CN209857179U - Energy-saving indoor heating intelligent monitoring and constant temperature system - Google Patents
Energy-saving indoor heating intelligent monitoring and constant temperature system Download PDFInfo
- Publication number
- CN209857179U CN209857179U CN201920377747.7U CN201920377747U CN209857179U CN 209857179 U CN209857179 U CN 209857179U CN 201920377747 U CN201920377747 U CN 201920377747U CN 209857179 U CN209857179 U CN 209857179U
- Authority
- CN
- China
- Prior art keywords
- control module
- main control
- indoor
- module
- monitoring
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Abstract
The utility model discloses an energy-saving indoor heating intelligent monitoring and constant temperature system, which comprises a main control module, a heating hot water flow regulating valve, a temperature sensor for indoor temperature detection and an infrared automatic positioning and tracking monitoring module for automatically tracking and monitoring the flow of indoor personnel, wherein the main control module is connected with the heating hot water flow regulating valve, the temperature sensor for indoor temperature detection and the infrared automatic positioning and tracking monitoring module for automatically tracking and monitoring the flow of indoor personnel through wires; the water flow regulating valve is arranged on a hot water pipe for heating, an actually measured temperature value signal is fed back to the main control module by the temperature sensor at regular time, and the water flow regulating valve is controlled by the main control module to regulate the hot water flow to realize the indoor required temperature when the temperature exceeds the temperature control range; the multi-point infrared automatic positioning tracking monitoring module monitors indoor personnel, feeds back monitoring signals to the main control module in real time, monitors whether the personnel exist in the room or not, and automatically turns on or off the heating system by the main control module when the time length exceeds the time length set by the personnel, but the main control module and the multi-point infrared automatic positioning tracking monitoring module are in working states.
Description
Technical Field
The utility model relates to an indoor heating device specifically is an energy-saving indoor heating intelligent monitoring and constant temperature system.
Background
There are many public personnel activities in the north, for example: the activity center of hall formula public office area, public dining room, classroom, meeting room, indoor hall formula etc. when heating winter, heating is all being opened in a big region, and a lot of are indoor all being opened when nobody, and heating equipment has either nobody to manage, or heating equipment design defect, or has someone to manage but also lazy management, causes the wasting of resources.
SUMMERY OF THE UTILITY MODEL
In order to solve the technical problem, the utility model provides an easy to assemble, convenient operation adjusts the remote control formula control constant temperature heating intelligent system of indoor temperature through automatically regulated hot water flow.
The scheme for solving the technical problems is as follows:
an energy-saving intelligent monitoring and constant temperature system for indoor heating comprises a main control module, a water flow regulating valve, a temperature sensor and a multi-point infrared automatic positioning and tracking monitoring module; the main control module is connected with a heating hot water flow regulating valve, a temperature sensor for detecting indoor temperature and an infrared automatic positioning tracking monitoring module for automatically tracking and monitoring indoor personnel flow through electric wires; the water flow regulating valve is arranged on a hot water pipe for heating, the indoor required temperature range is set through the main control module, the indoor temperature is monitored by the temperature sensor, an actually measured temperature value signal is fed back to the main control module by the temperature sensor in a timing mode, and then the main control module controls the water flow regulating valve to regulate the hot water flow to achieve the indoor required temperature; the multi-point infrared automatic positioning tracking monitoring module monitors indoor personnel, feeds back monitoring signals to the main control module in real time, when the multi-point infrared automatic positioning tracking monitoring module monitors whether the indoor personnel exist and exceed a set time length indoors, the main control module automatically starts and automatically starts a heating system, when the multi-point infrared automatic positioning tracking monitoring module monitors whether the indoor personnel exist and exceed the set time length indoors, the main control module automatically closes the water flow regulating valve and the temperature sensor, but the main control module and the multi-point infrared automatic positioning tracking monitoring module are in working states.
The technical scheme is further as follows: the face recognition module is connected with the main control module through an electric wire and used for recognizing a person who starts the main control module by a designated person, the face recognition module identifies the real identity of a user who starts the main control module, and after the comparison is successful, the main control module can be started and the heating function can be operated; of course, a fingerprint recognition module (fingerprint recognizer/analyzer) may be used instead of the face recognition module.
The technical scheme is further as follows: still include humidity control module, humidity control module passes through the electric wire and is connected with host system, sets for indoor humidity range value at host system, and humidity control module regularly feeds back actual measurement humidity value signal and gives host system, by the indoor air humidity of host system control. The technical scheme is further as follows: the air purification device is characterized by further comprising an air purification module, wherein the air purification module is connected with the main control module through an electric wire, and indoor air purification is performed regularly or continuously through setting in the main control module.
The technical scheme is further as follows: the main control module is a main controller; the multi-point infrared automatic positioning tracking monitoring module is a multi-point infrared automatic positioning tracking monitoring system.
The technical scheme is further as follows: the face recognition module is a face recognition system.
The technical scheme is further as follows: the humidity control module comprises a humidity sensor and a humidifier. The technical scheme is further as follows: the air purification module is an air purifier.
The technical scheme is further as follows: the oxygen increasing module is connected with the main control module through an electric wire, the indoor oxygen value range is set in the main control module, the oxygen increasing module feeds back an oxygen value signal contained in the actual measurement chamber to the main control module at regular time, and the main control module controls the indoor oxygen value.
The technical scheme is further as follows: the oxygenation module comprises an oxygen content detection sensor and an aerator.
The utility model discloses an energy-saving indoor heating intelligent monitoring and constant temperature system beneficial effect does: the indoor heating intelligent monitoring and constant temperature system comprises a main control module, a water flow regulating valve, a temperature sensor and a multi-point infrared automatic positioning tracking monitoring module; the main control module is connected with a heating hot water flow regulating valve, a temperature sensor for detecting indoor temperature and an infrared automatic positioning tracking monitoring module for automatically tracking and monitoring indoor personnel flow through electric wires; the water flow regulating valve is arranged on a hot water pipe for heating, the indoor required temperature range is set through the main control module, the indoor temperature is monitored by the temperature sensor, an actually measured temperature value signal is fed back to the main control module by the temperature sensor in a timing mode, and then the main control module controls the water flow regulating valve to regulate the hot water flow so as to achieve the indoor required temperature; the multi-point infrared automatic positioning tracking monitoring module monitors indoor personnel and feeds back monitoring signals to the main control module in real time, when the multi-point infrared automatic positioning tracking monitoring module monitors whether the indoor personnel exist and the indoor length exceeds a set length, the main control module automatically starts and automatically starts a heating system, and when the multi-point infrared automatic positioning tracking monitoring module monitors whether the indoor personnel do not exist and the indoor length exceeds the set length, the main control module automatically closes the water flow regulating valve and the temperature sensor so as to close the heating system, but the main control module and the multi-point infrared automatic positioning tracking monitoring module are in working states; the technical scheme realizes the constant temperature automation of indoor heating, also realizes the personnel monitoring automation and the opening/closing automation of the heating system, completely does not need personnel management, and greatly saves energy and resources.
Drawings
FIG. 1 is a schematic diagram of the connection of a circuit block module of the present invention;
FIG. 2 is a schematic diagram of the connection of the product circuit block module of the present invention;
fig. 3 is a schematic diagram of the connection between the main controller and each specific product.
Detailed Description
An energy-saving intelligent monitoring and constant temperature system for indoor heating comprises a main control module 1, a water flow regulating valve 2, a temperature sensor 3 and a multi-point infrared automatic positioning and tracking monitoring module 4; the main control module 1 is connected with a heating hot water flow regulating valve 2, a temperature sensor 3 for detecting indoor temperature and an infrared automatic positioning tracking monitoring module 4 for automatically tracking and monitoring indoor personnel flow through electric wires; the water flow regulating valve 2 is arranged on a hot water pipe for heating, a temperature range required indoors is set through the main control module 1, the temperature sensor 3 monitors the indoor temperature, an actually measured temperature value signal is fed back to the main control module by the temperature sensor 3 at regular time, and then the main control module 1 controls the water flow regulating valve 2 to regulate the hot water flow to realize the temperature required indoors; the multi-point infrared automatic positioning tracking monitoring module 4 monitors indoor personnel, and feeds back monitoring signals to the main control module 1 in real time, when the multi-point infrared automatic positioning tracking monitoring module 4 monitors indoor personnel and exceeds the set time length indoors, the main control module 1 automatically starts and automatically starts a heating system, when the multi-point infrared automatic positioning tracking monitoring module 4 monitors indoor personnel and exceeds the set time length indoors, the main control module 1 automatically closes the water flow regulating valve 2 and the temperature sensor 3, but the main control module 1 and the multi-point infrared automatic positioning tracking monitoring module 4 are in a working state, and the multi-point infrared automatic positioning tracking monitoring module 4 is in a monitoring state.
For example, 1: when a person enters the classroom in the morning, the multipoint infrared automatic positioning tracking monitoring module 4 monitors that the person enters and exceeds the set 2 minutes, at this time, the main control module starts the heating system according to the signal fed back by the multi-point infrared automatic positioning and tracking monitoring module 4, the starting of the heating system means starting all functions of the main control module, the main control module controls the water flow regulating valve to be opened to supply heat for the classroom, the temperature sensor is controlled to start monitoring the indoor temperature, the temperature sensor feeds back the measured temperature value signal to the main control module at regular time, if the indoor temperature is not in the set range (for example, the set normal temperature range is 30-32 ℃), the main control module controls the water flow regulating valve to regulate the hot water flow to realize the indoor required temperature (the hot water is heated by a large amount and cooled by a small amount) when the indoor temperature is not in the set temperature control range; after the classroom is free of people after school at night, the multipoint infrared automatic positioning tracking monitoring module 4 monitors that the classroom is free of people and exceeds the set time of 3 minutes, at the moment, the main control module closes the heating system according to a signal fed back by the multipoint infrared automatic positioning tracking monitoring module 4, closes the temperature sensor 3, closes the water flow regulating valve, prevents hot water from flowing, and stops heating.
For example, 2: the method is applied to a hall type collective office, when a person enters the office to work in the morning, the multi-point infrared automatic positioning tracking monitoring module 4 monitors that the person enters and exceeds the set time of 2 minutes, at the moment, the main control module starts the heating system according to the signal fed back by the multi-point infrared automatic positioning tracking monitoring module 4, the starting of the heating system means that all functions of the main control module are started, the main control module controls the water flow regulating valve to be opened to supply hot water to the office, the temperature sensor is controlled to start monitoring the indoor temperature, the temperature sensor feeds back the measured temperature value signal to the main control module at regular time, if the indoor temperature is not in the set range (for example, the set normal temperature range is 31 ℃ -33 ℃), the main control module controls the water flow regulating valve to regulate the hot water flow to realize the indoor required temperature (the throughput of the hot water is, the temperature is reduced by small amount); after work, no person is in the office, the multipoint infrared automatic positioning and tracking monitoring module 4 monitors that no person is in the office and the time exceeds the set time of 5 minutes, at the moment, the main control module closes the heating system according to the signal fed back by the multipoint infrared automatic positioning and tracking monitoring module 4, closes the temperature sensor 3, closes the water flow regulating valve, prevents hot water from flowing, and stops heating.
The technical scheme is further as follows: a face recognition module 5 can be added on the main control module 1, the face recognition module 5 is connected with the main control module 1 through an electric wire, corresponding circuits and operation software programs are set in the main control module 1 and are enabled to run in coordination with the main control module 1, according to the increase of actual conditions, the face recognition module 5 is used for recognizing a person who starts the main control module 1 by a designated person, the face recognition module 5 identifies the real identity of the user who starts the main control module, and after the comparison is successful, the main control module can be started and a heating function can be operated (the function principle of the face recognition door control/intelligent lock is the same as that of a face recognition door control system, only a designated person is recorded in advance, and a door lock can be opened only by matching the; the face recognition module 5 is added to prevent the main control module 1 (heating system) from being started/operated/adjusted at will by people who cannot have any convenience, prevent the operation from being disordered and the misoperation, and prevent the coordination imbalance with other networked heating systems.
The face recognition module 5 is a face recognition instrument (face recognizer/face recognition system) which is a product of the prior art.
The face recognition module 5 can be replaced by a fingerprint module, namely: fingerprint identification system.
The technical scheme is further as follows: a humidity control module 6 can be added on the main control module 1, the humidity control module 6 is connected with the main control module 1 through an electric wire, and corresponding circuits and operation software programs are set in the main control module 1 and are enabled to run in coordination with the main control module 1; setting an indoor humidity range value in the main control module 1, feeding back an actually measured humidity value signal to the main control module at regular time by the humidity control module 6, and controlling indoor air humidity by the main control module;
the humidity control module 6 comprises a humidity sensor 61 and a humidifier 62, the humidity sensor 61 feeds back an actually measured humidity value signal to the main control module at regular time, and when the humidity value exceeds the humidity value, the humidifier is controlled to reduce power to work, reduce the humidity to a set value and maintain the current power; when the humidity value is lower than the humidity value, controlling the humidifier to increase power to work, increasing the humidity to be within a set value, and maintaining the current power; the relative humidity is set to be 50% -60%, and the humidity is the most comfortable for human body to feel.
The technical scheme is further as follows: an air purification module 7 can be added on the main control module 1, the air purification module 7 is connected with the main control module 1 through an electric wire, and the air purification module and the main control module 1 run in coordination through a circuit and an operation software program which are set in the main control module 1 and perform indoor air purification regularly or continuously; the air purification module 7 is an air purifier.
The technical scheme is further as follows: an oxygen increasing module 8 can be added on the main control module 1, the oxygen increasing module 8 is connected with the main control module 1 through an electric wire, and corresponding circuits and operation software programs are set in the main control module 1 and are enabled to run in coordination with the main control module 1; by setting the indoor oxygen value range in the main control module 1, the oxygenation module 8 feeds back an oxygen value signal contained in the actual measurement room to the main control module at regular time, and the main control module controls the indoor oxygen value; the oxygen increasing module 8 comprises an oxygen content detection sensor 81 and an oxygen increasing machine 82, because the number of people in a collective public area (classroom, office) is large, a door and a window of a room are closed during heating, air is little, oxygen content is low, if the oxygen content detection sensor 81 feeds back an actually measured indoor oxygen content value signal to the main control module, the main control module controls the oxygen increasing machine 82 to work to increase working power, increase oxygen output and maintain a set indoor oxygen value range, if the oxygen content detection sensor 81 feeds back an actually measured indoor oxygen content value signal to the main control module, the main control module controls the oxygen increasing machine 82 to work to reduce power, reduce oxygen, maintain the set oxygen value range and finally realize balanced oxygen generation in the oxygen value range; the range of the normal oxygen content value in the indoor air is set as follows: 20 to 23 percent.
The technical scheme is further as follows: the main control module 1 is a main controller; the multi-point infrared automatic positioning, tracking and monitoring module 4 is a multi-point infrared automatic positioning, tracking and monitoring system which is a multi-point infrared automatic positioning, tracking and monitoring system disclosed by the Chinese grant publication No. CN202168165U and the patent No. 201120284128.7; the multi-point infrared automatic positioning tracking monitoring system monitors indoor personnel, and feeds back monitoring signals to the main controller in real time, when the multi-point infrared automatic positioning tracking monitoring system monitors that the indoor personnel exist and exceed the set time length indoors, the main controller automatically starts and automatically starts the heating system, when the multi-point infrared automatic positioning tracking monitoring system monitors that the indoor personnel do not exist and exceed the set time length indoors, the main controller automatically closes the water flow regulating valve 2 and the temperature sensor 3, but the main controller and the multi-point infrared automatic positioning tracking monitoring system are in working states.
The main controller is connected with the water flow regulating valve 2, the temperature sensor 3, the humidity sensor 61, the humidifier 62, the air purifier, the oxygen content detection sensor 81, the aerator 82, the face recognition instrument and the multipoint infrared automatic positioning tracking monitoring system through electric wires; the humidity sensor 61, the humidifier 62, the oxygen content detection sensor 81, the aerator 82, the face recognition instrument and the multipoint infrared automatic positioning tracking monitoring system are specific application products of the corresponding modules; the main controller is provided with a function operation touch key for controlling the water flow regulating valve 2, the temperature sensor 3, the humidity sensor 61, the humidifier 62, the air purifier, the oxygen content detection sensor 81, the aerator 82, the face recognition instrument and the multipoint infrared automatic positioning tracking monitoring system.
Above only do the preferred embodiment of the present invention, the protection scope of the present invention is not limited to the above embodiment, all belong to the technical scheme of the present invention all belong to the protection scope of the present invention. It will be apparent to those skilled in the art that various modifications and enhancements can be made without departing from the principles of the invention, and such modifications and enhancements are intended to be within the scope of the invention.
Claims (8)
1. The utility model provides an energy-saving indoor heating intelligent monitoring and constant temperature system which characterized in that: the indoor heating intelligent monitoring and constant temperature system comprises a main control module, a water flow regulating valve, a temperature sensor and a multi-point infrared automatic positioning tracking monitoring module; the main control module is connected with a heating hot water flow regulating valve, a temperature sensor for detecting indoor temperature and an infrared automatic positioning tracking monitoring module for automatically tracking and monitoring indoor personnel flow through electric wires; the water flow regulating valve is arranged on a hot water pipe for heating, the indoor required temperature range is set through the main control module, the indoor temperature is monitored by the temperature sensor, an actually measured temperature value signal is fed back to the main control module by the temperature sensor in a timing mode, and then the main control module controls the water flow regulating valve to regulate the hot water flow to achieve the indoor required temperature; the multi-point infrared automatic positioning tracking monitoring module monitors indoor personnel, feeds back monitoring signals to the main control module in real time, when the multi-point infrared automatic positioning tracking monitoring module monitors whether the indoor personnel exist and exceed a set time length indoors, the main control module automatically starts and automatically starts a heating system, when the multi-point infrared automatic positioning tracking monitoring module monitors whether the indoor personnel exist and exceed the set time length indoors, the main control module automatically closes the water flow regulating valve and the temperature sensor, but the main control module and the multi-point infrared automatic positioning tracking monitoring module are in working states.
2. The energy-saving intelligent indoor heating monitoring and constant temperature system according to claim 1, wherein: still include humidity control module, humidity control module passes through the electric wire and is connected with host system, sets for indoor humidity range value at host system, and humidity control module regularly feeds back actual measurement humidity value signal and gives host system, by the indoor air humidity of host system control.
3. The energy-saving intelligent indoor heating monitoring and constant temperature system according to claim 1, wherein: the air purification device is characterized by further comprising an air purification module, wherein the air purification module is connected with the main control module through an electric wire, and indoor air purification is performed regularly or continuously through setting in the main control module.
4. The energy-saving intelligent indoor heating monitoring and constant temperature system according to claim 1, wherein: the main control module is a main controller; the multi-point infrared automatic positioning tracking monitoring module is a multi-point infrared automatic positioning tracking monitoring system.
5. The energy-saving intelligent indoor heating monitoring and constant temperature system according to claim 2, wherein: the humidity control module comprises a humidity sensor and a humidifier.
6. The energy-saving intelligent indoor heating monitoring and constant temperature system according to claim 3, wherein: the air purification module is an air purifier.
7. The energy-saving intelligent indoor heating monitoring and constant temperature system according to claim 1, wherein: the oxygen increasing module is connected with the main control module through an electric wire, the indoor oxygen value range is set in the main control module, the oxygen increasing module feeds back an oxygen value signal contained in the actual measurement chamber to the main control module at regular time, and the main control module controls the indoor oxygen value.
8. The energy-saving intelligent indoor heating monitoring and constant temperature system according to claim 7, wherein: the oxygenation module comprises an oxygen content detection sensor and an aerator.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920377747.7U CN209857179U (en) | 2019-03-22 | 2019-03-22 | Energy-saving indoor heating intelligent monitoring and constant temperature system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920377747.7U CN209857179U (en) | 2019-03-22 | 2019-03-22 | Energy-saving indoor heating intelligent monitoring and constant temperature system |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN209857179U true CN209857179U (en) | 2019-12-27 |
Family
ID=68934666
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201920377747.7U Active CN209857179U (en) | 2019-03-22 | 2019-03-22 | Energy-saving indoor heating intelligent monitoring and constant temperature system |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN209857179U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN111964151A (en) * | 2020-08-14 | 2020-11-20 | 苏州酷牛电子科技有限公司 | Household heating control system |
-
2019
- 2019-03-22 CN CN201920377747.7U patent/CN209857179U/en active Active
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN111964151A (en) * | 2020-08-14 | 2020-11-20 | 苏州酷牛电子科技有限公司 | Household heating control system |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN109489226B (en) | Air conditioner indoor energy-saving strategy management system and air conditioner control method | |
| CN110007610A (en) | A kind of Intelligent household steward system | |
| CN103900191A (en) | Air conditioner energy-saving control system and control method of air conditioner energy-saving control system | |
| CN106152396B (en) | Control method and control device for startup and shutdown of air conditioner and air conditioner | |
| CN109764504A (en) | A kind of Xingfeng capsule system and control method | |
| CN209857179U (en) | Energy-saving indoor heating intelligent monitoring and constant temperature system | |
| CN209415702U (en) | A kind of air-conditioning indoor energy-saving policy management system | |
| CN111158251A (en) | Office intelligent management system | |
| CN112346348A (en) | Indoor environment adjustment system | |
| CN109028502A (en) | A kind of residential architecture gravity-flow ventilation intelligent regulating system | |
| CN105020857A (en) | Adjustment and detection circulation system for indoor environment | |
| CN109946982A (en) | A kind of household electrical appliance are automatically turned off control system | |
| CN111678260A (en) | Gas type shower device based on dynamic monitoring and temperature difference parameters and control system thereof | |
| CN208579472U (en) | Air-conditioning centralized intelligence control system based on human body sensing | |
| CN106873386A (en) | A kind of intelligent domestic system | |
| CN204406071U (en) | A kind of office energy-saving intelligent control system | |
| CN107860056A (en) | The home intelligent closed-loop regulating system and its control method of public heating | |
| CN106406195B (en) | A kind of domestic energy-saving electricity system | |
| CN205641374U (en) | Energy -conserving air conditioning system based on electrical automation control | |
| CN205372719U (en) | Intelligent control electric heater device | |
| CN209512240U (en) | A kind of Xingfeng capsule system | |
| CN210717981U (en) | High-efficiency energy-saving automatic control system for air conditioner in operating room | |
| CN208209980U (en) | A kind of intelligent housing system | |
| CN211903220U (en) | Remote energy-saving air conditioner control system | |
| CN110979622A (en) | Passenger ship balcony room temperature control system and temperature control method |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| GR01 | Patent grant | ||
| GR01 | Patent grant |