CN213586057U - Remote monitoring system - Google Patents

Remote monitoring system Download PDF

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Publication number
CN213586057U
CN213586057U CN202022692133.3U CN202022692133U CN213586057U CN 213586057 U CN213586057 U CN 213586057U CN 202022692133 U CN202022692133 U CN 202022692133U CN 213586057 U CN213586057 U CN 213586057U
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audio
video information
video
control platform
ward
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吴辉
潘景业
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Hangzhou Yiwu Technology Co ltd
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Wenzhou Fuyi Science And Trade Co ltd
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Abstract

The utility model discloses a remote monitoring system, it includes monitor unit, coding acquisition card unit, audio and video encoder unit, transmission module, audio and video decoder unit and the display module that connects gradually; the system also comprises a master control platform, wherein the master control platform is connected to each audio/video encoder, each audio/video decoder and each display module, and is respectively used for controlling each audio/video encoder to encode audio/video information, controlling each audio/video decoder to decode the audio/video information and controlling each display module to display the audio/video information of other sick rooms/sick beds. Through the utility model discloses a remote monitoring system, the transmission of the multiple audio and video information of ward/sick bed is again by codec code and network through unified information processing after, at last with audio and video information transmission to a plurality of display module, medical personnel can concern other ward/sick bed in the state of guardianship patient to needn't tired in each ward/sick bed of surging one's wave.

Description

Remote monitoring system
Technical Field
The utility model relates to a medical monitoring system field, in particular to remote monitoring system.
Background
Anesthesia and operation centers and intensive care units/sickbeds are special medical places in hospitals, and the patients in anesthesia or intensive care monitoring treatment have the condition that the condition of the patients is changed quickly, particularly critical and first-aid patients, various conditions which need to be treated urgently possibly occur at any time, and medical care personnel are required to carry out uninterrupted close monitoring and treatment. In order to solve the safety problem in clinical anesthesia and intensive care monitoring treatment, besides various monitors with complete functions, life support and emergency equipment, hospitals at home and abroad mostly adopt a central monitoring system. However, such systems can only transmit data of multiple monitors in a certain area to a specific position for centralized display and monitoring, and people need to observe and diagnose at the specific position, and only audio and video information shot by the monitors can be observed, thereby limiting the clinical practicability.
SUMMERY OF THE UTILITY MODEL
To the deficiency that prior art exists, the utility model aims to provide a remote monitoring system, this system can realize long-rangely guardianship each ward/sick bed.
In order to achieve the above purpose, the utility model provides a following technical scheme:
according to the utility model provides a remote monitoring system, which comprises a monitoring unit, a coding acquisition card unit, an audio and video encoder unit, a transmission module, an audio and video decoder unit and a display module which are connected in sequence;
the system comprises at least two monitoring units, wherein each monitoring unit is respectively arranged in different sickrooms/sickbeds and is used for acquiring various audio and video information of the sickroom/sickbed in which the monitoring unit is arranged; each monitoring unit corresponds to one coding acquisition card unit one by one, and each coding acquisition card unit is used for carrying out standardized processing on the audio and video information acquired by the corresponding monitoring unit; the audio and video encoder unit comprises audio and video encoders which are correspondingly connected with the encoding acquisition card units one by one, and each audio and video encoder is used for encoding the audio and video information after the standardized processing; the transmission module is connected to each audio and video encoder and is used for transmitting encoded audio and video information; the audio and video decoder unit comprises audio and video decoders which are correspondingly connected with the audio and video encoders one by one, and the audio and video decoders are respectively connected to the transmission module and used for decoding the encoded audio and video information; each audio/video decoder corresponds to one display module one by one, and each display module is respectively arranged in different sickrooms/sickbeds and is used for displaying audio/video information except the sickroom/sickbed in which the display module is arranged;
the audio and video information comprises camera audio and video information, monitor audio and video information, respirator audio and video information and an electronic medical record computer interface, each audio and video encoder comprises at least four encoding acquisition card sockets, each encoding acquisition card unit comprises at least one encoding acquisition card, and each encoding acquisition card is respectively used for carrying out standardized processing on the camera audio and video information, the monitor audio and video information, the respirator audio and video information and the electronic medical record computer interface which are acquired by the monitoring unit; when the four code acquisition card sockets are inserted with corresponding code acquisition cards, the three code acquisition card sockets are respectively used for carrying out data transmission on camera audio and video information, monitor audio and video information, breathing machine audio and video information and an electronic medical record computer interface;
the intelligent hospital bed is characterized by further comprising a master control platform, wherein the master control platform is connected to each audio and video encoder, each audio and video decoder and each display module and is respectively used for controlling each audio and video encoder to encode audio and video information, controlling each audio and video decoder to decode the audio and video information and controlling each display module to display the audio and video information except for a ward/hospital bed where the audio and video encoder is located.
To sum up, the utility model discloses following beneficial effect has:
through the utility model discloses a remote monitoring system, the transmission by codec code and network again behind the various audio and video information of ward/sick bed through unified information processing, at last with audio and video information transmission to a plurality of display module, medical personnel can concern the audio and video information of guardianship patient's situation and relevant instrument collection in other ward/sick beds in arbitrary ward/sick bed, thereby needn't tired in each ward/sick bed of rushing back to the ripples, can alleviate medical personnel's physical and mental pressure and intensity of labour, also improve medical safety simultaneously.
Drawings
Fig. 1 is a schematic structural diagram of a telemonitoring system according to a first embodiment.
Reference numeral 1, a master control platform; 2. a monitoring unit; 3. a coding acquisition card unit; 4. an audio/video encoder unit; 401. an audio-video encoder; 5. a transmission module; 6. an audio/video decoder unit; 601. an audio/video decoder; 7. a display module; 8. a mobile terminal; 9. a storage module; 10. and (5) an alarm module group.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous specific details are set forth in order to provide a better understanding of the present invention. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some cases, operations related to the present invention are not shown or described in the specification, so as to avoid the core part of the present invention being overwhelmed by excessive description, and it is not necessary for those skilled in the art to describe these related operations in detail, and they can fully understand the related operations according to the description in the specification and the general knowledge in the art. Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.
The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connect" or "connect" as used herein includes both direct and indirect connections (connections), unless otherwise specified.
The first embodiment is as follows:
fig. 1 is a schematic structural diagram of a remote monitoring system according to a first embodiment, which includes a monitoring unit 2, an encoding acquisition card unit 3, an audio/video encoder unit 4, a transmission module 5, an audio/video decoder unit 6, and a display module 7, which are connected in sequence.
The system comprises at least two monitoring units 2, wherein each monitoring unit 2 is respectively arranged in different sickrooms/sickbeds and is used for acquiring audio and video information of the sickroom/sickbed in which the monitoring unit is arranged; each monitoring unit 2 corresponds to one coding acquisition card unit 3 one by one, and each coding acquisition card unit 3 is used for carrying out standardized processing on the audio and video information acquired by the corresponding monitoring unit 2; the audio/video encoder unit 4 comprises audio/video encoders 401 which are correspondingly connected with the encoding acquisition card units 3 one by one, and each audio/video encoder 401 is used for encoding the audio/video information after the standardized processing; the transmission module 5 is connected to each audio/video encoder 401 and is used for transmitting encoded audio/video information; the transmission module is a wired optical network or a wireless network supporting gigabit network port access; the audio/video decoder unit 6 comprises audio/video decoders 601 which are correspondingly connected with the audio/video encoders 401 one by one, and the audio/video decoders 601 are respectively connected to the transmission module 5 and used for decoding the encoded audio/video information; each audio/video decoder 601 corresponds to one display module 7 one by one, each display module 7 is respectively arranged in different sickrooms/beds, and the display module (7) in any sickroom/bed is used for displaying audio/video information of other sickrooms/beds;
the audio and video information comprises camera audio and video information, monitor audio and video information, ventilator audio and video information and an electronic medical record computer interface, the signal format of each audio and video information can be HDMI (including DVI), SDI, VGA or CVBS signal format, each audio and video encoder 401 comprises at least four encoding acquisition card sockets, each encoding acquisition card unit 3 comprises at least one encoding acquisition card, each encoding acquisition card is respectively used for carrying out standardized processing on the camera audio and video information, the monitor audio and video information, the ventilator audio and video information and the electronic medical record computer interface which are acquired by the monitor unit 2, and the audio and video information which is not in the HDMI or VGA signal format is converted into the HDMI or VGA signal format; when the four code acquisition card sockets are inserted with corresponding code acquisition cards, three of the code acquisition card sockets are respectively used for carrying out data transmission on camera audio and video information, monitor audio and video information, breathing machine audio and video information and an electronic medical record computer interface, and the corresponding number of code acquisition cards can be inserted according to requirements to acquire required audio and video signals, so that the input types and signal formats of the audio and video signals can be conveniently controlled.
The medical ward/sickbed monitoring system further comprises a master control platform 1, wherein the master control platform 1 is connected to each audio/video encoder 401, each audio/video decoder 601 and each display module 7, and is respectively used for controlling each audio/video encoder 401 to encode audio/video information, controlling each audio/video decoder 601 to decode the audio/video information and controlling each display module 7 to display the audio/video information of other sickbeds/sickbeds, and the display module 7 can display the audio/video information in an HDMI or VGA signal format.
The main control platform 1 is provided with a display capable of displaying all audio and video information decoded by the audio and video decoder 601, and the main control platform 1 is also used for controlling the display to display an audio and video display interface of any ward/sickbed and transmitting the audio and video information to the display module 7 of a specified ward/sickbed through the main control platform 1.
The main control platform 1 is further used for being connected to a breathing machine and a monitor in each ward/bed and receiving alarm signals sent by the breathing machine or the monitor, when the main control platform 1 receives the alarm signals sent by the breathing machine or the monitor, a display of the main control platform 1 can display the ward/bed where the breathing machine or the monitor sending the alarm signals is located and display the alarm signals on two display modules 7 of adjacent ward/beds of the ward/bed, and medical staff can control the storage module 9 to automatically store audio and video signals of alarm signal generation time periods through the main control platform 1.
Specifically, the main control platform 1 controls the storage module 9 to automatically store the time period of the occurrence of the alarm signal for one hour before the generation of the alarm signal is judged and one hour after the generation of the alarm signal is judged.
Further, the hospital ward/sickbed monitoring system also comprises an alarm module group 10 connected to the main control platform 1, wherein the alarm module group 10 comprises alarm modules arranged in each sickroom/sickbed, medical workers can remove alarm signals through buttons arranged on the alarm modules, and when the main control platform 1 judges that a respirator or a monitor in each sickroom/sickbed sends out alarm signals, the main control platform 1 controls two display modules of adjacent sickrooms/sickbeds of the sickroom/sickbed to display the alarm signals; when the main control platform 1 judges that the button arranged on the alarm module is not pressed within 10 seconds after the alarm signal is generated, the number of adjacent sick rooms/sick beds displaying the alarm signal is further increased, and the like until the main control platform 1 judges that the alarm signal is released. The main control platform 1 is further configured to receive an alarm signal sent by the alarm module group 10, and the patient can generate an alarm signal by pressing a button provided in an alarm module in any ward/hospital bed, and the alarm signal diffuses the alarm signal to each adjacent ward/hospital bed in the same manner until a medical worker presses the button provided in the alarm module again.
The operating system of the main control platform 1 is an embedded Linux operating system.
Further, the system comprises at least one mobile terminal 8 connected to each audio/video decoder 601, wherein the mobile terminal 8 is used for sending a display instruction or an electronic medical record operation instruction to the audio/video information decoded by the audio/video decoder 601 in any specified ward/sickbed, and the main control platform 1 is also used for receiving the display instruction or the electronic medical record operation instruction sent by the mobile terminal 8 and controlling the audio/video information decoded by the audio/video decoder 601 specified by the display instruction to be displayed at the mobile terminal 8; the family members of the patient can observe the audio and video information in the designated ward/sickbed through the mobile terminal 8 and transmit the audio and video information to the display module 7 in the designated ward/sickbed through the mobile terminal 8, and the main control platform is also used for setting a time period and controlling the mobile terminal 8 to display the audio and video information in the designated ward/sickbed in the set time period.
Further, the system also comprises a storage module 9 respectively connected to the main control platform 1 and the transmission module 5, and the main control platform 1 is also used for controlling the storage module 9 to store the audio and video information transmitted by the transmission module 5; the storage module 9 is provided with at least one serial hard disk, and each serial hard disk supports storing 10T audio and video information; the main control platform 1 can control the transmission module 5 to transmit the audio and video information stored in the storage module 9, decode the stored audio and video information through the audio and video decoder 601 and display the audio and video signals on the display module 7, and is also used for controlling the stored audio and video information to carry out operation instructions such as playback, intelligent detection, fast playback, slow playback and the like; the main control platform is provided with a mobile hard disk interface and can copy the stored audio and video information to the mobile hard disk through the mobile hard disk. The stored audio-video information can be used as research data and diagnosis basis of some diseases.
The utility model discloses a remote monitoring system, can pass through unified information processing with the multiple audio and video information of ward/sick bed after by the encoder code again, the decoder decodes and the transmission of network, at last transmit audio and video information to a plurality of display module, medical personnel can concern the audio and video information that the condition of patient and relevant instrument gathered in other ward/sick bed in arbitrary ward/sick bed, also can observe the audio and video information in any ward/sick bed at the master control platform, thereby needn't be tired to rush to each ward/sick bed, the audio and video information who gathers has a variety, more do benefit to medical personnel and judge patient's health condition; the patient room/hospital bed where the breathing machine or the monitor or the alarm module is located can generate an alarm signal, and an adjacent patient room/hospital bed which generates the alarm signal can be added every 10 seconds, so that the nearest medical personnel can receive the alarm signal and process the alarm signal, and the condition that a plurality of medical personnel process the alarm signal at the same time is avoided; the physical and mental pressure and the labor intensity of medical care personnel can be reduced, the medical safety is improved, the problem of shortage of intensive care professionals is solved, the ICU monitoring and treating level of communities and remote areas can be improved, the ICU fatality rate is reduced, the ICU hospitalization time is shortened, the implementation of the ICU optimal medical practice is promoted, and the medical safety is improved; different display modules and mobile terminals can carry out real-time audio-video interaction, so that medical personnel can communicate in real time conveniently, and various networks can be accessed; the remote monitoring system can also realize remote consultation or medical care guidance of medical care personnel, and can well carry out clinical teaching work, such as the work of learning in the visitation of students at school, and can also be opened to carry out network visiting for the family members of patients at set time intervals, so that the infection control requirement of an intensive care ward/sickbed and the isolation requirement that a special infection ward/sickbed cannot enter visiting can be well met.
It is right to have used specific individual example above the utility model discloses expound, only be used for helping to understand the utility model discloses, not be used for the restriction the utility model discloses. To the technical field of the utility model technical personnel, the foundation the utility model discloses an idea can also be made a plurality of simple deductions, warp or replacement.

Claims (6)

1. A remote monitoring system is characterized by comprising a monitoring unit (2), a coding acquisition card unit (3), an audio and video encoder unit (4), a transmission module (5), an audio and video decoder unit (6) and a display module (7) which are connected in sequence;
the system comprises at least two monitoring units (2), wherein each monitoring unit (2) is respectively arranged in different sickrooms/sickbeds and is used for acquiring audio and video information of the sickroom/sickbed in which the monitoring unit is arranged; each monitoring unit (2) corresponds to one coding acquisition card unit (3) one by one, and each coding acquisition card unit (3) is used for carrying out standardized processing on the audio and video information acquired by the corresponding monitoring unit (2); the audio and video encoder unit (4) comprises audio and video encoders (401) which are connected with the encoding acquisition card units (3) in a one-to-one correspondence manner, and each audio and video encoder (401) is used for encoding audio and video information after standardized processing; the transmission module (5) is connected to each audio and video encoder (401) and is used for transmitting encoded audio and video information; the audio and video decoder unit (6) comprises audio and video decoders (601) which are connected with the audio and video encoders (401) in a one-to-one correspondence mode, and the audio and video decoders (601) are respectively connected to the transmission module (5) and used for decoding encoded audio and video information; each audio/video decoder (601) corresponds to one display module (7) one by one, each display module (7) is respectively arranged in different sickrooms/beds, and the display module (7) in any sickroom/bed is used for displaying audio/video information of other sickrooms/beds;
the audio and video information comprises camera audio and video information, monitor audio and video information, breathing machine audio and video information and an electronic medical record computer interface, each audio and video encoder (401) comprises at least four encoding acquisition card sockets, each encoding acquisition card unit (3) comprises at least one encoding acquisition card, and each encoding acquisition card is respectively used for carrying out standardized processing on the camera audio and video information, the monitor audio and video information, the breathing machine audio and video information and the electronic medical record computer interface which are acquired by the monitor unit (2); when the four code acquisition card sockets are inserted with corresponding code acquisition cards, three of the code acquisition card sockets are respectively used for carrying out data transmission on camera audio and video information, monitor audio and video information and respirator audio and video information, and the code acquisition cards of a computer interface of the code electronic medical record also need to be accessed into a mouse and a keyboard for controlling the operation of the electronic medical record for signal input;
the multifunctional sickbed is characterized by further comprising a master control platform (1), wherein the master control platform (1) is connected to each audio and video encoder (401), each audio and video decoder (601) and each display module (7) and is respectively used for controlling each audio and video encoder (401) to encode audio and video information, controlling each audio and video decoder (601) to decode the audio and video information and controlling each display module (7) to display the audio and video information of other sickbeds/sickbeds.
2. The telemonitoring system according to claim 1, further comprising a storage module (9) connected to the master control platform (1) and the transmission module (5), respectively, wherein the master control platform (1) is further configured to control the storage module (9) to store the audio/video information transmitted by the transmission module (5).
3. Telemonitoring system according to claim 2, characterized in that the master platform (1) has a display capable of displaying all audio-visual information decoded by the audio-visual decoder (601).
4. The remote monitoring system according to claim 3, wherein the main control platform (1) is further configured to be connected to a ventilator or a monitor in each ward/bed and receive an alarm signal sent by the ventilator or the monitor, when the main control platform (1) receives an alarm signal sent by the ventilator or the monitor, the display of the main control platform (1) displays the ward/bed where the ventilator or the monitor sending the alarm signal is located and displays the alarm signal on two display modules (7) of adjacent wards/beds of the ward/bed, and the medical staff can control the storage module (9) to automatically store the audio/video signal of the alarm signal generation time period through the main control platform (1).
5. The remote monitoring system according to claim 4, further comprising an alarm module group (10) connected to the main control platform (1), wherein the alarm module group (10) comprises alarm modules disposed in each ward/bed, and medical staff can release the alarm signal through a button disposed in the alarm module, and when the main control platform (1) determines that the ventilator or monitor in the ward/bed sends out an alarm signal, the main control platform (1) controls two display modules of adjacent ward/bed of the ward/bed to display the alarm signal; when the main control platform (1) judges that the button arranged on the alarm module is not pressed within 10 seconds after the alarm signal is generated, the number of the adjacent sick rooms/sick beds displaying the alarm signal is further increased.
6. The telemonitoring system according to any one of claims 1 to 5, wherein the operating system of the master platform (1) is an embedded Linux operating system.
CN202022692133.3U 2020-11-18 2020-11-18 Remote monitoring system Active CN213586057U (en)

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CN202022692133.3U CN213586057U (en) 2020-11-18 2020-11-18 Remote monitoring system

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CN202022692133.3U CN213586057U (en) 2020-11-18 2020-11-18 Remote monitoring system

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Effective date of registration: 20220627

Address after: 310006 902- (902), building 1, science and technology innovation building, No. 958, Dayuan Road, Qingshanhu street, Lin'an District, Hangzhou, Zhejiang Province

Patentee after: Xiaoting record (Hangzhou) Technology Co.,Ltd.

Address before: 325000 No.02, east medical street, 1st floor, building 2, Shangcai village, nanbaixiang street, Ouhai District, Wenzhou City, Zhejiang Province

Patentee before: Wenzhou Fuyi science and Trade Co.,Ltd.

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Address after: Room 521, Building 7, Tianhui Future Guangcheng, Liangzhu Street, Yuhang District, Hangzhou City, Zhejiang Province, 310000

Patentee after: Hangzhou Yiwu Technology Co.,Ltd.

Address before: 310006 902- (902), building 1, science and technology innovation building, No. 958, Dayuan Road, Qingshanhu street, Lin'an District, Hangzhou, Zhejiang Province

Patentee before: Xiaoting record (Hangzhou) Technology Co.,Ltd.