CN215006297U - Non-contact operating room intelligent central control system - Google Patents

Abstract

The utility model discloses a non-contact operating room intelligence center control system, include: the monitoring sensing unit is used for monitoring the environment of the operating room; the execution adjusting unit is used for adjusting the environmental index in the operating room; the non-contact interactive screen is used for displaying the environmental data of the operating room and inputting a control command; the central controller is respectively connected with the monitoring sensing unit, the execution adjusting unit and the non-contact interactive screen; the central controller is used for receiving monitoring data of the monitoring sensing unit and a control instruction of the non-contact interactive screen and controlling the execution adjusting unit to perform feedback adjustment. The non-contact operating room intelligent central control system has the advantages of simple use and operation, high intelligent degree, good use effect, comprehensive functions, capability of realizing integration and centralized control of various information, remote teaching and remote consultation functions and capability of performing centralized control on a plurality of medical devices in an operating room.

Description

Non-contact operating room intelligent central control system

Technical Field

The utility model relates to an operating room management technology field specifically is a non-contact operating room intelligence center control system.

Background

With the continuous improvement and improvement of the conditions, environment and medical quality of modern hospitals, various medical devices in an operating room are more and more, and the devices may need to be frequently operated and adjusted during the operation process, such as: the start-stop and temperature and humidity setting of the air conditioning system, the power switch of the shadowless lamp, the power switch of the film viewing lamp, the lighting switch, the pressure monitoring of medical gas, the fire control monitoring, the telephone calling, the power switch of waste gas emission, the state display and the like, because the arrangement positions of all the devices are different, the workers feel complicated and complicated in the use process, the working efficiency is reduced, and even misoperation occurs easily.

The current situation of the existing operating room is as follows:

1. the design of the operating room is complicated, the requirement of medical staff on convenient operation cannot be met, and the efficiency and the effect of the operation are influenced;

2. data exchange is not timely in the operation, and the operation effect is influenced;

3. full high-definition video acquisition and transmission cannot be realized.

Disclosure of Invention

The invention aims to provide a non-contact operating room intelligent central control system which is simple and convenient to use and operate, high in intelligent degree, good in using effect, comprehensive in function, capable of realizing integration and centralized control of various information, has the functions of remote teaching and remote consultation and can perform centralized control on a plurality of medical devices in an operating room.

The utility model provides a technical scheme as follows that above-mentioned technical problem took:

a non-contact operating room intelligent central control system comprises:

the monitoring sensing unit is used for monitoring the environment of the operating room;

the execution adjusting unit is used for adjusting the environmental index in the operating room;

the non-contact interactive screen is used for displaying the environmental data of the operating room and inputting a control command;

the central controller is respectively connected with the monitoring sensing unit, the execution adjusting unit and the non-contact interactive screen;

the central controller is used for receiving monitoring data of the monitoring sensing unit and a control instruction of the non-contact interactive screen and controlling the execution adjusting unit to perform feedback adjustment.

Furthermore, the non-contact interactive screen is connected with the central controller through an HDMI (high-definition multimedia interface) line.

Furthermore, the non-contact interactive screen is provided with a non-contact capacitive sensor or an infrared sensor for positioning a finger.

Further, the non-contact interaction screen is provided with a microphone and a loudspeaker for voice interaction.

Furthermore, the system also comprises a telephone dialing module connected with the central controller and used for communication among different departments.

Furthermore, the system also comprises a local area network communication module which is connected with the central controller and is used for synchronizing the real-time data of the operating room to the Internet.

Furthermore, the system also comprises a local area network router and a monitor connected with the local area network router, wherein the local area network router is connected with central controllers of different operating rooms through a local area network communication module, and the monitor is used for displaying environmental data of the different operating rooms.

Furthermore, the fire alarm system also comprises a fire alarm module which is connected with the central controller and used for monitoring fire and giving an alarm.

Further, the monitoring sensing unit includes:

the air pressure sensor is used for monitoring the air pressure in the operating room;

the particle sensor is used for monitoring the concentration of suspended particles in the operating room;

the temperature and humidity sensor is used for monitoring the temperature and humidity values in the operating room;

a carbon dioxide sensor for monitoring the concentration of carbon dioxide in the operating room;

an ozone sensor for monitoring the concentration of ozone in the operating room;

a formaldehyde sensor for monitoring formaldehyde concentration in the operating room;

and the power sensor is used for monitoring power supply fluctuation in the operating room.

Further, the execution adjustment unit includes:

the air-tight electric adjusting valve is used for controlling the air volume and the air pressure of the air conditioner and the ventilation and exhaust system;

the variable frequency fan is used for dynamically adjusting the circulating air volume and the pressure intensity in the operating room;

an air conditioner for adjusting the temperature in the operating room;

a humidifier for adjusting humidity in the operating room;

the particulate matter filtering module is used for filtering suspended particles in the operating room;

the disinfection and sterilization module is used for dynamically and circularly disinfecting the air in the operating room;

the lighting system is used for adjusting the brightness of light in the operating room and on the operating table;

and the gas supply system is used for automatically switching the standby gas source.

Use the technical scheme of the utility model, have the advantage:

1. the HDMI high-definition connection is adopted, the transmission speed is high, high-refresh-rate display is realized, and the color expressive force is improved;

2. the medical staff can conveniently obtain related data, the operation equipment can be quickly operated, and the efficiency and the safety of complex operations can be greatly improved;

3. the non-contact interactive screen effectively reduces unnecessary contact of medical personnel during operation, furthest reduces infection probability, and is safer, more sanitary and more efficient.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

The present invention will be described in detail with reference to the accompanying drawings so that the above advantages of the present invention can be more clearly understood.

FIG. 1 is a connection block diagram of a non-contact operating room intelligent central control system of the present invention;

FIG. 2 is a block diagram of a monitoring sensing unit of the non-contact operating room intelligent central control system of the present invention;

FIG. 3 is a block diagram of an execution adjustment unit of the non-contact operating room intelligent central control system of the present invention;

FIG. 4 is a network connection block diagram of the non-contact operating room intelligent central control system of the present invention;

fig. 5 is a schematic view of a panel of the non-contact operating room intelligent central control system of the present invention.

Detailed Description

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "secured" are to be construed broadly and can, for example, be connected or detachably connected or integrated; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

As shown in fig. 1-5, a non-contact operating room intelligent central control system includes:

the monitoring sensing unit is used for monitoring the environment of the operating room;

the execution adjusting unit is used for adjusting the environmental index in the operating room;

the non-contact interactive screen is used for displaying the environmental data of the operating room and inputting a control command;

the central controller is respectively connected with the monitoring sensing unit, the execution adjusting unit and the non-contact interactive screen;

the central controller is used for receiving monitoring data of the monitoring sensing unit and a control instruction of the non-contact interactive screen and controlling the execution adjusting unit to perform feedback adjustment.

Various data indexes in the operating room are monitored through the monitoring sensing unit and are integrally displayed on the non-contact interaction screen, so that medical staff can know the operating environment intuitively and comprehensively; considering that the doctor has higher sanitary requirement in the operation process, the hidden sanitary trouble caused by contact operation is avoided; the non-contact interactive screen is operated in a non-contact way, so that the sanitation of the hands of medical staff in the operation process is ensured, and the condition that blood stains are attached to the screen to influence the reading is avoided; through the data of monitoring sensing unit, the feedback control carries out the adjustment unit, realizes dynamic balance fine setting, reduces medical personnel's the operation degree of difficulty, realizes intelligent fine setting.

In this embodiment, the non-contact interactive screen is connected to the central controller via an HDMI cable. Generally, the display screen adopts an RS232 communication mode, the transmission speed is low, an HDMI high-definition communication mode is adopted, the refresh rate can be displayed, the color expression can be improved, and the use experience of medical personnel is improved.

In the implementation case, the non-contact interactive screen mainly adopts a capacitive non-contact sensor, and the finger position of a person on the screen is judged through capacitance change generated between a proximity object and the screen; or the infrared sensor for positioning the fingers is adopted, and the finger positions of medical staff on the screen are judged through horizontal and vertical rows of infrared monitoring; or an ultrasonic wave generation sensor is adopted to sense the position of the finger, and coordinates are synchronized to the screen, so that the air-separating operation is realized.

In this embodiment, the non-contact interactive screen is provided with a microphone and a speaker for voice interaction. The medical staff is high in strength and compact in rhythm when the operation is considered, the voice interaction is used as non-contact interaction, the two hands of the medical staff are greatly liberated, and the medical staff is intelligently assisted to perform the operation.

In this embodiment, the system further comprises a telephone dialing module connected with the central controller for communication among different departments. Medical personnel often need other departments to cooperate when the operation, after the unexpected condition appears, have through the phone dialing module and make things convenient for medical personnel in time to communicate with the personnel outside the operation room.

In this embodiment, the system further comprises a local area network communication module connected with the central controller and used for synchronizing real-time data of the operating room to the internet. Through the internet, remote consultation or remote monitoring can be realized, which is a necessary premise of modern digital operating rooms and assists medical staff in performing operations in an all-round way.

In this embodiment, the system further comprises a local area network router and a monitor connected with the local area network router, the local area network router is connected with central controllers of different operating rooms through a local area network communication module, and the monitor is used for displaying environmental data of the different operating rooms. Consider that medical personnel can not observe the data of display screen with one's mind at will in the actual operation process, can be through transmission data, by the supplementary control of staff outside the operating room.

In this embodiment, the fire alarm module is connected to the central controller for monitoring fire and alarming. When an accident happens, medical staff can know the situation at the first time without paying attention to the situation in the process of operation of the medical staff.

In this embodiment, the monitoring and sensing unit includes:

the air pressure sensor is used for monitoring the air pressure in the operating room;

the particle sensor is used for monitoring the concentration of suspended particles in the operating room;

the temperature and humidity sensor is used for monitoring the temperature and humidity values in the operating room;

a carbon dioxide sensor for monitoring the concentration of carbon dioxide in the operating room;

an ozone sensor for monitoring the concentration of ozone in the operating room;

a formaldehyde sensor for monitoring formaldehyde concentration in the operating room;

and the power sensor is used for monitoring power supply fluctuation in the operating room.

The change of the operation environment is monitored in all directions, real-time monitoring is realized, and medical staff can know the operation environment in all directions conveniently.

In another embodiment, the monitoring and sensing unit further includes a camera for photographing the surgical contents.

In this embodiment, the execution adjustment unit includes:

the air-tight electric adjusting valve is used for controlling the air volume and the air pressure of the air conditioner and the ventilation and exhaust system;

the variable frequency fan is used for dynamically adjusting the circulating air volume and the pressure intensity in the operating room;

an air conditioner for adjusting the temperature in the operating room;

a humidifier for adjusting humidity in the operating room;

the particulate matter filtering module is used for filtering suspended particles in the operating room;

the disinfection and sterilization module is used for dynamically and circularly disinfecting the air in the operating room;

the lighting system is used for adjusting the brightness of light in the operating room and on the operating table;

and the gas supply system is used for automatically switching the standby gas source.

The execution adjustment unit can be intelligently adjusted according to data fed back by the monitoring sensing unit, dynamic balance is achieved, adjustment can be conducted according to operation of medical staff, and all-dimensional control over the operation environment is achieved.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a non-contact operating room intelligence center control system which characterized in that includes:

the monitoring sensing unit is used for monitoring the environment of the operating room;

the execution adjusting unit is used for adjusting the environmental index in the operating room;

the non-contact interactive screen is used for displaying the environmental data of the operating room and inputting a control command;

the central controller is respectively connected with the monitoring sensing unit, the execution adjusting unit and the non-contact interactive screen;

the central controller is used for receiving monitoring data of the monitoring sensing unit and a control instruction of the non-contact interactive screen and controlling the execution adjusting unit to perform feedback adjustment.

2. The intelligent central control system for the non-contact operating room according to claim 1, wherein the non-contact interactive screen is connected with the central controller through an HDMI cable.

3. The intelligent central control system for the non-contact operating room as claimed in claim 1, wherein the non-contact interaction screen is provided with a non-contact capacitive sensor or an infrared sensor for positioning a finger.

4. The intelligent central control system for the non-contact operating room as claimed in claim 1, wherein the non-contact interaction screen is provided with a microphone and a loudspeaker for voice interaction.

5. The intelligent central control system for the non-contact operating room as claimed in claim 1, further comprising a telephone dialing module connected with the central controller for communication between different departments.

6. The intelligent central control system for the non-contact operating room as claimed in claim 1, further comprising a local area network communication module connected to the central controller for synchronizing real-time data of the operating room to the internet.

7. The non-contact operating room intelligent central control system according to claim 6, further comprising a local area network router and a monitor connected with the local area network router, wherein the local area network connector is connected with central controllers of different operating rooms through a local area network communication module, and the monitor is used for displaying environmental data of different operating rooms.

8. The intelligent central control system for the non-contact operating room as claimed in claim 1, further comprising a fire alarm module connected with the central controller for monitoring fire and alarming.

9. The intelligent central control system for the non-contact operating room as claimed in claim 1, wherein the monitoring sensing unit comprises:

the air pressure sensor is used for monitoring the air pressure in the operating room;

the particle sensor is used for monitoring the concentration of suspended particles in the operating room;

the temperature and humidity sensor is used for monitoring the temperature and humidity values in the operating room;

a carbon dioxide sensor for monitoring the concentration of carbon dioxide in the operating room;

an ozone sensor for monitoring the concentration of ozone in the operating room;

a formaldehyde sensor for monitoring formaldehyde concentration in the operating room;

and the power sensor is used for monitoring power supply fluctuation in the operating room.

10. The intelligent central control system for non-contact operating room as claimed in claim 1, wherein the execution adjusting unit comprises:

the air-tight electric adjusting valve is used for controlling the air volume and the air pressure of the air conditioner and the ventilation and exhaust system;

the variable frequency fan is used for dynamically adjusting the circulating air volume and the pressure intensity in the operating room;

an air conditioner for adjusting the temperature in the operating room;

a humidifier for adjusting humidity in the operating room;

the particulate matter filtering module is used for filtering suspended particles in the operating room;

the disinfection and sterilization module is used for dynamically and circularly disinfecting the air in the operating room;

the lighting system is used for adjusting the brightness of light in the operating room and on the operating table;

and the gas supply system is used for automatically switching the standby gas source.

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