阅读说明：本技术 一种温湿度控制器系统 (Temperature and humidity controller system ) 是由 钱云孟 钱程 林渝翰 于 2019-08-21 设计创作，主要内容包括：本发明实施例公开了一种温湿度控制器系统,属于温湿度控制技术领域,包括温度传感器、湿度传感器、主控制器、显示装置、警告系统和控制装置,温度传感器和湿度传感器信号连接主控制器,主控制器信号连接显示装置、警告系统和控制装置。此实施例中采用温湿度控制器,通过与地热地下水和浅表地下水结合,水泵提升地热地下水和浅表地下水进入到调温管中,实现对空间环境内温度的调节,快速实现空间环境的温度调节,还降低了用电成本；水箱上设置了循环风扇、出风管和回风管,能够将水箱中的水汽向外散失到空间环境中,从而实现对空间环境的湿度调节,同时配合排风扇使用。不仅提高了温湿度调节的效率,同时降低了用电成本,提高了经济效益。(The embodiment of the invention discloses a temperature and humidity controller system, which belongs to the technical field of temperature and humidity control and comprises a temperature sensor, a humidity sensor, a main controller, a display device, a warning system and a control device, wherein the temperature sensor and the humidity sensor are in signal connection with the main controller, and the main controller is in signal connection with the display device, the warning system and the control device. In the embodiment, the temperature and humidity controller is adopted, and is combined with geothermal underground water and superficial underground water, the geothermal underground water and the superficial underground water are lifted by the water pump to enter the temperature adjusting pipe, so that the temperature in a space environment is adjusted, the temperature of the space environment is quickly adjusted, and the electricity consumption cost is reduced; set up circulating fan, play tuber pipe and return air pipe on the water tank, can outwards scatter and disappear to the space environment with the steam in the water tank to the realization is to the humidity control of space environment, and the cooperation exhaust fan uses simultaneously. The temperature and humidity adjusting efficiency is improved, the power consumption cost is reduced, and the economic benefit is improved.)

1. A temperature and humidity controller system is characterized by comprising a temperature sensor, a humidity sensor, a main controller, a display device, a warning system and a control device, wherein the temperature sensor and the humidity sensor are in signal connection with the main controller;

The control device comprises a temperature adjusting pipe, a water tank, a first water outlet pipe, a first water return pipe, a second water outlet pipe, a second water return pipe, a water pump, an electromagnetic valve, a circulating fan, an air outlet pipe and an air return pipe, one end of the temperature adjusting pipe is connected with the first water outlet pipe and the second water outlet pipe, the other end of the temperature adjusting pipe is connected with the first water return pipe and the second water return pipe, the first water outlet pipe and the second water outlet pipe are provided with water pumps, the first water outlet pipe, the first water return pipe, the second water outlet pipe and the second water return pipe are all provided with electromagnetic valves, the first water outlet pipe and the first water return pipe are both connected with a water tank, the second water outlet pipe and the second water return pipe are both connected with underground water, the water tank is also provided with an air outlet pipe and an air return pipe, the air outlet pipe and the air return pipe are both provided with electromagnetic valves, and the air outlet of the air outlet pipe is provided with a circulating fan, and the circulating fan, the electromagnetic valve and the water pump are in signal connection with the main controller.

2. The temperature and humidity controller system according to claim 1, further comprising a switching valve, wherein the second water outlet pipe comprises a first water outlet branch pipe and a second water outlet branch pipe, the second water return pipe comprises a first water return branch pipe and a second water return branch pipe, the first water outlet branch pipe and the second water return branch pipe are communicated with geothermal groundwater, the second water outlet branch pipe and the second water return branch pipe are communicated with shallow groundwater, the first water outlet branch pipe, the second water outlet branch pipe, the first water return branch pipe and the second water return branch pipe are respectively provided with a switching valve, and the switching valve is in signal connection with the main controller.

3. The temperature and humidity controller system of claim 2, wherein the warning system comprises a fault alarm module, an overheating alarm module, and an over-wetting alarm module.

4. the temperature and humidity controller system of claim 3, further comprising an exhaust fan in signal communication with the main controller.

5. The temperature and humidity controller system according to claim 4, further comprising a liquid level meter, wherein the liquid level meter is disposed in the water tank, and the liquid level meter is in signal connection with the main controller.

6. The temperature and humidity controller system according to claim 5, further comprising a communication module, wherein the communication module is connected with the main controller and the intelligent terminal.

Technical Field

the embodiment of the invention relates to the technical field of temperature and humidity control, in particular to a temperature and humidity controller system.

background

The temperature and humidity controller uses an advanced single chip as a control core, adopts a high-performance temperature and humidity sensor, can simultaneously measure and control signals such as temperature, humidity and the like, realizes digital display, and can also respectively set and display the upper limit and the lower limit of the temperature and the humidity through keys, so that the instrument can automatically start a fan or a heater according to the field condition and automatically adjust the actual temperature and the actual humidity of the measured environment. If use in aspects such as block terminal, roast room, warehouse, computer lab, weaving, breed, improved space humiture environmental monitoring and regulation effect greatly.

Disclosure of Invention

Therefore, the embodiment of the invention provides a temperature and humidity controller system to solve the problem that in the prior art, the temperature and humidity regulation cost of a space environment is increased due to large power consumption of cooling equipment and dehumidifying equipment.

in order to achieve the above object, the embodiments of the present invention provide the following technical solutions:

A temperature and humidity controller system comprises a temperature sensor, a humidity sensor, a main controller, a display device, a warning system and a control device, wherein the temperature sensor and the humidity sensor are in signal connection with the main controller;

the control device comprises a temperature adjusting pipe, a water tank, a first water outlet pipe, a first water return pipe, a second water outlet pipe, a second water return pipe, a water pump, an electromagnetic valve, a circulating fan, an air outlet pipe and an air return pipe, one end of the temperature adjusting pipe is connected with the first water outlet pipe and the second water outlet pipe, the other end of the temperature adjusting pipe is connected with the first water return pipe and the second water return pipe, the first water outlet pipe and the second water outlet pipe are provided with water pumps, the first water outlet pipe, the first water return pipe, the second water outlet pipe and the second water return pipe are all provided with electromagnetic valves, the first water outlet pipe and the first water return pipe are both connected with a water tank, the second water outlet pipe and the second water return pipe are both connected with underground water, the water tank is also provided with an air outlet pipe and an air return pipe, the air outlet pipe and the air return pipe are both provided with electromagnetic valves, and the air outlet of the air outlet pipe is provided with a circulating fan, and the circulating fan, the electromagnetic valve and the water pump are in signal connection with the main controller.

The second water outlet pipe comprises a first water outlet branch pipe and a second water outlet branch pipe, the second water return pipe comprises a first water return branch pipe and a second water return branch pipe, the first water outlet branch pipe and the second water return branch pipe are communicated with geothermal underground water, the second water outlet branch pipe and the second water return branch pipe are communicated with shallow surface underground water, switching valves are arranged on the first water outlet branch pipe, the second water outlet branch pipe, the first water return branch pipe and the second water return branch pipe, and the switching valves are in signal connection with the main controller.

further, the warning system comprises a fault alarm module, an overheating alarm module and an over-wetting alarm module.

Further, still include the exhaust fan, exhaust fan signal connection main control unit.

Further, still include the level gauge, the level gauge is located in the water tank, level gauge signal connection main control unit.

Further, the intelligent terminal comprises a communication module, and the communication module is connected with the main controller and the intelligent terminal.

the embodiment of the invention has the following advantages:

1. In the embodiment, the temperature and humidity controller is adopted, and is combined with geothermal underground water and superficial underground water, the geothermal underground water and the superficial underground water are lifted by the water pump to enter the temperature adjusting pipe, so that the temperature in the space environment is adjusted, the temperature adjustment of the space environment can be quickly realized, and the electricity consumption cost is reduced;

2. The water tank is arranged, a certain amount of geothermal underground water or superficial underground water can be stored in the water tank, on one hand, water in the water tank is introduced into the temperature adjusting pipe through the water pump, so that auxiliary temperature adjustment of the space environment is realized, on the other hand, the water tank is placed in the space environment, and heat exchange can also be carried out with the space environment, so that temperature adjustment is realized;

3. the water tank is provided with the circulating fan, the air outlet pipe and the air return pipe, so that water vapor in the water tank can be dissipated to the space environment outwards, the humidity of the space environment is adjusted, and the water tank is matched with the exhaust fan for use; the water vapor of the geothermal underground water or the shallow underground water which is dissipated from the water tank has not only the humidity adjusting function but also a certain temperature adjusting function.

in conclusion, the temperature and humidity controller is based on the temperature and humidity controller, the temperature and humidity of the space environment are adjusted by using underground water resources, the efficiency of temperature and humidity adjustment is improved, the power consumption cost is reduced, and the economic benefit is improved.

Drawings

in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

Fig. 1 is a block diagram of a temperature and humidity controller system according to an embodiment of the present invention;

Fig. 2 is a schematic structural diagram of a control device according to an embodiment of the present invention;

In the figure:

1 a temperature sensor; 2 a humidity sensor; 3, a main controller; 4 a display device; 5, a warning system; 6 a control device; 601 a temperature regulating pipe; 602 a water tank; 603 a first water outlet pipe; 604 a first return pipe; 605 a second water outlet pipe; 6051 a first water outlet pipe; 6052 a water outlet pipe II; 606 a second water return pipe; 6061 returning water is divided into a first branch pipe; 6062 returning water to a second branch pipe; 607 water pump; 608 a solenoid valve; 609 a circulation fan; 610 air outlet pipe; 611 air return pipe; 7 switching valves; 8, an exhaust fan; 9 a liquid level meter; 10 communication module.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to improve the efficiency of temperature and humidity monitoring and adjustment, an embodiment of the present invention provides a temperature and humidity controller system, as shown in fig. 1 and 2, including a temperature sensor 1, a humidity sensor 2, a main controller 3, a display device 4, a warning system 5, and a control device 6, where the temperature sensor 1 and the humidity sensor 2 are in signal connection with the main controller 3, and the main controller 3 is in signal connection with the display device 4, the warning system 5, and the control device 6. In this embodiment, the temperature sensor 1 and the humidity sensor 2 are both commercially available devices, and the main controller 3 is a temperature and humidity controller manufactured by gold four-dimensional electrical limited and having a model number of TDK0302 LA. The display device 4 may be a display screen for displaying the temperature and humidity status more conveniently, and the warning system 5 is used for giving an alarm in abnormal situations, for example, giving an alarm when the temperature exceeds a limit value. In this embodiment, the warning system 5 includes a fault alarm module, an overheat alarm module, and an over-wet alarm module, which are commercially available devices. The temperature and humidity are monitored by the temperature sensor 1 and the humidity sensor 2, monitoring real-time data are displayed on the display device 4, and when the conditions of over-temperature, over-humidity and the like occur, an alarm can be given out by the warning system 5.

Above-mentioned structure mainly carries out the control of humiture and reports an emergency and asks for help or increased vigilance, and when temperature and humidity exceeded preset range, need start adjusting device. In such an embodiment, the existing geothermal and superficial groundwater resources are fully utilized, and the water tank 602 can quickly adjust the temperature and humidity of the space environment. It is noted that the temperature of geothermal underground water is generally 35-50 ℃ to meet the heat consumption requirement in winter, and the temperature of shallow underground water is generally 15-17 ℃ to meet the cooling requirement in summer.

Specifically, the control device 6 includes a temperature adjusting pipe 601, a water tank 602, a first water outlet pipe 603, a first water return pipe 604, a second water outlet pipe 605, a second water return pipe 606, a water pump 607, an electromagnetic valve 608, a circulation fan 609, an air outlet pipe 610 and an air return pipe 611, in this embodiment, the temperature adjusting pipe 601 is a strip-shaped plastic hose, has a certain flexibility, and is conveniently bent and arranged in a space environment, for example, the hose is fixed on a wall of the space environment through a hanging rope or a clamping piece, the temperature adjusting pipe 601 is introduced with underground water or shallow underground water, the temperature adjusting pipe 601 performs heat exchange with the space environment, and the adjustment of the temperature of the space environment is realized.

Specifically, one end of the temperature adjusting pipe 601 is connected with the first water outlet pipe 603 and the second water outlet pipe 605, the other end of the temperature adjusting pipe 601 is connected with the first water return pipe 604 and the second water return pipe 606, the first water outlet pipe 603 and the second water outlet pipe 605 are provided with water pumps 607, the first water outlet pipe 603, the first water return pipe 604, the second water outlet pipe 605 and the second water return pipe 606 are all provided with electromagnetic valves 608, and the electromagnetic valves 608 are controlled by the main controller 3 to realize the switching between the underground water and the water in the water tank 602. The first water outlet pipe 603 and the first water return pipe 604 are both connected with the water tank 602, and the second water outlet pipe 605 and the second water return pipe 606 are both connected with the underground water.

Because the heights of the geothermal underground water and the superficial underground water are different, the insertion depths of the second water outlet pipe 605 and the second water return pipe 606 are also different, for convenience of use, the second water outlet pipe 605 can be divided into a first water outlet branch pipe 6051 and a second water outlet branch pipe 6052, wherein the first water outlet branch pipe 6051 is inserted into the geothermal underground water, the second water outlet branch pipe 6052 is inserted into the superficial underground water, the first water outlet branch pipe 6051 and the second water outlet branch pipe 6052 are provided with the switching valve 7, and the switching valve 7 is in signal connection with the main controller 3, so that the main controller 3 controls the opening and closing of the switching valve 7, and switches the first water outlet branch pipe 6051 and the second water outlet branch pipe 6052; similarly, in order to facilitate water return, the second water return pipe 606 comprises a first return water branch pipe 6061 and a second return water branch pipe 6062, the first outlet water branch pipe 6051 and the first return water branch pipe 6061 are communicated with geothermal underground water, the second outlet water branch pipe 6052 and the second return water branch pipe 6062 are communicated with shallow surface underground water, and the first outlet water branch pipe 6051, the second outlet water branch pipe 6052, the first return water branch pipe 6061 and the second return water branch pipe 6062 are all provided with a switching valve 7. Therefore, when the hot water supply device is used and the space environment needs to be heated by supplying hot water, the main controller 3 opens the switching valves 7 on the first water outlet branch pipe 6051 and the first water return branch pipe 6061, and when the space environment needs to be cooled by supplying cold water, the main controller 3 turns to open the switching valves 7 on the second water outlet branch pipe 6052 and the second water return branch pipe 6062, so that switching is realized quickly, and accurate temperature adjustment is ensured.

The water evaporates and forms steam under natural state in the water tank 602, and the accessible carries out the regulation of humidity (mainly increase humidity, if use in vegetable greenhouse) in the space environment with the steam derivation in the water tank 602, still be equipped with out tuber pipe 610 and return air pipe 611 on the water tank 602, all be equipped with solenoid valve 608 on going out tuber pipe 610 and the return air pipe 611, be equipped with circulating fan 609 on the air outlet of play tuber pipe 610, circulating fan 609, solenoid valve 608 and the equal signal connection of water pump 607 main control unit 3. The main controller 3 opens the circulating fan 609 and the electromagnetic valve 608, the water vapor in the water tank 602 is discharged to the space environment through the air outlet pipe 610, and the air in the space environment enters the water tank 602 through the air return pipe 611, so that circulation is formed between the water tank 602 and the space environment, evaporation of the water in the water tank 602 is accelerated, the space environment can be humidified, and the humidity of the space environment is adjusted. And when humidity is great in the space environment and needs dehumidification, then main control unit 3 closes circulation fan 609 and solenoid valve 608, controls exhaust fan 8 and opens, exhaust fan 8 signal connection main control unit 3 discharges the super humid air in the space environment, is replaced by the outside air.

To monitor the water level in the water tank 602, a refill of the water tank 602 is implemented. Further, still include level gauge 9, level gauge 9 locates in the water tank 602, level gauge 9 signal connection main control unit 3. When the liquid level meter 9 detects that the water level in the water tank 602 decreases, the electromagnetic valve 608 on the second water return pipe 606 is closed, and the electromagnetic valve 608 on the first water return pipe 604 is opened, so that the geothermal ground water or the superficial ground water enters the water tank 602 after passing through the temperature adjusting pipe 601, thereby realizing the water supplement of the water tank 602 and ensuring the sufficient water amount in the water tank 602.

in order to realize real-time monitoring of the temperature and humidity state in the spatial environment, the intelligent air conditioner further comprises a communication module 10, and the communication module 10 is connected with the main controller 3 and the intelligent terminal. In this embodiment, the intelligent terminal may be a smart phone, a tablet computer, or the like, and may implement online real-time monitoring through wifi, a local area network, or the like.

The application process of the embodiment of the invention is as follows:

When the temperature in the space environment is high and exceeds the set range, the main controller 3 controls the electromagnetic valves 608 on the second water outlet pipe 605 and the second water return pipe 606 to be opened, and the switching valves 7 on the second water outlet branch 6052 and the second water return branch 6062 to be opened, while the switching valves 7 on the first water outlet branch 6051 and the first water return branch 6061 are closed, and the electromagnetic valves 608 on the first water outlet pipe 603 and the first water return pipe 604 are closed. The main controller 3 controls the water pump 607 to be started, the superficial groundwater enters the temperature adjusting pipe 601 through the second water outlet branch pipe 6052, the temperature adjusting pipe 601 exchanges heat with the space environment to realize the temperature reduction of the space environment, the water body in the temperature adjusting pipe 601 takes away the heat in the space environment, further water body flows into the second water return branch pipe 6062 along the second water return pipe 606 from the temperature adjusting pipe 601, and the water body in the second water return branch pipe 6062 further enters the superficial groundwater;

When the temperature in the space environment is low and exceeds the set range, the main controller 3 controls the electromagnetic valves 608 on the second water outlet pipe 605 and the second water return pipe 606 to be opened, the switching valves 7 on the first water outlet branch 6051 and the first water return branch 6061 to be opened, the switching valves 7 on the second water outlet branch 6052 and the second water return branch 6062 to be closed, and the electromagnetic valves 608 on the first water outlet pipe 603 and the first water return pipe 604 to be closed. The main controller 3 controls the water pump 607 to be started, geothermal underground water enters the temperature adjusting pipe 601 through the water outlet branch pipe I6051, the temperature adjusting pipe 601 exchanges heat with the space environment to realize the temperature rise of the space environment, the water body in the temperature adjusting pipe 601 is cooled, further water body flows into the water return branch pipe I6061 along the second water return pipe 606 from the temperature adjusting pipe 601, and the water body in the water return branch pipe I6061 further enters the geothermal underground water;

when the humidity in the space environment is low and exceeds the set range, the main controller 3 controls the circulation fan 609 to be started, the electromagnetic valves 608 on the air outlet pipe 610 and the air return pipe 611 are opened, the steam evaporated in the water tank 602 is discharged to the space environment through the air outlet pipe 610 and the circulation fan 609, the space environment is humidified, the air in the space environment enters the water tank 602 through the air return pipe 611, and the evaporation of the water in the water tank 602 is accelerated;

When the humidity in the air environment is high and exceeds the set range, the main controller 3 controls the circulation fan 609 to be closed, and the electromagnetic valves 608 on the air outlet pipe 610 and the air return pipe 611 to be closed, and the main controller 3 controls the exhaust fan 8 to be opened to exhaust the moisture outwards.

In the above-mentioned use process, a certain water body exists in the water tank 602, and when the temperature of the air environment is adjusted, the electromagnetic valves 608 on the first water outlet pipe 603 and the second water return pipe 606 are opened to serve as auxiliary temperature adjustment.

1. In the embodiment, the temperature and humidity controller is adopted, and is combined with geothermal underground water and superficial underground water, the geothermal underground water and the superficial underground water are lifted by the water pump to enter the temperature adjusting pipe, so that the temperature in the space environment is adjusted, the temperature adjustment of the space environment can be quickly realized, and the electricity consumption cost is reduced;

2. The water tank is arranged, a certain amount of geothermal underground water or superficial underground water can be stored in the water tank, on one hand, water in the water tank is introduced into the temperature adjusting pipe through the water pump, so that auxiliary temperature adjustment of the space environment is realized, on the other hand, the water tank is placed in the space environment, and heat exchange can also be carried out with the space environment, so that temperature adjustment is realized;

3. The water tank is provided with the circulating fan, the air outlet pipe and the air return pipe, so that water vapor in the water tank can be dissipated to the space environment outwards, the humidity of the space environment is adjusted, and the water tank is matched with the exhaust fan for use; the water vapor of the geothermal underground water or the shallow underground water which is dissipated from the water tank has not only the humidity adjusting function but also a certain temperature adjusting function.

In conclusion, the temperature and humidity controller is based on the temperature and humidity controller, the temperature and humidity of the space environment are adjusted by using underground water resources, the efficiency of temperature and humidity adjustment is improved, the power consumption cost is reduced, and the economic benefit is improved.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.