TW201042248A - Method and system of collective management of gas quality - Google Patents

Abstract

The invention relates to a method and system of collective management of gas quality and, more particularly, to a management method and system implemented in a large closed space for collectively monitoring the gas quality status of each divided area. This invention uses the divergent arrangement of sampling pipeline and collectively enables every single area and single air item, which are determined by a testing apparatus at different stages, so that the substance content in the gas at every area can be collectively monitored and inspected individually.

Description

201042248 VI. Description of the invention: [Technical field of invention] A method and system for centralized management of gas quality, especially for providing large-scale closed places such as stores, which can monitor the air quality of various areas inside the store. The message provides the monitoring personnel with the precautions. [Prior Art] There is an absolute relationship between the influence of air quality on the living body, whether it is organic gas or any organic matter that can damage the respiratory tract or the skin, or even dust or bacteria, in a large public or even a home environment. Or closed indoor spaces for human activities, it is necessary to pay attention to whether the state of air quality is in a safe standard to maintain human health. Relevant air quality management, China's Environmental Protection Agency has also promoted the demand for indoor air quality and requires the independent monitoring and management of the industry, such as stores or home or campus camps, users can manage their own situation, then expand The entire country can widely maintain the health of the Chinese people. According to the EPA's management instructions for indoor air quality, there are training and training mechanisms for managers. If there are problems, they can ask for improvement, but the administrative business still needs The device executes °. The air quality monitoring project 'contains _ oxidized carbon, carbon dioxide, or volatile objects, or duck, fine suspension 姊 及 Wei and temperature #, the ratio of each of the financial calculations, and the amount and unit weight of the weight Compared with the above, it is because of the multi-empty inspection, it will invest a lot of manpower in the monitoring and management, and the fine equipment can be effectively monitored. The method of detecting the air of related air has the "System and Method" of China Patent Announcement No. 35嶋5, which detects the light wave to detect the density of the bacteria. If the '_, the eye, start the extraction system to filter the area air. If the value is not as good as the above-mentioned technology, there are many kinds of testing equipments for various purposes. If the detection exceeds the full value, the warning and post-processing work, such as dilution or sterilization, and other safety maintenance measures are started. The related technology should be processed after sampling. Optical gamma analysis One item is used for one-way detection, and a single monitoring data can be obtained after analysis. The invention relates to a method and a system for centralized management of gas quality, in particular to a large indoor enclosed space, and the air product # in the divided blocks thereof can be concentrated and single item The monitoring is the main body of the present invention. The second and second object of the present invention is a clear n assembly, which comprises a multi-money content detecting unit, which performs the obtained project parameters after collecting the air of each field through the recording pipeline of the dislocation. Displayed to the monitoring personnel as a monitoring reference.

The third object of the present invention is that the detection unit provided in the management assembly is provided with a plurality of items of known equipment, and each of the sensing devices guides the air through the associated guide valve, and the terminal is driven by the negative pressure device to move the air. The measuring unit conducts the miscellaneous pipeline, and the subtraction of the feeding information is calculated by the computing device, and the information is presented from the indicating device. [Embodiment] The method and system for centralized management of gas quality according to the present invention, in particular, provide air that exists in a large-scale event space, or in a room of a school, a camp, or a home, and is integrated into a centralized management. The control operation can analyze the multi-attribute of the gas status of a single region. The data will be self-recorded for reference and for the implementation of preventive measures. s _ The content of the system operation mode and working principle of the present invention, please refer to the following description: First, as shown in FIG. 1 , the present invention utilizes a centralized management method to segment a large space, such as a market segment. There are aquatic areas, cleaning supplies areas, rest areas, deli areas, beverage areas, household goods areas and other areas, as well as independent spaces such as camps, school buildings, etc., to implement centralized management of air quality 'further in the air content exceeds the safety value At the time, the system will prompt a warning message to provide the controller with precautionary measures, or further specify the automatic precautions for turning on the security equipment. τ > The system to which the present invention is applied includes a management assembly (10), and a plurality of sampling lines 3 having a pressure confrontation are externally distinguished, and the lines of the pipeline 3 are laid, and the respective blue spaces are indoors (four) 7 divided areas. 71 ' wherein the management assembly 100 is provided with a collection unit 2 for a plurality of sampling lines 3 to be combined with another 'negative pressure device 10, connected in series with a detecting device 1 and leading to the collecting portion 2, which is a negative pressure Nong 4 201042248 f 1 〇 work ^, the negative pressure on the sampling line 3, driving the air of the area 71 intended to be sampled from the sampling scale 3 to the detection equipment 丨, so that the Na body is recorded. ^ *Management Total & 100 is further provided with a control circuit 40 and a computing device 4, which are provided with an external signal - a message 5 or a communication device 6, wherein the message display device 5 and the communication device 6 are provided Tian ^] 〇 〇 备 备 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气 空气Information communication. The control circuit 4 and the computing device 4 respectively perform 0 s for the management assembly 1 〇〇 working program, mainly by the control circuit 4 as the management actor at the working timing, and the computing device 4 is analyzed and judged. On the basis of this, basically the control circuit 40 is a control logic circuit which can be identical to the computing device 4. The invention is to centrally manage the air quality of the majority area 71, and the plurality of air quality detection purposes respectively, and the analysis time is different, which is the time-course control by the control circuit 4, which can be set according to the work of the manager' 3 points or other time courses, the split detection device ^ and the negative pressure device 1G and the computing device 4, and the area 71 that can be selected - selected, and the other unselected areas 71, control its belonging The check valve 31 closes the passage so that the gas entering the detecting device i is the source of the earlier region 71. _ Management assembly (10) The sampling line 3 recorded in the difference, the area 7 provided in each material passing room (4) 7 is controlled by the control circuit 40, and the operation of selecting the single-area 71 sampling is performed, so that the detecting device 1 can be completely completed. The selected area 71 should be analyzed for air quality, and the sample information is calculated by the computing device 4. In addition, in the air in the single-selected area 71, there is also a need to cope with the detection of different substance items, and in the structure of the detecting device 1, there must be a multi-machine and sub-system shunting facility, and the detecting device of the present invention The configuration and principle of the first configuration are as shown in Fig. 2, and the detection device i-side is connected to the conduction unit 2. The collection unit 2 has a plurality of sampling lines 3, and the sampling lines 3 are separately probed. In the indoor space 7, the other side of the detecting device 1 is connected to a negative pressure device 1 〇, the negative pressure device 10 is a negative pressure working device, and the negative pressure device 10 is used as a pumping gas. After the road is turned on, the intentionally sampled region 71 After the air is controlled by the control circuit 4〇, it enters the detection device 1 with the associated pipeline 3 of the 2010. The detecting device 1 is a multi-item inspection device, which must have a plurality of inductive detecting device constructions, and the inflowing gas must be able to be separately in its single item detecting device, and the detecting device 1 is set to be inside a casing 11' A portion of the inlet portion 113 and a portion of the outlet portion 114 are provided. The inlet portion 113 is connected to the collection portion 2'. The outlet portion 114 is connected to the negative pressure device 1A, and between the inlet portion 113 and the outlet portion U4. The device 111 is combined and blocked, and each of the sensing devices 111 is provided with an introduction valve 112 for opening the passage, and each of the introduction valves 112 is divided into a control circuit 4b.

When it is intended to control the indoor space 7 in the inner portion of the area 71, the control circuit 4 controls the associated check valve 31 to open and instructs the negative pressure device 10 to read, and the other check pipelines 3 are provided with the check valve 31. All are closed, so a single area air sampling is obtained. The air sample taken in by the above is selected as the early test, and the emulsified carbon test can only enter the sensing device to which the carbon oxide belongs, and the sensing device is provided with the introduction valve. 112 is turned on by the operation of the control circuit 40 (the introduction valve of other items is turned off), and the measured air can only be guided into the above-mentioned carbon monoxide sensing device, and the data obtained by the sensing device 111 is It is judged by the computing device 4 that the computing device 4 is displayed and the information display is presented, and the storage, the information indicating device 5 or the communication device 6 is used as a follow-up message, and the rain is placed on the side of the collecting unit 2. The cover seal 21 can be provided, and the pressure of the negative pressure device (4) reading pressure state and the pressure affected by the fresh road 3 _ part == 1 情况 in the case where both the stop 31 and the above-mentioned stop 31 are closed 'In general, if the air structure is negative pressure, at least it will be significantly reduced and the water will be removed. Therefore, the sampling line 3 can maintain the sampling quality of the pollution detection device 在 outside the working time. Stop valve 21 phase, ^ electricity 40 control work. J also controls the detection device 1 of the system to be manually set to the selected one-way start, firstly starts the negative pressure device 1〇, and connects the conduction detection device through the device m and the connected sampling line 3, wherein the control circuit 4〇 will command the negative skin selection, and the working time of the computing device 4 is delayed by the negative pressure device 1〇, and the main flow of the main system contains the air volume remaining in the original field of the tube, which can be 2 years old. In order to set the instantaneous air in the interior of the indoor space 7, the detection equipment can obtain the gas of 6 201042248 for analysis. The system of the present invention described above is for the setting of the actual basic architecture 4, in order to list the various workloads H and timings in the control circuit 4〇 and the computing device by the programmable integrated circuit, and in the computing device H More than one introduction valve 112, so that the power can be synchronously opened == r contents, such as synchronous analysis - oxygen, synchronous detection of large differences, such as synchronous detection, gas, and sound = floating particles The size of the particle size, in which the operating software is - Qi Xun engineering, please ^ not = Ο where the unit workload of the device 10 is also controlled by the shadow 仏 40, followed by smoke t. Township fine side control circuit = basic system construction of the invention requires control circuit 40 and computing device 4, and multi-item detection device 1 'sampled by majority sampling pipeline 3 to obtain air quality set = can be represented by message 5 and the communication device 6 predecessor, the job notification side prompt = fruit 0 related to the sensing device H1 project classification, it has a number of gas content detection function, also because of different items have material _ response settings, such as carbon dioxide concentration Job analysis, the detecting device 1 of the present invention, wherein the sensing device 1H must be provided with a response check device, such as a non-dispersive infrared level intervention inspection (4), then one of the sensing devices (1) is selected as the corresponding carbon dioxide, The infra-red light source acts on an optical chamber, and the infrared light wave is passed through the optical chamber through a detector (wafer), and the information is changed by the optical device _ before and after the wavelength change, and then processed by the computing device 4 for photoelectric conversion and The comparison operation is determined according to the concentration of the dioxane, and the sensing device 111 must be provided with an optical chamber (not shown), infrared light. The detection wafer and the optical chamber are controlled by the associated introduction valve 112 to determine the conduction inlet portion 113 and the outlet portion 114' to further guide the sampling line 3 and the negative pressure device 10 of the desired region 71 to obtain a series path. The analysis of the secret device by the computing device 4 is followed by the execution of the further announcement from the signal display device 5 and the communication device. After the system accepts the personnel setting to start, the control circuit 40 selects the single-area Ή at the set timing according to the indication rule, and single- or synchronously detects the single-ribbed rib content item and opens the sense of the belonging item alone or with the 201042248 step. The pilot valve 112 provided by the device lu selects the air sample of one region 71 as the analysis object by the negative pressure device lQ generating the uninduced power. Through the control of the control circuit 40, it is possible to implement the synchronization of the single-item air content or the plurality of contents by the aggregation of the aggregation unit 2 by the aggregation of the aggregation unit 2 or the sensing device m of the two items. Analysis, then the setting of the control circuit 4〇 can be set according to the actual requirements, and the appropriate working time period multi-region, or the interleaving or synchronization operation of a plurality of contents is set. Referring to FIG. 3 again, according to the system of the present invention, the implementation method is as follows. First, the indoor space 7 is divided into a plurality of areas 71 in advance, and then the pipe layout 81 is performed. 0 The operation is as follows. The relationship between the maps is driven by the negative pressure device 10 provided in the management assembly 1 and the control circuit 40 controls the anti-reverse head 31 provided in the sampling line 3 to perform the operation of the sampling operation 82. In order to use the negative pressure device 1〇# work, the air in the area where the intention is picked is introduced into the inspection equipment set by the management assembly! When the detecting device 1 obtains the sample, the operation is performed, and the operation is performed by the computing device 4 to obtain the basic operation purpose of the present invention. 'and released from the negative pressure device 10' where the sampling is completed step by step,

In the sampling operation 82 described above, the control unit 4 selects the intent area 71 first, and selects the unique sensing device 1U' inside the detecting device 1 and simultaneously operates the import port 112' to which the sensing device (1) belongs to make the sampling line 3, the intrusion of air has flowed through the sensing device (1) of the detecting device i, then the control circuit 40 reversely operates the seek 21' inside the sampling line 3 and the control circuit 40 to the check valve 31, the negative pressure device 1 () Or import valve 112 or calculate loading 4,

8 201042248 In addition, as the ozone contains the # ratio detection, the characteristic is absorbed by the scented ultraviolet light wave, and the sensing device 111 is provided with a material line light source, an optical chamber, a thin "etc., based on the sensing device ff m, the domain knowledge device Ill fight the single function of the sensing device lu. Another related to the debris f 'difficult to pass the air test Wei Ji, the injection of liquid - liquid analysis equipment, supplemented by the trial machine "through the fresh New Zealand to obtain the area of the reduction according to the concentration ratio Judging, this 6 is more complicated, only through the control of the control circuit 4, plus the automatic machine has the operation, the automatic integration of the ageing system can be achieved by the computing device 4 riding, or by message An announcement is made by the execution of the device 5 and the communication device 6.

The implementation of the present invention 'applies to the management assembly (10) with a majority of the sampling pipelines 3 having _, respectively, to different regions 7 by the control circuit 4G to control the load guidance of the negative pressure device 1 () = detection The air quality existing in the area 71, the detection setting set by the centralized recording assembly is detected as 'detection equipment! Further, under the control of the control circuit 4Q, the content of the air content can be selected: the obtained various messages are calculated by the calculation device 4, and the remote notification is obtained from the message display device 5 by the wire transfer device 6 The line can achieve the automatic monitoring means for each area, and the nature of the prompt and remote notification, or the reverse remote control, the specific air quality is effectively controlled, and the current related equipment innovation creation 恳 s s 'And please refer to the early completion of the review as a prayer.

9 201042248 [Simple description of the drawings] Fig. 1 is a system diagram of the present invention. Fig. 2 is a structural diagram of the flow control of the detecting device of the present invention. Fig. 3 is a flow chart of the detection of the present invention.

[Description of main component symbols] 1: Detection device 10: Negative pressure device 11: Housing 113: Convergence portion 21: Detent valve 4: Calculation device 6: Communication device 81: Piping layout 84: Message prompt 111: Perceptual device 114: the outlet portion 3: the sampling line 40: the control circuit 7: the indoor space 82: the sampling operation 100: the management assembly 112: the introduction valve 2: the collecting portion 31: the check valve 5: the message indicating device 71: the region 83: Testing operation

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Claims (1)

201042248 VII. Scope of application for patents: 1. A system for centralized management of gas quality, especially in areas where large enclosed spaces are divided, and centrally monitor the gas quality status of each region, including: a management assembly, extroversion There are more than one sampling pipeline with pressure confrontation. The working end of the sampling pipeline is provided with a check valve, and each of them is probed in a separate area. The interior of the management assembly further includes: The detecting device is connected to a collecting portion and a negative pressure device in front and rear, and serially forms a gas flow path including the sampling pipeline, wherein each sensing device has an associated introduction valve; 0 a computing device 'electrical connection detection The device judges the data of the detecting device; a control circuit 'electrically connects the detecting device and the computing device, and the check valve; and a message indicating device that characterizes the message transmitted by the computing device. 2. The system for centralized management of gas quality as described in the first paragraph of the patent application, wherein the inside and outside of the testing device are provided with an inlet portion and a outlet portion, the inlet portion is connected to the collection portion, and the outlet portion is connected to the negative pressure device. The two are blocked by most perceptual device arrangements. 3. A system for centralized management of gas quality as described in the scope of the patent application, wherein the negative pressure device receives control flow to control the flow. 4. The system for centralized management of gas quality as described in claim 1 of the patent application, wherein the operating timing of the calculation device is delayed by the control circuit to the negative pressure device. 5 'A system for centralized management of gas quality as set forth in claim 1, wherein a stop valve is provided at the inlet of the collection section relative to each sampling line. 6. A method for centralized management of gas quality, especially a method and system for centralized management of gas quality, especially in areas where large enclosed spaces are divided, and centrally monitoring the gas quality status of each region, including: The pipeline layout 'utilizes the sampling pipeline with pressure resistance. The working end is provided with a check valve and extends to the differentiated area. The other end is assembled in a collection section set up in a management assembly. 1. The collection operation is selected. The area intended to be inspected is controlled by the control circuit to conduct pressure to the detecting device provided by the management assembly, wherein on the other side of the detecting device, a negative pressure is formed to continuously connect the above-mentioned region, and the gas of the region is introduced into the detecting device. 201042248 Third, the detection operation, using the control circuit control, open the option of the sensing device to the introduction valve and computing device. 4. The message prompts that the data judged by the computing device is presented via a message indicating device 5. 7. The method of centralized management of gas quality as set forth in claim 6 further comprising a communication device for communicating the information obtained by the computing device to the remote end. 〇 12