上海理工大学 A kind of removable automatically cleaning water-saving type Constant temperature bathtub
CN111685993A (en) * 2020-07-27 2020-09-22 广州市宇益能源科技有限公司 Integrated medicinal bathtub with heating function
CN112869602A (en) * 2021-02-25 2021-06-01 杭州云节日用百货有限公司 Multifunctional oxygen supply bathtub
CN112869602B (en) * 2021-02-25 2022-08-16 广州市尚雷仕卫浴有限公司 Multifunctional oxygen supply bathtub
CN114010088A (en) * 2021-11-10 2022-02-08 深圳市第二人民医院(深圳市转化医学研究院) Multi-functional cleaning equipment is used in paediatrics nursing

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