CN204084557U - A kind of hot-air heating system for bathing of automatic rotation - Google Patents
A kind of hot-air heating system for bathing of automatic rotation Download PDFInfo
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- CN204084557U CN204084557U CN201420546321.7U CN201420546321U CN204084557U CN 204084557 U CN204084557 U CN 204084557U CN 201420546321 U CN201420546321 U CN 201420546321U CN 204084557 U CN204084557 U CN 204084557U
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- control module
- heater
- wind wheel
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/70—Hybrid systems, e.g. uninterruptible or back-up power supplies integrating renewable energies
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Abstract
The utility model is applicable to a kind of household electrical appliance of automatic control, disclose a kind of hot-air heating system for bathing of automatic rotation, comprise heater, ventilation wind wheel, the control circuit of air guide structure and control heater and ventilation wind wheel, also comprise for remote manipulator and DC servo motor, remote manipulator is all connected with control circuit with DC servo motor, DC servo motor is connected with air guide structure, control circuit comprises central processing unit, temperature triggered module, wind wheel control module, the hot-air heating system for bathing of a kind of automatic temperature-control that heater control module and motor control module the utility model provide, central processing unit is adopted to control heater and ventilation wind wheel, auto controlled heater and the running of ventilation wind wheel, simultaneously, also adopt the DC servo motor be connected with air guide structure, make DC servo motor that air guide structure can be driven to rotate, thus automatically change the heating direction of super bath, whole process does not need user to operate completely, greatly facilitate the use of user.
Description
[technical field]
The utility model relates to a kind of household electrical appliance of automatic control, particularly a kind of hot-air heating system for bathing of automatic rotation.
[background technology]
Super bath is the living electric apparatus that a kind of special waterproof infrared lamp and ventilation fan are comprehensively formed, and the several functions such as the heating in bathroom, infrared therapy, bathroom aerating, normal lighting, decoration are incorporated into one by it.Along with living standard raising, technical development, super bath is extensively popularized.
But current super bath is all fixing heating direction, and user can only operate and close or open, very inconvenience.Although occurred in prior art that air guide structure or light guide structure etc. can change the structure in heating direction, this improvement has remained directed, and can not make control to the heating direction of super bath in fact, this also have impact on the automaticity of super bath.
[utility model content]
The purpose of this utility model is to overcome above-mentioned the deficiencies in the prior art, provides a kind of hot-air heating system for bathing of automatic rotation, and it is intended to solve super bath of the prior art and can not controls to heat direction, use the technical problem inconvenient, automaticity is not high.
For achieving the above object, the utility model proposes a kind of hot-air heating system for bathing of automatic rotation, comprise heater, ventilation wind wheel, the control circuit of air guide structure and control heater and ventilation wind wheel, also comprise for remote manipulator and DC servo motor, described remote manipulator is all connected with control circuit with DC servo motor, described DC servo motor is connected with air guide structure, described control circuit comprises central processing unit, temperature triggered module, wind wheel control module, heater control module and motor control module, described heater is connected with central processing unit by heater control module, described ventilation wind wheel is connected with central processing unit by wind wheel control module, described DC servo motor is connected with central processing unit by motor control module, described remote manipulator is connected with central processing unit, described temperature triggered module is connected with central processing unit, described heater control module and wind wheel control module are connected in parallel,
Described heater control module and wind wheel control module include relay, triode and voltage regulation resistance, described relay comprises coil and contact switch, described coil one end is connected with dc source, is connected after the other end is connected in series with voltage regulation resistance with triode with central processing unit;
Described heater one end is connected with AC power, the other end and contact switch are connected in series, and described ventilation wind wheel one end is connected with AC power, the other end and contact switch are connected in series;
Described temperature triggered module comprises temperature triggered device and voltage regulation resistance, and described voltage regulation resistance one end is connected with dc source, the other end and temperature triggered device are connected in series; Described temperature triggered device one end ground connection, the other end are connected with central processing unit;
Described motor control module comprises the transistor array be made up of several diodes, described transistor array is provided with some to control input end and control output end, described control input end is connected with central processing unit, and described control output end is connected with DC servo motor;
Described central processing unit comprises several multiplexer channels, described temperature sensing module and heater control module are on one of them multiplexer channel, and described remote manipulator, heater control module and motor control module are on another multiplexer channel.
As preferably, described central processing unit adopts the microcontroller of the STM8S series of at least 4 multiplexer channels, described central processing unit comprises asynchronous transmission end, peripheral hardware link, analog input end and additional touch and makes a start, described asynchronous transmission end connects from the control input end of different transistor array respectively, described peripheral hardware link is connected with wind wheel control module with different heater control module respectively, described analog input end is connected with remote manipulator, and described additional touch is made a start and to be connected with temperature triggered device.
As preferably, described heater adopts ptc heater, and described heater is provided with the heating gear of two kinds of different temperatures, and described ventilation wind wheel is provided with the ventilation gear of three kinds of different wind speed.
As preferably, the quantity of described heater control module is two, described heater control module connects from different heating gears respectively, the quantity of described wind wheel control module is three, described wind wheel control module connects from different ventilation gears respectively, and described heater control module and wind wheel control module are and are connected in parallel.
As preferably, the number of described peripheral hardware link is five, first peripheral hardware link is connected from the relay of different heater control module respectively with the second peripheral hardware link, 3rd peripheral hardware link, 4th peripheral hardware link is connected from the relay of different wind wheel control modules respectively with the 5th peripheral hardware link, wherein, first peripheral hardware link and analog input end are in the 3rd multiplexer channel, second peripheral hardware link and additional touch are made a start and are in the 4th multiplexer channel, 3rd peripheral hardware link and the 4th peripheral hardware link are in the first multiplexer channel, 5th peripheral hardware link is in the second multiplexer channel.
As preferably, described crystal battle array is provided with four control input ends and four control output ends, and formation loop, every two control output ends is connected with DC servo motor inductance.
As preferably, the number of described asynchronous transmission end is four, the control output end that first asynchronous transmission end is corresponding with the second asynchronous transmission end is connected, the control output end that 3rd asynchronous transmission end is corresponding with the 4th asynchronous transmission end is connected, wherein, first asynchronous transmission end is in first via multiplex channel, and the 4th asynchronous transmission end is in the 3rd road multiplex channel.
As preferably, described temperature triggered device is thermistor, and described remote manipulator is infrared remote controller.
The beneficial effects of the utility model: compared with prior art, the hot-air heating system for bathing of a kind of automatic temperature-control that the utility model provides, rational in infrastructure, simple to operate, central processing unit is adopted to control heater and ventilation wind wheel, auto controlled heater and the running of ventilation wind wheel, improve the automatization level of super bath, simultaneously, also adopt the DC servo motor be connected with air guide structure, make DC servo motor that air guide structure can be driven to rotate, thus automatically change the heating direction of super bath, whole process does not need user to operate completely, greatly facilitate the use of user.
Feature of the present utility model and advantage will be described in detail by reference to the accompanying drawings by embodiment.
[accompanying drawing explanation]
Fig. 1 is the heater of the utility model embodiment and the circuit connection diagram of ventilation wind wheel;
Fig. 2 is the circuit connection diagram of the control circuit of the utility model embodiment;
Fig. 3 is the circuit connection diagram of the motor control module of the utility model embodiment.
[detailed description of the invention]
For making the purpose of this utility model, technical scheme and advantage clearly understand, below by accompanying drawing and embodiment, the utility model is further elaborated.But should be appreciated that, specific embodiment described herein, only in order to explain the utility model, is not limited to scope of the present utility model.In addition, in the following description, the description to known features and technology is eliminated, to avoid unnecessarily obscuring concept of the present utility model.
Consult Fig. 1, Fig. 2 and Fig. 3, the utility model embodiment provides a kind of hot-air heating system for bathing of automatic rotation, comprise heater, ventilation wind wheel, the control circuit of air guide structure and control heater and ventilation wind wheel, also comprise for remote manipulator and DC servo motor, remote manipulator is all connected with control circuit with DC servo motor, DC servo motor is connected with air guide structure, control circuit comprises central processing unit, temperature triggered module, wind wheel control module, heater control module and motor control module, heater is connected with central processing unit by heater control module, ventilation wind wheel is connected with central processing unit by wind wheel control module, DC servo motor is connected with central processing unit by motor control module, remote manipulator is connected with central processing unit, temperature triggered module is connected with central processing unit, heater control module and wind wheel control module are connected in parallel.
The utility model embodiment adopts central processing unit to control heater and ventilation wind wheel, improve the automaticity of super bath, simultaneously, user only needs to enter in the range of receiving of infrared array sensor, central processing unit just can automatically heater and ventilation wind wheel, make user not need manual operation, improve the result of use of super bath.
In the utility model embodiment, DC servo motor is rotated by the inductance receiving motor control module, coupled air guide structure is rotated together, namely changes the wind-guiding direction of air guide structure, thus the heating direction of super bath is also changed thereupon.Whole rotary course operates without the need to user, achieves the automatic rotation of super bath veritably, drastically increases the result of use of super bath.
Meanwhile, can reverse in the direction that DC servo motor rotates, and that is, air guide structure can wave in the angle preset, and improves the result of use of super bath further.
When super bath be in idle condition or user do not need super bath time, super bath can be closed by Remote by user, saves electric energy.
Particularly, heater control module and wind wheel control module include relay, triode and voltage regulation resistance, relay comprises coil and contact switch, and coil one end is connected with dc source, is connected after the other end is connected in series with voltage regulation resistance with triode with central processing unit.In the utility model embodiment, relay adopts the electromagnetic relay open in usual of single-pole single-throw(SPST, and central processing unit carrys out the opening and closing of control relay by controlling output current, thus realizes the control to heater or ventilation wind wheel.
Further, heater one end is connected with AC power, the other end and contact switch are connected in series, and ventilation wind wheel one end is connected with AC power, the other end and contact switch are connected in series.
Certainly; the producer can adjust relay opening and closing form according to need of production; the normal closing type relay of such as single-pole single-throw(SPST; circuit connection structure now may not be consistent with syndeton in Fig. 2; but; as long as heater is connected with central processing unit by coil, just belong to protection domain of the present utility model.
Particularly, temperature triggered module comprises temperature triggered device and voltage regulation resistance, and voltage regulation resistance one end is connected with dc source, the other end and temperature triggered device are connected in series; Temperature triggered device one end ground connection, the other end are connected with central processing unit.
Wherein, temperature triggered device is thermistor.
Particularly, motor control module comprises the transistor array be made up of several diodes, and transistor array is provided with that some control input end is connected with central processing unit to control input end and control output end, and control output end is connected with DC servo motor.
Particularly, central processing unit comprises several multiplexer channels, temperature sensing module and heater control module are on one of them multiplexer channel, and remote manipulator, heater control module and motor control module are on another multiplexer channel.This kind of structure make temperature sensing module and remote manipulator separate, thus make central processing unit can the signal for the treatment of temperature sensing module and remote manipulator simultaneously, and make corresponding process, make super bath more meet the use habit of user.
In order to realize technical purpose of the present utility model better, central processing unit adopts the microcontroller of the STM8S series of at least 4 multiplexer channels, described central processing unit comprises asynchronous transmission end, peripheral hardware link, analog input end and additional touch and makes a start, asynchronous transmission end connects from the control input end of different transistor array respectively, peripheral hardware link is connected with wind wheel control module with different heater control module respectively, analog input end is connected with remote manipulator, and additional touch is made a start and to be connected with temperature triggered device.
In embodiment of the present utility model, central processing unit preferably adopts STMS8S003F3 chip, and this kind of chip is higher for the absorbability of electric current, has excellent disposal ability and speed, support exploitation, can be good at the data processing infrared array sensor.
Further, heater adopts ptc heater, and heater is provided with the heating gear of two kinds of different temperatures, and ventilation wind wheel is provided with the ventilation gear of three kinds of different wind speed, makes the scope of application of super bath wider.
Particularly, the quantity of heater control module is two, and heater control module connects from different heating gears respectively, and the quantity of wind wheel control module is three, wind wheel control module connects from different ventilation gears respectively, and heater control module and wind wheel control module are and are connected in parallel.
Accordingly, the number of peripheral hardware link is five, first peripheral hardware link RL1 is connected from the relay of different heater control module respectively with the second peripheral hardware link RL2, 3rd peripheral hardware link RL3, 4th peripheral hardware link RL4 is connected from the relay of different wind wheel control modules respectively with the 5th peripheral hardware link RL5, wherein, first peripheral hardware link RL1 and analog input end are in the 3rd multiplexer channel, second peripheral hardware link RL2 and additional touch are made a start and are in the 4th multiplexer channel, 3rd peripheral hardware link RL3 and the 4th peripheral hardware link RL4 is in the first multiplexer channel, 5th peripheral hardware link RL5 is in the second multiplexer channel.Now, the control of heater and ventilation wind wheel is separated from each other.
In the utility model embodiment, the original state of heater is the heating gear that the first peripheral hardware link RL1 connects, and the original state of ventilation wind wheel is the ventilation gear that the 3rd peripheral hardware link RL3 connects.
Particularly, crystal battle array is provided with four control input ends and four control output ends, and formation loop, every two control output ends is connected with DC servo motor inductance.
Further, the number of asynchronous transmission end is four, the control output end that first asynchronous transmission end SL1 is corresponding with the second asynchronous transmission end SL2 is connected, the control output end that 3rd asynchronous transmission end SL3 is corresponding with the 4th asynchronous transmission end SL4 is connected, wherein, first asynchronous transmission end SL1 is in first via multiplex channel, and the 4th asynchronous transmission end SL4 is in the 3rd road multiplex channel.
Certainly, the producer can according to need of production particularly, and the number of adjustment control output end, the speed that DC servo motor is rotated more easily controls, and it should be noted that the number of control output end and control input end must be consistent.
And the producer can also adjust the number of DC servo motor, air guide structure is made to have multiple wind-guiding direction, to improve the result of use of super bath.
Wherein, remote manipulator is infrared remote controller.User can adopt other Remote mode, and such as bluetooth or WIFI, certainly, user also needs to set up the device matched makes its work.
The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace or improvement etc., all should be included within protection domain of the present utility model.
Claims (8)
1. the hot-air heating system for bathing of an automatic rotation, comprise heater, ventilation wind wheel, the control circuit of air guide structure and control heater and ventilation wind wheel, it is characterized in that: also comprise for remote manipulator and DC servo motor, described remote manipulator is all connected with control circuit with DC servo motor, described DC servo motor is connected with air guide structure, described control circuit comprises central processing unit, temperature triggered module, wind wheel control module, heater control module and motor control module, described heater is connected with central processing unit by heater control module, described ventilation wind wheel is connected with central processing unit by wind wheel control module, described DC servo motor is connected with central processing unit by motor control module, described remote manipulator is connected with central processing unit, described temperature triggered module is connected with central processing unit, described heater control module and wind wheel control module are connected in parallel,
Described heater control module and wind wheel control module include relay, triode and voltage regulation resistance, described relay comprises coil and contact switch, described coil one end is connected with dc source, is connected after the other end is connected in series with voltage regulation resistance with triode with central processing unit;
Described heater one end is connected with AC power, the other end and contact switch are connected in series, and described ventilation wind wheel one end is connected with AC power, the other end and contact switch are connected in series;
Described temperature triggered module comprises temperature triggered device and voltage regulation resistance, and described voltage regulation resistance one end is connected with dc source, the other end and temperature triggered device are connected in series; Described temperature triggered device one end ground connection, the other end are connected with central processing unit;
Described motor control module comprises the transistor array be made up of several diodes, described transistor array is provided with some to control input end and control output end, described control input end is connected with central processing unit, and described control output end is connected with DC servo motor;
Described central processing unit comprises several multiplexer channels, described temperature sensing module and heater control module are on one of them multiplexer channel, and described remote manipulator, heater control module and motor control module are on another multiplexer channel.
2. the hot-air heating system for bathing of a kind of automatic rotation as claimed in claim 1, it is characterized in that: described central processing unit adopts the microcontroller of the STM8S series of at least 4 multiplexer channels, described central processing unit comprises asynchronous transmission end, peripheral hardware link, analog input end and additional touch are made a start, described asynchronous transmission end connects from the control input end of different transistor array respectively, described peripheral hardware link is connected with wind wheel control module with different heater control module respectively, described analog input end is connected with remote manipulator, described additional touch is made a start and to be connected with temperature triggered device.
3. the hot-air heating system for bathing of a kind of automatic rotation as claimed in claim 1 or 2, it is characterized in that: described heater adopts ptc heater, described heater is provided with the heating gear of two kinds of different temperatures, and described ventilation wind wheel is provided with the ventilation gear of three kinds of different wind speed.
4. the hot-air heating system for bathing of a kind of automatic rotation as claimed in claim 3, it is characterized in that: the quantity of described heater control module is two, described heater control module connects from different heating gears respectively, the quantity of described wind wheel control module is three, described wind wheel control module connects from different ventilation gears respectively, and described heater control module and wind wheel control module are and are connected in parallel.
5. the hot-air heating system for bathing of a kind of automatic rotation as claimed in claim 4, it is characterized in that: the number of described peripheral hardware link is five, first peripheral hardware link is connected from the relay of different heater control module respectively with the second peripheral hardware link, 3rd peripheral hardware link, 4th peripheral hardware link is connected from the relay of different wind wheel control modules respectively with the 5th peripheral hardware link, wherein, first peripheral hardware link and analog input end are in the 3rd multiplexer channel, second peripheral hardware link and additional touch are made a start and are in the 4th multiplexer channel, 3rd peripheral hardware link and the 4th peripheral hardware link are in the first multiplexer channel, 5th peripheral hardware link is in the second multiplexer channel.
6. the hot-air heating system for bathing of a kind of automatic rotation as described in claim 2 or 5, is characterized in that: described crystal battle array is provided with four control input ends and four control output ends, and formation loop, every two control output ends is connected with DC servo motor inductance.
7. the hot-air heating system for bathing of a kind of automatic rotation as claimed in claim 6, it is characterized in that: the number of described asynchronous transmission end is four, the control output end that first asynchronous transmission end is corresponding with the second asynchronous transmission end is connected, the control output end that 3rd asynchronous transmission end is corresponding with the 4th asynchronous transmission end is connected, wherein, first asynchronous transmission end is in first via multiplex channel, and the 4th asynchronous transmission end is in the 3rd road multiplex channel.
8. the hot-air heating system for bathing of a kind of automatic rotation as described in claim 1 or 2 or 5 or 7, it is characterized in that: described temperature triggered device is thermistor, described remote manipulator is infrared remote controller.
Priority Applications (1)
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CN201420546321.7U CN204084557U (en) | 2014-09-22 | 2014-09-22 | A kind of hot-air heating system for bathing of automatic rotation |
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CN201420546321.7U CN204084557U (en) | 2014-09-22 | 2014-09-22 | A kind of hot-air heating system for bathing of automatic rotation |
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CN204084557U true CN204084557U (en) | 2015-01-07 |
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CN201420546321.7U Withdrawn - After Issue CN204084557U (en) | 2014-09-22 | 2014-09-22 | A kind of hot-air heating system for bathing of automatic rotation |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104235936A (en) * | 2014-09-22 | 2014-12-24 | 浙江奥威狮集成家居科技有限公司 | Automatically rotating warm air bath heater |
-
2014
- 2014-09-22 CN CN201420546321.7U patent/CN204084557U/en not_active Withdrawn - After Issue
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104235936A (en) * | 2014-09-22 | 2014-12-24 | 浙江奥威狮集成家居科技有限公司 | Automatically rotating warm air bath heater |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20150107 Effective date of abandoning: 20170711 |
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AV01 | Patent right actively abandoned |