The application is application No. is 2015108545881, and the applying date is on November 28th, 2015, and invention and created name is
The divisional application of the patent of " application method of intelligent air energy bathtub radiator ".
Summary of the invention
The purpose of the present invention is overcome the deficiencies of the prior art and provide a kind of user of intelligent air energy bathtub radiator
Method makes bathtub have the function of radiator for saving radiator material resource.
The technical scheme adopted by the invention is that: intelligent air energy bathtub radiator includes that heat dissipation bathtub, air can fill
It sets and controller, heat dissipation bathtub includes double-layer bathtub, liner and inner disc, double-layer bathtub is sealed by outer layer cylinder and internal layer cylinder
It connects and composes, closed type chamber is equipped between outer layer cylinder and internal layer cylinder, liner is intracavitary set on closed type, and liner is utilized to heat closed type
Intracavitary water, as bath hot water and the heat source of radiator;Inner disc covers in internal layer cylinder, and bather is avoided directly to step down in internal layer
On the casing wall of cylinder, scalded by internal layer cylinder;Internal layer cylinder is equipped with Manual water drain valve and electric draining valve, Manual water drain valve and electronic
The water inlet of drain valve is set to the cylinder bottom of internal layer cylinder, and the water outlet of Manual water drain valve and electric draining valve is connect with downcomer,
For the bath water in internal layer cylinder to be drained;Air energy device includes compressor, radiator, expansion valve and evaporator, pressure
The refrigerant out splice going splice of contracting machine is connect with radiator, and radiator is connect with expansion valve, and expansion valve is connect with evaporator, evaporator
It is connect with the refrigerant input adapter of compressor;Radiator is set in liner, and conduction oil is equipped in liner;The bathtub that radiates is equipped with heat
The connector that draws water of water pump, heat-exchanger pump is connected to closed type chamber, and the water outlet connector of heat-exchanger pump is located on internal layer cylinder, is used for Double-layer bath
The intracavitary hot water of cylinder closed type is extracted into internal layer cylinder;Outer layer cylinder is equipped with water supply electromagnetic valve, water supply electromagnetic valve out splice going splice and sealing
The connection of type chamber, water supply electromagnetic valve input adapter are connect with running water pipe, for tap water injection closed type is intracavitary;Controller is set
Have start button, stop button, water supply button, drain button, hot water button, the first temperature sensor, second temperature sensor,
Temperature indicator, the first liquid level sensor, the 4th liquid level sensor, inductive switch, blue-tooth device, temperature controller and intelligent control
Button, for intelligent air energy bathtub radiator manually control and intelligent control;First temperature sensor and the first liquid
Level sensor is located in internal layer cylinder, and the 4th liquid level sensor is located at the top of closed type chamber, and second temperature sensor is located at liner
Interior, inductive switch is located at the cylinder bottom of internal layer cylinder, and temperature controller is set on controller, and the probe of temperature controller is located at the interior space;Control
Device is connect by control line with air energy device, electric draining valve, heat-exchanger pump and water supply electromagnetic valve.
The state of a control of the controller of intelligent air energy bathtub radiator includes the state that manually controls and intelligent control
State;The state of manually controlling includes that heat dissipation manually controls state and bathing manually controls state;Heat dissipation manually controls state
When, the power supply of heat-exchanger pump is cut off by controller, and heat-exchanger pump is in off-position;Intelligent control state includes heat dissipation intelligent control
State and bathing intelligent control state;When the intelligent control state that radiates, the power supply of heat-exchanger pump is cut off by controller, at heat-exchanger pump
In off-position.
The application method of intelligent air energy bathtub radiator is: intelligent air energy bathtub radiator is manually controlled as heat dissipation
In use, pressing water supply button, its signal is transferred to controller by water supply button, and controller enters heat dissipation and manually controls state,
Controller controls water supply electromagnetic valve and opens, and tap water is entered between outer layer cylinder and internal layer cylinder by running water pipe through water supply electromagnetic valve
Closed type chamber, when the intracavitary water level of closed type reaches the position of the 4th liquid level sensor, controller controls water supply electromagnetic valve and closes
It closes, supplies water and stop;Meanwhile start button is pressed, its signal is transferred to controller by start button, and controller control air can fill
Operation is set, the operation of compressor compresses refrigerant is absorbed air energy using evaporator, transferred heat in liner using radiator
Conduction oil, the intracavitary water of closed type is heated as hot water using conduction oil and liner, the intracavitary hot water of closed type will be warm
Amount passes to the internal layer cylinder of double-layer bathtub, distributes heat to the interior space using internal layer cylinder, and intelligent air energy bathtub is radiated
Device is used as radiator;Intelligent air energy bathtub radiator is manually controlled as bathing in use, click hot water button, heat
Its signal is transferred to controller by water button, and controller enters bathing and manually controls state, and controller controls hot water pump operation, heat
The intracavitary hot water of closed type is extracted into internal layer cylinder by water pump, is used as bath water;When the arrival of the water level of internal layer cylinder requires, then press
Its signal is transferred to controller by hot water button once, hot water button, and controller control heat-exchanger pump is out of service, and supplying hot water stops
Only;Meanwhile constantly distributing with internal layer cylinder bath water heat, the intracavitary hot water of closed type constantly transfers heat to internal layer
Cylinder, internal layer cylinder constantly transfer heat to the bath water in internal layer cylinder, reduce the amplitude that bath water temperature reduces, avoid bather
It suffers from cold.
Intelligent air energy bathtub radiator is as radiator intelligent control in use, controlling water supply electromagnetic valve using controller
It opens, tap water enters closed type chamber through water supply electromagnetic valve by running water pipe, when the intracavitary water level of closed type reaches the 4th liquid level
When the position of sensor, its signal is transferred to controller by the 4th liquid level sensor, and controller controls water supply electromagnetic valve and closes, from
Water stops entering closed type chamber;Meanwhile controller control air energy device work, compressor operation, using evaporator and
The high temperature heat that radiator converts the low temperature heat energy of air to, it is by radiator, conduction oil and liner that closed type is intracavitary
Water heating;The intracavitary hot water of closed type is transferred heat to the internal layer cylinder of double-layer bathtub, is distributed heat using internal layer cylinder
To the interior space, implement the heating function of intelligent air energy bathtub radiator;When indoor temperature is higher than the room temperature upper limit of setting
When, its signal is transferred to controller by temperature controller, and controller, which controls compressor, to be stopped, and radiator stops heat dissipation;With Indoor Temperature
The continuous reduction of degree, when indoor temperature prescribing a time limit at room temperature lower than setting, its signal is transferred to controller by temperature controller, control
Device controls compressor operation, and radiator radiates again;It so constantly recycles, by room temperature control in the range of setting;Intelligence
Energy air energy bathtub radiator is as bathtub intelligent control in use, controlling hot water pump operation using controller, heat-exchanger pump will be close
The intracavitary hot water of envelope type is extracted into internal layer cylinder, is used as bath water;When the bath water water level of internal layer cylinder reaches the water level of setting
When, its signal is transferred to controller by the first liquid level sensor, and controller control heat-exchanger pump is out of service, and supplying hot water stops, and is
User provides the bath water for being suitble to bathing temperature;Meanwhile radiator is constantly transferred heat to by conduction oil and liner
Internal layer cylinder, internal layer cylinder constantly by the bath water of heat transfer internal layer cylinder, avoid the reduction of bath water temperature;With the bathing of internal layer cylinder
Water constantly absorbs the heat of internal layer cylinder transmitting, when the temperature of bath water rises to the temperature upper limit of setting, the first temperature sensing
Its signal is transferred to controller by device, and controller control compressor is out of service, and radiator stops heat dissipation;Bathing or bathing are complete
Finish, press drain button, its signal is transferred to controller by drain button, and controller controls electric draining valve and opens, internal layer cylinder
Bath water be discharged to downcomer through electric draining valve;Meanwhile controller exits intelligent control state.
After controller exits intelligent control state, user is joined using mobile phone or network by blue-tooth device and controller
The instruction for preparing bath hot water is issued controller by system, and controller is converted into intelligent control state after receiving instruction;Controller control
Water supply electromagnetic valve processed is opened, and tap water enters closed type chamber through water supply electromagnetic valve by running water pipe, when the intracavitary water level of closed type
When reaching the position of the 4th liquid level sensor, its signal is transferred to controller by the 4th liquid level sensor, and controller control is supplied water
Solenoid valve is closed, and tap water stops entering closed type chamber;After water supply electromagnetic valve is closed, controller controls the work of air energy device,
The intracavitary water of closed type is heated by radiator, conduction oil and liner, bath hot water is got out in advance for user, implements
The long-distance intelligent control of intelligent air energy bathtub radiator work;When in the temperature that the temperature of the intracavitary water of closed type reaches setting
In limited time, its signal is transferred to controller by the first temperature sensor, and controller control air energy device stops working;So constantly
Circulation, by the intracavitary water management of closed type within the temperature range of setting.
Bathtub, air energy device and control the beneficial effects of the present invention are: intelligent air energy bathtub radiator does not radiate
Device processed, intelligent air energy bathtub radiator is as heating radiator in use, will be radiated using controller control air energy device
Heat is distributed in the interior space using heat dissipation bathtub, intelligent air bathtub is enable to dissipate by the intracavitary water heating of the closed type of bathtub
Hot device has the function of radiator;Intelligent air energy bathtub radiator is as bathing or bathing in use, will using heat-exchanger pump
The intracavitary water of closed type is extracted into the internal layer cylinder of heat dissipation bathtub, meanwhile, it is protected using bath water heating of the air energy device to internal layer cylinder
Temperature enables intelligent air bathtub radiator to have the function of bathtub;Utilize the first temperature sensor and the first liquid level sensor
Implement the intelligent control to intelligent air energy bathtub radiator, implements to dissipate intelligent air energy bathtub using mobile phone and internet
Hot device remotely controls, and control intelligent air energy bathtub radiator work in advance, gets hot water ready in advance, enable intelligent air outside
Bathtub radiator has the function of manually controlling, intelligent control and remotely controls.
Specific embodiment
The present invention is further detailed with reference to the accompanying drawing:
The structural schematic diagram of intelligent air energy bathtub radiator shown in FIG. 1, intelligent air energy bathtub radiator include
Radiate bathtub 1, air energy device 2 and controller 3, and heat dissipation bathtub 1 includes double-layer bathtub 4, liner 5 and inner disc 6, bilayer
Bathtub 4 is made of outer layer cylinder 7 and the sealed connection of internal layer cylinder 8, and closed type chamber 9 is equipped between outer layer cylinder 7 and internal layer cylinder 8, and liner 5 is set
In in closed type chamber 9, the water in closed type chamber 9 is heated using liner 5;6 sets of inner disc in internal layer cylinder 8, avoid bather direct
It steps down on the casing wall of internal layer cylinder 8, is scalded by internal layer cylinder 8;Internal layer cylinder 8 is equipped with Manual water drain valve 10 and electric draining valve 11, hand
The water inlet of dynamic discharging valve 10 and electric draining valve 11 is set to the cylinder bottom 12 of internal layer cylinder 8, Manual water drain valve 10 and electronic row
The water outlet of water valve 11 is connect with downcomer 13;When internal layer cylinder 8 needs to drain bath water, Manual water drain valve 10 is opened, by bathing
Water is discharged to downcomer 13;Air energy device 2 includes compressor 14, radiator 15, expansion valve 16 and evaporator 17, compressor
14 refrigerant out splice going splice is connect with radiator 15, and radiator 15 is connect with expansion valve 16, and expansion valve 16 and evaporator 17 connect
It connects, evaporator 17 is connect with the refrigerant input adapter of compressor 14;Radiator 15 is set in liner 5, is equipped in liner 5 thermally conductive
Oil 18;The bathtub 1 that radiates is equipped with heat-exchanger pump 19, and the connector 20 that draws water of heat-exchanger pump 19 is connected to closed type chamber 9, the water outlet of heat-exchanger pump 19
Connector 21 is located on internal layer cylinder 8, for the hot water in 4 closed type chamber 9 of double-layer bathtub to be extracted into internal layer cylinder 7;Outer layer cylinder 7 is equipped with
Water supply electromagnetic valve 22,22 out splice going splice of water supply electromagnetic valve are connected to closed type chamber 9,22 input adapter of water supply electromagnetic valve and tap water
Pipe 23 connects, for injecting tap water in closed type chamber 9;Controller 3 is equipped with start button 24, stop button 25, supplies water and press
Button 26, drain button 27, hot water button 28, the first temperature sensor 29, second temperature sensor 30, temperature indicator 31,
One liquid level sensor 32, the 4th liquid level sensor 50, inductive switch 33, blue-tooth device 34, temperature controller 35 and intelligent control are pressed
Button 36, the first temperature sensor 29 and the first liquid level sensor 32 are located in internal layer cylinder 7, and the 4th liquid level sensor 50 is located at close
The top of envelope type chamber 9, second temperature sensor 30 are located in liner 5, and inductive switch 33 is located at the cylinder bottom 12 of internal layer cylinder 7, temperature control
Device 33 is set on controller 3;Controller 3 passes through control line and air energy device 2, electric draining valve 11, heat-exchanger pump 19 and confession
Water solenoid valve 22 connects.
In order to implement the various control function of intelligent air energy bathtub radiator, the control of intelligent air energy bathtub radiator
The state of a control of device 3 includes the state that manually controls and intelligent control state;The state of manually controlling includes heat dissipation control manually
State processed and bathing manually control state;When heat dissipation manually controls state, the power supply of heat-exchanger pump 19 is cut off by controller 3, heat
Water pump 19 is in off-position;Intelligent control state includes heat dissipation intelligent control state and bathing intelligent control state;It dissipates
When hot intelligent control state, the power supply of heat-exchanger pump 19 is cut off by controller 3, and heat-exchanger pump 19 is in off-position.In order to guarantee intelligence
The normal use of energy air energy bathtub radiator, 22 initial shape of Manual water drain valve 10, electric draining valve 11 and water supply electromagnetic valve
State is: Manual water drain valve 10, electric draining valve 11 and water supply electromagnetic valve 22 are in close state.
Intelligent air energy bathtub radiator is manually controlled as heat dissipation in use, press water supply button 26, water supply button 26
Its signal is transferred to controller 3, controller 3 manually controls state into heat dissipation, and controller 3 controls water supply electromagnetic valve 22 and beats
It opens, tap water enters the closed type chamber 9 between outer layer cylinder 6 and internal layer cylinder 7 through water supply electromagnetic valve 22 by running water pipe 23, works as sealing
When water level in type chamber 9 reaches the position of the 4th liquid level sensor 50, controller 3 controls water supply electromagnetic valve 22 and closes, and water supply stops
Only;Meanwhile start button 24 is pressed, its signal is transferred to controller 3 by start button 24, and controller 3 controls air energy device 2
Operation, compressor 14 compress refrigerant operation, absorb air energy using evaporator 17, are transferred heat to using radiator 15 interior
Water in closed type chamber 9 is heated as hot water, closed type chamber 9 using conduction oil 18 and liner 5 by the conduction oil 18 in gallbladder 5
Interior hot water transfers heat to the internal layer cylinder 8 of double-layer bathtub 4, distributes heat to the interior space using internal layer cylinder 8, will be intelligent
Air energy bathtub radiator is used as radiator;Intelligent air energy bathtub radiator manually controlled as bathing in use, by
Its signal is transferred to controller 3 by hot water button 28 once, hot water button 28, and controller 3 manually controls state into bathing, is controlled
Device 3 processed controls heat-exchanger pump 19 and runs, and the hot water in closed type chamber 9 is extracted into internal layer cylinder 8, used as bath water by heat-exchanger pump 19;
When the arrival of the water level of internal layer cylinder 8 requires, then hot water button 28 being clicked, its signal is transferred to controller 3 by hot water button 28,
The control heat-exchanger pump 19 of controller 3 is out of service, and supplying hot water stops;Meanwhile constantly distributing with 8 bath water heat of internal layer cylinder,
Hot water in closed type chamber 9 constantly transfers heat to internal layer cylinder 8, and internal layer cylinder 8 constantly transfers heat to washing in internal layer cylinder 8
Bath water reduces the amplitude that bath water temperature reduces, bather is avoided to suffer from cold.
In order to implement the temperature control of bath water, the bath water of internal layer cylinder 8 is set to internal layer by after internal layer cylinder 8 constantly heating
Its signal is transferred to controller 3 by the first temperature sensor 29 of cylinder 8, and the display of warm temperature indicator 30 that controller 3 controls is washed
The temperature of bath water;When the temperature of bath water reaches the temperature upper limit of setting, compression is controlled using the stop button 25 of controller 3
Machine 14 stops, and radiator 15 stops heat dissipation, and bath water temperature is avoided to continue to rise.
After intelligent air energy bathtub radiator is in use, 8 bath water temperature of internal layer cylinder reaches the temperature upper limit of setting, bathing
Person enters internal layer cylinder 8, is sitting in and perhaps lies in progress bathing or bathing on inner disc 6, human body is avoided to contact with internal layer cylinder 8;With
The continuous decline of bath water temperature when needing to heat bath water, clicks start button 24 again, and start button 24 is by its signal
It is transferred to controller 3, the work of 3 air energy device 2 of controller, compressor 14 is run, and the low temperature of air is absorbed using evaporator 17
Thermal energy, low temperature heat energy are converted into the thermal energy of high temperature after compressor, are transferred heat to using radiator 15 thermally conductive in liner 5
Oil 18 and liner 5 are heated the water in closed type chamber 9 using liner 5, and the water in closed type chamber 9 transfers heat to bilayer
The internal layer cylinder 8 of bathtub 4, using internal layer cylinder 8 by the bath water heating in internal layer cylinder 8;When the temperature of bath water reaches the temperature of setting
When spending the upper limit, it is out of service that air energy device 2 is controlled using the stop button 25 of controller 3;So constantly recycle.
Intelligent air energy bathtub radiator is manually controlled as bathing in use, as the hot water in closed type chamber 9 is warm
Water pump 19 is extracted into internal layer cylinder 8, and the water level in closed type chamber 9 is with reduction;When the liquid level in closed type chamber 9 is passed lower than the 4th liquid level
When the position of sensor 50, its signal is transferred to controller 3, the control control water supply electromagnetism of controller 3 by the 4th liquid level sensor 50
Valve 22 is opened, and tap water is entered the closed type chamber 9 between outer layer cylinder 6 and internal layer cylinder 7 by running water pipe 23 through water supply electromagnetic valve 22;
When the water level in closed type chamber 9 reaches the position of the 4th liquid level sensor 50, the 4th liquid level sensor 50 transmits its signal
To controller 3, controller 3 controls water supply electromagnetic valve 22 and closes;It so constantly recycles, is controlling the water level in closed type chamber 9
In the range of.
In order to implement to provide hot water to heat dissipation bathtub 1 and elsewhere, heat dissipation bathtub 1 is equipped with split flow pump 37, split flow pump
37 tap 38 is connect with the connector 20 that draws water of heat-exchanger pump 19, using split flow pump 37 by delivery to elsewhere;Outside
Layer 6 wall of cylinder is equipped with suction eye 39, and the connector 20 that draws water of heat-exchanger pump 19 is installed on suction eye 39, and draw water connector 20 and suction eye
39 are tightly connected;Internal layer cylinder 8 is equipped with apopore 40, and the water outlet connector 21 of heat-exchanger pump 19 is installed on apopore 40, water outlet connector
21 are tightly connected with apopore 40.
In order to implement the heat sinking function of heat dissipation bathtub 1, the high temperature heat of the radiator 15 of air energy device 2 is transmitted to interior
On the internal layer cylinder 8 of gallbladder 5 and the bathtub 1 that radiates, and the loss of heat is reduced, liner 5 and internal layer cylinder 8 are by Heat Conduction Material structure
At Heat Conduction Material includes aluminium alloy or stainless steel;Outer layer cylinder 6 is made of non-thermally conductive material, and non-thermally conductive material includes pottery
Porcelain, resin and plastics, ceramics, resin and plastics are interior to be equipped with hollow molded cavity;6 outer layer covers of outer layer cylinder have one layer of heat preservation cotton
41;For improving its heat-proof quality.
In order to avoid the bath water of heat dissipation bathtub 1 overflows, the wall of 6 upper end of outer layer cylinder is equipped with spilling water connector 42, and spilling water connects
First 42 connect with downcomer 13;(12 walls are equipped with the first drainage hole 43 and the second discharge outlet 44 to the cylinder bottom of internal layer cylinder 8, manually
Discharging valve 10 is installed on the first drainage hole 43, and Manual water drain valve 10 and the first drainage hole 43 are tightly connected, and electric draining valve 11 is pacified
Loaded on the second discharge outlet 44, electric draining valve 11 and the second discharge outlet 44 are tightly connected;The water level of the bath water of internal layer cylinder 8 is more than
When the position of spilling water connector 42, spilling water connector 42 is discharged to downcomer 13 by bath water.
In order to avoid direct body contact's internal layer cylinder 8, thermally conductive space 45 is equipped between inner disc 6 and internal layer cylinder 8, inner disc 6 is set
There is thermal hole 46, thermally conductive space 45 is connected to thermal hole 46;Intelligent air energy bathtub radiator is as radiator in use, thermally conductive
The thermal current in space 45 flow to the interior space by thermal hole 46, implements the heating function of intelligent air energy bathtub radiator;
Intelligent air energy bathtub radiator is as bathtub in use, the bath hot water in thermally conductive space 45 flow to internal layer by thermal hole 46
45 position of non-conductive space of cylinder 8, transfers heat to the bath water of internal layer cylinder 8.
Intelligent air energy bathtub radiator is as heating radiator in use, will using the control air energy device 2 of controller 3
The water heating radiated in the closed type chamber 9 of bathtub 1, is distributed heat in the interior space using heat dissipation bathtub 1;Intelligent air can bathe
Cylinder radiator is as bathing or bathing in use, the intracavitary water of closed type is extracted into heat dissipation bathtub 1 using heat-exchanger pump 19
Layer cylinder 8, meanwhile, it is kept the temperature using bath water heating of the air energy device 2 to internal layer cylinder 8;Using the first temperature sensor 29 and
First liquid level sensor 32 implements the intelligent control to intelligent air energy bathtub radiator;Utilize mobile phone and internet implementation pair
The control of intelligent air energy bathtub radiator long-distance, control intelligent air energy bathtub radiator work in advance, gets ready in advance outside
Hot water.
Intelligent air energy bathtub radiator is as radiator intelligent control in use, pressing an intelligent control button 36, intelligence
It can control button 36 and its signal be transferred to controller 3, controller 3 enters heat dissipation intelligent control state;Controller 3 enters heat dissipation
After intelligent control state, controller 3 control water supply electromagnetic valve 22 open, tap water by running water pipe 23 through water supply electromagnetic valve 22 into
Enter closed type chamber 9, when the water level in closed type chamber 9 reaches the position of the 4th liquid level sensor 50, the 4th liquid level sensor 50
Its signal is transferred to controller 3, controller 3 controls water supply electromagnetic valve 22 and closes, and tap water stops entering closed type chamber 9;Together
When, controller 3 controls air energy device 2 and works, and compressor 14 is run, using evaporator 17 and radiator 15 by the low of air
The high temperature heat that can be converted into is warmed, is heated the water in closed type chamber 9 by radiator 15, conduction oil 18 and liner 5;It is close
Hot water in envelope type chamber 9 is transferred heat to the internal layer cylinder 8 of double-layer bathtub 4, internal layer cylinder 8 radiate heat into inner disc 6 with it is interior
Thermally conductive space 45 between layer cylinder 8, thermally conductive 45 air of space is heated, and the thermal current in thermally conductive space 45 is flowed by thermal hole 46
To the interior space, implement the heating function of intelligent air energy bathtub radiator;When indoor temperature is higher than the room temperature upper limit of setting
When, its signal is transferred to controller 3 by temperature controller 35, and controller 3, which controls compressor 14, to be stopped, and radiator 15 stops heat dissipation;With
The continuous reduction of room temperature, when indoor temperature lower than setting prescribe a time limit at room temperature, its signal is transferred to by temperature controller 35
Controller 3, controller 3 control compressor 14 and run, and radiator 15 radiates again;It so constantly recycles, room temperature is controlled
In the range of setting;For intelligent air energy bathtub radiator as bathtub in use, pressing hot water button 28, hot water button 28 will
Its signal is transferred to controller 3, and controller 3 enters bathing intelligent control state, and controller 3 controls heat-exchanger pump 19 and runs, hot water
Hot water in closed type chamber 9 is extracted into internal layer cylinder 8 by pump 19, is used as bath water;When the bath water water level of internal layer cylinder 8 reaches
When the water level of setting, its signal is transferred to controller 3 by the first liquid level sensor 32, and controller 3 controls heat-exchanger pump 19 and stops fortune
Row, supplying hot water stop, and provide the bath water of suitable bathing temperature for user;Meanwhile radiator 15 by conduction oil 18 and
Liner 5 constantly transfers heat to internal layer cylinder 8, and internal layer cylinder 8 constantly by the bath water of heat transfer internal layer cylinder 8, avoids bath water
Temperature reduces;As the bath water of internal layer cylinder 8 constantly absorbs the heat of the transmitting of internal layer cylinder 8, set when the temperature of bath water rises to
When fixed temperature upper limit, its signal is transferred to controller 3 by the first temperature sensor 29, and controller 3, which controls compressor 14, to be stopped
Operation, radiator 15 stop heat dissipation;Bathing or bathing finish, and press drain button 27, and drain button 27 transmits its signal
To controller 3, controller 3 controls electric draining valve 11 and opens, and the bath water of internal layer cylinder 8 is discharged to downcomer through electric draining valve 11
13;Meanwhile controller 3 exits intelligent control state.
In order to implement the long-distance intelligent control of intelligent air energy bathtub radiator, after controller 3 exits intelligent control state,
User is contacted by blue-tooth device 34 with controller 3 using mobile phone or network, and control is issued in the instruction for preparing bath hot water
Device 3 processed, controller 3 are converted into intelligent control state after receiving instruction;Controller 3 controls water supply electromagnetic valve 22 and opens, tap water
Enter closed type chamber 9 through water supply electromagnetic valve 22 by running water pipe 23, when the water level in closed type chamber 9 reaches the 4th liquid level sensor
When 50 position, its signal is transferred to controller 3 by the 4th liquid level sensor 50, and controller 3 controls water supply electromagnetic valve 22 and closes,
Tap water stops entering closed type chamber 9;After water supply electromagnetic valve 22 is closed, controller 3 controls air energy device 2 and works, by dissipating
Hot device, conduction oil 18 and liner 5 heat the water in closed type chamber 9, get out bath hot water in advance for user, implement intelligence
The long-distance intelligent control of energy air energy bathtub radiator work;When in the temperature that the temperature of the water in closed type chamber 9 reaches setting
In limited time, its signal is transferred to controller 3 by the first temperature sensor 29, and controller 3 controls air energy device 2 and stops working;Such as
This is constantly recycled, by the water management in closed type chamber 9 within the temperature range of setting.
In order to avoid 29 failure of the first temperature sensor, the temperature control of bath water, the first temperature sensor 29 are caused
In the bath water in internal layer cylinder 7, second temperature sensor 30 is located in the conduction oil 18 of liner 5;First temperature sensor 29
Different from the temperature that second temperature sensor 30 is controlled, the temperature that second temperature sensor 30 controls is greater than the first temperature sensing
The temperature that device 29 controls;The temperature controlling range of first temperature sensor 29 is 35 DEG C to 40 DEG C;Second temperature sensor 30
Temperature controlling range is 41 DEG C to 45 DEG C.When the first 29 failure of temperature sensor, the temperature of bath water is more than that the first temperature passes
The temperature upper limit that sensor 29 controls;As radiator 15 constantly transfers heat to conduction oil 18, when the temperature of conduction oil 18 is super
When crossing the temperature upper limit of setting, its signal is transferred to controller 3 by second temperature sensor 30, and controller 3 controls compressor 14
It stops working, the heat dissipation of radiator 15 stops.
In order to control the liquid level of heat dissipation bathtub 1, the first liquid level sensor 32 includes the first liquid level sensor 47 and the
Two liquid level sensors 48, the first liquid level sensor 47 are located at 48 top of the second liquid level sensor, and the first liquid level sensor 47 is located at
The position on the top of internal layer cylinder 7, the first liquid level sensor 47 is lower than the position of spilling water connector 42, and the second liquid level sensor 48 is located at
The middle part of internal layer cylinder 7, for controlling the water level of heat dissipation bathtub 1.Controller 3 is equipped with liquid level and selects switch 49, liquid level selection switch
49 are equipped with the first gear and the second gear;First gear of liquid level selection switch 49 is connect with the first liquid level sensor 47, liquid
When position selection switch 49 pushes the position of the first gear, the first liquid level sensor 47 selects switch 49 and controller 3 by liquid level
Control circuit connection;Second gear of liquid level selection switch 49 is connect with the second liquid level sensor 48, and liquid level selects switch 49
When pushing the position of the second gear, the second liquid level sensor 48 selects the control circuit of switch 49 and controller 3 to connect by liquid level
It connects.
When intelligent air energy bathtub radiator is as bathing intelligent control, bather selects water level according to demand;Work as needs
When high water level, liquid level selection switch 49 is pushed to the position of the first gear;Controller 3 controls heat-exchanger pump 19 and runs, heat-exchanger pump 19
Hot water in closed type chamber 9 is extracted into internal layer cylinder 8, when the water level in internal layer cylinder 8 reaches the position of the first liquid level sensor 47
When, its signal is transferred to controller 3 by the first liquid level sensor 47, and controller 3 controls heat-exchanger pump 19 and stops pumping;It is low when needing
When water level, liquid level selection switch 49 is pushed to the position of the second gear;Controller 3 controls heat-exchanger pump 19 and runs, and heat-exchanger pump 19 will
Hot water in closed type chamber 9 is extracted into internal layer cylinder 8, when the water level in internal layer cylinder 8 reaches the position of the secondth liquid level sensor 48
When, its signal is transferred to controller 3 by the second liquid level sensor 48, and controller 3 controls heat-exchanger pump 19 and stops pumping.
In order to detect bathtub mat 4, whether someone enters bathing, and inner disc 6 is equipped with foot pad 51, avoids inner disc 6 and internal layer cylinder 8 viscous
Together;Compressed spring 53 is equipped between inner disc 6 and internal layer cylinder 8, the upper end of compressed spring 53 is contacted with inner disc 6, compressed spring
53 lower end is contacted with internal layer cylinder 8;The height of compressed spring 53 is greater than the thickness of foot pad 51.Inner disc 6 is in 53 elastic force of compressed spring
Under the action of, make to constitute a thermally conductive space 45 between inner disc 6 and the cylinder bottom 12 of internal layer cylinder 8.
In order to avoid people are in bathing or the process of bathing, water temperature rises, and reminds bather, and inner disc 6 is equipped with induction pieces
55, induction pieces 55 are located at the top of inductive switch 33, and controller 3 is equipped with temperature alarm 56;Intelligent air energy bathtub radiator
In use, bather lies in 6 bathing of inner disc, the gravity of human body overcomes the elastic force of compressed spring 53, declines inner disc 6, makes to incude
Its signal is transferred to controller 3 close to inductive switch 33, inductive switch 33 by part 55, by bather in heat dissipation 1 bathing of bathtub
Information passes to controller 3;When the temperature of conduction oil 18 is more than the temperature of setting, second temperature sensor 30 transmits its signal
When to controller 3, controller 3 controls temperature alarm 56, and user is reminded to stop bathing.When bather lies in 6 bathing of inner disc,
Inner disc 6 overcomes compressed spring 53 to decline, and when the foot pad 51 of inner disc 6 is contacted with internal layer cylinder 8, inner disc 6 stops decline, makes inner disc 6
A thermally conductive space 45 is maintained with internal layer cylinder 8, human body is avoided to contact with internal layer cylinder 8.
In order to avoid double-layer bathtub 4 is split up by the hot water in closed type chamber 9, double-layer bathtub 4 is equipped with safety valve 57, safety valve
57 are installed on the casing wall of outer layer cylinder 7, and the water inlet of safety valve 57 is connected to closed type chamber 9, and the water outlet of safety valve 57 is under
Water pipe 13 is connected to;Temperature with hot water in closed type chamber 9 constantly rises, and 9 hydraulic pressure of closed type chamber is continuously increased, closed type chamber 9
When hydraulic pressure is more than the safe pressure upper limit that safety valve 57 is set, safety valve 57 is automatically opened, and the hot water of closed type chamber 9 is let out down
Water pipe 13;When below the safe pressure that the hydraulic pressure of closed type chamber 9 drops to setting, safety valve 57 is automatically closed, so constantly
Circulation, makes the hydraulic pressure control of closed type chamber 9 in safe range.
In order to improve the bonding strength with outer layer cylinder 7 of internal layer cylinder 8, internal layer cylinder 8 is equipped with rabbet along 52, and rabbet is along 52
It is embedded into 7 the inside of outer layer cylinder, is tightly connected internal layer cylinder 8 and outer layer cylinder 7 integrally.It is interior in order to guarantee the intensity of heat dissipation bathtub 1
Layer cylinder 8 is equipped with reinforcing rib 54, and reinforcing rib 54 is fixedly connected with internal layer cylinder 8 and outer layer cylinder 7, and reinforcing rib 54 is by aluminium alloy or not
The steel that becomes rusty is constituted, and reinforcing rib 54 and internal layer cylinder 8 weld, and reinforcing rib 54 is embedded in outer layer cylinder 7, and reinforcing rib 54 passes through adhesive and outer layer
Cylinder 7 links together;Reinforcing rib 54 be equipped with it is a plurality of, reinforcing rib 54 is distributed in closed type chamber 9.