CN112947651A - Laboratory environment parameter control method - Google Patents

Abstract

A laboratory environmental parameter control method, the method comprising the steps of: acquiring historical data of laboratory environment parameters corresponding to preset moments; acquiring real-time data of laboratory environment parameters corresponding to the current moment; calculating a control target value of the laboratory environmental parameter according to the historical data of the laboratory environmental parameter and the real-time data of the laboratory environmental parameter; acquiring a real-time running state of laboratory environment parameter adjusting equipment corresponding to the current moment; and adjusting the laboratory environment parameter adjusting equipment according to the laboratory environment parameter control target value and the real-time running state of the laboratory environment parameter adjusting equipment. According to the laboratory environment parameter control method, the current data of the laboratory environment parameters are controlled according to the historical data of the laboratory environment parameters, the utilization value of the historical data is greatly enriched, the experimental environment can be well restored, and the uniform experimental environment is convenient to create.

Description

Laboratory environment parameter control method

Technical Field

The invention belongs to the technical field of laboratory environment parameter control, and particularly relates to a laboratory environment parameter control method.

Background

At present, people often use environmental parameter measuring equipment to collect various required environmental parameters, for example, when people perform biological experiments. It is usually necessary to record various environmental parameters and fill out experimental reports, which need to be stored for a long time. Thus, whether the laboratory conditions are suitable for carrying out the current biological experiment or not is judged according to various environmental parameter information. People can also use the environmental parameter adjusting equipment to adjust various environmental parameters, for example, people can use the equipment for measuring temperature to measure the temperature of a laboratory, measure the humidity of the laboratory with the equipment for measuring humidity, measure the ultraviolet light intensity of the laboratory with the equipment for measuring ultraviolet light, then use the temperature parameter adjusting equipment to adjust the temperature of the laboratory, use the humidity parameter adjusting equipment to adjust the humidity of the laboratory, use the ultraviolet light intensity of the ultraviolet light parameter adjusting equipment to adjust the ultraviolet light intensity of the laboratory. The measuring equipment for various environmental parameters can provide various valuable reference data for various activities of people, such as carrying out biological experiments, avoiding harm to human bodies caused by overlarge ultraviolet light intensity and the like.

At present, it is a common practice to record various environmental parameters and fill in experimental reports, but these historical data only play a reference role, and have no great significance for controlling the current environmental parameters.

Disclosure of Invention

In order to solve the above problems, the present invention provides a laboratory environmental parameter control method, comprising the steps of:

acquiring historical data of laboratory environment parameters corresponding to preset moments;

acquiring real-time data of laboratory environment parameters corresponding to the current moment;

calculating a control target value of the laboratory environmental parameter according to the historical data of the laboratory environmental parameter and the real-time data of the laboratory environmental parameter;

acquiring a real-time running state of laboratory environment parameter adjusting equipment corresponding to the current moment;

and adjusting the laboratory environment parameter adjusting equipment according to the laboratory environment parameter control target value and the real-time running state of the laboratory environment parameter adjusting equipment.

Preferably, the acquiring of the laboratory environment parameter historical data corresponding to the preset time includes:

acquiring a time value corresponding to the preset time;

acquiring all the time values in a preset period according to the time values;

acquiring all laboratory environment parameter data corresponding to all the time values;

and sequencing all the laboratory environment parameter data in an ascending order according to the time sequence.

Preferably, the acquiring of the laboratory environment parameter historical data corresponding to the preset time further includes:

acquiring all the laboratory environment parameter data;

calculating the average value of all the environmental parameter data of the laboratory;

and taking the average value as the historical data of the laboratory environment parameter.

Preferably, the acquiring of the laboratory environment parameter historical data corresponding to the preset time further includes:

acquiring all the laboratory environment parameter data;

obtaining the mode of all the laboratory environment parameter data;

and taking the mode as the historical data of the laboratory environment parameters.

Preferably, before the obtaining of the time value corresponding to the preset time, the method further includes the steps of:

presetting an empty table;

acquiring a first number of laboratory environment parameters according to a first monitoring period;

arranging a first number of the laboratory environment parameters into the empty table in ascending chronological order.

Preferably, after the step of arranging the first number of the laboratory environment parameters into the empty table in ascending chronological order, the method further comprises the steps of:

acquiring any two adjacent laboratory environment parameters;

calculating whether the absolute value of the difference value between two adjacent laboratory environment parameters is smaller than a preset value or not;

if yes, acquiring a first number of laboratory environment parameters according to a second monitoring period, and arranging the first number of laboratory environment parameters into the empty table in an ascending order according to the time sequence;

if not, acquiring a second number of laboratory environment parameters according to the first monitoring period, and arranging the second number of laboratory environment parameters into the empty table in an ascending order according to the time sequence.

Preferably, the adjusting the laboratory environmental parameter adjusting device according to the laboratory environmental parameter control target value and the real-time running state of the laboratory environmental parameter adjusting device comprises the steps of:

acquiring a control target value of a laboratory environment temperature parameter;

acquiring the current operating power of the laboratory environment temperature parameter adjusting equipment;

judging whether the real-time operation power of the laboratory environment temperature parameter adjusting equipment reaches the laboratory environment temperature parameter control target value at a preset moment;

if so, keeping the current operating power of the laboratory environment temperature parameter adjusting equipment;

if not, increasing the current operating power of the laboratory environment temperature parameter adjusting equipment.

Preferably, the adjusting the laboratory environmental parameter adjusting device according to the laboratory environmental parameter control target value and the real-time running state of the laboratory environmental parameter adjusting device comprises the steps of:

acquiring a control target value of a laboratory environment humidity parameter;

acquiring the current operating power of the laboratory environment humidity parameter adjusting equipment;

judging whether the real-time operation power of the laboratory environment humidity parameter adjusting equipment reaches the laboratory environment humidity parameter control target value at a preset moment;

if so, keeping the current operation power of the laboratory environment humidity parameter adjusting equipment;

if not, increasing the current operating power of the laboratory environment humidity parameter adjusting equipment.

Preferably, the adjusting the laboratory environmental parameter adjusting device according to the laboratory environmental parameter control target value and the real-time running state of the laboratory environmental parameter adjusting device comprises the steps of:

acquiring a control target value of a wind speed parameter of a laboratory environment;

acquiring the current operating power of the laboratory environment wind speed parameter adjusting equipment;

judging whether the real-time operation power of the laboratory environment wind speed parameter adjusting equipment reaches the laboratory environment wind speed parameter control target value at a preset moment;

if so, keeping the current operating power of the laboratory environment wind speed parameter adjusting equipment;

if not, increasing the current operating power of the laboratory environment wind speed parameter adjusting equipment.

Preferably, the adjusting the laboratory environmental parameter adjusting device according to the laboratory environmental parameter control target value and the real-time running state of the laboratory environmental parameter adjusting device comprises the steps of:

acquiring a control target value of an oxygen content parameter of a laboratory environment;

acquiring the current operating power of the laboratory environment oxygen content parameter adjusting equipment;

judging whether the real-time operation power of the laboratory environment oxygen content parameter adjusting equipment reaches the laboratory environment oxygen content parameter control target value at a preset moment;

if so, keeping the current operating power of the laboratory environment oxygen content parameter adjusting equipment;

if not, increasing the current operating power of the laboratory environment oxygen content parameter adjusting equipment.

According to the laboratory environment parameter control method, the current data of the laboratory environment parameters are controlled according to the historical data of the laboratory environment parameters, the utilization value of the historical data is greatly enriched, the experimental environment can be well restored, and the uniform experimental environment is convenient to create.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic flow chart of a laboratory environment parameter control method provided by the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Referring to fig. 1, in an embodiment of the present application, the present invention provides a laboratory environment parameter control method, including the steps of:

s1: acquiring historical data of laboratory environment parameters corresponding to preset moments;

in this embodiment of the present application, the acquiring of the laboratory environment parameter historical data corresponding to the preset time in step S1 includes:

acquiring a time value corresponding to the preset time;

acquiring all the time values in a preset period according to the time values;

acquiring all laboratory environment parameter data corresponding to all the time values;

and sequencing all the laboratory environment parameter data in an ascending order according to the time sequence.

This step is described in detail below with specific examples.

For example, if the preset time is 15:00, the corresponding time value is 15, all the laboratory environment parameter data corresponding to 15 times around the preset time (for example, one week) and 7 pieces of laboratory environment parameter data corresponding to 15 times are obtained according to 15, and then the 7 pieces of laboratory environment parameter data are sorted according to the time sequence, that is, the 7 pieces of laboratory environment parameter data are sorted according to the sequence from monday to sunday.

In this embodiment of the present application, the step of obtaining the historical data of the laboratory environment parameters corresponding to the preset time in step S1 further includes the steps of:

acquiring all the laboratory environment parameter data;

calculating the average value of all the environmental parameter data of the laboratory;

and taking the average value as the historical data of the laboratory environment parameter.

In the embodiment of the present application, after 7 pieces of laboratory environment parameter data are acquired according to the foregoing steps, since the 7 pieces of laboratory environment parameter data are not necessarily the same, in this case, theoretically, any one piece of laboratory environment parameter data may be selected as the laboratory environment parameter historical data. However, in consideration of the factors for reducing the error, the 7 pieces of the laboratory environment parameter data are first averaged, and then the averaged value is used as the laboratory environment parameter history data in the subsequent step.

In this embodiment of the present application, the step of obtaining the historical data of the laboratory environment parameters corresponding to the preset time in step S1 further includes the steps of:

acquiring all the laboratory environment parameter data;

obtaining the mode of all the laboratory environment parameter data;

and taking the mode as the historical data of the laboratory environment parameters.

In the embodiment of the present application, after 7 pieces of laboratory environment parameter data are acquired according to the foregoing steps, since the 7 pieces of laboratory environment parameter data are not necessarily the same, in this case, theoretically, any one piece of laboratory environment parameter data may be selected as the laboratory environment parameter historical data. However, in consideration of the error reduction factor, the mode of the 7 pieces of laboratory environment parameter data, that is, the laboratory environment parameter data that appears most frequently is first extracted, and then the mode is used as the laboratory environment parameter history data in the subsequent step.

In this embodiment of the present application, before the obtaining of the time value corresponding to the preset time, the method further includes:

presetting an empty table;

acquiring a first number of laboratory environment parameters according to a first monitoring period;

arranging a first number of the laboratory environment parameters into the empty table in ascending chronological order.

In the embodiment of the application, all the laboratory environment parameter data need to be stored before the time value corresponding to the preset time is obtained, so that the subsequent operation is facilitated. Storing laboratory environmental parameter data is described below in specific embodiments.

Firstly, a blank table is preset on equipment, then 24 (namely one day) laboratory environment parameters are obtained according to a monitoring period of 1h, and then the 24 laboratory environment parameter data are arranged into the blank table according to a time sequence, so that the storage work of the laboratory environment parameter data is completed.

In an embodiment of the present application, after the arranging the first number of the laboratory environment parameters into the empty table in ascending chronological order, the method further includes:

acquiring any two adjacent laboratory environment parameters;

calculating whether the absolute value of the difference value between two adjacent laboratory environment parameters is smaller than a preset value or not;

if yes, acquiring a first number of laboratory environment parameters according to a second monitoring period, and arranging the first number of laboratory environment parameters into the empty table in an ascending order according to the time sequence;

if not, acquiring a second number of laboratory environment parameters according to the first monitoring period, and arranging the second number of laboratory environment parameters into the empty table in an ascending order according to the time sequence.

In the embodiment of the application, when the laboratory environment parameter data is acquired and stored by monitoring the laboratory environment parameter every 1h, due to reasons such as machine failure, the monitoring device may fail to acquire the data at the time of acquiring the data (for example, at the time point of 1 h), and at this time, the acquired data is the same as the previous data, which is obviously inconsistent with the fact, so that the data monitoring may fail. To avoid this, it is conceivable to change the monitoring period, thereby preventing data acquisition failure due to various uncontrollable factors.

Specifically, the absolute value of the difference between two adjacent data is calculated, and when the absolute value is less than 0.1, it can be considered that the data acquisition failure occurs, and at this time, the monitoring period needs to be changed, that is, the first period is changed into the second period. For example, the laboratory environment parameters can be acquired every 30min, if data failure still occurs, more data can be acquired in the same time, and the probability of error caused by data acquisition failure is reduced.

S2: acquiring real-time data of laboratory environment parameters corresponding to the current moment;

in this embodiment of the application, the laboratory environment parameter real-time data at the current time may be obtained through various data monitoring devices, for example, the laboratory temperature parameter real-time data may be obtained through a thermometer, which is not described herein again.

S3: calculating a control target value of the laboratory environmental parameter according to the historical data of the laboratory environmental parameter and the real-time data of the laboratory environmental parameter;

in the embodiment of the application, after the historical data of the laboratory environment parameters and the real-time data of the laboratory environment parameters are obtained, the absolute value of the difference between the historical data of the laboratory environment parameters and the real-time data of the laboratory environment parameters can be obtained, and the absolute value of the difference is the control target value of the laboratory environment parameters.

S4: acquiring a real-time running state of laboratory environment parameter adjusting equipment corresponding to the current moment;

in this embodiment of the application, the real-time operating state of the laboratory environment parameter adjustment device at the current time may be obtained by various data monitoring devices, for example, the real-time operating power of the laboratory environment parameter adjustment device may be obtained by a power meter, which is not described herein again.

S5: and adjusting the laboratory environment parameter adjusting equipment according to the laboratory environment parameter control target value and the real-time running state of the laboratory environment parameter adjusting equipment.

In an embodiment of the present application, the adjusting the laboratory environment parameter adjustment device according to the laboratory environment parameter control target value and the real-time operation state of the laboratory environment parameter adjustment device in step S5 includes:

acquiring a control target value of a laboratory environment temperature parameter;

acquiring the current operating power of the laboratory environment temperature parameter adjusting equipment;

judging whether the real-time operation power of the laboratory environment temperature parameter adjusting equipment reaches the laboratory environment temperature parameter control target value at a preset moment;

if so, keeping the current operating power of the laboratory environment temperature parameter adjusting equipment;

if not, increasing the current operating power of the laboratory environment temperature parameter adjusting equipment.

In the embodiment of the application, a control target value of the laboratory environment temperature parameter can be obtained through calculation, the current operating power of the laboratory environment temperature parameter adjusting device is obtained through a power meter, then whether the real-time operating power of the laboratory environment temperature parameter adjusting device reaches the control target value of the laboratory environment temperature parameter at a preset moment is judged through a controller, and if yes, the controller keeps the current operating power of the laboratory environment temperature parameter adjusting device; if not, the controller adjusts the current operating power of the device according to the high laboratory environment temperature parameter.

In an embodiment of the present application, the adjusting the laboratory environment parameter adjustment device according to the laboratory environment parameter control target value and the real-time operation state of the laboratory environment parameter adjustment device in step S5 includes:

acquiring a control target value of a laboratory environment humidity parameter;

acquiring the current operating power of the laboratory environment humidity parameter adjusting equipment;

judging whether the real-time operation power of the laboratory environment humidity parameter adjusting equipment reaches the laboratory environment humidity parameter control target value at a preset moment;

if so, keeping the current operation power of the laboratory environment humidity parameter adjusting equipment;

if not, increasing the current operating power of the laboratory environment humidity parameter adjusting equipment.

In the embodiment of the application, a control target value of the laboratory environment humidity parameter can be obtained through calculation, the current operating power of the laboratory environment humidity parameter adjusting device is obtained through a power meter, then whether the real-time operating power of the laboratory environment humidity parameter adjusting device reaches the control target value of the laboratory environment humidity parameter at a preset moment is judged through a controller, and if yes, the controller keeps the current operating power of the laboratory environment humidity parameter adjusting device; if not, the controller adjusts the current operating power of the equipment according to the high laboratory environment humidity parameter.

In an embodiment of the present application, the adjusting the laboratory environment parameter adjustment device according to the laboratory environment parameter control target value and the real-time operation state of the laboratory environment parameter adjustment device in step S5 includes:

acquiring a control target value of a wind speed parameter of a laboratory environment;

acquiring the current operating power of the laboratory environment wind speed parameter adjusting equipment;

judging whether the real-time operation power of the laboratory environment wind speed parameter adjusting equipment reaches the laboratory environment wind speed parameter control target value at a preset moment;

if so, keeping the current operating power of the laboratory environment wind speed parameter adjusting equipment;

if not, increasing the current operating power of the laboratory environment wind speed parameter adjusting equipment.

In the embodiment of the application, a control target value of the wind speed parameter of the laboratory environment can be obtained through calculation, the current operating power of the wind speed parameter adjusting equipment of the laboratory environment is obtained through a power meter, then whether the real-time operating power of the wind speed parameter adjusting equipment of the laboratory environment reaches the control target value of the wind speed parameter of the laboratory environment at the preset moment is judged through a controller, and if yes, the controller keeps the current operating power of the wind speed parameter adjusting equipment of the laboratory environment; if not, the controller adjusts the current operating power of the equipment according to the high laboratory environment wind speed parameter.

In an embodiment of the present application, the adjusting the laboratory environment parameter adjustment device according to the laboratory environment parameter control target value and the real-time operation state of the laboratory environment parameter adjustment device in step S5 includes:

acquiring a control target value of an oxygen content parameter of a laboratory environment;

acquiring the current operating power of the laboratory environment oxygen content parameter adjusting equipment;

judging whether the real-time operation power of the laboratory environment oxygen content parameter adjusting equipment reaches the laboratory environment oxygen content parameter control target value at a preset moment;

if so, keeping the current operating power of the laboratory environment oxygen content parameter adjusting equipment;

if not, increasing the current operating power of the laboratory environment oxygen content parameter adjusting equipment.

In the embodiment of the application, a control target value of the laboratory environment oxygen content parameter can be obtained through calculation, the current operating power of the laboratory environment oxygen content parameter adjusting equipment is obtained through a power meter, then whether the real-time operating power of the laboratory environment oxygen content parameter adjusting equipment reaches the control target value of the laboratory environment oxygen content parameter at a preset moment is judged through a controller, and if yes, the controller keeps the current operating power of the laboratory environment oxygen content parameter adjusting equipment; if not, the controller adjusts the current operating power of the equipment according to the high laboratory environment oxygen content parameter.

According to the laboratory environment parameter control method, the current data of the laboratory environment parameters are controlled according to the historical data of the laboratory environment parameters, the utilization value of the historical data is greatly enriched, the experimental environment can be well restored, and the uniform experimental environment is convenient to create.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (10)

1. A method for controlling environmental parameters of a laboratory, said method comprising the steps of:

acquiring historical data of laboratory environment parameters corresponding to preset moments;

acquiring real-time data of laboratory environment parameters corresponding to the current moment;

calculating a control target value of the laboratory environmental parameter according to the historical data of the laboratory environmental parameter and the real-time data of the laboratory environmental parameter;

acquiring a real-time running state of laboratory environment parameter adjusting equipment corresponding to the current moment;

and adjusting the laboratory environment parameter adjusting equipment according to the laboratory environment parameter control target value and the real-time running state of the laboratory environment parameter adjusting equipment.

2. The method for controlling the environmental parameters of the laboratory according to claim 1, wherein the step of obtaining the historical data of the environmental parameters of the laboratory corresponding to the preset time comprises the steps of:

acquiring a time value corresponding to the preset time;

acquiring all the time values in a preset period according to the time values;

acquiring all laboratory environment parameter data corresponding to all the time values;

and sequencing all the laboratory environment parameter data in an ascending order according to the time sequence.

3. The method for controlling laboratory environment parameters according to claim 2, wherein the step of obtaining the historical data of the laboratory environment parameters corresponding to the preset time further comprises the steps of:

acquiring all the laboratory environment parameter data;

calculating the average value of all the environmental parameter data of the laboratory;

and taking the average value as the historical data of the laboratory environment parameter.

4. The method for controlling laboratory environment parameters according to claim 2, wherein the step of obtaining the historical data of the laboratory environment parameters corresponding to the preset time further comprises the steps of:

acquiring all the laboratory environment parameter data;

obtaining the mode of all the laboratory environment parameter data;

and taking the mode as the historical data of the laboratory environment parameters.

5. The laboratory environment parameter control method according to claim 2, further comprising, before the obtaining of the time value corresponding to the preset time, the steps of:

presetting an empty table;

acquiring a first number of laboratory environment parameters according to a first monitoring period;

arranging a first number of the laboratory environment parameters into the empty table in ascending chronological order.

6. The method of claim 5, further comprising the step of, after said arranging a first number of said laboratory environment parameters into said empty table in ascending chronological order:

acquiring any two adjacent laboratory environment parameters;

calculating whether the absolute value of the difference value between two adjacent laboratory environment parameters is smaller than a preset value or not;

if yes, acquiring a first number of laboratory environment parameters according to a second monitoring period, and arranging the first number of laboratory environment parameters into the empty table in an ascending order according to the time sequence;

if not, acquiring a second number of laboratory environment parameters according to the first monitoring period, and arranging the second number of laboratory environment parameters into the empty table in an ascending order according to the time sequence.

7. The method for controlling the parameters of the laboratory environment according to claim 1, wherein the adjusting device of the parameters of the laboratory environment according to the control target values of the parameters of the laboratory environment and the real-time operation status of the adjusting device of the parameters of the laboratory environment comprises the steps of:

acquiring a control target value of a laboratory environment temperature parameter;

acquiring the current operating power of the laboratory environment temperature parameter adjusting equipment;

judging whether the real-time operation power of the laboratory environment temperature parameter adjusting equipment reaches the laboratory environment temperature parameter control target value at a preset moment;

if so, keeping the current operating power of the laboratory environment temperature parameter adjusting equipment;

if not, increasing the current operating power of the laboratory environment temperature parameter adjusting equipment.

8. The method for controlling the parameters of the laboratory environment according to claim 1, wherein the adjusting device of the parameters of the laboratory environment according to the control target values of the parameters of the laboratory environment and the real-time operation status of the adjusting device of the parameters of the laboratory environment comprises the steps of:

acquiring a control target value of a laboratory environment humidity parameter;

acquiring the current operating power of the laboratory environment humidity parameter adjusting equipment;

judging whether the real-time operation power of the laboratory environment humidity parameter adjusting equipment reaches the laboratory environment humidity parameter control target value at a preset moment;

if so, keeping the current operation power of the laboratory environment humidity parameter adjusting equipment;

if not, increasing the current operating power of the laboratory environment humidity parameter adjusting equipment.

9. The method for controlling the parameters of the laboratory environment according to claim 1, wherein the adjusting device of the parameters of the laboratory environment according to the control target values of the parameters of the laboratory environment and the real-time operation status of the adjusting device of the parameters of the laboratory environment comprises the steps of:

acquiring a control target value of a wind speed parameter of a laboratory environment;

acquiring the current operating power of the laboratory environment wind speed parameter adjusting equipment;

judging whether the real-time operation power of the laboratory environment wind speed parameter adjusting equipment reaches the laboratory environment wind speed parameter control target value at a preset moment;

if so, keeping the current operating power of the laboratory environment wind speed parameter adjusting equipment;

if not, increasing the current operating power of the laboratory environment wind speed parameter adjusting equipment.

10. The method for controlling the parameters of the laboratory environment according to claim 1, wherein the adjusting device of the parameters of the laboratory environment according to the control target values of the parameters of the laboratory environment and the real-time operation status of the adjusting device of the parameters of the laboratory environment comprises the steps of:

acquiring a control target value of an oxygen content parameter of a laboratory environment;

acquiring the current operating power of the laboratory environment oxygen content parameter adjusting equipment;

judging whether the real-time operation power of the laboratory environment oxygen content parameter adjusting equipment reaches the laboratory environment oxygen content parameter control target value at a preset moment;

if so, keeping the current operating power of the laboratory environment oxygen content parameter adjusting equipment;

if not, increasing the current operating power of the laboratory environment oxygen content parameter adjusting equipment.

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