CN112034776A - Wireless dehumidification intelligent system - Google Patents

Abstract

The invention relates to a wireless dehumidification intelligent system. The system comprises a host and a main controller, wherein a PLC module, a wireless router module, two power supply modules, a human-computer interface module, a multi-wave pulse output circuit, a fan power supply circuit, a temperature sensor, an antenna and a data processing module are arranged in the host; the fan power supply circuit is electrically connected with the temperature sensor and the fan, and the antenna is electrically connected with the wireless router module; the human-computer interface module is connected with the mainboard through a wire, the integrated signal is connected to the wireless router module through an aviation wire, and the integrated signal is processed by the data processing module and then displayed on the human-computer interface module to form a wired pulse system.

Description

Wireless dehumidification intelligent system

The technical field is as follows:

the invention relates to a wireless dehumidification intelligent system.

Background art:

the problems of moisture regain and water seepage of villa basements, cellars, underground shopping malls, subways and underground parking lots are solved, and the fact that the traditional waterproofing has inherent defects in the seepage-proofing and moisture-proofing fields is not absolutely related to the waterproofing.

Since this type of waterproofing method is passive "prevention" and "blocking", this may exist: the waterproof layer is damaged by aging of materials and decoration processes, the quality of the waterproof material is not high, and the waterproof layer fails due to the fact that the worker level of actual construction and the engineering quality are not relevant. The damp-regaining and water seepage of the basement become a difficult problem which can not be cured radically and can also cause mildewing.

The water is non-porous and non-permeable, gradually permeates into the building in the form of liquid, gas or even water molecules, is not easy to detect from the surface in the permeation process, and is late until the naked eye can detect the water. Moreover, once water penetrates into the building, in a limited space, heat energy is generated along with the rise of temperature, and water vapor is formed, and under the long-term action of the water vapor, a large amount of pressure is generated to destroy the original waterproof layer and even destroy decoration and decorative materials on the surface (such as paint falling, wall paper blackening, tile swelling and wooden floor swelling); when the water is heated and pressurized, the volume of the water is increased by 10 percent after the water is frozen, the concrete structure is damaged, the water in the concrete structure can corrode a reinforcing steel bar, and the structural strength is reduced.

At present, in engineering construction in China, the phenomena of water leakage, moisture, mildew and the like are solved, and the problems are generally solved by adopting leaking stoppage, but although the leaking stoppage can temporarily solve the waterproof problem of a building, the problems cannot be permanently and thoroughly solved.

The leakage stoppage is that leakage stoppage is where, and like taking medicine for human diseases, the leakage stoppage can not solve the problem, a water leakage point is blocked, but water still exists in a concrete structure and can also permeate from other positions, like viruses still exist in a human body, the skeleton of the human body is corroded, and the muscle of the human body is damaged. This is why, unlike humans, buildings lack the human immune system and "viruses" of this kind can only be passively defended against leakage without countermeasures. Therefore, only one method for radically curing the building diseases is provided, and an immune system which can be countered is provided for the building.

The invention content is as follows:

the invention aims at the problems and provides a wireless intelligent dehumidification system.

In order to achieve the purpose, the invention adopts the following technical scheme that the intelligent wireless router comprises a host and a main controller, wherein a PLC module, a wireless router module, two power modules, a human-computer interface module, a multi-wave pulse output circuit, a fan power supply circuit, a temperature sensor, an antenna and a data processing module are arranged in the host; the fan power supply circuit is electrically connected with the temperature sensor and the fan, and the antenna is electrically connected with the wireless router module; the human-computer interface module is connected with the mainboard through a wire, collected signals are connected to the wireless router module through an aviation wire, and are displayed on the human-computer interface module after being processed by the data processing module to form a wired pulse system;

the controller, the wireless pulse transmitter, the environment temperature and humidity sensor and the object temperature and humidity sensor are arranged in the main controller, pulses output by the multi-wave pulse output circuit are electrically connected with the internal controller through the debugger connecting terminals, the electric wire, the positive electrode and the negative electrode outside the main controller, and the environment temperature and humidity sensor and the object temperature and humidity sensor are electrically connected with the controller.

And the external power supply supplies power to the two power supply modules in the host through a main power supply home-entry port and a connecting wire in the host controller.

The main controller is internally provided with four wiring terminals of the sub-controllers and used for being connected with the external sub-controllers, the sub-controllers are placed in different environments, and the sub-controllers are internally provided with the controllers, the ambient temperature and humidity sensors and the object temperature and humidity sensors.

The host computer receives the indoor environment, object temperature and humidity data collected by the environment temperature and humidity sensor and the object temperature and humidity sensor integrated on the main controller and the sub-controller, the host computer sends control instructions to the main controller and the sub-controller according to actual conditions after processing, the control instructions are transmitted to the main controller and the sub-controller through cables, the main controller and the sub-controller are controlled to send wireless electromagnetic waves, and a wireless pulse system is formed.

The invention has the beneficial effects that:

the invention relates to an advanced electroosmosis technology system which uses an electromagnetic field generated by low voltage and low current to repel water molecules in capillary holes in concrete or brick walls outside a structure. The controller generates special waveform current, and the current forms an electromagnetic field through an anode embedded in the concrete structure and a cathode embedded outside the concrete structure. Under the action of electromagnetic field, the polar water molecules have their polarities strengthened to form dipoles, so that they have dipole moments and produce mutual attraction to form directional arrangement. The dipolar molecules generate heteropolarity to attract homopolar repulsion, and water molecules are excluded from the outer side of the structure, so long as the electromagnetic field is uninterrupted, the water molecules can not enter the concrete or masonry structure, and the structure is in a relatively dry state for a long time.

After the system starts to operate, the system can continuously and actively play a role in preventing seepage and moisture for a building structure and prevent water from invading, which is equal to that the system has the same immune system as a human body and does not bear passively any more for seepage and moisture regaining.

Meanwhile, the problem that the anode cannot be installed in a decorated room is solved; the original junction box is upgraded into a controller, the sensor is reduced, only the probe is kept to be integrated on the controller, the sensor chip is placed in a new controller, and the problem that multiple wall penetration is needed in the construction of more rooms and smaller unit area anodes is solved by adopting a five-in-one structure (namely, a host can be connected with 1 main controller and 4 auxiliary controllers at most).

Description of the drawings:

fig. 1 is an external structural view of the present invention.

Fig. 2 is a schematic structural diagram of the host in fig. 1.

Fig. 3 is a schematic structural diagram of the main controller in fig. 1.

In the attached drawing, 1 is the host computer, 2 is main control unit, 3 is the antenna, 4 is the touch-sensitive screen, 5 is debugger connecting terminal, 6 is the fan, 7 is the mainboard, 8 is environment temperature and humidity sensor, 9 is object temperature and humidity sensor, 10 is main power supply entrance port, 11 is branch controller power connection terminal.

The specific implementation mode is as follows:

as can be seen from fig. 1-3, the invention is composed of a host and a main controller, wherein the host is internally provided with a PLC module, a wireless router module, two power modules, a human-computer interface module, a multi-wave pulse output circuit, a fan power supply circuit, a temperature sensor, an antenna and a data processing module, one of the two power modules is used for supplying power to the multi-wave pulse output circuit and the fan power supply circuit, and the other is used for supplying power to the PLC module, the wireless router module and the human-computer interface module; the fan power supply circuit is electrically connected with the temperature sensor and the fan, and the antenna is electrically connected with the wireless router module; the human-computer interface module is connected with the mainboard through a wire, collected signals are connected to the wireless router module through an aviation wire, and are displayed on the human-computer interface module after being processed by the data processing module to form a wired pulse system;

the controller, the wireless pulse transmitter, the environment temperature and humidity sensor and the object temperature and humidity sensor are arranged in the main controller, pulses output by the multi-wave pulse output circuit are electrically connected with the internal controller through the debugger connecting terminals, the electric wire, the positive electrode and the negative electrode outside the main controller, and the environment temperature and humidity sensor and the object temperature and humidity sensor are electrically connected with the controller.

And the external power supply supplies power to the two power supply modules in the host through a main power supply home-entry port and a connecting wire in the host controller.

The main controller is internally provided with four wiring terminals of the sub-controllers and used for being connected with the external sub-controllers, the sub-controllers are placed in different environments, and the sub-controllers are internally provided with the controllers, the ambient temperature and humidity sensors and the object temperature and humidity sensors.

The host computer receives the indoor environment, object temperature and humidity data collected by the environment temperature and humidity sensor and the object temperature and humidity sensor integrated on the main controller and the sub-controller, the host computer sends control instructions to the main controller and the sub-controller according to actual conditions after processing, the control instructions are transmitted to the main controller and the sub-controller through cables, the main controller and the sub-controller are controlled to send wireless electromagnetic waves, and a wireless pulse system is formed.

The invention is composed of a wired pulse system, a wireless pulse system and an external auxiliary device, and can realize impermeability, air dehumidification and dewing dehumidification. A wired pulse system mainly aims at an anti-permeability system, a working principle of the wired pulse system is that an internal circuit of the system can generate multi-wave bipolar pulse voltage of 36V, then the wired pulse system is connected to an anode titanium wire and a cathode rod of a building (a concrete wall) through an adapter, and a pulse electric field is formed on the inner side of the wall to act with water molecules in the wall, so that the anti-permeability energy efficiency is achieved. The wireless pulse system is also a system aiming at anti-seepage use, which is the same as a wired pulse system, the working principle of the wireless pulse system is that after a 50HZ modulated wave and a fundamental wave are modulated by an organic internal pulse circuit, a wireless electromagnetic wave generated by a transmitting circuit and an internal annular transmitting antenna is radiated from the inner side of a wall to the outer side of the wall, water molecules in soil permeate from the outer side of a building (wall) to the inner side of the wall, and the conclusion shows that the transmitting direction of the electromagnetic wave and the moving direction of water molecules are opposite to each other, and at the moment, when the intensity of the electromagnetic wave is greater than the permeability of the water molecules, the. The low-range pulse cycle width is 30 percent, the output power is 2W, the middle-range pulse cycle width is 60 percent, the output power is 3W, the strong pulse cycle width is 100 percent, the output power is 6W, and the radiation enabling diameter of the pulse wave is 15 meters.

The impervious working state automatic control logic relationship is that when the water content of an object is equal to 30%, the wired system and the wireless system operate for 60 minutes and stop operating for 10 minutes; when the water content of the object is equal to 30-50%, the wired system and the wireless system stop operating for 240 minutes and stop operating for 10 minutes; when the water content of the object is equal to 50% -70%, the wired system operates for 6 hours and stops 5 minutes of circulating operation state, and the wireless system operates without stopping; when the water content of the object is equal to or more than 70%, the wired system operates for 12 hours and stops 5 minutes of circulating operation, and the wireless system does not stop operating.

The automatic control logic relationship of the dehumidification working state is that when the environmental humidity value is equal to 30%, the auxiliary dehumidification equipment stops running, and the air purification device stops running for 60 minutes and stops running for 10 minutes in a circulating mode. When the environmental humidity value is 30-40%, the auxiliary dehumidification equipment runs for 30 minutes, stops for 20 minutes and runs circularly; the air purification device operates for 30 minutes and stops operating for 20 minutes, and the air purification device operates in a circulating operation state; when the environmental humidity value is 40% -60%, the auxiliary dehumidifying equipment runs for 120 minutes, stops running for 10 minutes, and runs in a circulating mode. The air purification device operates for 30 minutes and stops operating for 30 minutes, and the air purification device is in a circulating operation state; when the environmental humidity value is 60-85%, the auxiliary dehumidification equipment operates for 4 hours, stops for 10 minutes and operates in a circulating mode; the air purification device operates for 20 minutes and stops operating for 30 minutes, and the air purification device operates in a circulating mode; when the environmental humidity value is 85% -100%, the auxiliary dehumidification equipment continuously operates without stopping, the air purification device operates for 10 minutes and stops for 30 minutes, and the air purification device operates in a circulating state.

The anti-condensation working state automatic control logic relationship is that when the temperature value of the environment minus the temperature value of the object is equal to 1-4 ℃, the auxiliary dehumidifying device is closed; when the temperature value of the object subtracted from the environmental temperature value is equal to 4-8 ℃, the auxiliary dehumidifying device operates for 1 hour and stops the 20-minute circulating operation state; when the temperature value of the object subtracted from the environmental temperature value is more than 8 ℃, the auxiliary dehumidifying device assists the dehumidifying equipment to continuously operate without stopping.

Claims (3)

1. The wireless dehumidification intelligent system is characterized by comprising a host and a main controller, wherein the host is internally provided with a PLC module, a wireless router module, two power modules, a human-computer interface module, a multi-wave pulse output circuit, a fan power supply circuit, a temperature sensor, an antenna and a data processing module; the fan power supply circuit is electrically connected with the temperature sensor and the fan, and the antenna is electrically connected with the wireless router module; the human-computer interface module is connected with the mainboard through a wire, the integrated signal is connected to the wireless router module through an aviation wire, and the integrated signal is processed by the data processing module and then displayed on the human-computer interface module to form a wired pulse system;

the controller, the wireless pulse transmitter, the environment temperature and humidity sensor and the object temperature and humidity sensor are arranged in the main controller, pulses output by the multi-wave pulse output circuit are electrically connected with the internal controller through the debugger connecting terminals, the electric wire, the positive electrode and the negative electrode outside the main controller, and the environment temperature and humidity sensor and the object temperature and humidity sensor are electrically connected with the controller.

2. The wireless intelligent dehumidification system according to claim 1, wherein an external power supply supplies power to the two power supply modules in the host through a main power supply home port and a connecting wire in the host controller.

3. The wireless intelligent dehumidification system according to claim 1, wherein four sub-controllers are disposed in the main controller and connected to the external sub-controllers, the sub-controllers are disposed in different environments, and the controllers, the ambient temperature and humidity sensors and the object temperature and humidity sensors are also disposed in the sub-controllers.

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