CN220605928U - Medical time synchronization system - Google Patents
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- CN220605928U CN220605928U CN202320234373.XU CN202320234373U CN220605928U CN 220605928 U CN220605928 U CN 220605928U CN 202320234373 U CN202320234373 U CN 202320234373U CN 220605928 U CN220605928 U CN 220605928U
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- 238000011282 treatment Methods 0.000 claims abstract description 41
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- 238000003908 quality control method Methods 0.000 abstract description 4
- 238000013523 data management Methods 0.000 abstract description 3
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Abstract
The embodiment of the application provides a medical time synchronization system, which comprises: the system comprises a patient end, an ambulance end, a hospital end and a time server, wherein the patient end comprises a first time recording module and a first wireless communication module, the ambulance end is in communication connection with the time server and is used for synchronizing time information in the time server, and the system comprises a second wireless communication module, which is in pairing connection with the first wireless communication module and is used for synchronizing the time information to the first time recording module; the hospital end is in communication connection with the time server and is used for synchronizing time information in the time server, and the hospital end comprises at least one third wireless communication module which is used for being in pairing connection with the first wireless communication module and synchronizing the time information to the first time recording module. In the whole diagnosis and treatment process, the time nodes of each link are also unified time nodes to more objectively record diagnosis and treatment process data of patients, and accurate data are provided for data quality control and diagnosis and treatment data management.
Description
Technical Field
The utility model relates to the field of emergency treatment, in particular to a medical time synchronization system.
Background
In rescue or treatment where the burst time results in a health crisis for personnel, competing for seconds to win the rescue time is critical for the person being rescued. Thus, emergency systems play an important role therein.
In the related art, the time point of diagnosis and treatment before the hospital to the hospital is often manually recorded, for example, after an ambulance receives a patient, the time of receiving the patient is recorded by medical staff, the hospital is started, the hospital is checked in, when the hospital arrives at a clinic, the time of arriving at the clinic is recorded by nurses or doctors, the subsequent examination is performed, the hospital enters an operating room, and after the operation is completed, the manual record is performed on each diagnosis and treatment node such as the operating room, or the examination record of the examination equipment is derived, however, the manual record is often obtained and recorded in a form of a watch, and the examination record of the equipment is often the time information of the examination equipment itself, and the time information among different equipment may be different, so that the time data of each diagnosis and treatment stage of the patient from the hospital to the hospital is not objective enough, which may cause difficulty in accurately recording each time node and consumed time in the diagnosis and treatment process of the patient, cause errors in management and quality control of the medical data to be inaccurate, and even cause errors.
Therefore, how to unify the time data recorded by each diagnosis and treatment node in front of and in the hospital is a technical problem to be solved.
Disclosure of Invention
The application provides a medical time synchronization system, which at least solves the technical problem of how to unify the time data recorded by each diagnosis and treatment node in front of and in a hospital in the related technology.
The embodiment of the application provides a medical time synchronization system, which comprises: the system comprises a patient end, an ambulance end, a hospital end and a time server, wherein the patient end comprises a first time recording module and a first wireless communication module, the ambulance end is in communication connection with the time server and is used for synchronizing time information in the time server, and the system comprises a second wireless communication module, which is in pairing connection with the first wireless communication module and is used for synchronizing the time information to the first time recording module; the hospital end is in communication connection with the time server and is used for synchronizing time information in the time server, and the hospital end comprises at least one third wireless communication module which is used for being in pairing connection with the first wireless communication module and synchronizing the time information to the first time recording module.
Optionally, the second wireless communication module and the third wireless communication module have set wireless signal coverage areas, and when the first wireless communication module enters the wireless signal coverage areas, the first wireless communication module and the second wireless communication module are connected in a pairing manner or the first wireless communication module and the third wireless communication module are connected in a pairing manner.
Optionally, the hospital end includes a plurality of diagnosis nodes, and the third wireless communication module is installed at a set position of at least part of the diagnosis nodes in the plurality of diagnosis nodes.
Optionally, the diagnosis and treat node includes at least part of an admission collection node, an emergency/outpatient service node, an examination room node, an operating room node, an ICU node, and an inpatient node, and the third wireless communication module is installed at an entrance of the diagnosis and treat node.
Optionally, the diagnosis and treatment device further comprises a fourth wireless communication module, the fourth wireless communication module is installed on the diagnosis and treatment device, the diagnosis and treatment device is in communication connection with the time server, and when the diagnosis and treatment device is in a working state, the first wireless communication module can be in pairing connection with the fourth wireless communication module, so that the working time information of the diagnosis and treatment device is synchronized to the patient side.
Optionally, the system further comprises a medical care end which is in communication connection with the time server and is used for synchronizing the time information.
Optionally, the system further comprises a satellite time information receiver which is respectively communicated with the time server and the satellite and is used for receiving the time information of the satellite and synchronizing the time information to the time server.
Optionally, the ambulance end and/or the hospital end further comprise a second time recording module for recording the time information.
Optionally, the system further comprises a time display device, which is arranged at the ambulance end and/or the hospital end, is connected with the second time recording module and is used for displaying the time information.
Optionally, the first wireless communication module, the second wireless communication module and the third wireless communication module include: and a Bluetooth communication module.
The embodiment of the application provides a medical time synchronization system, which comprises: the system comprises a patient end, an ambulance end, a hospital end and a time server, wherein the patient end comprises a first time recording module and a first wireless communication module, the ambulance end is in communication connection with the time server and is used for synchronizing time information in the time server, and the system comprises a second wireless communication module, which is in pairing connection with the first wireless communication module and is used for synchronizing the time information to the first time recording module; the hospital end is in communication connection with the time server and is used for synchronizing time information in the time server, and the hospital end comprises at least one third wireless communication module which is used for being in pairing connection with the first wireless communication module and synchronizing the time information to the first time recording module. The time server is respectively connected with the ambulance end in front of the hospital and the hospital end in the hospital, and the time information in the time server is respectively synchronized to the ambulance end and the hospital end, so that the time information at the ambulance end and the hospital end is unified time information, after a patient arrives at the ambulance, the first wireless communication module at the patient end can be in pairing communication with the second wireless communication module after the patient end is started, the second wireless communication module can transmit the time information synchronized at the ambulance end to the patient end, the patient end can record the time point of the current boarding (the first wireless communication module is in pairing connection with the second wireless communication module) through the first time recording module, after the hospital is reached, the current time information at the hospital end is synchronized to the patient end through the first time recording module, the patient end can record the unified important time node from the front of the hospital to the hospital, and the time node is the time point synchronized, so that the diagnosis and treatment time can be more accurate than the first wireless communication module is in the whole time server, and the diagnosis and treatment time can be more accurate than the diagnosis and treatment time nodes in each time. More objectively records diagnosis and treatment flow data of patients, and provides accurate data for data quality control and diagnosis and treatment data management.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the utility model and together with the description, serve to explain the principles of the utility model.
In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, and it will be obvious to a person skilled in the art that other drawings can be obtained from these drawings without inventive effort.
FIG. 1 is a modular schematic diagram of an exemplary medical time synchronization system according to an embodiment of the present application;
FIG. 2 is a modular schematic diagram of another exemplary medical time synchronization system according to an embodiment of the present application
Fig. 3 is a schematic diagram of an exemplary diagnosis and treatment process according to an embodiment of the present application.
Detailed Description
In order to make the present application solution better understood by those skilled in the art, the following description will be made in detail and with reference to the accompanying drawings in the embodiments of the present application, it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, shall fall within the scope of the present application.
It should be noted that the terms "first," "second," and the like in the description and claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that embodiments of the present application described herein may be implemented in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.
The embodiment of the application provides a medical time synchronization system, which comprises: the patient side 10, ambulance side 20, hospital side 30 and time server 40 may be connected to the hospital side 30 by wired communication, or by wireless communication, such as WIFI, cellular network, etc., as exemplary embodiments.
The patient end 10 includes a first time recording module 12 and a first wireless communication module 11, the ambulance end 20 is communicatively connected with the time server 40, and is configured to synchronize time information in the time server 40, and includes a second wireless communication module 21, which is configured to be coupled with the first wireless communication module 11 in a pairing manner, and synchronize the time information to the first time recording module 12; the hospital end 30 is communicatively connected to the time server 40, and is configured to synchronize time information in the time server 40, and includes at least one third wireless communication module 31, configured to be coupled to the first wireless communication module 11 in a pairing manner, and to synchronize the time information to the first time recording module 12.
In the present application, the time server 40 is respectively connected with the ambulance terminal 20 before the hospital and the hospital terminal 30 in the hospital, and the time information in the time server 40 is respectively synchronized to the ambulance terminal 20 and the hospital terminal 30, so that after the patient arrives at the ambulance, the first wireless communication module 11 of the patient terminal 10 can be in paired communication with the second wireless communication module 21 after the patient terminal 10 is started, the second wireless communication module 21 can transmit the time information synchronized with the ambulance terminal 20 to the patient terminal 10, the patient terminal 10 can record the time point of the current boarding (the first wireless communication module 11 is paired with the second wireless communication module 21) through the first time recording module 12, after the hospital is reached, the third wireless communication module 31 of the hospital terminal 30 can be paired with the first wireless communication module 11, the current time information of the hospital terminal 30 is synchronized to the patient terminal 10, the patient terminal 10 can record the current time point (the first wireless communication module 11 is paired with the first wireless communication module), so that the time point of the patient terminal 10 can be more important in the diagnosis and treatment process, and treatment process can be completed in the same time point as the respective nodes, and the time point of the diagnosis and treatment process can be more important in the diagnosis and treatment process. More objectively records diagnosis and treatment flow data of patients, and provides accurate data for data quality control and diagnosis and treatment data management.
As an exemplary embodiment, the patient end 10 may be any form of a bracelet, a card, and a wearable diagnosis and treatment information card, in this embodiment, a bracelet may be taken as an example, and the patient end 10 may include a first time recording module 12, where the first time recording module 12 may be a memory, for example, may be a non-transitory readable memory. The memory card may be an external memory card or an integrated memory chip, which is not limited in this embodiment.
As an exemplary embodiment, the ambulance end 20 may be mounted in or on an ambulance or on a medical device in an ambulance. The ambulance end 20 may be connected to the time server 40 by wireless communication, and thus the ambulance end 20 may comprise a 4G, 5G, etc. wireless communication module to communicate with the time server 40. The ambulance end 20 further comprises a second wireless communication module 21 capable of being in paired communication connection with the first wireless communication module 11, and after the patient end 10 is started up or after the patient wears the ambulance end, the first wireless communication module 11 is enabled to be in paired connection with the same wireless communication modules around. After successful pairing, the current time information of the ambulance end 20 may be synchronized to the patient end 10 and recorded by the first time recording module 12.
The hospital end 30 can be installed in various places, i.e., some important medical nodes can be installed. Illustratively, the hospital end 30 may be connected to the time server 40 by wireless communication, and thus, the hospital end 30 may include a wireless communication module such as 4G, 5G, etc. to communicate with the time server 40. The hospital end 30 further comprises a third wireless communication module 31 capable of being in mating communication connection with the first wireless communication module 11, wherein the third wireless communication module 31 can be installed at various medical nodes in the hospital, in particular medical nodes involving emergency services, e.g. at hospital gates, emergency room gates, operating room gates, etc. When the patient wears the patient terminal 10 and reaches each diagnosis and treatment node of the hospital, the first wireless communication module 11 and the third wireless communication module 31 are connected in a pairing mode, the hospital terminal 30 transmits current time information to the patient terminal 10 through the first wireless communication module 11 and the third wireless communication module 31, and the first time recording module 12 records the time point when a certain diagnosis and treatment node is reached.
As an exemplary embodiment, the first wireless communication module 11, the second wireless communication module 21, and the third wireless communication module 31 may be bluetooth modules, RFID modules, or NFC modules. That is, a module capable of realizing near field communication is applicable to the present embodiment.
In order to record the current time node more conveniently, a bluetooth module with a larger communication range can be adopted in the embodiment, and the emergency patient can be inconvenient to move, and the NFC module needs to be close to the RFID module to pair for communication, which may require patient operation or staff operation, and the communication distance of the bluetooth module is several meters or tens of meters, so that the pairing can be completed only by reaching the coverage range of bluetooth without the need of the patient or staff to operate again. The time information can be recorded more conveniently and accurately.
As an exemplary embodiment, taking a bluetooth module as an example, as shown in fig. 2, the second wireless communication module 21 and the third wireless communication module 31 have a set wireless signal coverage area, and when the first wireless communication module 11 enters the wireless signal coverage area, the first wireless communication module 11 and the second wireless communication module 21 are connected in a pairing manner or the first wireless communication module 11 and the third wireless communication module 31 are connected in a pairing manner.
For example, in the patient diagnosis and treatment line shown in fig. 2, the dashed coverage portion may represent the signal coverage, and when the patient reaches the signal coverage of the second wireless communication module 21 of the ambulance, the patient end 10 may automatically record the current time information, and when the patient reaches the diagnosis and treatment node in the hospital, for example, enters the hospital, the patient may record the time of entering the hospital through the signal coverage of the third wireless communication module 31 at the entrance of the hospital. The time recording is more convenient and accurate.
As shown in fig. 2, the hospital end 30 includes a plurality of diagnosis nodes, and the third wireless communication module 31 is installed at a set position of at least some of the plurality of diagnosis nodes. Illustratively, the treatment node includes at least some of an admission collection node, an emergency/outpatient node, an examination room node, an operating room node, an ICU node, and an hospitalization node, and the third wireless communication module 31 is installed at an entrance of the treatment node.
Illustratively, the third wireless communication module 31 may be disposed at an admission acquisition portal, an emergency/clinic portal, an examination room portal, an operating room portal, an ICU portal, a hospitalization portal, and when the patient reaches any node, the first wireless communication module 11 may pair with the third wireless communication module 31, synchronize the current time information of the hospital end 30 to the patient end 10, and record as long as the signal coverage of the third wireless communication module 31 is entered.
As an exemplary embodiment, the medical time synchronization system may further include a fourth wireless communication module, which is installed on a medical device, and the medical device is communicatively connected to the time server 40, and in a working state of the medical device, the first wireless communication module 11 may be connected to the fourth wireless communication module in a pairing manner, so as to synchronize working time information of the medical device to the patient end 10.
When a patient performs an examination, a time node of the examination needs to be recorded, and the examination device often records own time information, which may be inconsistent with the time information of the hospital end 30 or other devices, may cause errors in the time node in the diagnosis and treatment process, or may not record the time accurately, or even may occur that the time of the examination is earlier than the time of entering the emergency room, so that the examination device also needs to be in communication connection with the time server 40 to synchronize the time information in the time server 40, and when the patient performs the examination, the first wireless communication module 11 can be paired with the fourth wireless communication module to synchronize the working time information of the diagnosis and treatment device to the patient end 10.
As an exemplary embodiment, the system may further include a medical care end, where the time required for recording by the medical care end may be consistent with the time of receiving the patient, and in this embodiment, the medical care end is communicatively connected to the time server 40 for synchronizing the time information, and in this embodiment, the medical care end may include a medical care end such as a mobile phone, a PAD, and may further include a medical care end such as a medical care computer, a notebook, and so on, so as to ensure that the time information of the medical care personnel is consistent with the time information of the patient, the time information of the hospital end 30, the ambulance end 20, and so on.
As an exemplary embodiment, the medical care end may also include a wireless communication module capable of being paired with the first wireless communication module 11, and the medical care node may perform time synchronization on time information of occurrence of medical care to the patient end 10.
As an exemplary embodiment, as shown in fig. 3, the system may further include a satellite time information receiver 50 in communication with the time server 40 and the satellite, respectively, for receiving time information of the satellite and synchronizing the time information to the time server 40.
Optionally, the ambulance end 20 and/or the hospital end 30 further comprise a second time recording module and a time display device to record and display time information. As an exemplary embodiment, the second time recording module may be a memory, for example, a removable memory or an integrated memory chip.
As an exemplary embodiment, the time display device may be a time display screen provided in an ambulance, in a hospital or on an examination apparatus so that a medical staff, a patient, etc. can conveniently observe the present time, and all the displayed times are uniform times.
In the foregoing embodiments of the present application, the descriptions of the embodiments are emphasized, and for a portion of this disclosure that is not described in detail in this embodiment, reference is made to the related descriptions of other embodiments.
The foregoing is merely a preferred embodiment of the present application and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present application and are intended to be comprehended within the scope of the present application.
Claims (10)
1. A medical time synchronization system, comprising: a patient end, an ambulance end, a hospital end and a time server, wherein,
the patient end comprises a first time recording module and a first wireless communication module, the ambulance end is in communication connection with the time server and is used for synchronizing time information in the time server, and the patient end comprises a second wireless communication module which is in pairing connection with the first wireless communication module and is used for synchronizing the time information to the first time recording module; the hospital end is in communication connection with the time server and is used for synchronizing time information in the time server, and the hospital end comprises at least one third wireless communication module which is used for being in pairing connection with the first wireless communication module and synchronizing the time information to the first time recording module.
2. The medical time synchronization system of claim 1, wherein the second wireless communication module and the third wireless communication module have a set wireless signal coverage area, and wherein the first wireless communication module and the second wireless communication module are coupled in pairs or the first wireless communication module and the third wireless communication module are coupled in pairs when the first wireless communication module enters the wireless signal coverage area.
3. The medical time synchronization system of claim 1, wherein the hospital end comprises a plurality of nodes of diagnosis and treatment, and the third wireless communication module is installed at a set position of at least some of the nodes of diagnosis and treatment.
4. The medical time synchronization system of claim 3, wherein the treatment node comprises at least a portion of an admission acquisition node, an emergency/outpatient node, an examination room node, an operating room node, an ICU node, a hospitalization node, and the third wireless communication module is mounted at an entrance of the treatment node.
5. The medical time synchronization system of claim 1, further comprising a fourth wireless communication module mounted on a medical device, the medical device being communicatively connected to the time server, the first wireless communication module being capable of being paired with the fourth wireless communication module when the medical device is in an operational state, to synchronize operational time information of the medical device to the patient side.
6. The medical time synchronization system of claim 1, further comprising a healthcare end communicatively coupled to the time server for synchronizing the time information.
7. The medical time synchronization system of claim 1, further comprising a satellite time information receiver in communication with the time server and satellite, respectively, for receiving time information of the satellite and synchronizing the time information to the time server.
8. The medical time synchronization system of claim 1, wherein the ambulance end and/or the hospital end further comprises a second time recording module for recording the time information.
9. The medical time synchronization system of claim 8, further comprising a time display device disposed at the ambulance end and/or the hospital end and connected to the second time recording module for displaying the time information.
10. The medical time synchronization system of claim 1, wherein the first wireless communication module, the second wireless communication module, and the third wireless communication comprise: and a Bluetooth communication module.
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| CN202320234373.XU CN220605928U (en) | 2023-02-07 | 2023-02-07 | Medical time synchronization system |
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| CN202320234373.XU CN220605928U (en) | 2023-02-07 | 2023-02-07 | Medical time synchronization system |
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