CN115781897A - Health preserving kiln sensor information acquisition method, system and storage medium thereof - Google Patents

Abstract

The invention provides a health preserving kiln sensor information acquisition method, a system and a storage medium thereof, wherein the method comprises the following steps: step S1: acquiring initial temperature and humidity data inside and outside the curing kiln; step S2: setting a preset value of temperature and humidity required in the precast beam curing process according to the collected initial temperature and humidity data; and step S3: collecting the temperature and humidity in the change process in the curing kiln to obtain the actual temperature and humidity, and comparing the actual temperature and humidity with a preset value in real time; and S4, when the actual temperature and humidity are different from the preset temperature and humidity value, regulating and controlling the temperature change rate in the health-preserving kiln, and ensuring that the actual temperature and humidity reach the preset temperature and humidity value. And temperature and humidity preset values in the curing process of the precast beam are formulated, and are compared with the temperature and humidity preset values according to actual temperature and humidity changes in the curing kiln, so that the actual temperature and humidity are regulated in time, and the temperature stability of the precast beam in the curing process is ensured.

Description

Health preserving kiln sensor information acquisition method, system and storage medium thereof

Technical Field

The invention belongs to the technical field of precast beam health maintenance, and particularly relates to a health maintenance kiln sensor information acquisition method and system and a storage medium thereof.

Background

With the rapid development of traffic roads and bridge infrastructures, higher requirements are put forward on the quality and the quantity of precast beams. The traditional spraying health-preserving mode is mainly carried out by adopting a manual watering or simple combined spraying control mode of a time relay and an electromagnetic valve. Carry out the health preserving in-process to the precast beam, the temperature in the health preserving kiln often is difficult to master, and in prior art, the simple combination through time relay and solenoid valve sprays control mode and changes the temperature in the health preserving kiln to can not in time carry out fine the accuse to the humiture environment in the health preserving kiln, lead to the humiture fluctuation great easily, influence the quality of precast beam.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a method and a system for acquiring sensor information of a health-preserving kiln and a storage medium thereof.

One embodiment of the invention provides a health preserving kiln sensor information acquisition method, which comprises the following steps:

step S1: acquiring initial temperature and humidity data inside and outside the curing kiln;

step S2: setting preset values of required temperature and humidity in the precast beam curing process;

and step S3: after the precast beam is placed in a curing kiln, collecting the temperature and humidity in the curing kiln in the changing process to obtain the actual temperature and humidity, and comparing the actual temperature and humidity with a preset value in real time;

and S4, when the actual temperature and humidity are different from the preset temperature and humidity value, regulating and controlling the temperature change rate in the health-preserving kiln, and ensuring that the actual temperature and humidity reach the preset temperature and humidity value.

Preferably, in step S4, the preset temperature and humidity values in the precast beam curing process include the following stages:

in a constant-speed heating state, on the basis of the initial temperature, the temperature in the curing kiln rises at a constant speed, and the temperature stops rising after reaching a preset temperature value;

in the constant temperature state, the preset temperature value in the curing kiln in the constant temperature state is a fixed temperature value, and the temperature and humidity in the curing kiln are ensured to be in the fixed temperature value;

and in the uniform temperature reduction state, on the basis of the fixed temperature value, the temperature in the curing kiln is reduced at a uniform speed, and the temperature is stopped to be reduced when the temperature reaches a second fixed temperature value.

Preferably, the second fixed temperature value may take a value within a range of ± 5 ℃ of the outdoor temperature.

In a preferred embodiment of the method of the invention,

in step S4, the constant temperature rise rate in the kiln is set as k _{Lifting of water} The speed of uniform temperature reduction in the curing kiln is k _Descend ；

k _{Lifting of wine} The value range of the (A) is between 8 ℃/h and 10 ℃/h;

|k _descend The absolute value of the value range of |, is also between 8 ℃/h and 10 ℃/h.

Preferably, in the step S3, in the process of curing in the curing kiln, the actual temperature and humidity data in the curing kiln are collected and monitored in real time, and the actual temperature and humidity are compared with the preset temperature and humidity value in the same time.

Preferably, in step S4, the actual temperature is set to T _{Fruit of Chinese wolfberry} With a predetermined temperature T _{Preparation of} ，

When T is _{Fruit of Chinese wolfberry} ＞T _{Preparation of} When the temperature in the curing kiln is controlled to be reduced, or the temperature is stopped to be raised in a short time;

when T is _{Fruit of Chinese wolfberry} ＜T _{Preparation of} In time, the temperature in the curing kiln is controlled to rise so as to reach T _{Fruit of Chinese wolfberry} ＝T _{Preparation of} 。

One embodiment of the present invention further provides a curing kiln sensor information acquisition system, configured to execute the curing kiln sensor information acquisition method according to any one of the above embodiments, including:

the control module is used for regulating and controlling the temperature and the humidity in the curing kiln according to the actual temperature and humidity;

and the information acquisition module is used for acquiring and monitoring temperature and humidity data in the health preserving kiln in real time.

In a preferred embodiment of the method of the invention,

be equipped with a plurality of shower nozzle in the health preserving kiln for receive the outside hot water of carrying, spray in the health preserving kiln, thereby change the temperature in the health preserving kiln.

Preferably, the control module includes:

the controller, the controller is used for receiving humiture and precast beam surface temperature in the health preserving kiln that the information acquisition module gathered to opening of shower nozzle is controlled according to actual humiture, the controller regulates and control through the hot water temperature to outside transport, and sprays to the health preserving kiln in through the shower nozzle.

Preferably, the controller may comprise a PLC, DCS, FCS, or other embedded system. .

Preferably, the control module may also include:

the touch screen is connected with the controller.

Preferably, the information acquisition module includes:

the temperature and humidity sensor is used for monitoring the temperature and humidity in the health-preserving kiln and transmitting detected temperature and humidity data to the controller;

the thermometer is used for monitoring the ambient temperature and transmitting the detected ambient temperature data to the controller;

and the temperature sensor is used for monitoring the surface temperature of the precast beam and transmitting the detected temperature data to the controller.

Yet another embodiment of the present invention provides a computer-readable storage medium, on which a computer program is stored, which when executed by a processor, implements the steps of the sensor information acquisition method according to any one of the above embodiments.

The health preserving kiln sensor information acquisition method or the health preserving kiln sensor information acquisition system provided by the embodiment has the following beneficial effects:

1. temperature and humidity data of the temperature and humidity sensor in the health preserving kiln are collected, the thermometer collects outdoor environment temperature, according to the collected outdoor environment temperature, a temperature and humidity preset value in the health preserving process of the precast beam is formulated, real-time monitoring is carried out on the temperature inside and outside the health preserving kiln and the humidity in the health preserving kiln through the temperature and humidity sensor and the thermometer, and the actual temperature and humidity change in the health preserving kiln is compared with the temperature and humidity preset value, timely regulation and control are carried out on the actual temperature and humidity, and the temperature stability of the precast beam in the health preserving process is guaranteed.

2. In the constant-speed temperature rise state, the temperature in the curing kiln rises at a constant speed along with the change of time, so that the precast beam can gradually adapt to the change of the temperature and the humidity of the environment in the curing kiln in the curing process, the quality of the curing kiln is ensured, the preset time of the constant-speed temperature rise state in the curing kiln is most preferably 3 hours, and when the environment temperature is lower than 30 ℃, the temperature rise time can be properly prolonged;

3. under the constant temperature state, the optimal values of the temperature, the humidity and the time in the curing kiln are 60 ℃, the time is 8 hours, the humidity is 95%, the precast beam can be ensured to be fully shaped by keeping the constant temperature and the constant humidity for 8 hours, the adaptability of the precast beam is greatly improved under the environment of constant temperature and constant humidity, the control efficiency of the precast beam on the temperature and the humidity is greatly improved compared with the traditional curing mode, and the quality reduction of the precast beam caused by the repeated fluctuation of the temperature and the humidity in the curing process of the precast beam is avoided;

4. under the uniform-speed cooling state, along with the change of time, the temperature in the health preserving kiln descends at the uniform speed, through making the temperature descend to outdoor temperature at the uniform speed, guarantees that precast beam can progressively adapt to outside ambient temperature after the health preserving, guarantees the adaptability after the precast beam shaping, avoids the temperature drop in-process temperature humidity change inhomogeneous condition that leads to precast beam surface crackle etc. to appear.

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, 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 the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic flow chart of a curing kiln sensor information acquisition method according to an embodiment of the present invention;

FIG. 2 is a diagram showing the temperature and time variation state of the temperature in the kiln during the temperature rise, constant temperature and temperature reduction

FIG. 3 is a schematic block diagram of a curing kiln sensor information acquisition system according to one embodiment of the present invention;

FIG. 4 is a schematic view of the internal structure of the curing kiln of the present invention;

FIG. 5 is a schematic diagram of the control module of FIG. 3;

FIG. 6 is a schematic structural diagram of a storage medium according to yet another embodiment of the present invention;

in the figure: 100. a curing kiln; 101. a spray head;

200. a control module; 210. a touch screen; 220. a controller;

300. an information acquisition module; 310. a temperature and humidity sensor; 320. a thermometer; 330. a temperature sensor;

400. a storage medium; 410. a computer program; 420. a processor;

500. an information acquisition system.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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 invention.

It should be noted that, if the present invention relates to directional indications (such as up, down, left, right, front, back, 8230; \8230;), the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture, and if the specific posture is changed, the directional indications are correspondingly changed.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In addition, if the meaning of "and/or" and/or "appears throughout, the meaning includes three parallel schemes, for example," A and/or B "includes scheme A, or scheme B, or a scheme satisfying both schemes A and B. In addition, technical solutions between the embodiments may be combined with each other, but must be based on the realization of the technical solutions by a person skilled in the art, and when the technical solutions are contradictory to each other or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention provides a method for collecting sensor information of a curing kiln 100, including:

step S1: acquiring initial temperature and humidity data inside and outside the curing kiln 100;

step S2: setting a preset value of required temperature and humidity in the precast beam curing process;

and step S3: after the precast beam is placed in the curing kiln 100, collecting the temperature and humidity in the changing process in the curing kiln 100 to obtain the actual temperature and humidity, and comparing the actual temperature and humidity with a preset value in real time;

and S4, when the actual temperature and humidity are different from the preset temperature and humidity value, regulating and controlling the temperature change rate in the curing kiln 100 to ensure that the actual temperature and humidity reach the preset temperature and humidity value.

In the method for collecting the sensor information of the curing kiln 100 provided in the above embodiment,

the optimal value range of the preset temperature and humidity values of the precast beam is as follows: the temperature is between 50 and 65 ℃, and the humidity is between 85 and 95 percent;

humiture sensor 310 gathers humiture data in the health preserving kiln 100, thermometer 320 gathers outdoor ambient temperature, and according to the outdoor ambient temperature who gathers, formulate the humiture default of precast beam health preserving in-process, carry out real time monitoring to the temperature inside and outside the health preserving kiln 100 and the humidity in the health preserving kiln 100 through humiture sensor 310 and thermometer 320, and compare with the humiture default according to the actual humiture change in the health preserving kiln 100, in time regulate and control the actual humiture, guarantee the stability of precast beam at health preserving in-process temperature.

Referring to fig. 2, in one embodiment, in step S4, the preset temperature and humidity values in the precast beam curing process include the following steps:

in a constant-speed heating state, on the basis of the initial temperature, the temperature in the curing kiln 100 rises at a constant speed, and the temperature stops rising after reaching a preset temperature value;

the temperature preset value in the curing kiln 100 in the constant temperature state is a fixed temperature value, and the temperature and the humidity in the curing kiln 100 are ensured to be in the fixed temperature value;

and in the uniform temperature reduction state, on the basis of the fixed temperature value, the temperature in the curing kiln 100 is reduced at a uniform speed, and the temperature is stopped to be reduced when the temperature reaches a second fixed temperature value.

Preferably, in the constant temperature rise state, the temperature in the curing kiln 100 rises at a constant speed along with the change of time, so that the precast beam can gradually adapt to the change of the temperature and the humidity of the environment in the curing kiln 100 in the curing process, the quality of the curing kiln 100 is ensured, the preset time of the constant temperature rise state in the curing kiln 100 is most preferably 3 hours, and when the environment temperature is lower than 30 ℃, the temperature rise time can be properly prolonged;

under the constant temperature state, the optimal values of the temperature, the humidity and the time in the curing kiln 100 are 60 ℃, the time is 8 hours, the humidity is 95%, the precast beam can be ensured to be fully shaped by keeping the constant temperature and the constant humidity for 8 hours, the adaptability of the precast beam is greatly improved under the environment of constant temperature and constant humidity, the control efficiency of the precast beam on the temperature and the humidity is greatly improved compared with the traditional curing mode, and the quality reduction of the precast beam caused by the repeated fluctuation of the temperature and the humidity in the curing process of the precast beam is avoided;

under the uniform cooling state, along with the change of time, the temperature in the curing kiln 100 is at the uniform speed and is reduced, and through making the temperature at the uniform speed reduce to outdoor temperature, the precast beam can be guaranteed to gradually adapt to the external environment temperature after the curing is finished, the adaptability of the precast beam after being formed is guaranteed, and the condition that cracks appear on the surface of the precast beam due to the fact that the temperature and the humidity change are uneven in the temperature reduction process is avoided.

Preferably, the second fixed temperature value may take a value within a range of ± 5 ℃ of the outdoor temperature.

Referring to fig. 2, in one embodiment,

in step S4, the rate of temperature uniform temperature rise in the kiln 100 is set to k _{Lifting of wine} The speed of uniform temperature reduction in the curing kiln 100 is k _{Lower the main body} ；

k _{Lifting of wine} The value range of the (A) is between 8 ℃/h and 10 ℃/h;

|k _descend The absolute value of the numerical range of |, is also between 8 ℃/h and 10 ℃/h.

Preferably, k is _{Lifting of wine} And | k _Descend The value range of |, is between 8 ℃/h and 10 ℃/h, the maximum value of temperature which rises at a constant speed or falls at a constant speed is set, and the control module 200 adjusts the temperature in the curing kiln 100 according to the temperature of the beam body and the outdoor environment temperature, so that the quality problem of the precast beam caused by too fast temperature rise is avoided.

In one embodiment, in step S3, during the curing process in the curing kiln 100, the actual temperature and humidity data in the curing kiln 100 are collected and monitored in real time, and the actual temperature and humidity are compared with the preset temperature and humidity values in the same time.

In the same time, comparing the actual temperature in the curing kiln 100 with the preset temperature,

let the actual temperature be T _{Fruit of Chinese wolfberry} With a predetermined temperature T _Preparing ，

When T is _{Fruit of Chinese wolfberry} ＞T _{Preparation of} Timely and controlled health preserving kiln100, or stopping heating within a short time;

when T is _{Fruit of Chinese wolfberry} ＜T _{Preparation of} In the meantime, the temperature in the curing kiln 100 is controlled to rise to reach T _{Fruit of Chinese wolfberry} ＝T _Preparing 。

The temperature in the curing kiln 100 in the curing process is guaranteed to always accord with the preset value, and the quality of curing in the curing kiln 100 is guaranteed.

Referring to fig. 3, an embodiment of the present invention further provides a curing kiln 100 sensor information collecting system 500, which is used for executing the curing kiln 100 sensor information collecting method according to any one of the above embodiments, and the method includes:

the control module 200 is used for regulating and controlling the temperature and the humidity in the curing kiln 100 according to the actual temperature and humidity;

the information acquisition module 300 is used for acquiring and monitoring temperature and humidity data in the health preserving kiln 100 in real time.

In this embodiment, the temperature inside and outside the curing kiln 100 is monitored in real time through the temperature and humidity sensor 310 and the thermometer 320, collected temperature data are transmitted to the control module 200, the control module 200 compares the collected actual temperature and humidity data with a preset value to control the start and stop of the spray nozzles 101, the control module 200 starts or closes the spray nozzles 101 in time through the temperature and humidity data collected by the temperature and humidity sensor 310 and the thermometer 320, the control of the temperature and humidity inside the curing kiln 100 is enhanced, and the quality of the precast beams is guaranteed.

Referring to fig. 3-4, in one embodiment,

be equipped with a plurality of shower nozzle 101 in the health preserving kiln 100 for receive the outside hot water of carrying, spray in the health preserving kiln 100, thereby change the temperature in the health preserving kiln 100.

In this embodiment, the nozzle 101 is connected with an external hot water tank, and the hot water tank mixes the water in the hot water tank through adding hot water and cold water to the temperature of water in the hot water tank is regulated and controlled through the control module 200, and the preset value is guaranteed to accord with all the time in the health preserving kiln 100.

Referring to fig. 5, in one embodiment, the control module 200 includes:

the controller 220, the controller 220 is used for receiving humiture and precast beam surface temperature in the health preserving kiln 100 that information acquisition module 300 gathered to opening of shower nozzle 101 is controlled according to actual humiture, the controller 220 regulates and control through the hot water temperature to outside transport, and sprays to in the health preserving kiln 100 through shower nozzle 101.

Preferably, the controller 220 may include a PLC, DCS, FCS, or other embedded system.

In this embodiment, the controller 220C carries out data calculation through the humiture data of gathering, issues the instruction of spraying automatically, can realize fast the control to solenoid valve and steam pump to reach the control purpose of the intelligent health preserving of constant temperature and humidity, reinforcing control module 200's subjective controllability.

In one embodiment, the control module 200 may also include:

the touch screen 210, the touch screen 210 is connected with the controller 220.

In this embodiment, the controller 220 is connected with the touch screen 210 through RS-232 signals, so that the controller 220 can not only automatically issue a spraying instruction according to the temperature in the curing kiln 100, but also issue a spraying instruction through manual control of the touch screen 210, and the subjective controllability of the control module 200 is enhanced through automatic and manual switching modes.

Referring to fig. 3, in one embodiment, the information collecting module 300 includes:

the temperature and humidity sensor 310 is used for monitoring the temperature and humidity in the curing kiln 100 and transmitting detected temperature and humidity data to the controller 220;

a thermometer 320 for monitoring the ambient temperature and transmitting the detected ambient temperature data to the controller 220;

and a temperature sensor 330 for monitoring the surface temperature of the precast beam and transmitting the detected temperature data to the controller 220.

In this embodiment, the temperature and humidity sensor 310 is installed inside the curing kiln 100 and is used for monitoring the temperature and humidity inside the curing kiln 100 in real time and feeding back temperature and humidity data to the controller 220, and the temperature sensor 330 is used for monitoring the temperature of the surface of the precast beam in real time and feeding back data to the controller 220, so that the temperature and humidity inside the curing kiln 100 can be conveniently and timely controlled by the control module 200, and the controllability in the curing process of the precast beam can be enhanced.

Referring to fig. 6, a computer-readable storage medium 400 is provided according to still another embodiment of the present invention, the computer-readable storage medium 400 stores a computer program 410, and the computer program 410 when executed by a processor 420 implements the steps of the sensor information collecting method according to any one of the above embodiments.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all equivalent structural changes made by using the contents of the present specification and the drawings, or any other related technical fields, which are directly or indirectly applied to the present invention, are included in the scope of the present invention.

Claims (13)

1. The health preserving kiln sensor information acquisition method is characterized by comprising the following steps:

step S1: acquiring initial temperature and humidity data inside and outside the curing kiln;

step S2: setting a preset value of required temperature and humidity in the precast beam curing process;

and step S3: after the precast beam is placed into a curing kiln, collecting the temperature and humidity in the curing kiln in the changing process to obtain the actual temperature and humidity, and comparing the actual temperature and humidity with a preset value in real time;

and S4, when the actual temperature and humidity are different from the preset temperature and humidity value, regulating and controlling the temperature change rate in the health-preserving kiln, and ensuring that the actual temperature and humidity reach the preset temperature and humidity value.

2. The curing kiln sensor information collection method as recited in claim 1,

in step S4, the preset values of temperature and humidity in the precast beam curing process include the following stages:

in a constant-speed heating state, on the basis of the initial temperature, the temperature in the curing kiln rises at a constant speed, and the temperature stops rising after reaching a preset temperature value;

the temperature preset value in the curing kiln in the constant temperature state is a fixed temperature value, and the temperature and the humidity in the curing kiln are ensured to be in the fixed temperature value;

and in the uniform temperature reduction state, on the basis of the fixed temperature value, the temperature in the curing kiln is reduced at a uniform speed, and the temperature is stopped to be reduced when the temperature reaches a second fixed temperature value.

3. The curing kiln sensor information collection method as recited in claim 2, wherein the second fixed temperature value can take a value within a range of ± 5 ℃ from the outdoor temperature.

4. The curing kiln sensor information collection method as recited in claim 2,

in step S4, the speed of uniform temperature rise in the kiln is set to k _{Lifting of water} The speed of uniform temperature reduction in the curing kiln is k _{Lower the main body} ；

k _{Lifting of wine} The value range of the (A) is between 8 ℃/h and 10 ℃/h;

|k _{lower the main body} The absolute value of the value range of |, is also between 8 ℃/h and 10 ℃/h.

5. The curing kiln sensor information collection method as recited in claim 2,

in the step S3, in the process of curing in the curing kiln, real-time collection and monitoring are carried out on actual temperature and humidity data in the curing kiln, and the actual temperature and humidity are compared with a temperature and humidity preset value in the same time.

6. The curing kiln sensor information acquisition method as recited in claim 1,

in step S4, let the actual temperature be T _{Fruit of Chinese wolfberry} With a predetermined temperature T _Preparing ，

When T is _{Fruit of Chinese wolfberry} ＞T _Preparing When the temperature in the curing kiln is controlled to drop or stop in a short timeHeating;

when T is _{Fruit of Chinese wolfberry} ＜T _{Preparation of} In time, the temperature in the curing kiln is controlled to rise so as to reach T _{Fruit of Chinese wolfberry} ＝T _{Preparation of} 。

7. The curing kiln sensor information acquisition system for executing the curing kiln sensor information acquisition method according to any one of claims 1 to 6, characterized by comprising:

the control module is used for regulating and controlling the temperature and the humidity in the curing kiln according to the actual temperature and humidity;

and the information acquisition module is used for acquiring and monitoring temperature and humidity data in the health preserving kiln in real time.

8. The curing kiln sensor information acquisition system as set forth in claim 7,

be equipped with a plurality of shower nozzle in the health preserving kiln for receive the outside hot water of carrying, spray in the health preserving kiln, thereby change the temperature in the health preserving kiln.

9. The curing kiln sensor information acquisition system as set forth in claim 7,

the control module includes:

the controller, the controller is used for receiving humiture and precast beam surface temperature in the health preserving kiln that the information acquisition module gathered to opening of shower nozzle is controlled according to actual humiture, the controller regulates and control through the hot water temperature to outside transport, and sprays to the health preserving kiln in through the shower nozzle.

10. The curing kiln sensor information acquisition system as recited in claim 9,

the controller may include a PLC, DCS, FCS, or other embedded system.

11. The curing kiln sensor information acquisition system as set forth in claim 9,

the control module may also include:

the touch screen is connected with the controller.

12. The curing kiln sensor information acquisition system as recited in claim 6,

the information acquisition module comprises:

the temperature and humidity sensor is used for monitoring the temperature and humidity in the health-preserving kiln and transmitting detected temperature and humidity data to the controller;

the thermometer is used for monitoring the ambient temperature and transmitting the detected ambient temperature data to the controller;

and the temperature sensor is used for monitoring the surface temperature of the precast beam and transmitting the detected temperature data to the controller.

13. A computer-readable storage medium, characterized in that a computer program is stored on the computer-readable storage medium, which computer program, when being executed by a processor, carries out the steps of the sensor information acquisition method according to any one of claims 1 to 6.

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