Underground space humidity calculation method and application thereof in electronic anti-seepage system of Internet of Things

A technology of underground space and calculation method, applied in the direction of humidity control, signal transmission system, control/regulation system, etc., can solve problems such as inaccurate measurement, achieve the effect of ensuring reliability and effectiveness, perfect function, and reducing quantity

Pending Publication Date: 2021-11-02
安徽工大信息技术有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] In view of the inaccurate measurement and insufficient control precision of the existing dehumidification and anti-seepage equipment, the present invention provides a calculation method for the humidity of the underground space. Through the resistivity method, the collection points are reasonably set to obtain the space body of the wall and the rock-soil layer. Comprehensive and accurate data, and then calculate the humidity distribution of the entire underground space wall and outdoor rock and soil

Method used

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  • Underground space humidity calculation method and application thereof in electronic anti-seepage system of Internet of Things
  • Underground space humidity calculation method and application thereof in electronic anti-seepage system of Internet of Things
  • Underground space humidity calculation method and application thereof in electronic anti-seepage system of Internet of Things

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0072] Such as figure 1 As shown, the electronic anti-seepage system of the Internet of Things includes a main control device, an electrode collection and a transmitting device, and the main control device includes a wireless transmission / reception module A, a micro-control module, a voltage output module and a GPRS communication module, and the electrode collection and The transmitting device includes a wireless transmitting / receiving module B, a micro control unit module, a transmitting electrode and a collecting electrode, the transmitting electrode includes a power supply electrode, the collecting electrode includes a measuring electrode and an environment electrode, and the collecting electrode is used for collecting the electric field intensity component and the measure the air humidity in the space; the wireless transmitting / receiving module B receives the data collected by the electrodes and sends the data to the micro control unit module for processing into readable da...

Embodiment 2

[0080] In embodiment 1 step (1), it is determined that the launch point and the collection point of the wall inner surface of the space to be detected are selected as follows:

[0081] (1) In order to ensure the effectiveness and accuracy of the air humidity, wall humidity, and rock-soil humidity in the space to be tested, the layout of the emission points and collection points was optimized by grid. The width of an underground wall is 1000 cm, The height is 400 cm, and the preferred width and height of each area are 100 cm and 100 cm respectively, then each wall surface of the space to be tested is divided into 1000 / 100×400 / 100=40 areas;

[0082] (2) A launch point is arranged at the center point of each wall, a collection point is arranged in each area, and power supply electrodes A1, A2, and A3 are respectively set at each launch point;

[0083] (3) The electrodes A1, A2, and A3 are energized at the emission point, and the potential difference E between the electrodes M1, M...

Embodiment 3

[0085] According to the relationship between the electric field intensity and the current density of the steady current field, Ohm's law is satisfied, and its differential form formula is:

[0086] E. i =ρJ i

[0087] E. i is the electric field intensity vector; J i is the current density vector; i=1,2. ρ is the resistivity.

[0088] Extend the formula to a two-component formula:

[0089]

[0090] Further, calculate the current component of the underground wall:

[0091] Let the power supply electrode A i The radius r Ai =(x Ai ,y Ai ), then the current density component formula at any field point M on the full plane (vector radius is r=(x,y)) is:

[0092]

[0093] In the formula, I is the intensity of the power supply current, r is the distance from the measuring point to the origin of measurement, and r A1 is the distance from the measuring point to A1, r A2 is the distance from the measuring point to A2, J iX and J iY is the current density component, i=1...

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Abstract

The invention discloses an underground space humidity calculation method and application thereof in an electronic anti-seepage system of the Internet of Things, and belongs to the technical field of dehumidification anti-seepage control. In order to solve the problem that humidity collection of existing equipment is not accurate, anisotropic response characteristics of an underground wall and rock soil are studied, the moisture content and humidity values of the underground wall and the rock soil are calculated through a resistivity method, and therefore comprehensive and accurate spatial distribution of humidity of a rock soil layer and concrete is obtained. A traditional humidity measurement method can only measure the surface humidity of a wall body, but the resistivity of a space body of the wall body and outer rock soil can be measured based on a resistivity method, so that the moisture content and the humidity value are obtained. The method is applied to an electronic anti-seepage system of the internet of things, so that underground walls and rock soil are detected, more accurate moisture content and humidity values are obtained, the voltage value of anti-seepage equipment can be modified in time to dehumidify the walls, and the humidity of the space in a basement is more effectively reduced.

Description

technical field [0001] The invention belongs to the field of moisture-proof and dehumidification of underground buildings, and in particular relates to a method and system for calculating humidity in an underground space based on resistivity. Background technique [0002] Electro-osmosis anti-seepage dehumidification is an anti-seepage dehumidification and anti-mildew technology, which is mainly used in waterproof, anti-seepage, moisture-proof and dehumidification fields in underground projects, tunnels, power stations, reservoir dams, military industries, construction and other projects. This technology breaks the traditional concept of waterproofing, "using water to control water". According to the principle of electroosmosis, it develops a new type of anti-seepage, moisture-proof and mildew-proof technology through a series of low-voltage multi-pulse positive and negative charges. It can completely and permanently solve the structural problems. Leaking damp and mold probl...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N27/04G01N27/12G05D22/02G08C17/02
CPCG01N27/048G01N27/121G01N27/04G05D22/02G08C17/02
Inventor 韩子建吴向辉李伟闫冬邰伟鹏周建平
Owner 安徽工大信息技术有限公司
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