CN113077882A - Platform type operation room mobile phone use traceability system and use method - Google Patents

Abstract

In order to overcome the defects of the prior art, the invention provides a source tracing system for a mobile phone of a platform type operating room and a use method thereof, wherein the source tracing system comprises: the mobile phone tracking system comprises a platform assembly capable of placing at least one mobile phone and a source tracing and monitoring module for monitoring and recording the taking/taking condition of the mobile phone; the tracing and monitoring module comprises: the device comprises a monitoring component, a matching component, an intelligent component and a storage component; the monitoring component is used for acquiring monitoring data in the platform component; the matching component is arranged on the platform component and is used for collecting the biological characteristics of an operator who places/takes out the mobile phone in the platform component; the intelligent assembly is electrically connected with the monitoring assembly and the matching assembly respectively and is used for judging whether the mobile phone is put in or taken out of the platform assembly according to the monitoring data; then the identity of the operator, the corresponding position of the mobile phone to be put in/taken out and the time of the mobile phone to be put in/taken out are combined to form event data; the storage assembly is electrically connected with the intelligent assembly and used for storing the event data, so that the tracing is convenient.

Description

Platform type operation room mobile phone use traceability system and use method

Technical Field

The invention relates to the field of operating room special equipment, in particular to a source tracing system for a platform type operating room mobile phone and a use method thereof.

Background

With the popularization of mobile phones, the mobile phones have become important tools for people to live, work and entertain, and people usually carry the mobile phones with them to handle various matters through the mobile phones. In the operating room, if doctors and nurses use the mobile phone during the operation, the operation quality may be affected.

In the prior art, the use condition of the mobile phone of a doctor and a nurse is generally monitored through monitoring. However, the monitoring of the operating room is only to arrange a plurality of cameras in the operating room to shoot video pictures in the operating room. If the historical conditions in the operating room need to be traced, for example, the mobile phone use conditions of the personnel in the operating room need to be searched, the monitoring video needs to be played back; the method has low traceability efficiency; if the camera is located in the blind area of the camera, sheltering from and the like, the defects of insufficient accuracy and the like exist.

Meanwhile, as the storage of the video data needs to occupy a large amount of storage space, if the data needs to be stored for a long time, a large amount of storage equipment needs to be purchased, and the cost is high. In order to control the cost, the user needs to delete the surveillance video regularly to release the storage space, but deleting the surveillance video causes the source tracing to be impossible subsequently.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a source tracing system for platform type operating room mobile phones and a use method thereof, which are used for solving at least one of the technical problems.

Specifically, the technical scheme is as follows:

a platform-based operating room handset usage traceability system, comprising:

the platform assembly comprises a platform structure capable of placing at least one mobile phone;

and the source tracing and monitoring module is used for monitoring and recording the taking/taking condition of the mobile phone.

The platform assembly, comprising:

a platform body;

at least 1 support body mechanism arranged on the platform body to form a platform structure;

the closed shell is arranged on the platform body and used for closing the support body mechanism;

at least 1 indicating mechanism, set up on the platform body, with trace to source and monitoring module electric connection for instruct to wait to put into/take out the cell-phone the position of supporter mechanism.

The closed shell is provided with a rotary door for closing which can be opened in a rotating way and is used for closing the closed shell after the mobile phone is put in or taken out;

and an electronic lock is arranged on the rotary door for sealing.

The platform assembly further comprises:

and the disinfection module is arranged in the platform body or the closed shell, is electrically connected with the tracing and monitoring module and is used for disinfecting the mobile phone arranged on the support mechanism.

The sterilization module, comprising:

at least 1 disinfection spray head arranged in the support mechanism and used for spraying disinfection spray to the closed shell;

the mist supply module is connected with the disinfection spray head and used for supplying a bactericide;

the mist supply module is electrically connected with the source tracing and monitoring module and used for controlling the mist supply module to work according to the instruction of the source tracing and monitoring module.

The tracing and monitoring module comprises:

the monitoring assembly is arranged in the platform assembly and is used for acquiring monitoring data;

the matching component is arranged on the platform component and used for collecting the biological characteristics of an operator who places/takes out the mobile phone in the platform component;

the intelligent assembly is electrically connected with the monitoring assembly and the matching assembly respectively and is used for judging the identity of an operator who puts in or takes out the mobile phone in the platform assembly according to the monitoring data and the biological characteristics and forming event data by the identity of the operator, the position of the platform assembly and the time of putting in or taking out the mobile phone;

and the storage component is electrically connected with the intelligent component and used for storing the event data, so that the tracing is convenient.

The monitoring assembly, comprising:

the ultrasonic sensor is electrically connected with the intelligent assembly and used for acquiring distance data of the mobile phone and one side of the support body mechanism facing the ground;

and/or

The gravity sensor is electrically connected with the intelligent assembly and used for collecting pressure data applied by the mobile phone to one side of the support body mechanism facing the ground;

and/or

And the photoelectric sensor is electrically connected with the intelligent assembly and used for acquiring the position data of the mobile phone relative to the support body mechanism.

The matching component comprises:

the fingerprint identification unit is electrically connected with the intelligent assembly and used for collecting fingerprint information of the operator;

and/or

The palm geometry recognition unit and the fingerprint recognition unit are electrically connected with the intelligent assembly and are used for collecting the palm geometry information of the operator;

and/or

The iris identification unit is electrically connected with the intelligent assembly and used for acquiring iris information of the operator;

and/or

The retina recognition unit is electrically connected with the intelligent assembly and used for collecting retina information of the operator;

and/or

The face recognition unit is electrically connected with the intelligent assembly and used for collecting face information of the operator;

the signature identification unit is electrically connected with the intelligent assembly and is used for acquiring signature information of the operator;

and the voice recognition unit is electrically connected with the intelligent assembly and is used for acquiring voice information of the operator.

The storage assembly, comprising:

the wireless module is electrically connected with the intelligent assembly and used for transmitting the event data;

and the upper computer is electrically connected with the wireless module and is used for receiving and storing the event data.

A method for using the source tracing system for a platform type operating room mobile phone as described above, comprising:

acquiring biological data of a person to be monitored through the matching component, and establishing a name and biological database after the name of the person to be monitored is in one-to-one correspondence with the biological data;

acquiring biological data of an operator through the intelligent assembly, acquiring data of the monitoring assembly, and monitoring data change conditions in the platform assembly;

comparing the biological data and name of the operator with the data in a biological database through the intelligent assembly, and judging to perform a mobile phone storing step or a mobile phone taking step;

in the step of storing the mobile phone, recording storage data of the mobile phone;

in the step of taking out the mobile phone, recording the taken-out data of the taken-out mobile phone;

and forming the duration of using the mobile phone by the personnel to be monitored according to the stored data and the taken data of the personnel to be monitored, so that the tracing of the use of the mobile phone is facilitated.

The step of collecting the data of the monitoring assembly and monitoring the data change condition in the platform assembly comprises the following steps:

and judging the mobile phone to be stored or taken out according to the data change in the monitoring component.

The step of comparing the biological data and name of the operator with the data in the biological database through the intelligent assembly and judging to store the mobile phone or take out the mobile phone comprises the following steps:

acquiring biological data of an operator through the matching component;

comparing the biological data and the name with data in a biological database, and judging whether the operator is a person to be monitored;

and judging to enter a mobile phone storing step or a mobile phone taking step by searching the name of the person to be monitored, the stored data corresponding to the name and the taken data.

The step of storing the mobile phone comprises the following steps:

judging the vacant position according to the data of the monitoring assembly;

randomly allocating an empty position to the mobile phone to be stored;

placing the mobile phone to be stored at the vacant position;

judging whether the mobile phone is placed in the vacant position or not according to the data of the monitoring assembly;

and recording the time and the position information of the mobile phone to form the storage data.

The step of taking out the mobile phone comprises the following steps:

reading the stored data by the intelligent component;

finding out a position corresponding to the mobile phone according to the storage data;

judging whether the mobile phone is taken out from the position or not according to the data of the monitoring component;

and recording the time and position information of the mobile phone to form the taken data.

The invention has at least the following beneficial effects:

according to the source tracing system for the mobile phone, whether the mobile phone is put in is detected through the monitoring component in the source tracing and monitoring module; and then, the biological characteristics of the user are collected through the matching assembly in the tracing and monitoring module, and the person who stores/takes out the mobile phone, the corresponding storage position of the mobile phone and the access time are stored in the storage assembly in the tracing and monitoring module, so that the later inquiry is facilitated. Thus, the system of the invention realizes that: the recording and tracing of the cell phone is used in the operating room.

Furthermore, the use method of the invention compares the biological data and name of the operator with the data in the biological database through the tracing and monitoring module, and judges to carry out the step of storing the mobile phone or to carry out the step of taking out the mobile phone; recording the storage data of the mobile phone and the taking data of the mobile phone; and forming the duration of using the mobile phone by the personnel to be monitored according to the stored data and the taken data of the personnel to be monitored, so that the tracing of the use of the mobile phone is facilitated.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a block diagram of the system of the present invention.

Fig. 2 is a front view of the system of the present invention.

Fig. 3 is a schematic structural view of the platform body portion in fig. 2.

Fig. 4 is a block diagram of the system according to the present invention with a charging module added.

Fig. 5 is a schematic structural view of a platform body part with a charging module added.

Fig. 6 is an enlarged view of fig. 5 at E.

FIG. 7 is a block diagram of the system of the present invention with the addition of a sterilization module.

Figure 8 is a schematic view of the platform body portion after the addition of a sterilization module.

Fig. 9 is an enlarged view of fig. 8 at F.

Fig. 10 is a left side view of fig. 1.

FIG. 11 is a block diagram of the components of the storage components in the system of the present invention.

Fig. 12 is a main flow chart of the method of use of the present invention.

Fig. 13 is a flow chart of a mobile phone logging procedure using the invention described herein.

Fig. 14 is a flow chart of a mobile phone retrieving step using the invention.

Description of the main element symbols:

in the figure: 1. a platform assembly; 2. a monitoring component; 3. a matching component; 4. an intelligent component; 5. a storage component; 6. a mobile phone; 101. a platform body; 102. a support body mechanism; 103. a charging module; 104. an indication mechanism; 105. a charging module; 106. a sterilization module; 201. an ultrasonic sensor; 202. a gravity sensor; 203. a photosensor; 103A, a revolving door for sealing; 301. a fingerprint recognition unit; 302. a palm geometry recognition unit; 303. an iris recognition unit; 304. a retina recognition unit; 305. a face recognition unit; 306. a signature recognition unit; 307. a voice recognition unit; 501. a wireless module; 502. an upper computer; 1021. a base; 1022. a mobile phone fixing mechanism; 1051. a charging terminal; 1052. a power supply module; 1061. a disinfection nozzle; 1062. a mist supply module; .

Detailed Description

Referring to fig. 1, a source tracing system for mobile phone usage in platform type operating room includes: the mobile phone tracking and taking system comprises a platform component 1 capable of placing at least one mobile phone and a source tracing and monitoring module for monitoring and recording the taking/taking condition of the mobile phone. The platform assembly 1 is arranged in an operating room and used for placing a mobile phone 6; the tracing and monitoring module comprises: the system comprises a monitoring component 2, a matching component 3, an intelligent component 4 and a storage component 5; the monitoring assembly 2 is arranged in the platform assembly 1 and is used for acquiring monitoring data in the platform assembly 1; the matching component 3 is arranged on the platform component 1 and is used for collecting the biological characteristics of an operator who places/takes out the mobile phone 6 in the platform component 1; the intelligent assembly 4 is electrically connected with the monitoring assembly 2 and the matching assembly 3 respectively and is used for judging whether the mobile phone 6 is put in or taken out of the platform assembly 1 according to the monitoring data; then the identity of the operator, the corresponding position of the mobile phone 6 to be put in/taken out and the time of putting in/taking out the mobile phone 6 together form event data; the storage component 5 is electrically connected with the intelligent component 4 and used for storing the event data, so that the tracing is convenient.

As shown in fig. 2, the platform assembly 1 includes: a platform body 101, at least 1 support mechanism 102, a closed shell 103 for closing the support assembly 102, and at least 1 indication mechanism 104; the support body mechanisms 102 are arranged on the platform body 101 and used for placing the mobile phones 6 in a one-to-one correspondence manner; the support body mechanism 102 is provided with a monitoring assembly 2; the sealed shell 103 seals all the supporting components 102 to prevent people from taking out the mobile phone without recording; an indicating mechanism 104 is arranged on the platform body and positioned near the support mechanism 102, and is used for indicating the position of the support mechanism to be put in/taken out of the mobile phone; in use, if the smart component 4 is assigned a location to be stored in the handset at the time of storage, it is instructed by the instruction mechanism 104.

Preferably, as shown in fig. 3, the support mechanisms 102 may be determined by the number of the mobile phones placed, and the support mechanisms 102 are arranged on the horizontal plane of the platform body 101. The support body mechanism 102 comprises a base 1021 and a mobile phone fixing mechanism 1022; wherein, the base 1021 is arranged on the horizontal plane of the platform body 101; a horizontal plane of the base 1021 far away from the bottom surface is provided with a mobile phone fixing mechanism 1022 formed by a high bulge and a low bulge, and the mobile phone fixing mechanism is used for limiting the position of the mobile phone 6; in order to facilitate taking the mobile phone 6, the mobile phone 6 is placed on the mobile phone fixing mechanism 1022 to be inclined, and an included angle between the mobile phone 6 and the horizontal bottom surface of the base 1021 is controlled to be 75-80 degrees.

Preferably, the indication mechanism 104 may be an LED light electrically connected to the control module 4, and when a certain support mechanism 102 is selected, the indication mechanism 104 near the support mechanism 102 is lighted to prompt the user to take in/out the mobile phone 6.

Preferably, the platform body 101 may be a structure similar to a platform, or may be a shape similar to a writing desk, which is suitable for the purpose of being installed in an operating room.

The monitoring assembly 2 is used for acquiring the state of the mobile phone 6 on the support body mechanism 102, and the monitoring assembly 2 comprises: one or more of an ultrasonic sensor 201, a gravity sensor 202 or a photoelectric sensor 203 electrically connected with the intelligent component 4;

when the ultrasonic sensor 201 is adopted, the distance data between the mobile phone 6 and one side of the support body mechanism 102 facing the ground can be collected, and when the mobile phone 6 is placed on the support body mechanism 102, the data collected by the ultrasonic sensor 201 changes from large to small, so that the mobile phone 6 is considered to be placed; if the data collected by the ultrasonic sensor 201 changes from small to large, the mobile phone 6 is taken out of the support body mechanism 102;

when the gravity sensor 202 is adopted, pressure data of the mobile phone and one side of the support body mechanism 102 facing the ground can be collected; when the mobile phone is put on the support body mechanism 102, the data collected by the gravity sensor 202 changes from zero to some, so that the mobile phone 6 is considered to be put in; if the data collected by the gravity sensor 202 changes from zero to zero, the mobile phone 6 is taken out of the support body mechanism 102;

when the photoelectric sensor 203 is adopted, whether a shelter exists on a photoelectric transmission path on one side of the mobile phone and the support body mechanism 102 facing the ground or not can be acquired; when the mobile phone is put on the support body mechanism 102, the light emitted by the photoelectric sensor 203 is shielded, so that the mobile phone 6 is considered to be put; if the light from the photo sensor 203 becomes unobstructed again, the handset 6 is considered to be removed from the support mechanism 102.

It is to be understood that: the ultrasonic sensor 201, the gravity sensor 202 or the photoelectric sensor 203 can be used alternatively or simultaneously, and when a plurality of sensors are selected to be used together, the plurality of sensors are required to send out signals for putting in/taking out the mobile phone at the same time so as to increase the reliability of detection, for example: when the data collected by the ultrasonic sensor 201 changes from large to small, the data collected by the gravity sensor 202 changes from zero to some, and the light emitted by the photoelectric sensor 203 is blocked, the mobile phone 6 is considered to be placed on the support mechanism 102.

When in specific use, although the platform assembly 1 is placed in an operating room, in order to place and frequently take and place a mobile phone, the closed shell 103 is provided with a rotary door 103A for closing which can be opened by rotating, and is used for closing the closed shell 103 after the mobile phone 6 is placed in or taken out; an electronic lock is arranged on the rotary door 103A for sealing; the electronic lock is electrically connected with the intelligent component 4 and is used for opening/closing the electronic lock according to the instruction of the intelligent component 4; the closing rotary door 103A may be connected to the closed casing 103 by a hinge.

Preferably, when the intelligent assembly 4 is used, the intelligent assembly 4 acquires data of the monitoring assembly 2 and judges that the mobile phone 6 is placed on the support body mechanism 102, and at the moment, an instruction is sent to control the locking of the corresponding electronic lock; and if the intelligent component 4 judges that the mobile phone 6 needs to be taken out, sending an instruction to control the corresponding electronic lock to be unlocked.

In the specific use process, because the use frequency of the mobile phone 6 is high, and the time of one operation can be as long as several hours, the charging of the mobile phone 6 becomes a great demand as the standby time of the current mobile phone 6 is shorter and shorter.

As shown in fig. 4 to 6, the platform assembly 1 further includes: a charging module 105; the charging module 105 is arranged in the platform body 101 and is used for charging the mobile phone 6 arranged on the support body mechanism 102; the charging module 105 is electrically connected to the intelligent device 4, and is configured to control the charging module 105 according to an instruction of the intelligent device 4.

Specifically, the charging module 105 includes: at least 1 charging terminal 1051 and a power supply module 1052; the charging terminals 1051 are arranged on the base 1021 and are connected with the mobile phone 6 in a one-to-one correspondence manner, and the work of the monitoring component 2 is not affected; the power supply module 1052 is electrically connected with the charging terminal 1051 and used for supplying power; preferably, the power supply module 1052 is similar to a mobile phone adapter and supports functions of quick charging and the like; preferably, the base 1021 is provided with a wire hole for passing a wire; the power supply module 1052 can be arranged in the platform body 101 and connected with an external power supply through a lead to ensure power supply.

The operating room is a sterile environment, however, the mobile phone 6 has a large amount of bacteria, which may cause the transmission of bacteria along with the contact of the user, and in order to solve the problem:

as shown in fig. 7 to 9, the platform assembly 1 further includes: a sterilization module 106; the disinfection module 106 is arranged on the closed shell 103 and is used for disinfecting the mobile phone 6 arranged in the closed shell 103; specifically, the sterilization module 106 includes: at least 1 disinfection spray nozzle 1061 and a mist supply module 1062; the disinfection spray nozzle 1061 is arranged on the closed shell 103 and is used for spraying disinfection spray into the closed shell 103; the mist supply module 1062 is connected with the disinfection spray head 1061 and is used for supplying a bactericide; the mist supply module 1062 is electrically connected with the intelligent component 4 and is used for controlling the operation of the mist supply module 1062 according to the instruction of the intelligent component 4; specifically, if the intelligent component 4 determines that the mobile phone 6 is stored according to the signal of the monitoring component 2, an instruction is sent to control the mist supply module 1062 to supply the disinfectant to sterilize the mobile phone 6; after the closing rotary door 103A is closed, the mist ejected from the sterilizing nozzle 1061 fills the support mechanism 102, and sterilization is performed while ensuring the safety of the cellular phone 6.

Preferably, the mist supply module 1062 includes: a chemical tank and a pump body; wherein, the medicament box can be arranged in an operating room; the input end of the pump body is connected with the chemical box through a pipeline, and the output end of the pump body is connected with the disinfection spray nozzle 1061 through a pipeline; the pump body is electrically connected with the intelligent assembly 4 and is used for starting and stopping according to the instruction of the intelligent assembly 4; the medicament box and the pump body can be placed at positions outside the platform assembly 1, so that the size is prevented from being overlarge.

As shown in fig. 10, the matching component 3 in the system of the present invention includes: one or more of a fingerprint identification unit 301, a palm geometry identification unit 302, an iris identification unit 303, a retina identification unit 304, a face identification unit 305, a signature identification unit 306 or a voice identification unit 307 electrically connected with the intelligent component 4; the fingerprint identification unit 301 is electrically connected with the intelligent component 4 and is used for collecting fingerprint information of an operator; the palm geometry recognition unit 302 is electrically connected with the intelligent component 4 and can acquire the palm geometry information of the operator; the iris recognition unit 303 is electrically connected with the intelligent component 4 and can acquire iris information of an operator; the retina recognition unit 304 is electrically connected with the intelligent component 4 and can collect retina information of an operator; the face recognition unit 305 is electrically connected with the intelligent component 4 and can collect face information of an operator; the signature recognition unit 306 is electrically connected with the intelligent component 4 and can collect signature information of an operator; the voice recognition unit 307 is electrically connected with the intelligent component 4 and can collect voice information of an operator; preferably, for the convenience of maintenance, the unit comprised by the matching assembly 3 is removably arranged on the revolving door 103A for closing, for example by gluing; meanwhile, the periphery of the sealed housing 103 may be transparent or opaque as required.

By using the fingerprint identification unit 301, the palm geometry identification unit 302, the iris identification unit 303, the retina identification unit 304, the face identification unit 305, the signature identification unit 306 or the voice identification unit 307 singly or in combination, the biological characteristics of the user can be collected, so that unique biological characteristics are formed, and a basic function is played for a corresponding mobile phone; it should be understood that the combination of two or more sensors is used, such as fingerprint and retina information, to acquire the biometric data of the user.

For traceability, as in fig. 11, the usage data of the handset 6 should be reliably stored; the storage component 5 may be a hard disk storage or a cloud storage; when using cloud storage, the storage component 5 includes: a wireless module 501 and an upper computer 502; the wireless module 501 is electrically connected to the intelligent component 4 and is configured to transmit event data; the upper computer 502 or the cloud is electrically connected to the wireless module 501, and is configured to receive and store event data.

The system is simple in structure, the monitoring component 2 and the matching component 3 form a technical whole through the intelligent component 4, the technical whole is unified by taking a user as the standard, event data used by the mobile phone are formed, and the event data are stored in the storage component 5, so that the tracing is convenient.

Accordingly, as shown in fig. 12, a method for using the traceability system of the platform-type operating room mobile phone as described above includes: biological data of a person to be monitored is collected through the matching component 3, and a name and biological database is constructed after the name of the person to be monitored is in one-to-one correspondence with the biological data; biological data of an operator are collected through the intelligent assembly 4, data of the monitoring assembly 2 are collected, and storage conditions are monitored; the biological data and name of the operator are compared with the data in the biological database through the intelligent component 4, and the step of storing the mobile phone or the step of taking out the mobile phone is judged; in the step of storing the mobile phone, recording and storing storage data of the mobile phone; the storing of the data includes: the name, the storage time and the storage position of a person to be monitored; in the step of taking out the mobile phone, recording the taken-out data of the taken-out mobile phone; the data fetching includes: the name, the taking time and the storage position of the person to be monitored; according to the data stored and taken out by the personnel to be monitored, the duration of the use of the mobile phone by the personnel to be monitored is formed, and the use and the source tracing of the mobile phone are facilitated.

Wherein, the "biological data of the personnel to be monitored is collected" includes: acquiring biological data of the person to be monitored through one or more of fingerprint identification, palm geometry identification, iris identification, retina identification, face identification, signature identification and voice identification;

"collect the data of monitoring assembly 2, monitor the data change situation in the said platform assembly 1", include: the mobile phone 6 is judged to be stored or taken out by monitoring the data change in the component 2, such as: when the data collected by the ultrasonic sensor 201 changes from large to small, the data collected by the gravity sensor 202 changes from zero to some, and the light emitted by the photoelectric sensor 203 is blocked, the mobile phone 6 is considered to be placed on the support mechanism 102.

More importantly, the method for judging whether to store the mobile phone or take out the mobile phone by comparing the biological data and the name of the operator with the data in the biological database through the intelligent component 4 comprises the following steps: biological data of the operator are collected through the matching component 3; comparing the biological data and the name with data in a biological database, and judging whether an operator is a person to be monitored; and judging to enter the step of storing the mobile phone or to take out the mobile phone by searching the name of the person to be monitored and the stored data corresponding to the name and taking out the data.

Because the biological characteristics have uniqueness, when a user uses the system, the biological identification is firstly carried out, and if the biological characteristics correspond to the data in the biological database, the next operation can be carried out; if the biological characteristics do not appear in the biological database, the next operation cannot be carried out; if the biological characteristic appears in the biological database, searching the name of the person to be monitored corresponding to the biological characteristic; searching corresponding stored data and taking out data through the name; and then, according to whether the name has corresponding stored data or extracted data at the latest time, entering a step of extracting the mobile phone or entering a step of storing the mobile phone.

The latest time: and showing the record closest to the search time.

Specifically, as shown in fig. 13, when the mobile phone 6 is stored, the problem of having to face the storage location is solved, in the present invention, the step of storing the mobile phone includes: judging the vacant position according to the data of the monitoring component 2; randomly allocating a vacant position to the mobile phone 6 to be stored; placing the mobile phone 6 to be stored in an empty position; judging whether the mobile phone 6 is placed in an empty position according to the data of the monitoring component 2; and recording the time and position information stored in the mobile phone 6 to form stored data.

"judge the vacant position according to the data of monitoring component 2", means: searching all data of the monitoring component 2 on the platform component 1 through the intelligent component 4, analyzing whether the corresponding support body mechanism 102 has the mobile phone 6 or not through the data, if the data returned by the gravity sensor 202 is zero, indicating that no mobile phone 6 exists in the corresponding platform component 1, and the position is an empty position, the position can be used as the position for placing the mobile phone at this time; if there are a plurality of vacant positions, an indicating mechanism 104 for randomly controlling one position, such as an LED or a corresponding assigned position displayed through a screen, for indicating the position where the mobile phone 6 is stored; in short, the operator and the mobile phone are associated with the storage location.

The problem of storing the mobile phone is solved, and then the step of taking out the mobile phone is explained; as shown in fig. 14, the step of taking out the mobile phone includes: reading the stored data by the intelligent component 4; finding the corresponding position of the storage mobile phone 6 according to the storage data, and prompting the user through the indicating mechanism 104; judging whether the mobile phone 6 is taken out from the position or not according to the data of the monitoring component 2; the time and position information of the mobile phone 6 are recorded and taken out to form the taken-out data.

In use, since the identity of the user, such as the name, has been determined by the matching component 3; at this time, according to the name, inquiring the corresponding latest event data; the event data comprises the name, storage time, storage position and the like of the person to be monitored; according to the storage position, the corresponding taking-out position is displayed through the indicating mechanism 104, so that a user can take out the mobile phone conveniently; when the user takes the mobile phone 6 out of the support body mechanism 102, the data collected by the sensor in the monitoring assembly 2 will change, for example, the data transmitted by the gravity sensor 202 changes from certain data to zero, which indicates that the mobile phone is taken out, and at this time, the name, the taking-out time and the storage position of the person to be monitored form the taken-out data.

If medical disputes occur or the use condition of the mobile phone needs to be inquired, inquiring through the upper computer at the moment; the upper computer can be a PC or a cloud terminal placed in a control room; at the moment, the upper computer sorts the stored data by name or time and takes out the data to be listed; and calculating according to the time of storage and taking out under each name to obtain the service condition of the mobile phone, thereby completing the tracing.

Table I; the stored data examples in the upper computer are arranged according to the time sequence;

name (I)	Time of taking out	Time of deposit	Duration ms
				Zhang (PZQ DXW)*	8：30	9：00	30
Plum	8：45	9：10	25
				Zhang Xin	9：00	9：12	12

In addition, the system of the invention can also comprise an input type peripheral, such as a touch screen, through which a person with management authority can enter a background to add or delete a user; or stopping the monitoring process after the operation is finished according to the instruction of a person with management authority, stopping monitoring all the mobile phones, and opening the electronic lock; when a person needs to take the mobile phone away, the step of taking out the mobile phone is carried out to form taken-out data; in addition, under special conditions, the person with the management authority can suspend the operation and the monitoring, and the patient can be saved to the maximum extent by communicating through a mobile phone.

The upper computer can be provided with a management platform, and the stored data and the taken data formed in the operation are used as the performance assessment conditions and can also be used as the basis for accident tracing; the management platform can be connected with the management platforms of other hospitals to form a network, and mobile phone use information of a certain doctor is shared; the network can also be used for timely consulting and calling together the difficult and complicated diseases, so as to maximally rescue the life of the patient and guarantee the health rights and interests of the patient.

Those skilled in the art will appreciate that the modules in the devices in the implementation scenario may be distributed in the devices in the implementation scenario according to the description of the implementation scenario, or may be located in one or more devices different from the present implementation scenario with corresponding changes. The modules of the implementation scenario may be combined into one module, or may be further split into a plurality of sub-modules.

The above-mentioned invention numbers are merely for description and do not represent the merits of the implementation scenarios.

The above disclosure is only a few specific implementation scenarios of the present invention, however, the present invention is not limited thereto, and any variations that can be made by those skilled in the art are intended to fall within the scope of the present invention.

Claims (14)

1. A traceability system for mobile phones in platform type operating rooms is characterized by comprising:

the platform assembly comprises a platform structure capable of placing at least one mobile phone;

and the source tracing and monitoring module is used for monitoring and recording the taking/taking condition of the mobile phone.

2. The platform-based operating room handset usage traceability system of claim 1, wherein said platform assembly, comprises:

a platform body;

at least 1 support body mechanism arranged on the platform body to form a platform structure;

the closed shell is arranged on the platform body and used for closing the support body mechanism;

at least 1 indicating mechanism, set up on the platform body, with trace to source and monitoring module electric connection for instruct to wait to put into/take out the cell-phone the position of supporter mechanism.

3. The platform-based operating room handset usage traceability system of claim 2, wherein:

the closed shell is provided with a rotary door for closing which can be opened in a rotating way and is used for closing the closed shell after the mobile phone is put in or taken out;

and an electronic lock is arranged on the rotary door for sealing.

4. The platform-based operating room handset usage traceability system of claim 2, wherein said platform assembly further comprises:

and the disinfection module is arranged in the platform body or the closed shell, is electrically connected with the tracing and monitoring module and is used for disinfecting the mobile phone arranged on the support mechanism.

5. The platform operating room handset usage traceability system of claim 4, wherein the disinfection module comprises:

at least 1 disinfection spray head arranged in the support mechanism and used for spraying disinfection spray to the closed shell;

the mist supply module is connected with the disinfection spray head and used for supplying a bactericide;

the mist supply module is electrically connected with the source tracing and monitoring module and used for controlling the mist supply module to work according to the instruction of the source tracing and monitoring module.

6. The system of claim 1, wherein the traceability and monitoring module comprises:

the monitoring assembly is arranged in the platform assembly and is used for acquiring monitoring data;

the matching component is arranged on the platform component and used for collecting the biological characteristics of an operator who places/takes out the mobile phone in the platform component;

the intelligent assembly is electrically connected with the monitoring assembly and the matching assembly respectively and is used for judging the identity of an operator who puts in or takes out the mobile phone in the platform assembly according to the monitoring data and the biological characteristics and forming event data by the identity of the operator, the position of the platform assembly and the time of putting in or taking out the mobile phone;

and the storage component is electrically connected with the intelligent component and used for storing the event data, so that the tracing is convenient.

7. The platform-based operating room handset usage traceability system of claim 6, wherein the monitoring component comprises:

the ultrasonic sensor is electrically connected with the intelligent assembly and used for acquiring distance data of the mobile phone and one side of the support body mechanism facing the ground;

and/or

The gravity sensor is electrically connected with the intelligent assembly and used for collecting pressure data applied by the mobile phone to one side of the support body mechanism facing the ground;

and/or

And the photoelectric sensor is electrically connected with the intelligent assembly and used for acquiring the position data of the mobile phone relative to the support body mechanism.

8. The platform-based operating room handset usage traceability system of claim 6, wherein said matching component comprises:

the fingerprint identification unit is electrically connected with the intelligent assembly and used for collecting fingerprint information of the operator;

and/or

The palm geometry recognition unit and the fingerprint recognition unit are electrically connected with the intelligent assembly and are used for collecting the palm geometry information of the operator;

and/or

The iris identification unit is electrically connected with the intelligent assembly and used for acquiring iris information of the operator;

and/or

The retina recognition unit is electrically connected with the intelligent assembly and used for collecting retina information of the operator;

and/or

The face recognition unit is electrically connected with the intelligent assembly and used for collecting face information of the operator;

the signature identification unit is electrically connected with the intelligent assembly and is used for acquiring signature information of the operator;

and the voice recognition unit is electrically connected with the intelligent assembly and is used for acquiring voice information of the operator.

9. The platform-based operating room handset usage traceability system of claim 6, wherein said storage component comprises:

the wireless module is electrically connected with the intelligent assembly and used for transmitting the event data;

and the upper computer is electrically connected with the wireless module and is used for receiving and storing the event data.

10. A method of using the platform-based operating room handset traceability system of claim 6, comprising:

acquiring biological data of a person to be monitored through the matching component, and establishing a name and biological database after the name of the person to be monitored is in one-to-one correspondence with the biological data;

acquiring biological data of an operator through the intelligent assembly, acquiring data of the monitoring assembly, and monitoring data change conditions in the platform assembly;

comparing the biological data and name of the operator with the data in a biological database through the intelligent assembly, and judging to perform a mobile phone storing step or a mobile phone taking step;

in the step of storing the mobile phone, recording storage data of the mobile phone;

in the step of taking out the mobile phone, recording the taken-out data of the taken-out mobile phone;

and forming the duration of using the mobile phone by the personnel to be monitored according to the stored data and the taken data of the personnel to be monitored, so that the tracing of the use of the mobile phone is facilitated.

11. The method of claim 10, wherein said collecting data of said monitoring component, monitoring data changes within said platform component, comprises:

and judging the mobile phone to be stored or taken out according to the data change in the monitoring component.

12. The method of claim 10, wherein the step of comparing the biometric data and name of the operator with the data in the biometric database and determining whether to perform the step of storing the mobile phone or to perform the step of retrieving the mobile phone by the smart component comprises:

acquiring biological data of an operator through the matching component;

comparing the biological data and the name with data in a biological database, and judging whether the operator is a person to be monitored;

and judging to enter a mobile phone storing step or a mobile phone taking step by searching the name of the person to be monitored, the stored data corresponding to the name and the taken data.

13. The method of claim 10, wherein the step of storing the handset comprises:

judging the vacant position according to the data of the monitoring assembly;

randomly allocating an empty position to the mobile phone to be stored;

placing the mobile phone to be stored at the vacant position;

judging whether the mobile phone is placed in the vacant position or not according to the data of the monitoring assembly;

and recording the time and the position information of the mobile phone to form the storage data.

14. The method of claim 10, wherein the removing the cell phone step comprises:

reading the stored data by the intelligent component;

finding out a position corresponding to the mobile phone according to the storage data;

judging whether the mobile phone is taken out from the position or not according to the data of the monitoring component;

and recording the time and position information of the mobile phone to form the taken data.

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