CN117166620A - Air film building dehumidification system, control method and air film building - Google Patents

Abstract

The application discloses a dehumidifying system of an air film building, a control method and the air film building, which belong to the technical field of air film buildings and comprise a controller, and a manual control button, a dehumidifying window, a fan and a detection unit which are respectively connected with the controller; the installation position of the dehumidification window is higher than half of the total height of the air film building, and the working condition can be changed based on a first control instruction sent by the controller; the fan can change the working condition based on a second control instruction sent by the controller, and when the dehumidifying window is opened, the fan starts to work; the manual control button is connected with the controller and used for sending a forced execution instruction to the controller; the detection unit is connected with the controller and is used for sending detection signals to the controller. According to the application, the detection signal is obtained, the working conditions of the dehumidifying window and the fan are controlled based on the detection signal, and the manual control buttons which can actively control the working conditions of the dehumidifying window and the fan are added by a user, so that the air film building is dehumidified, and the air film building is intelligently dehumidified at the same time.

Description

Air film building dehumidification system, control method and air film building

Technical Field

The application relates to the technical field of air film buildings, in particular to an air film building dehumidification system, a control method and an air film building.

Background

With the development of the existing green environment-friendly building, the air film building has incomparable advantages in terms of environment, functions, use and safety after being built because of the unique engineering technical characteristics of the building, and is increasingly paid attention to.

The air film building generally adopts high-strength and high-flexibility film materials as main materials, utilizes the air pressure supporting principle in a sealed space, and once the air film building is built, moist air is easily accumulated in the air film building, so that condensed water drops are formed on the surface and the space of the film building film materials, and the water drops easily fall into a working area after being frozen in winter, thereby causing hidden danger to the safety of staff. Therefore, in the prior art, the state of the skylight needs to be manually controlled, so that the problems of poor skylight opening effect, untimely opening and the like exist, and the current problems of the air film building are difficult to solve.

Therefore, how to solve the technical problem of realizing intelligence while solving the safety problem caused by large moisture in the air film building is needed to be solved.

Disclosure of Invention

In order to solve the safety problem caused by large moisture in the air film building, the intelligent technical problem is realized. The application provides a dehumidifying system of a gas film building, a control method and the gas film building.

According to a first aspect, an embodiment of the present application provides a dehumidifying system for air film buildings, including a manual control button, a controller, a dehumidifying window, a fan and a detecting unit; the installation position of the dehumidification window is higher than half of the total height of the air film building, and the dehumidification window is connected with the controller and used for receiving a first control instruction sent by the controller; the fan is connected with the controller and is used for receiving a second control instruction sent by the controller, and when the dehumidification window is opened, the fan starts to work; the manual control button is connected with the controller and used for sending a forced execution instruction to the controller; the detection unit is connected with the controller and is used for sending detection signals to the controller; when the controller receives the forced execution instruction and the detection signal at the same time, the control controls the working conditions of the dehumidification window and the fan based on the forced execution instruction.

Optionally, the inside of air film building includes the barricade, the detecting element includes: the temperature and humidity sensor is arranged in the air film building, the installation position of the temperature and humidity sensor is higher than the height of the retaining wall, and the temperature and humidity sensor is connected with the controller and used for sending temperature and humidity signals to the controller; the wind and rain sensor is arranged at the top of the outer surface of the air film building, connected with the controller and used for sending wind and rain signals to the controller; the pressure sensor is arranged inside the air film building, connected with the controller and used for sending a pressure signal to the controller.

Optionally, the air film building dehumidification system further comprises an air film rib framework, and the dehumidification window is mounted on the air film rib framework.

Optionally, the air film building dehumidification system further comprises: and the monitoring module is in communication connection with the controller and is used for receiving the air film state signal sent by the controller.

Optionally, the number of the dehumidification windows is at least 2, and the set distance between different dehumidification windows is a first distance parameter.

Optionally, the first distance parameter is 25-30m.

According to a second aspect, an embodiment of the present application provides a control method of a dehumidifying system for air film buildings, which is applied to the dehumidifying system for air film buildings according to any one of the embodiments, wherein the dehumidifying system for air film buildings includes a controller, and a manual control button, a fan, a dehumidifying window and a detecting unit which are respectively connected with the controller, and the control method includes: acquiring a detection signal representing the internal state of the air film building based on the detection unit, and acquiring a forced execution instruction representing active control of a user based on the manual control button; when the controller does not receive the forced execution instruction and receives the detection signal, the controller judges whether to control the dehumidification window and the fan to change the current working condition based on the detection signal; when the controller receives the forced execution instruction, the controller controls the dehumidification window and the fan to change the current working condition based on the forced execution instruction.

Optionally, the detection unit includes a temperature and humidity sensor, a wind and rain sensor, and a pressure sensor that are respectively connected with the controller, when the controller does not receive the forced execution instruction and receives the detection signal, the controller judges whether to control the dehumidification window and the fan to change the current working condition based on the detection signal includes: when the controller receives that the temperature and humidity value represented by the temperature and humidity signal sent by the temperature and humidity sensor is larger than a preset temperature and humidity value, the controller controls the dehumidification window to be opened and controls the fan to start working; when the controller receives weather signals sent by the weather sensor and represents that the current weather is weather, the controller controls the dehumidifying window and the fan to be switched to a closed state from the current working condition; when the controller receives that the pressure value represented by the pressure signal sent by the pressure sensor is smaller than a preset pressure value, the controller controls the dehumidifying window and the fan to be switched to a closed state from the current working condition.

Optionally, when the controller receives that the temperature and humidity value represented by the temperature and humidity signal sent by the temperature and humidity sensor is greater than a preset temperature and humidity value, the controller controls the dehumidification window to be opened, and controls the fan to start working includes: and when the temperature and humidity value is greater than the preset temperature and humidity value, the controller controls the opening value of the dehumidification window based on the temperature and humidity value, and the temperature and humidity value and the opening value are positively correlated.

According to a third aspect, an embodiment of the present application provides a gas film building, including the gas film building dehumidification system according to any one of the above embodiments.

The air film building dehumidification system comprises a controller, and a manual control button, a dehumidification window, a fan and a detection unit which are respectively connected with the controller, wherein the controller can control the dehumidification window and the fan to change working conditions according to received detection signals or forced execution instructions, the priority of the forced execution instructions is higher than that of the detection signals, and when the controller receives the forced execution instructions and the detection signals at the same time, the controller controls the working conditions of the dehumidification window and the fan based on the forced execution instructions, so that dehumidification and protection of the air film building are realized, and meanwhile, the intelligent dehumidification of the air film building is realized.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute a limitation on the application. In the drawings:

FIG. 1 is a schematic structural view of an alternative air film building dehumidification system in accordance with an embodiment of the present disclosure;

fig. 2 is a flow chart of an alternative method of controlling a film building dehumidification system in accordance with an embodiment of the present disclosure.

Detailed Description

For a clearer understanding of the technical features, objects and effects of the present application, embodiments of the present application will now be described with reference to the drawings, in which like reference numerals refer to identical or structurally similar but functionally identical components throughout the separate views.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced in other ways than those described herein, and therefore the scope of the present application is not limited to the specific embodiments disclosed below.

As described in the background art, the air film building generally adopts a high-strength and high-flexibility film material as a main material, and utilizes the air pressure supporting principle in a sealed space, so that once the air film building is built, moist air is easily accumulated in the air film building, and condensed water drops are formed on the surface and the space of the film building film material, and the water drops easily fall into a working area after being frozen in winter, thereby causing hidden danger to the safety of staff. Therefore, in the prior art, the state of the skylight needs to be manually controlled, so that the problems of poor skylight opening effect, untimely opening and the like exist, and the current problems of the air film building are difficult to solve.

Thus, according to one aspect of an embodiment of the present application, there is provided a air film building dehumidification system, as shown in fig. 1, comprising a manual control button 20, a controller 10, a dehumidification window 40, a fan 50, and a detection unit 30; the installation position of the dehumidification window 40 is higher than half of the total height of the air film building, and is connected with the controller 10, and is used for receiving a first control instruction sent by the controller 10; the fan 50 is connected to the controller 10, and is configured to receive a second control instruction sent by the controller 10, and when the dehumidification window 40 is opened, the fan 50 starts to work; the manual control button 20 is connected with the controller 10 and is used for sending a forced execution instruction to the controller 10; the detection unit 30 is connected to the controller 10, and is configured to send a detection signal to the controller 10; when the controller 10 receives the forced execution instruction and the detection signal at the same time, the control controls the working conditions of the dehumidification window 40 and the fan 50 based on the forced execution instruction.

In this embodiment, when the air film building dehumidification system is running, the controller 10 continuously acquires the detection signal sent by the detection unit 30, and the manner of acquiring the detection signal may be real-time acquisition or may be acquisition once every a certain period of time, and based on the acquired detection signal, it is determined whether the dehumidification window 40 and the blower 50 need to be controlled to change the current working condition, when the dehumidification system is running, a user may have some use requirements for the air film building to actively control the working conditions of the dehumidification window 40 and the blower 50, and at this time, the user only needs to press the manual control button 20, then the controller 10 receives a forced execution instruction, and at this time, the dehumidification window 40 and the blower 50 are controlled to be opened or closed based on the forced execution instruction. The dehumidification system of this embodiment judges whether to control the dehumidification window 40 and the fan 50 to execute the dehumidification action through automatic detection signals based on detection signals or forced execution instructions, and achieves intelligent dehumidification while achieving dehumidification in the air film building to solve potential safety hazards. The certain time length in the detection signal obtained at certain time intervals may be set in advance according to the use requirement, for example, 5s,10s, etc., which is not limited to this embodiment.

As an exemplary embodiment, the interior of the air film building includes a retaining wall, and the detecting unit 30 includes: the temperature and humidity sensor is arranged in the air film building, the installation position of the temperature and humidity sensor is higher than the height of the retaining wall, and the temperature and humidity sensor is connected with the controller 10 and is used for sending temperature and humidity signals to the controller 10; the wind and rain sensor is arranged at the top of the outer surface of the air film building, is connected with the controller 10 and is used for sending wind and rain signals to the controller 10; the pressure sensor is arranged inside the air film building, connected with the controller 10 and used for sending a pressure signal to the controller 10.

In the embodiment, the humidity is gathered at the upper part of the air film building, so that the mounting position of the temperature and humidity sensor is higher than the height of the retaining wall, the accuracy of detecting the temperature and humidity of the temperature and humidity sensor can be improved through the higher setting position, the humidity is detected in time in a region with higher humidity, the humidity is discharged, and the dehumidification capacity of the air film building dehumidification system is further improved; the wind and rain sensor is arranged at the top of the outer surface of the air film building, when the external weather is wind and rain weather, the wind and rain sensor can timely detect wind and rain signals and send the wind and rain signals to the controller 10, the controller 10 controls the dehumidifying window 40 to be closed and controls the fan 50 to stop working, so that the air film building is prevented from being corroded by wind and rain; the pressure sensor is arranged inside the air film building and used for detecting the internal pressure value of the air film building, and sending a pressure signal representing the internal pressure value of the air film building to the controller 10, the controller 10 compares the detected pressure value with a preset pressure value and further judges whether the internal pressure of the air film building meets the requirement of providing support for the air film, and if the detected pressure value is smaller than the preset pressure value, the controller can give an alarm to remind a user to avoid the air film damage or safety accidents.

As an exemplary embodiment, the air film building dehumidification system further includes an air film rib skeleton on which the dehumidification windows 40 are mounted. In this embodiment, the dehumidification system includes a film rib skeleton for installing the dehumidification window 40 to bear the weight of the dehumidification window 40, so as to support the dehumidification window 40 and ensure the stability of the dehumidification window 40.

As an exemplary embodiment, further comprising: and the monitoring module is in communication connection with the controller 10 and is used for receiving the air film state signal sent by the controller 10. In this embodiment, the air film building dehumidification system further includes a monitoring module in communication connection with the controller 10, and the detection signal and the forced execution instruction received by the controller 10, and the actions of closing and opening the dehumidification window 40 and the fan 50 controlled by the controller 10 can be sent to the monitoring module, so as to realize monitoring of the operation condition of the air film building dehumidification system.

As an exemplary embodiment, the number of the dehumidification windows 40 is at least 2, and the set distance between different dehumidification windows 40 is a first distance parameter. The first distance parameter is 25-30m.

In this embodiment, a plurality of dehumidification windows 40 may be provided, the set distance between every two adjacent dehumidification windows 40 may be 25-30m, and each dehumidification window 40 is connected with the controller 10, when the controller 10 analyzes that the humidity value represented by the current temperature and humidity signal is greater than the preset humidity value, the controller 10 controls all the dehumidification windows 40 to open, and controls the fan 50 matched with the dehumidification windows 40 to start working, so as to realize rapid dehumidification. Wherein the preset humidity value may be 55% -65%.

According to another aspect of the embodiment of the present application, there is provided a control method of a dehumidifying system for air film buildings, which is applied to the dehumidifying system for air film buildings according to any one of the embodiments, the dehumidifying system for air film buildings includes a controller 10, and a manual control button 20, a blower 50, a dehumidifying window 40 and a detecting unit 30 respectively connected to the controller 10, as shown in fig. 1 to 2, the control method includes:

s100, acquiring a detection signal representing the internal state of the air film building based on the detection unit 30 and acquiring a forced execution instruction representing active control of a user based on the manual control button 20.

S200, when the controller 10 does not receive the forced execution instruction and receives the detection signal, the controller 10 judges whether to control the dehumidification window 40 and the fan 50 to change the current working condition based on the detection signal.

S300, when the controller 10 receives the forced execution instruction, the controller 10 controls the dehumidification window 40 and the fan 50 to change the current working condition based on the forced execution instruction.

When the control method of the embodiment is operated, the controller 10 firstly obtains a detection signal representing the internal state of the air film building based on the detection unit 30, and obtains an intensified execution instruction representing the active control of the user based on the manual control button 20, if the controller 10 does not receive the forced execution instruction and receives the detection signal, the controller 10 analyzes and decodes the detection signal, judges whether the environment where the current air film building is located needs dehumidification or not, and further controls the working conditions of the dehumidification window 40 and the fan 50 based on the judgment result; if the controller 10 receives the forced execution instruction and the detection signal at the same time, the controller 10 analyzes and decodes the forced execution instruction based on the forced execution instruction, obtains the control action represented by the forced execution instruction, and controls the dehumidification window 40 and the fan 50 to be opened or closed. When the dehumidification system dehumidifies, the control instruction input by a user is used as a reference, so that the abnormal operation of the dehumidification system caused by the influence of external environment or detection errors of certain modules or units in the dehumidification system is avoided, potential safety hazards are further caused, or the condition that the air film is damaged is caused, and meanwhile, the user experience is improved.

For example, if the controller 10 does not receive the detection signal within a certain period of time, it is determined that the current detection unit 30 fails, at this time, the controller 10 may issue an alarm prompt to remind the user, and the user may press the manual control button 20 to control the opening and closing of the dehumidification window 40 and the blower 50.

As an exemplary embodiment, the detecting unit 30 includes a temperature and humidity sensor, a wind and rain sensor, and a pressure sensor, which are respectively connected to the controller 10, and when the controller 10 does not receive the forced execution instruction and receives the detection signal, the controller 10 determines whether to control the dehumidifying window 40 and the blower 50 to change the current working condition based on the detection signal includes: when the controller 10 receives that the temperature and humidity value represented by the temperature and humidity signal sent by the temperature and humidity sensor is greater than the preset temperature and humidity value, the controller 10 controls the dehumidification window 40 to be opened and controls the fan 50 to start working; when the controller 10 receives the weather signal sent by the weather sensor to indicate that the current weather is weather, the controller 10 controls the dehumidifying window 40 and the fan 50 to be switched to a closed state from the current working condition; when the controller 10 receives that the pressure value represented by the pressure signal sent by the pressure sensor is smaller than the preset pressure value, the controller 10 controls the dehumidification window 40 and the fan 50 to be switched to a closed state from the current working condition.

In this embodiment, when the controller 10 receives and analyzes the temperature and humidity signal, if the temperature and humidity value represented by the temperature and humidity signal is greater than the preset temperature and humidity value, it is determined that the humidity in the air film building is greater at this time, if the external environment temperature is low, water drops on the inner surface of the air film building may be frozen, and there is a potential safety hazard, at this time, the controller 10 controls the dehumidifying window 40 to open, controls the fan 50 to start working, and discharges the moisture out of the air film building; when the controller 10 receives the weather signals and analyzes and decodes the weather signals, if the outside weather is weather, the controller 10 controls the dehumidifying window 40 to be closed and controls the fan 50 to stop working, so that the inside of the air film building is prevented from being corroded by the weather; when the controller 10 receives the pressure signal and analyzes and decodes the pressure signal, if the current pressure value is smaller than the preset pressure value, the dehumidification window 40 is controlled to be closed, the fan 50 is controlled to stop working, the gas loss in the gas film building is avoided, so that the pressure value in the gas film building is continuously reduced, and meanwhile, the controller 10 can send an alarm signal to remind a user that the pressure value in the gas film building is smaller.

As an exemplary embodiment, when the controller 10 receives that the temperature and humidity value represented by the temperature and humidity signal sent by the temperature and humidity sensor is greater than the preset temperature and humidity value, the controller 10 controls the dehumidification window 40 to open, and controls the fan 50 to start working includes: when the temperature and humidity value is greater than the preset temperature and humidity value, the controller 10 controls the opening value of the dehumidification window 40 based on the temperature and humidity value, and the temperature and humidity value and the opening value are positively correlated.

In this embodiment, when the working conditions of the dehumidification window 40 and the fan 50 are controlled based on the temperature and humidity signal, if the temperature and humidity value at this time is greater than the preset temperature and humidity value, but the portion of the temperature and humidity value greater than the preset temperature and humidity value is smaller, the opening value of the dehumidification window 40 can be controlled to be smaller at this time; if the temperature and humidity value is larger than the preset temperature and humidity value, the opening value of the dehumidification window 40 can be controlled to be larger or fully opened, so that the moisture can be rapidly removed.

For example, in addition to controlling the opening value of the dehumidification window 40 based on the temperature and humidity value, the power of the fan 50 may be controlled based on the temperature and humidity value, where the temperature and humidity value and the power of the fan 50 are in positive correlation, and when the temperature and humidity value is greater than the preset temperature and humidity value and the excess part is greater, the power of the fan 50 is controlled to be at a greater value or full power; when the temperature and humidity value is larger than the preset temperature and humidity value and the exceeding part is smaller, the power of the control fan 50 is smaller, the dehumidification effect is effectively improved, the energy saving is realized, and the intelligent control of the air film building exhaust dehumidification is realized.

According to another aspect of the embodiment of the application, there is also provided a film building, including the film building dehumidification system according to any one of the embodiments.

The foregoing is merely a preferred embodiment of the present application and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present application, which are intended to be comprehended within the scope of the present application.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present application, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

While embodiments of the present application have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the application, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the application.

Claims (10)

1. The air film building dehumidification system is characterized by comprising a manual control button, a controller, a dehumidification window, a fan and a detection unit; wherein,

the installation position of the dehumidification window is higher than half of the total height of the air film building, and is connected with the controller and used for receiving a first control instruction sent by the controller;

the fan is connected with the controller and is used for receiving a second control instruction sent by the controller, and when the dehumidification window is opened, the fan starts to work;

the manual control button is connected with the controller and used for sending a forced execution instruction to the controller;

the detection unit is connected with the controller and is used for sending detection signals to the controller;

when the controller receives the forced execution instruction and the detection signal at the same time, the control controls the working conditions of the dehumidification window and the fan based on the forced execution instruction.

2. The air film building dehumidification system of claim 1, wherein an interior of the air film building comprises a retaining wall, the detection unit comprising:

the temperature and humidity sensor is arranged in the air film building, the installation position of the temperature and humidity sensor is higher than the height of the retaining wall, and the temperature and humidity sensor is connected with the controller and used for sending temperature and humidity signals to the controller;

the wind and rain sensor is arranged at the top of the outer surface of the air film building, connected with the controller and used for sending wind and rain signals to the controller;

the pressure sensor is arranged inside the air film building, connected with the controller and used for sending a pressure signal to the controller.

3. The air film building dehumidification system of claim 2, further comprising an air film rib skeleton, the dehumidification window mounted to the air film rib skeleton.

4. The air film building dehumidification system of claim 1, further comprising:

and the monitoring module is in communication connection with the controller and is used for receiving the air film state signal sent by the controller.

5. The air film building dehumidification system of claim 1, wherein the number of dehumidification windows is at least 2, and a set distance between different dehumidification windows is a first distance parameter.

6. The air film building dehumidification system of claim 5, wherein the first distance parameter is 25-30m.

7. A control method of a dehumidifying system for air film buildings, which is applied to the dehumidifying system for air film buildings according to any one of claims 1 to 6, wherein the dehumidifying system for air film buildings comprises a controller, and a manual control button, a fan, a dehumidifying window and a detecting unit which are respectively connected with the controller, the control method comprising:

acquiring a detection signal representing the internal state of the air film building based on the detection unit, and acquiring a forced execution instruction representing active control of a user based on the manual control button;

when the controller does not receive the forced execution instruction and receives the detection signal, the controller judges whether to control the dehumidification window and the fan to change the current working condition based on the detection signal;

when the controller receives the forced execution instruction, the controller controls the dehumidification window and the fan to change the current working condition based on the forced execution instruction.

8. The method of claim 7, wherein the detecting unit includes a temperature and humidity sensor, a wind and rain sensor, and a pressure sensor respectively connected to the controller, and when the controller does not receive the forced execution instruction and receives the detection signal, the controller determining whether to control the dehumidification window and the fan to change the current working condition based on the detection signal includes:

when the controller receives that the temperature and humidity value represented by the temperature and humidity signal sent by the temperature and humidity sensor is larger than a preset temperature and humidity value, the controller controls the dehumidification window to be opened and controls the fan to start working;

when the controller receives weather signals sent by the weather sensor and represents that the current weather is weather, the controller controls the dehumidifying window and the fan to be switched to a closed state from the current working condition;

when the controller receives that the pressure value represented by the pressure signal sent by the pressure sensor is smaller than a preset pressure value, the controller controls the dehumidifying window and the fan to be switched to a closed state from the current working condition.

9. The method for controlling a dehumidifying system of air film building according to claim 8, wherein when the controller receives that the temperature and humidity value represented by the temperature and humidity signal sent by the temperature and humidity sensor is greater than a preset temperature and humidity value, the controller controls the dehumidifying window to be opened, and controls the fan to start working comprises:

and when the temperature and humidity value is greater than the preset temperature and humidity value, the controller controls the opening value of the dehumidification window based on the temperature and humidity value, and the temperature and humidity value and the opening value are positively correlated.

10. A gas film building comprising the gas film building dehumidification system of any one of claims 1-6.