CN107783571A - One kind experiment room ventilation Intelligentized regulating and controlling method - Google Patents

Abstract

The invention discloses one kind to test room ventilation Intelligentized regulating and controlling method, comprises the following steps：S1, laboratory internal is divided into n region；S2, temperature, target gas levels, personnel amount in n region are detected respectively；S3, the temperature according in n region, target gas levels and personnel amount are that Ventilation Strategies are formulated in each region.Experiment room ventilation Intelligentized regulating and controlling method proposed by the present invention, improves in terms of active regulation and auxiliary adjustment two to the environmental quality in target area, realizes comprehensive to environmental quality in target area and accurate regulation.

Description

One kind experiment room ventilation Intelligentized regulating and controlling method

Technical field

The present invention relates to laboratory ventilation technical field, more particularly to a kind of experiment room ventilation Intelligentized regulating and controlling method.

Background technology

Existing middle and primary schools, research institutions, R＆D institution are each equipped with laboratory, to carry out experiment work.Due to experiment Uncontrollability, experimentation may cause high temperature, hazardous gas situations such as, shadow not only is caused to the health of experimenter Ring, and the safety in laboratory can be harmed.Existing experimental laboratory air exhausting system intelligence is relatively low, it is impossible to pointedly to each Individual region is aerated, and can not ensure the comprehensive of ventilation effect.

The content of the invention

Based on technical problem existing for background technology, the present invention proposes a kind of experiment room ventilation Intelligentized regulating and controlling side Method.

Experiment room ventilation Intelligentized regulating and controlling method proposed by the present invention, comprises the following steps：

S1, laboratory internal is divided into n region；

S2, temperature, target gas levels, personnel amount in n region are detected respectively；

S3, the temperature according in n region, target gas levels and personnel amount are that ventilation plan is formulated in each region Slightly.

Preferably, step S2 is specifically included：

The temperature in n region is gathered respectively, is designated as T₁、T₂、T₃……T_n, and, the object gas in n region is dense Degree, is designated as C₁、C₂、C₃……C_n, and, personnel amount in n region, it is designated as N₁、N₂、N₃……N_n；

Preferably, when gathering the temperature in ith zone, the temperature in the region is gathered from m diverse location respectively, It is designated as T_i1、T_i2、T_i3……T_im, and by T_iAs the temperature in ith zone, wherein, T_i=(T_i1﹢ T_i2﹢ T_i3﹢ ... ﹢ T_im- T_min-T_max)/(m-2), T_min=Min (T_i1、T_i2、T_i3……T_im), T_max=Max (T_i1、T_i2、T_i3……T_im)；Wherein, 1≤i ≤n；

Preferably, when gathering the target gas levels in ith zone, the object gas includes one or more； Wherein, 1≤i≤n；

Preferably, gather ith zone in personnel amount when, gather the region actual image information and with the region Pre-set image information be compared and draw similarity D, work as D<D₀When, judge personnel amount N in ith zone_i>0；Wherein, 1 ≤ i≤n, D₀For preset value.

Preferably, step S3 is specifically included：

It is that Ventilation Strategies are formulated in each region according to the temperature in n region, target gas levels and personnel amount：

Work as N_j>When 0, j-th of region and region a, b, c ... x adjacent thereto are aerated, and based on j-th Temperature T in region_jWith target gas levels C_jFor x jth, a, b, c ... regional choice air vent mode：

Work as T_j>It is jth, a, b, c ... the first air vent mode of x regional choice during AT '；

Work as T_j>It is j-th of air vent mode of regional choice second during BT ', x regional choice of a, b, c ... first is divulged information Pattern；

Work as T_j>It is jth, a, b, c ... the second air vent mode of x regional choice during CT '；

Work as C_j>It is x jth, a, b, c ... regional choice third venting pattern during DC '；

Work as C_j>It is jth, the air vent mode of x regional choice of a, b, c ... the 4th during EC '；

Preferably, n region is aerated respectively using n ventilation module；

Under the first air vent mode, the operating power of ventilation module remains P₁；

Under the second air vent mode, the operating power of ventilation module remains P₂；

Under third venting pattern, the working time of ventilation module remains t₁；

Under the 4th air vent mode, the working time of ventilation module remains t₂；

Wherein, 1≤j≤n, T ', C ', A, B, C, D, E, P₁、P₂、t₁、t₂It is preset value, A<B<C, D<E, P₁<P₂, t₁< t₂。

Experiment room ventilation Intelligentized regulating and controlling method proposed by the present invention is right in terms of active regulation and auxiliary adjustment two Environmental quality in target area is improved, and realizes and environmental quality in target area is adjusted comprehensively and accurately.Actively Directly the environmental quality in target area is adjusted for the ventilation module that regulation refers to opening in target area, and auxiliary is adjusted It is auxiliary that section refers to that unlatching is carried out to the environmental quality in target area indirectly with the ventilation module in the adjacent area of target area Regulation is helped, to ensure the effect to Ventilation Strategies in target area, so as to improve the excellent ventilation effect in laboratory.Further Ground, the present invention has carried out fine division to the region in laboratory, then carries out information gathering to the zonule after each division Adjusted with environment, be advantageous to improve the specific aim that environment is adjusted in each zonule, so as to ensure the excellent ring in laboratory Border.

Brief description of the drawings

Fig. 1 is a kind of step schematic diagram for testing room ventilation Intelligentized regulating and controlling method.

Embodiment

As shown in figure 1, Fig. 1 is a kind of experiment room ventilation Intelligentized regulating and controlling method proposed by the present invention.

Reference picture 1, experiment room ventilation Intelligentized regulating and controlling method proposed by the present invention, comprises the following steps：

S1, laboratory internal is divided into n region；

S2, temperature, target gas levels, personnel amount in n region are detected respectively；

In present embodiment, step S2 is specifically included：

The temperature in n region is gathered respectively, is designated as T₁、T₂、T₃……T_n, and, the object gas in n region is dense Degree, is designated as C₁、C₂、C₃……C_n, and, personnel amount in n region, it is designated as N₁、N₂、N₃……N_n；

Preferably, when gathering the temperature in ith zone, the temperature in the region is gathered from m diverse location respectively, It is designated as T_i1、T_i2、T_i3……T_im, and by T_iAs the temperature in ith zone, wherein, T_i=(T_i1﹢ T_i2﹢ T_i3﹢ ... ﹢ T_im- T_min-T_max)/(m-2), T_min=Min (T_i1、T_i2、T_i3……T_im), T_max=Max (T_i1、T_i2、T_i3……T_im)；Wherein, 1≤i ≤n；

Developed programs, comprehensively the temperature in each region can be adopted from multiple positions by said temperature Collection, and improve the accuracy of temperature acquisition by way of abandoning extreme temperature value and calculating average value, for follow-up step The temperature that each region is analyzed in rapid is provided accurately with reference to basis.

Preferably, when gathering the target gas levels in ith zone, the object gas includes one or more； Wherein, 1≤i≤n；Above-mentioned object gas can be set according to actual conditions, with comprehensively to the dangerous gas in each region Body is acquired and adjusted.

Preferably, gather ith zone in personnel amount when, gather the region actual image information and with the region Pre-set image information be compared and draw similarity D, work as D<D₀When, judge personnel amount N in ith zone_i>0；Wherein, 1 ≤ i≤n, D₀For preset value.It can learn in ith zone whether there is personnel by contrasting similarity, be advantageous to work as ith zone Ventilation Strategies are opened when inside there are personnel to ensure ventilated environment excellent in ith zone.

S3, the temperature according in n region, target gas levels and personnel amount are that ventilation plan is formulated in each region Slightly.

In present embodiment, step S3 is specifically included：

It is that Ventilation Strategies are formulated in each region according to the temperature in n region, target gas levels and personnel amount：

Preferably, n region is aerated respectively using n ventilation module；

Work as N_j>When 0, show there are personnel in j-th of region, it is right now to make j-th of region keep excellent ventilated environment J-th of region and region a, b, c ... x adjacent thereto are aerated, and are started the ventilation action in adjacent region, can be aided in Improve the environment in j-th of region, be advantageous to that the environment in j-th of region is adjusted comprehensively；And based in j-th of region Temperature T_jWith target gas levels C_jFor x jth, a, b, c ... regional choice air vent mode：With further to each region Interior air vent mode is finely divided, and so as to more accurately be aerated adjustment to each region, ensures the pin of ventilation effect To property and validity；

Work as T_j>During AT ', there is certain temperature basis in bright j-th of region, now need to only use less ventilation scale, It is then jth, a, b, c ... the first air vent mode of x regional choice；Under the first air vent mode, the operating power of ventilation module Remain P₁；

Work as T_j>During BT ', show that the temperature in j-th of region has raised, now need j-th of ventilation module of increasing Operating power, then it is j-th of air vent mode of regional choice second, under the second air vent mode, the operating power of ventilation module is protected Hold as P₂；Ventilation effect is improved by the operating power of stronger ventilation module, rapidly to adjust the environment in j-th of region Quality, a, b, c ... the first air vent mode of x regional choice；In x region of a, b, c ... adjacent with j-th of region Ventilation module still use less operating power, improve the environmental quality in j-th of region with auxiliary, while avoid the energy Waste；

Work as T_j>During CT ', show the temperature drift in j-th of region, now to avoid the temperature in j-th of region from continuing Rise causes dangerous, it is necessary to quickly reduce the temperature in j-th of region, then is jth, x regional choice of a, b, c ... second Air vent mode；The ventilation module in j-th region and adjacent region is set to keep larger operating power to improve ventilation effect, So that the temperature in j-th of region is reduced in controlled range within a short period of time；

Work as C_j>During DC ', show that the concentration of object gas in j-th of region is higher, be now jth, x area of a, b, c ... Domain selects third venting pattern；Under third venting pattern, the working time of ventilation module remains t₁；By adjust jth, a, B, the working time of c ... x ventilation module adjusts the concentration of the object gas in j-th of region, and it is suitable to keep it in In the range of；

Work as C_j>During EC ', show that the concentration of object gas in j-th of region is higher, now need to increase to j-th of region Interior Ventilation Strategies are then jth, the air vent mode of x regional choice of a, b, c ... the 4th；Under the 4th air vent mode, mould of divulging information The working time of block remains t₂；By the ventilation effect for extending the working time of each ventilation module to improve to j-th of region, So as to the excellent environment in battle support laboratory；

Wherein, 1≤j≤n, T ', C ', A, B, C, D, E, P₁、P₂、t₁、t₂It is preset value, A<B<C, D<E, P₁<P₂, t₁< t₂。

The experiment room ventilation Intelligentized regulating and controlling method that present embodiment proposes, from active regulation and two sides of auxiliary adjustment Environmental quality in target area is improved, and realizes and environmental quality in target area is adjusted comprehensively and accurately. Directly the environmental quality in target area is adjusted for the ventilation module that actively regulation refers to opening in target area, auxiliary Regulation is helped to refer to opening indirectly to enter the environmental quality in target area with the ventilation module in the adjacent area of target area Row auxiliary adjustment, to ensure the effect to Ventilation Strategies in target area, so as to improve the excellent ventilation effect in laboratory.Enter One step, present embodiment has carried out fine division to the region in laboratory, then the zonule after each division is carried out Information gathering and environment regulation, are advantageous to improve the specific aim that environment is adjusted in each zonule, so as to ensure in laboratory Excellent environment.

The foregoing is only a preferred embodiment of the present invention, but protection scope of the present invention be not limited thereto, Any one skilled in the art the invention discloses technical scope in, technique according to the invention scheme and its Inventive concept is subject to equivalent substitution or change, should all be included within the scope of the present invention.

Claims (3)

1. one kind experiment room ventilation Intelligentized regulating and controlling method, it is characterised in that comprise the following steps：

S1, laboratory internal is divided into n region；

S2, temperature, target gas levels, personnel amount in n region are detected respectively；

S3, the temperature according in n region, target gas levels and personnel amount are that Ventilation Strategies are formulated in each region.

2. experiment room ventilation Intelligentized regulating and controlling method according to claim 1, it is characterised in that step S2 is specifically wrapped Include：

The temperature in n region is gathered respectively, is designated as T₁、T₂、T₃……T_n, and, the target gas levels in n region, note For C₁、C₂、C₃……C_n, and, personnel amount in n region, it is designated as N₁、N₂、N₃……N_n；

Preferably, when gathering the temperature in ith zone, the temperature in the region is gathered from m diverse location respectively, is designated as T_i1、T_i2、T_i3……T_im, and by T_iAs the temperature in ith zone, wherein, T_i=(T_i1﹢ T_i2﹢ T_i3﹢ ... ﹢ T_im-T_min- T_max)/(m-2), T_min=Min (T_i1、T_i2、T_i3……T_im), T_max=Max (T_i1、T_i2、T_i3……T_im)；Wherein, 1≤i≤n；

Preferably, when gathering the target gas levels in ith zone, the object gas includes one or more；Wherein, 1≤i≤n；

Preferably, when gathering personnel amount in ith zone, the actual image information in the region and pre- with the region is gathered If image information, which is compared, draws similarity D, work as D<D₀When, judge personnel amount N in ith zone_i>0；Wherein, 1≤i≤ N, D₀For preset value.

3. experiment room ventilation Intelligentized regulating and controlling method according to claim 2, it is characterised in that step S3 is specifically wrapped Include：

It is that Ventilation Strategies are formulated in each region according to the temperature in n region, target gas levels and personnel amount：

Work as N_j>When 0, j-th of region and region a, b, c ... x adjacent thereto are aerated, and based in j-th of region Temperature T_jWith target gas levels C_jFor x jth, a, b, c ... regional choice air vent mode：

Work as T_j>It is jth, a, b, c ... the first air vent mode of x regional choice during AT '；

Work as T_j>It is j-th of air vent mode of regional choice second during BT ', a, b, c ... the first air vent mode of x regional choice；

Work as T_j>It is jth, a, b, c ... the second air vent mode of x regional choice during CT '；

Work as C_j>It is x jth, a, b, c ... regional choice third venting pattern during DC '；

Work as C_j>It is jth, the air vent mode of x regional choice of a, b, c ... the 4th during EC '；

Preferably, n region is aerated respectively using n ventilation module；

Under the first air vent mode, the operating power of ventilation module remains P₁；

Under the second air vent mode, the operating power of ventilation module remains P₂；

Under third venting pattern, the working time of ventilation module remains t₁；

Under the 4th air vent mode, the working time of ventilation module remains t₂；

Wherein, 1≤j≤n, T ', C ', A, B, C, D, E, P₁、P₂、t₁、t₂It is preset value, A<B<C, D<E, P₁<P₂, t₁<t₂。