阅读说明：本技术 一种油烟在线监测结果的检测方法及检测系统 (Detection method and detection system for oil smoke online monitoring result ) 是由 曹天霞 于 2020-04-30 设计创作，主要内容包括：本申请公开了一种油烟在线监测结果的检测方法及检测系统,其中油烟在线监测结果的检测方法具体包括如下步骤：获取监测对象；根据监测对象确定其中监测对象中是否存在异常,得到监测结果；对监测结果进行检测,得到检测结果；通过检测结果对监测对象进行调整。本申请能够对监测对象进行监测,通过对监测结果进行检测,保证了监测结果的准确性。(The application discloses a detection method and a detection system for an oil smoke online monitoring result, wherein the detection method for the oil smoke online monitoring result specifically comprises the following steps: acquiring a monitoring object; determining whether the monitored object is abnormal or not according to the monitored object to obtain a monitoring result; detecting the monitoring result to obtain a detection result; and adjusting the monitored object according to the detection result. The monitoring object can be monitored, and the accuracy of the monitoring result is guaranteed by detecting the monitoring result.)

1. A detection method for oil smoke online monitoring results is characterized by comprising the following steps:

acquiring a monitoring object;

determining whether the monitored object is abnormal or not according to the monitored object to obtain a monitoring result;

detecting the monitoring result to obtain a detection result;

and adjusting the monitored object according to the detection result.

2. The method for detecting the oil smoke online monitoring result according to claim 1, wherein the monitored object comprises the operation working state of a purifier and the working parameters of a smoke exhaust fan in a plurality of oil smoke online monitoring devices.

3. The method for detecting the oil smoke online monitoring result according to claim 2, further comprising obtaining the collected original oil smoke concentration A when obtaining the monitoring object.

4. The detection method for the oil smoke online monitoring result according to claim 3, characterized in that whether the monitored object is abnormal or not is determined according to the monitored object, and the monitoring result is obtained, and the method specifically comprises the following substeps:

the monitoring purifier acquires a first monitoring result;

and if the purifier normally operates, monitoring the working parameters of the smoke exhaust fan to obtain a second monitoring result.

5. The method for detecting the oil smoke online monitoring result according to claim 4, wherein if the purifier is in an abnormal operating state, the first monitoring result is abnormal, and the first monitoring result is detected.

6. The method for detecting the lampblack on-line monitoring result according to claim 4, wherein the step of detecting the working parameter of the smoke exhaust fan is to specifically detect whether the smoke exhaust air speed is normal or not to obtain a second monitoring result, wherein the smoke exhaust air speed is specifically expressed as:

V＝F/S

wherein F is the air quantity of the smoke exhaust fan port, and S is the area of the smoke exhaust fan.

7. The method for detecting the result of the online monitoring of the lampblack according to claim 6, wherein an air volume F of an exhaust fan is 3600abc, a is a long side of an exhaust hood of the exhaust fan, b is a short side of the exhaust hood of the exhaust fan, and c is an air inlet speed of the exhaust hood of the exhaust fan;

the area of the smoke exhaust fan is equal to pi dl, wherein d represents the diameter of the circular air pipe, and l represents the length of the central line of the pipeline.

8. The detection method for the oil smoke online monitoring result according to claim 5, characterized in that the detection of the detection result specifically comprises the following substeps:

detecting the concentration B of the oil smoke purified by the purifier;

judging the difference between the original oil smoke concentration A and the oil smoke concentration B;

and if the difference between the original oil smoke concentration A and the oil smoke concentration B is smaller than a specified threshold value, the first monitoring result is correct, and the conclusion is taken as a first detection result.

9. A detection system for oil smoke online monitoring results is characterized by comprising at least one intelligent oil smoke online monitoring unit and a detection processor;

the oil smoke online monitoring unit is used for monitoring the purifier and the smoke exhaust fan in real time to obtain a monitoring result;

and the detection processor is used for detecting the monitoring result of the oil smoke online monitoring unit.

10. The control system for a high voltage power supply of an intelligent lampblack purifier as claimed in claim 9, wherein the detection processor further comprises: a detection unit and an adjustment unit;

the detection unit is used for detecting the monitoring result to obtain a detection result;

and the adjusting unit is used for adjusting the object monitored by the oil smoke online monitoring unit according to the detection result.

Technical Field

The application relates to the field of oil fume purifiers, in particular to a detection method and a detection system for an oil fume online monitoring result.

Background

The oil fume exhaust gas is an aerosol mixed by gas, liquid and solid phases, the components of the aerosol contain various toxic, harmful and pathogenic components, and the direct emission can cause serious pollution to the atmosphere, so that the national relevant laws stipulate that catering service operators discharging oil fume must install oil fume purification facilities, and catering service operators discharging oil fume are subjected to relevant penalties when the emission standards of the oil fume exhaust gas exceed the emission standards without installing oil fume purification facilities, abnormally using oil fume purification facilities or taking other oil fume purification measures. At present, catering service business operators are required to install the oil smoke monitoring system, the oil smoke concentration is monitored through the networking, the oil smoke temperature, the normal operation of a purifier and the operating parameters such as the operating state of a fan are monitored, the traditional oil smoke monitoring system only screens the working parameters once and just sends out abnormal reminding, if the monitoring error occurs in the process, the process can only be executed according to the error, therefore, the traditional oil smoke monitoring system does not have the function of checking the monitoring result of the monitoring system, the possibility of the error of the monitoring result often occurs, and further the problem that the oil smoke cannot be maximally purified is possibly caused.

Therefore, how to effectively detect the oil smoke online monitoring result so as to ensure the correctness of the detection result is a problem which needs to be solved urgently by the personnel in the field.

Disclosure of Invention

The application aims to provide a detection method and a detection system for an oil smoke online monitoring result, which are used for detecting the oil smoke online monitoring result again, and improving the accuracy of the monitoring result.

In order to achieve the above purpose, the present application provides a detection method for an oil smoke online monitoring result, which specifically includes the following steps: acquiring a monitoring object; determining whether the monitored object is abnormal or not according to the monitored object to obtain a monitoring result; detecting the monitoring result to obtain a detection result; and adjusting the monitored object according to the detection result.

The monitoring object comprises the operation working state of the purifiers in the plurality of oil smoke online monitoring devices and the working parameters of the smoke exhaust fan.

As above, when acquiring the monitoring object, the method further includes acquiring the collected original oil smoke concentration a.

As above, determining whether there is an abnormality in the monitored object according to the monitored object to obtain a monitoring result specifically includes the following substeps: the monitoring purifier acquires a first monitoring result; and if the purifier normally operates, monitoring the working parameters of the smoke exhaust fan to obtain a second monitoring result.

As above, if the purifier is in the abnormal operating state, the first monitoring result is abnormal, and the first monitoring result is detected.

As above, wherein, survey the operating parameter of exhaust fan and specifically whether monitoring exhaust gas wind speed is normal, obtain the second monitoring result, wherein exhaust gas wind speed specifically expresses as: and V is F/S, wherein F is the air quantity of the smoke exhaust fan, and S is the area of the smoke exhaust fan.

As above, wherein the outlet air volume F of the smoke exhaust fan is 3600abc, a is the long side of the smoke exhaust hood of the smoke exhaust fan, b is the short side of the smoke exhaust hood of the smoke exhaust fan, and c is the air inlet speed of the smoke exhaust hood of the smoke exhaust fan; the area of the smoke exhaust fan is equal to pi dl, wherein d represents the diameter of the circular air pipe, and l represents the length of the central line of the pipeline.

As above, the detecting the detection result specifically includes the following sub-steps: detecting the concentration B of the oil smoke purified by the purifier; judging the difference between the original oil smoke concentration A and the oil smoke concentration B; and if the difference between the original oil smoke concentration A and the oil smoke concentration B is smaller than a specified threshold value, the first monitoring result is correct, and the conclusion is taken as a first detection result.

A detection system for oil smoke online monitoring results comprises at least one intelligent oil smoke online monitoring unit and a detection processor; the oil smoke online monitoring unit is used for monitoring the purifier and the smoke exhaust fan in real time to obtain a monitoring result; and the detection processor is used for detecting the monitoring result of the oil smoke online monitoring unit.

As above, wherein the detection processor further comprises: a detection unit and an adjustment unit; the detection unit is used for detecting the monitoring result to obtain a detection result; and the adjusting unit is used for adjusting the object monitored by the oil smoke online monitoring unit according to the detection result.

The application has the beneficial effects that:

the detection method and the detection system for the oil smoke online monitoring result can monitor the monitored object, and the accuracy of the monitoring result is ensured by detecting the monitoring result. Meanwhile, if the abnormal purifier capable of normally purifying the oil smoke appears, the abnormal purifier can be adjusted, so that the oil smoke can be purified while the energy consumption is not increased, and the maximum utilization efficiency of the purifier is achieved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present application, and other drawings can be obtained by those skilled in the art according to the drawings.

Fig. 1 is a flowchart of a detection method for an oil smoke online monitoring result provided according to an embodiment of the application;

fig. 2 is an internal structure diagram of a detection system for an oil smoke online monitoring result according to an embodiment of the application.

Detailed Description

The technical solutions in the embodiments of the present application are clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. 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 application.

The application relates to a detection method and a detection system for an oil smoke online monitoring result. According to the application, the result of the oil smoke on-line monitoring is detected again, and the accuracy of the monitoring result is improved.

Fig. 1 shows a flow chart of a detection method for an oil smoke online monitoring result provided by the present application, which specifically includes the following steps:

step S110: and acquiring a monitoring object.

The monitoring object comprises a plurality of operating states of the purifier to be monitored and working parameters of the smoke exhaust fan.

In particular to equipment for purifying the passing oil smoke by using a purifier so as to remove oil smoke particles which are carried in the oil smoke and can pollute the atmospheric environment. Its main effect is to purify the oil smoke that the system was collected to reach emission standard, if reach emission standard then utilize smoke exhaust fan to discharge, therefore the clarifier is the important factor of deciding whether discharge up to standard of oil smoke concentration, and the monitoring result of this embodiment focus on detecting the clarifier.

Preferably, in the process of acquiring the monitoring object, the method further comprises collecting the original oil smoke concentration which is not processed by the purifier, and recording the original oil smoke concentration as an original oil smoke concentration A.

Step S120: and determining whether the monitored object is abnormal or not according to the monitored object to obtain a monitoring result.

The abnormality of the monitoring objects comprises one or more abnormality of the monitoring objects, such as whether the operation working state of the smoke exhaust fan and/or the purifier is abnormal or not.

And if the monitored objects are normal, the process is exited. Specifically, step S120 includes the following substeps:

step D1: and monitoring the purifier to obtain a first monitoring result.

Specifically, the current and voltage of the purifier can be monitored to monitor the operation state of the purifier, if the purifier emits slight continuous and stable 'gouty' electrostatic discharge sound, and the green light and the red light of the purifier are monitored to be on, the operation state of the purifier in normal operation is indicated, and for example, if the purifier accidentally generates 'snap' high-voltage discharge sound, the operation state of the purifier in normal operation can also be indicated.

If the purifier is in the abnormal operating state, the first monitoring result is abnormal, and step S130 is executed. Otherwise, the first monitoring result is normal, and step D2 is executed.

Step D2: and monitoring working parameters of the smoke exhaust fan to obtain a second monitoring result.

Wherein, the working parameter of monitoring smoke exhaust fan specifically is whether normal for monitoring the speed of discharging fume, if the speed of discharging fume in smoke exhaust fan's the pipeline exceeds appointed speed, then cause the speed of discharging fume fan behind the appointed time of operation very easily and move unsmoothly, consequently need carry out strict control to the speed of discharging fume fan.

Specifically, the wind speed of the smoke exhaust fan is specifically expressed as:

v is F/S (formula one)

Wherein F is the air quantity of the smoke exhaust fan port, and S is the area of the smoke exhaust fan.

Further, F is 3600abc, a is a long side of the exhaust hood of the exhaust fan, b is a short side of the exhaust hood of the exhaust fan, and c is the air inlet speed of the exhaust hood of the exhaust fan.

Still further, since most of the pipes of the smoke exhaust fan are of a circular structure, the area of the smoke exhaust fan is specifically expressed as S ═ pi dl, where d denotes the diameter of the circular air duct and l denotes the length of the center line of the pipe.

If the calculated wind speed of the smoke exhaust fan is smaller than the designated speed, the second monitoring result is normal, the process exits, and if the second monitoring result is abnormal, an alarm prompt is sent.

Step S130: and detecting the monitoring result to obtain a detection result.

The detection of the monitoring result is specifically to detect an abnormal first monitoring result.

Specifically, step S130 specifically includes the following sub-steps:

step P1: and detecting the concentration of the oil smoke purified by the purifier.

The step is to monitor the oil smoke concentration after the purification of the purifier with the abnormal first monitoring result, and the oil smoke concentration is recorded as oil smoke concentration B.

Specifically, the oil smoke concentration B after passing through the purifier is specifically represented as:

wherein A represents the concentration of the collected original oil smoke, i represents the volatilization percentage in the oil smoke treatment process, lambda represents the rated oil smoke removal rate of the purifier, and L represents the total air volume of the purifier.

Step P2: and judging the difference between the original oil smoke concentration A and the oil smoke concentration B.

Specifically, if the data difference between the oil smoke concentration B and the original oil smoke concentration a is greater than the specified threshold, which indicates that the oil smoke is changed after being processed by the purifier, and the first monitoring result may have a monitoring error, step D1 is executed again to obtain a third monitoring result.

If the third monitoring result is different from the first monitoring result, step P3 is executed, and if the third monitoring result is the same as the first monitoring result, the first monitoring result is correct, and step S140 is executed with the result as the first detection result.

If the data difference between the oil smoke concentration B and the original oil smoke concentration a is smaller than the designated threshold, the oil smoke concentration processed by the purifier is not changed greatly, the purifier is abnormal and the first monitoring result is correct, and the conclusion is taken as the second detection result and the step S140 is executed.

Step P3: and judging whether the oil smoke concentration B reaches the standard emission standard.

Specifically, if the oil smoke concentration B is smaller than the specified concentration threshold, the oil smoke concentration B reaches the emission standard, the first monitoring result is wrong, and the conclusion is taken as a third detection result. If the soot concentration B is greater than the predetermined concentration threshold, it indicates that even though the concentration of soot processed by the purifier is changed, the purifier still has an abnormal condition, i.e. the first monitoring result is correct, and the step S140 is executed with the result as the fourth detection result.

Wherein, not reporting to the police immediately after monitoring the clarifier unusual and indicateing the processing, but whether change through further monitoring oil smoke concentration, carry out recheck to the first monitoring result of clarifier, to a great extent has avoided the condition that the deviation appears in the first monitoring result.

Step S140: and adjusting the monitored object according to the detection result.

Specifically, the purifier in the monitored object is adjusted based on the detection result of "the first monitoring result is correct" (i.e., the purifier is abnormal).

The abnormal reasons of the purifier are various, and the operation is unstable due to temporary short circuit caused by external reasons or faults of parts per se. In general, if the purifier is unknown, the purifier is controlled to be temporarily stopped, but such operation may affect the whole oil smoke discharge efficiency of the restaurant and cause environmental pollution. Step S140 specifically includes the following substeps:

step T1: the capture efficiency of the abnormal purifier is determined.

Wherein capture efficiency is the clarifier to the seizure dynamics of oil smoke particle, can reflect whether this clarifier possesses the ability of purifying oil smoke. Specifically, the capture efficiency C of the anomaly purifier can be specifically expressed as:

wherein, B represents the oil smoke concentration purified by the purifier, A represents the original oil smoke concentration, W represents the area of the purifier for collecting the oil smoke particles, and Q represents the smoke amount of the oil smoke particles in the purifier.

If the capture efficiency C is less than the designated purification threshold, the oil smoke particles can not be captured normally, and the abnormal purifier can not carry out normal oil smoke purification no matter what the failure reason is. If the capture efficiency C is larger than the designated purification threshold, the abnormal purifier can still capture the oil smoke particles normally even if the abnormal purifier fails, and normal oil smoke purification is carried out.

Step T2: and controlling the abnormal purifier to enter an abnormal mode according to the capturing efficiency.

Wherein the abnormal purifier is controlled to enter the abnormal mode according to the capturing efficiency of the abnormal purifier in step T1. Specifically, the exception purifiers with capture efficiency greater than a specified decontamination threshold are placed in a first exception queue, and the exception purifiers with capture efficiency greater than the specified decontamination threshold are placed in a second exception queue.

Wherein the abnormal mode includes a low power consumption and a shutdown mode. Further, the abnormal purifier placed in the first abnormal queue is controlled to enter a low-power-consumption state, and the low-power-consumption working mode refers to that a high-voltage power supply supplying power to the abnormal purifier supplies power by adopting lower current and/or lower voltage so that the purifier is maintained in a standby state mode, namely the abnormal purifier enters a function of saving electric quantity but normally purifying oil smoke, and simultaneously gives out a fault prompt so that a worker can conveniently check the specific fault reason of the abnormal purifier.

Further, the purifiers in the second exception queue are controlled to perform a shutdown mode, i.e. the purification function of the purifier is suspended.

Generally, the detection conditions of the purifier are very strict, if a fault is not clear, the fault can be reported immediately, but if an abnormal purifier capable of normally purifying the oil smoke appears, the oil smoke can be purified while the energy consumption is not increased by the adjustment method, so that the maximum utilization efficiency of the purifier is achieved.

The application provides a control system of intelligent lampblack purifier high-voltage power supply, as shown in fig. 2, wherein the control system comprises at least one lampblack online monitoring unit 201 and a detection processor 202.

The oil smoke online monitoring unit 201 is used for monitoring the purifier and the smoke exhaust fan in real time to obtain a monitoring result. The purifier is used for treating oil fume generated by facilities such as hotels, restaurants, kitchens and the like.

The oil smoke online monitoring unit 201 specifically comprises an acquisition module and a monitoring module.

The acquisition module is used for acquiring a monitoring object and the original oil smoke concentration A.

The monitoring module is connected with the acquisition module and used for determining whether the monitored object has abnormity according to the monitored object to obtain a monitoring result.

The detection processor 202 is connected to each of the oil smoke online monitoring units 201, and is configured to detect a monitoring result of each of the oil smoke online monitoring units 201.

Specifically, the detection processor 202 further includes: detection unit, adjusting element.

The detection unit is used for detecting the monitoring result to obtain a detection result.

The adjusting unit is connected with the detecting unit and used for adjusting the object monitored by the oil smoke online monitoring unit according to the detection result.

Further, the detection unit comprises the following sub-modules: the device comprises an oil smoke concentration detection module, a first judgment module and a second judgment module.

Wherein the oil smoke concentration detection module is used for detecting the oil smoke concentration B purified by the purifier.

The first judgment module is connected with the oil smoke concentration detection module and used for judging the difference between the original oil smoke concentration A and the original oil smoke concentration B, if the data difference value is larger than a specified threshold value, the data difference value returns to the monitoring module, the monitoring result is obtained again, and if the data difference value is not larger than the specified threshold value, the monitoring result continues to be executed.

The second judgment module is connected with the first judgment module and used for judging whether the oil smoke concentration B reaches the standard emission standard.

Specifically, the adjusting unit specifically includes the following sub-modules: the device comprises a capture efficiency determining module and a control module.

Wherein the capture efficiency determination module is to determine a capture efficiency of the abnormal purifier.

The control module is connected with the capture efficiency determining module and used for controlling the abnormal purifier to enter an abnormal mode according to the capture efficiency.

The application has the beneficial effects that:

the oil smoke on-line monitoring result detection and detection system can monitor a monitored object, and the accuracy of the monitoring result is ensured by detecting the monitoring result. Meanwhile, if the abnormal purifier capable of normally purifying the oil smoke appears, the abnormal purifier can be adjusted, so that the oil smoke can be purified while the energy consumption is not increased, and the maximum utilization efficiency of the purifier is achieved.

Although the present application has been described with reference to examples, which are intended to be illustrative only and not to be limiting of the application, changes, additions and/or deletions may be made to the embodiments without departing from the scope of the application.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.