CN114964369A - Clean operating room data acquisition device and acquisition method thereof - Google Patents

Abstract

The invention provides a clean operating room data acquisition device and an acquisition method thereof, which relate to the technical field of data acquisition and comprise a human-computer interaction device, a processing host and a multilayer acquisition assembly, wherein the multilayer acquisition assembly comprises an air outlet layer acquisition part, an operating layer acquisition part and a bottom layer acquisition part, the air outlet layer acquisition part, the operating layer acquisition part and the bottom layer acquisition part are respectively positioned at an air outlet position, an operating position and the bottom in an operating room, a thermal infrared identification probe is arranged at an inlet of the operating room, and a temperature sensing acquisition probe is arranged at the operating position of the operating room; the invention collects the environmental data in the operating room through the multilayer collection assembly, senses whether people enter the operating room and the number of people entering the operating room through the thermal infrared recognition probe and the temperature sensing collection probe, switches the unmanned threshold value packet or the manned threshold value packet for comparing the collected data and the standard environmental parameters adaptively adjusted according to the number of people, and adopts different comparison standards under different modes to reduce the workload of the environmental unit.

Description

Clean operating room data acquisition device and acquisition method thereof

Technical Field

The invention relates to the technical field of data acquisition, in particular to a clean operating room data acquisition device and an acquisition method thereof.

Background

The operating room is a place for providing operations and rescue for patients and is an important component of hospitals. In order to ensure cleanness and sanitation, the internal environment of an operating room is generally purified by a purifying device such as an environmental unit, the environmental quality in the operating room is a main mark of the operating environment, and the operating room not only relates to the infection of an operating part of a patient, but also relates to the health of medical care personnel performing the operation;

in order to judge the clean standard in the operating room, parameters such as air in the operating room and the like are generally required to be collected, and whether the internal environment needs to be adjusted or not is judged according to the parameters.

Disclosure of Invention

In order to solve the problems, the invention provides a clean operating room data acquisition device and an acquisition method thereof.

In order to realize the purpose of the invention, the invention is realized by the following technical scheme: a clean operating room data acquisition device comprises a human-computer interaction device, a processing host and a multilayer acquisition assembly, wherein the multilayer acquisition assembly comprises an air outlet layer acquisition part, an operating layer acquisition part and a bottom layer acquisition part, the air outlet layer acquisition part, the operating layer acquisition part and the bottom layer acquisition part are respectively positioned at an air outlet position, an operating position and a bottom part in an operating room, a thermal infrared identification probe is arranged at an inlet door of the operating room, a temperature sensing acquisition probe is arranged at the operating position of the operating room, and signal output ends of the thermal infrared identification probe and the temperature sensing acquisition probe are connected with the human-computer interaction device;

the inside of handling the host computer is equipped with data processor and threshold value contrast controller, the data processor is connected to the collection data output end of multilayer collection subassembly, be equipped with unmanned threshold value package (11), someone threshold value package in the threshold value contrast controller and be used for comparing the data collection, unmanned threshold value package, the switching of someone threshold value package are connected to the control end of human-computer interaction ware control, the data output end of handling the host computer is connected with the display computer.

The further improvement lies in that: be equipped with the environment unit on the operating room, the inside top of operating room is equipped with the circulation ceiling that communicates with the environment unit, the environment unit is used for adjusting the inside environmental parameter of operating room, circulation ceiling below position department the inside operating table that is equipped with of operating room.

The further improvement lies in that: go out wind layer collection portion, operation layer collection portion, bottom collection portion and all include environmental sensor, drop positioning sensor and camera, environmental sensor is used for detecting the environmental parameter on place layer, drop positioning sensor is used for detecting the high position of place layer in the operating room inside, the camera is used for shooing the place layer.

The further improvement lies in that: the utility model discloses a set up the unmanned threshold value package and the data processor, including unmanned threshold value package, the unmanned threshold value package has each layer standard environmental parameter under unmanned mode in the operating room, the manned threshold value package has each layer standard environmental parameter under manned mode and the adaptability standard environmental parameter that specifically changes according to people's quantity in the operating room, the signal output part of multilayer collection subassembly, and data processor compares unmanned threshold value package or the manned threshold value package of current switching in with the threshold value contrast controller with signal data, judges the acquisition result to transmit and show the computer.

The further improvement is that: the human-computer interaction device is characterized in that a mode conversion controller and a control panel are arranged on the human-computer interaction device, the control panel is used for starting the whole device, the thermal infrared identification probe senses whether people enter the operating room or not by utilizing infrared thermal imaging, the signal output end of the thermal infrared identification probe is connected with the mode conversion controller, the mode conversion controller controls a threshold value comparison controller to switch an unmanned threshold value packet or a manned threshold value packet according to the detection result of the thermal infrared identification probe, the temperature sensing acquisition probe is used for acquiring the temperature change inside the operating room to judge the number of the people entering the operating room, the signal output end of the temperature sensing acquisition probe is connected with the mode conversion controller, and the mode conversion controller controls the manned threshold value packet to adaptively adjust standard environment parameters according to the number of the people according to the detection result of the temperature sensing acquisition probe.

The further improvement lies in that: the control panel is internally provided with a timing module, the signal output ends of the thermal infrared identification probe and the temperature sensing acquisition probe are connected with the timing module, when the thermal infrared identification probe and the temperature sensing acquisition probe cannot synchronously sense someone in the operating room, and the whole device is closed through the timing module after the set time is delayed.

The further improvement lies in that: the inside alarm that is equipped with of demonstration computer, and the alarm sends out the police dispatch newspaper sound when the gathering result is unusual, show computer and show each layer real-time image in the operating room according to the camera, and show and be equipped with AR display chip in the computer, and AR display chip shows the gathering result AR respectively in each layer real-time image, show the inside singlechip that is equipped with of computer, and the control end of singlechip connects the environment unit, the singlechip adjusts the environment in the operating room according to gathering result control environment unit.

A clean operating room data acquisition method comprises the following steps:

s1: starting an operating room from a control panel, sensing that no person exists in the operating room by using infrared thermal imaging at an entrance of the operating room through a thermal infrared recognition probe, and switching an unmanned threshold packet by using a mode switching controller to control a threshold comparison controller;

s2: the air outlet layer acquisition part, the operation layer acquisition part and the bottom layer acquisition part detect environmental parameters of each layer in the operating room and height positions of detection points and acquire images;

s3: the multilayer acquisition component sends acquired data to the data processor, the data processor compares the data with the unmanned threshold value packet after processing, an acquisition result is judged and transmitted to the display computer;

s4: the display computer displays images and acquisition results of all layers in the current operation, and when the results are abnormal, the single chip microcomputer controls the environment unit to adjust the internal environment of the operation room;

s5: when the environmental parameters in the operating room reach the standard in the unmanned mode, medical staff enter the operating room, the thermal infrared identification probe senses that people exist in the operating room, the temperature sensing acquisition probe acquires temperature change, and the number of the people entering the operating room is judged;

s6: the mode switching controller controls the threshold comparison controller to switch to a manned threshold packet, and the manned threshold packet adaptively adjusts standard environmental parameters according to the number of people;

s7: the multilayer acquisition assembly acquires environmental parameters of each layer in the operating room, compares the environmental parameters with adaptive standard environmental parameters of the manned threshold bag, judges an acquisition result, and adjusts the internal environment of the operating room when abnormal until the operation is finished.

The further improvement lies in that: in S4 and S7, after the acquisition result is judged, under the condition that the result is abnormal, the alarm gives out alarm sound synchronously, and when the single chip microcomputer controls the automatic adjustment of the environmental unit, the manual assistance of an operator is reminded.

The further improvement lies in that: in S7, after the operation is finished, medical staff leave the operating room, the thermal infrared recognition probe and the temperature sensing acquisition probe synchronously sense no person in the operating room, and the whole device is closed through the timing module after the set time is delayed.

The invention has the beneficial effects that:

1. the system acquires environmental data in the operating room through the multilayer acquisition assembly, senses whether people enter the operating room and the number of the people entering the operating room through the thermal infrared recognition probe and the temperature sensing acquisition probe, switches standard environmental parameters for comparing an unmanned threshold value packet or an occupied threshold value packet for acquiring the data and adaptively adjusting according to the number of the people, and adopts different comparison standards and adaptive adjustment under different modes to reduce the workload of an environmental unit.

2. The air outlet layer acquisition part, the operation layer acquisition part and the bottom layer acquisition part are adopted to respectively acquire environmental parameters of an air outlet position, an operation position and the bottom in an operating room, and the height position and the image of a detection point, and the parameters are acquired in multiple layers and are more representative.

3. According to the invention, the real-time images of all layers in the operating room are displayed through the display computer, and the acquired results are respectively displayed in the real-time images of all layers through the AR display chip, so that an operator can know the environmental problem that the operating room is accurate to all layers more intuitively and accurately, and the subsequent adjustment is convenient.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic diagram of the components of the multi-layer acquisition assembly of the present invention;

FIG. 3 is a schematic diagram of the inside of a display computer according to the present invention.

Wherein: 1. a human-computer interaction device; 2. processing the host; 3. an air outlet layer collecting part; 4. an operation layer acquisition part; 5. a bottom layer collecting part; 6. an operating room; 7. a thermal infrared identification probe; 8. a temperature sensing acquisition probe; 9. a data processor; 10. a threshold comparison controller; 11. an unmanned threshold package; 12. a someone threshold package; 13. a display computer; 14. an environmental unit; 15. a flow-through ceiling; 16. an operating table; 17. an environmental sensor; 18. a fall positioning sensor; 19. a camera; 20. a mode switching controller; 21. a control panel; 22. an alarm; 23. an AR display chip; 24. and a single chip microcomputer.

Detailed Description

In order to further understand the present invention, the following detailed description will be made with reference to the following examples, which are only used for explaining the present invention and are not to be construed as limiting the scope of the present invention.

Example one

According to the drawings of fig. 1, 2 and 3, the embodiment provides a clean operating room data acquisition device, which comprises a human-computer interaction device 1, a processing host 2 and a multilayer acquisition assembly, wherein the multilayer acquisition assembly comprises an air-out layer acquisition part 3, an operating layer acquisition part 4 and a bottom layer acquisition part 5, the air-out layer acquisition part 3, the operating layer acquisition part 4 and the bottom layer acquisition part 5 are respectively positioned at an air-out position, an operating position and a bottom part inside an operating room 6, a thermal infrared identification probe 7 is arranged at an entrance of the operating room 6, a temperature sensing acquisition probe 8 is arranged at the operating position of the operating room 6, and signal output ends of the thermal infrared identification probe 7 and the temperature sensing acquisition probe 8 are connected with the human-computer interaction device 1;

the inside of handling host computer 2 is equipped with data processor 9 and threshold value contrast controller 10, the data processor 9 is connected to the collection data output end of multilayer collection subassembly, be equipped with unmanned threshold value package 11, someone threshold value package 12 in the threshold value contrast controller 10 and be used for comparing the data collection, unmanned threshold value package 11, someone threshold value package 12 switch are connected to the control end of human-computer interaction ware 1, the data output end of handling host computer 2 is connected with display computer 13. When the device is used, whether people enter the operating room 6 or not is sensed through the thermal infrared identification probe 7, the threshold comparison controller 10 is controlled to switch the unmanned threshold bag 11 or the manned threshold bag 12 through the mode switching controller 20 according to the detection result of the thermal infrared identification probe 7, under the unmanned condition, data acquired by the multilayer acquisition assembly is compared with the unmanned threshold bag 11, the acquisition result is judged, the environmental machine set is controlled to adjust the environmental parameters inside the operating room 6, the medical care personnel can conveniently enter the operating room subsequently, after the medical care personnel enter the operating room, the thermal infrared identification probe 7 senses that people exist in the operating room 6, the temperature sensing acquisition probe 8 acquires temperature change, judges the number of the entering people and switches the temperature change to the manned threshold bag 12, the standard environmental parameters are adaptively adjusted according to the number of the people, the environmental parameters acquired by the multilayer acquisition assembly are compared with the adaptive standard environmental parameters of the manned threshold bag 12, and judging the acquisition result so as to conveniently adjust the environment of the operating room 6.

Be equipped with environment unit 14 on operating room 6, the inside top of operating room 6 is equipped with the circulation ceiling 15 with environment unit 14 intercommunication, environment unit 14 is used for adjusting the inside environmental parameter of operating room 6, circulation ceiling 15 below position department the inside operating table 16 that is equipped with of operating room 6. During use, the acquired data output end of the multilayer acquisition assembly is connected with the data processor 9, the processed data is compared with the unmanned threshold value packet 11 or the manned threshold value packet 12 in the threshold value comparison controller 10, and the environment unit 14 is controlled to adjust the internal environment of the operating room 6 according to the comparison result.

Go out tuber layer collection portion 3, operation layer collection portion 4, bottom collection portion 5 and all include environmental sensor 17, fall positioning sensor 18 and camera 19, environmental sensor 17 is used for detecting the environmental parameter on place layer, fall positioning sensor 18 is used for detecting the high position on place layer in operating room 6 inside, camera 19 is used for shooing the place layer. The air outlet layer acquisition part 3, the operation layer acquisition part 4 and the bottom layer acquisition part 5 are adopted to respectively acquire environmental parameters of an air outlet position, an operation position and the bottom in an operating room 6, the height positions of detection points and images, and the parameters are acquired in multiple layers and are more representative. The environmental sensor 17 includes, but is not limited to, parameters for detecting dust concentration, bacteria concentration, TVOC, CO2, air temperature and humidity, etc. in the air in the operating room 6.

Unmanned threshold value package 11 embeds has the standard environmental parameter of each layer under unmanned mode in the operating room 6, the built-in standard environmental parameter of each layer under unmanned mode and the specific adaptability standard environmental parameter that changes according to people's quantity in the operating room 6 of someone threshold value package 12, the signal output part of multilayer collection subassembly connects data processor 9, and data processor 9 compares unmanned threshold value package 11 or someone threshold value package 12 of current switching in with signal data and the threshold value contrast controller 10, judges the collection result to transmit and show computer 13.

The man-machine interaction device 1 is provided with a mode conversion controller 20 and a control panel 21, the control panel 21 is used for starting the whole device, the thermal infrared recognition probe 7 senses whether a person enters the operating room 6 by using infrared thermal imaging, and the signal output end of the thermal infrared identification probe 7 is connected with a mode switching controller 20, the mode switching controller 20 controls the threshold comparison controller 10 to switch the unmanned threshold packet 11 or the manned threshold packet 12 according to the detection result of the thermal infrared identification probe 7, the temperature sensing acquisition probe 8 is used for acquiring temperature change in the operating room 6 to judge the number of people entering the operating room, and the signal output end of the temperature sensing acquisition probe 8 is connected with a mode switching controller 20, and the mode switching controller 20 controls the manned threshold bag 12 to adaptively adjust standard environmental parameters according to the number of people according to the detection result of the temperature sensing acquisition probe 8. The invention senses whether people enter the operating room 6 or not through the thermal infrared recognition probe 7, controls the threshold comparison controller 10 to switch the unmanned threshold package 11 or the manned threshold package 12 according to the detection result of the thermal infrared recognition probe 7 through the mode switching controller 20, compares the data collected by the multilayer collection assembly with the unmanned threshold package 11 under the unmanned condition, judges the collection result, controls the environment machine set to adjust the environment parameters in the operating room 6, facilitates the subsequent entry of medical personnel, senses that people exist in the operating room 6 through the thermal infrared recognition probe 7 after the medical personnel enter, the temperature change is collected by the temperature sensing collection probe 8, judges the number of the entering people, switches to the manned threshold package 12, adaptively adjusts the standard environment parameters according to the number of the people, compares the environment parameters collected by the multilayer collection assembly with the adaptive standard environment parameters of the manned threshold package 12, the collection result is judged to be convenient for carry out adaptability to the 6 environment of operating room and adjust, to sum up, be convenient for switch to have people and unmanned mode, adopt different contrast standard under the different modes, adaptability adjusts to reduce the work load of environment unit.

The control panel 21 is internally provided with a timing module, the signal output ends of the thermal infrared identification probe 7 and the temperature sensing acquisition probe 8 are connected with the timing module, when the thermal infrared identification probe 7 and the temperature sensing acquisition probe 8 cannot synchronously sense people in the operating room 6, and the whole device is closed through the timing module after the set time is delayed. After the operation, medical personnel leave operating room 6, and heat infrared identification probe 7, temperature sensing collection probe 8 synchronous induction can not be in operating room 6 someone to delay behind the settlement time, through the whole closing device of timing module.

Show that computer 13 is inside to be equipped with alarm 22, and alarm 22 sends out the police dispatch newspaper sound when the gathering result is unusual, show that computer 13 shows each layer real-time image in operating room 6 according to camera 19, and show that be equipped with AR display chip 23 in the computer 13, and AR display chip 23 shows the result of gathering AR respectively in each layer real-time image, show that computer 13 is inside to be equipped with singlechip 24, and singlechip 24's control end connects environment unit 14, singlechip 24 adjusts operating room 6 internal environment according to gathering result control environment unit 14. During the use, show each layer real-time image in the operating room 6 through showing computer 13, show chip 23 through AR and show the collection result AR respectively in each layer real-time image for operating personnel can be more directly perceived and accurate know the operating room 6 and accurate to the environmental problem of each layer, the follow-up adjustment of being convenient for, it is more reliable.

Example two

The embodiment provides a clean operating room data acquisition method, which comprises the following steps:

s1: starting the operating room 6 from the control panel 21, sensing that no person is in the operating room 6 by the thermal infrared recognition probe 7 at the entrance of the operating room 6 through infrared thermal imaging, and controlling the threshold comparison controller 10 to switch the unmanned threshold packet 11 by the mode switching controller 20;

s2: the air outlet layer acquisition part 3, the operation layer acquisition part 4 and the bottom layer acquisition part 5 detect the environmental parameters of each layer in the operating room and the height position of a detection point and acquire images;

s3: the multilayer acquisition component sends acquired data to the data processor 9, the data processor 9 compares the data with the unmanned threshold value packet 11 after processing, an acquisition result is judged and transmitted to the display computer 13;

s4: the display computer 13 displays images and acquisition results of all layers in the current operation, when the results are abnormal, the single chip microcomputer 24 controls the environment unit 14 to adjust the internal environment of the operating room 6, and under the condition of abnormal results, the alarm 22 synchronously gives out alarm sound, and when the single chip microcomputer 24 controls the environment unit 14 to automatically adjust, an operator is reminded of manual assistance; if not, adjusting is not carried out;

s5: when the internal environment parameters of the operating room 6 reach the standard in the unmanned mode, medical staff enter the operating room, the thermal infrared identification probe 7 senses that people exist in the operating room 6, the temperature sensing acquisition probe 8 acquires temperature change, and the number of the people entering the operating room is judged;

s6: the mode switching controller 20 controls the threshold comparison controller 10 to switch to the manned threshold package 12, and the manned threshold package 12 adaptively adjusts the standard environmental parameters according to the number of people;

s7: each layer environmental parameter in the operating room 6 is gathered to the subassembly is gathered to the multilayer, compare with the adaptability standard environmental parameter of someone threshold value package 12, judge the collection result, adjust operating room 6 internal environment when unusual, under the unusual condition of result, alarm 22 sends alarm sound in step, in singlechip 24 control environment unit 14 automatically regulated, remind the manual assistance of operating personnel, do not adjust unusually, end until the operation, after the operation, medical personnel leave operating room 6, hot infrared identification probe 7, someone in the operating room 6 of the synchronous response of temperature sensing acquisition probe 8, and after delaying the settlement time, it is whole to close the device through timing module.

The invention senses whether people enter the operating room 6 or not through the thermal infrared recognition probe 7, controls the threshold comparison controller 10 to switch the unmanned threshold package 11 or the manned threshold package 12 according to the detection result of the thermal infrared recognition probe 7 through the mode switching controller 20, compares the data collected by the multilayer collection assembly with the unmanned threshold package 11 under the unmanned condition, judges the collection result, controls the environment machine set to adjust the environment parameters in the operating room 6, facilitates the subsequent entry of medical personnel, senses that people exist in the operating room 6 through the thermal infrared recognition probe 7 after the medical personnel enter, the temperature change is collected by the temperature sensing collection probe 8, judges the number of the entering people, switches to the manned threshold package 12, adaptively adjusts the standard environment parameters according to the number of the people, compares the environment parameters collected by the multilayer collection assembly with the adaptive standard environment parameters of the manned threshold package 12, the collection result is judged to be convenient for carry out adaptability to the 6 environment of operating room and adjust, to sum up, be convenient for switch to have people and unmanned mode, adopt different contrast standard under the different modes, adaptability adjusts to reduce the work load of environment unit. Meanwhile, the air outlet layer acquisition part 3, the operation layer acquisition part 4 and the bottom layer acquisition part 5 are adopted to respectively acquire the environmental parameters of the air outlet position, the operation position and the bottom part in the operation room 6, the height positions and the images of the detection points, the parameters are acquired in multiple layers, the real-time images of all layers in the operation room 6 are displayed through the display computer 13, and the acquired results are respectively displayed in the real-time images of all layers through the AR display chip 23, so that an operator can know the environmental problem that the operation room 6 is accurate to all layers more intuitively and accurately, the follow-up adjustment is convenient, and the operation is more reliable.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a clean operating room data acquisition device, includes man-machine interaction ware (1), handles host computer (2) and multilayer collection subassembly, its characterized in that: the multilayer collecting assembly comprises an air outlet layer collecting part (3), an operation layer collecting part (4) and a bottom layer collecting part (5), the air outlet layer collecting part (3), the operation layer collecting part (4) and the bottom layer collecting part (5) are respectively positioned at an air outlet position, an operation position and the bottom of an operation room (6), a hot infrared recognition probe (7) is arranged at an entrance of the operation room (6), a temperature sensing collecting probe (8) is arranged at the operation position of the operation room (6), and signal output ends of the hot infrared recognition probe (7) and the temperature sensing collecting probe (8) are connected with the human-computer interaction device (1);

the inside of handling host computer (2) is equipped with data processor (9) and threshold value contrast controller (10), data processor (9) are connected to the collection data output end of multilayer collection subassembly, be equipped with unmanned threshold value package (11), someone threshold value package (12) in threshold value contrast controller (10) and be used for comparing the data collection, unmanned threshold value package (11), someone threshold value package (12) switch are connected to the control end of human-computer interaction ware (1) threshold value contrast controller (10) control, the data output end of handling host computer (2) is connected with and shows computer (13).

2. The clean room data collection device of claim 1, wherein: be equipped with environment unit (14) on operating room (6), the inside top of operating room (6) is equipped with circulation ceiling (15) with environment unit (14) intercommunication, environment unit (14) are used for adjusting the inside environmental parameter of operating room (6), circulation ceiling (15) below position department inside operating room (6) is equipped with operating table (16).

3. The clean room data collection device according to claim 2, wherein: go out tuber layer collection portion (3), operation layer collection portion (4), bottom collection portion (5) and all include environmental sensor (17), drop positioning sensor (18) and camera (19), environmental sensor (17) are used for detecting the environmental parameter on place layer, drop positioning sensor (18) are used for detecting the high position of place layer inside operating room (6), camera (19) are used for shooing the place layer.

4. The clean room data collection device according to claim 3, wherein: unmanned threshold value package (11) embeds the standard environmental parameter of each layer under unmanned mode in operating room (6), the adaptability standard environmental parameter that each layer under manned mode and specifically according to people's quantity changed in manned threshold value package (12) embeds has operating room (6), data processor (9) are connected to the signal output part of subassembly is gathered to multilayer, and data processor (9) compare unmanned threshold value package (11) or manned threshold value package (12) that signal data and threshold value contrast controller (10) are interior to switch at present, judge the collection result to transmit and show computer (13).

5. The clean room data collection device according to claim 4, wherein: the human-computer interaction device comprises a human-computer interaction device (1), a mode conversion controller (20) and a control panel (21) are arranged on the human-computer interaction device, the control panel (21) is used for starting the whole device, whether a person enters an operating room (6) or not is sensed by the thermal infrared recognition probe (7) through infrared thermal imaging, a signal output end of the thermal infrared recognition probe (7) is connected with the mode conversion controller (20), the mode conversion controller (20) controls a threshold comparison controller (10) to switch an unmanned threshold bag (11) or a manned threshold bag (12) according to a detection result of the thermal infrared recognition probe (7), the temperature sensing acquisition probe (8) is used for acquiring temperature change inside the operating room (6) to judge the number of the entered person, a signal output end of the temperature sensing acquisition probe (8) is connected with the mode conversion controller (20), and the mode conversion controller (20) controls the manned threshold bag (12) according to the number of the person according to the detection result of the temperature sensing acquisition probe (8) And adjusting standard environmental parameters in a quantity adaptive mode.

6. The clean room data collection device according to claim 5, wherein: be equipped with the timing module in control panel (21), the signal output part of heat infrared identification probe (7), temperature sensing acquisition probe (8) connects the timing module, and someone in operating room (6) can not be answered in heat infrared identification probe (7), the synchronous response of temperature sensing acquisition probe (8) to after the delay settlement time, through the timing module closing device wholly.

7. The clean room data collection device according to claim 5, wherein: show that computer (13) is inside to be equipped with alarm (22), and alarm (22) send out the police dispatch newspaper sound when the acquisition result is unusual, show that computer (13) shows each layer real-time image in operating room (6) according to camera (19), and show and be equipped with AR display chip (23) in computer (13), and AR display chip (23) will gather the result AR respectively and show in each layer real-time image, show that computer (13) is inside to be equipped with singlechip (24), and the control end of singlechip (24) connects environment unit (14), singlechip (24) are adjusted operating room (6) internal environment according to acquisition result control environment unit (14).

8. A clean operating room data acquisition method is characterized by comprising the following steps:

s1: starting an operating room (6) from a control panel (21), sensing that no person exists in the operating room (6) by a thermal infrared recognition probe (7) at the door entering position of the operating room (6) through infrared thermal imaging, and switching an unmanned threshold packet (11) by a mode switching controller (20) according to a control threshold comparison controller (10);

s2: an air outlet layer acquisition part (3), an operation layer acquisition part (4) and a bottom layer acquisition part (5) detect environmental parameters of each layer in the operating room and the height position of a detection point and acquire images;

s3: the multilayer acquisition assembly sends acquired data to the data processor (9), the data processor (9) compares the data with the unmanned threshold value packet (11) after processing, judges an acquisition result and transmits the acquisition result to the display computer (13);

s4: the display computer (13) displays images and acquisition results of all layers in the current operation, and when the results are abnormal, the single chip microcomputer (24) controls the environment unit (14) to adjust the internal environment of the operating room (6);

s5: when the internal environment parameters of the operating room (6) reach the standard in the unmanned mode, medical staff enter the operating room, the thermal infrared identification probe (7) senses that people exist in the operating room (6), the temperature sensing acquisition probe (8) acquires temperature change, and the number of the people entering the operating room is judged;

s6: the mode switching controller (20) controls the threshold comparison controller (10) to switch to the manned threshold package (12), and the manned threshold package (12) adaptively adjusts the standard environmental parameters according to the number of people;

s7: the multilayer acquisition assembly acquires environmental parameters of each layer in the operating room (6), compares the environmental parameters with adaptive standard environmental parameters of the manned threshold bag (12), judges an acquisition result, and adjusts the internal environment of the operating room (6) when abnormal until the operation is finished.

9. The clean room operating room data collecting method of claim 8, wherein: in the S4 and S7, after the acquisition result is judged, under the condition that the result is abnormal, the alarm (22) synchronously gives out alarm sound, and the single chip microcomputer (24) controls the environmental unit (14) to automatically adjust and simultaneously reminds an operator to perform manual assistance.

10. The clean room operating room data collecting method of claim 9, wherein: in S7, after the operation is finished, medical staff leave the operating room (6), the thermal infrared recognition probe (7) and the temperature sensing acquisition probe (8) synchronously sense that people cannot enter the operating room (6), and the whole device is closed through the timing module after the set time is delayed.

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