CN116363832B - Full-scene wisdom ward allies oneself with news nursing system - Google Patents
Full-scene wisdom ward allies oneself with news nursing system Download PDFInfo
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Classifications
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B21/00—Alarms responsive to a single specified undesired or abnormal condition and not otherwise provided for
- G08B21/02—Alarms for ensuring the safety of persons
- G08B21/04—Alarms for ensuring the safety of persons responsive to non-activity, e.g. of elderly persons
- G08B21/0438—Sensor means for detecting
- G08B21/0461—Sensor means for detecting integrated or attached to an item closely associated with the person but not worn by the person, e.g. chair, walking stick, bed sensor
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/02—Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
- A61B5/0205—Simultaneously evaluating both cardiovascular conditions and different types of body conditions, e.g. heart and respiratory condition
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/02—Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
- A61B5/0205—Simultaneously evaluating both cardiovascular conditions and different types of body conditions, e.g. heart and respiratory condition
- A61B5/02055—Simultaneously evaluating both cardiovascular condition and temperature
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B21/00—Alarms responsive to a single specified undesired or abnormal condition and not otherwise provided for
- G08B21/18—Status alarms
- G08B21/24—Reminder alarms, e.g. anti-loss alarms
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- G—PHYSICS
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- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B25/00—Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems
- G08B25/01—Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium
- G08B25/08—Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium using communication transmission lines
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B3/00—Audible signalling systems; Audible personal calling systems
- G08B3/10—Audible signalling systems; Audible personal calling systems using electric transmission; using electromagnetic transmission
- G08B3/1008—Personal calling arrangements or devices, i.e. paging systems
- G08B3/1016—Personal calling arrangements or devices, i.e. paging systems using wireless transmission
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M11/00—Telephonic communication systems specially adapted for combination with other electrical systems
- H04M11/02—Telephonic communication systems specially adapted for combination with other electrical systems with bell or annunciator systems
- H04M11/027—Annunciator systems for hospitals
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
Abstract
The invention relates to the technical field of medical communication, in particular to a full-scene intelligent ward communication nursing system, which comprises a bedside terminal device, a high-speed information transmission bus, a ward management host and a communication system, wherein the bedside terminal device is used for monitoring the physiological state of a patient, acquiring real-time monitoring information, the high-speed information transmission bus is used for connecting the bedside terminal devices with each other and uploading the real-time monitoring information, the ward management host is used for acquiring the real-time monitoring information, the purpose monitoring information is acquired by screening the real-time monitoring information, the acquisition frequency of the real-time monitoring information is adjusted, node data is acquired, and a second alarm signal is generated according to the node data; the bedside call terminal is used for monitoring and identifying the voice of the patient through voice; and the nursing call terminal is used for respectively establishing communication between the nursing station and the nurse station and between the nursing station and the medical station, and forwarding a call generated by the bedside call terminal during hosting. The invention improves the integration level of the sick house information, improves the utilization rate of medical resources and improves the management efficiency of hospitals on medical objects.
Description
Technical Field
The invention relates to the technical field of medical communication, in particular to a communication nursing system for a full-scene intelligent ward.
Background
With the increasing degree of social aging, the number of old people who stay in hospitals for a long time is increased. Many hospitals have limited medical resources, special persons cannot be realized, ward information in the existing hospitals is excessively fragmented, and the medical resource utilization rate is low, so that the management efficiency of the hospitals on medical objects is low.
Patent document publication No. CN110121047a discloses a smart ward care system including an HIS server, a cloud server, a mobile terminal server, a head card server, a nurse station video phone, a head card terminal, and a mobile terminal; the cloud server, the mobile terminal server and the head card server are respectively in bidirectional communication connection with the HIS server; the bedside card terminal is in communication connection with the bedside card server; the mobile terminal is in communication connection with the mobile terminal server. However, in the prior art, the ward information integration level and the high medical resource utilization rate are limited, so that the ward information is fragmented, and the medical resource utilization rate is low.
Disclosure of Invention
Therefore, the invention provides a full-scene intelligent ward communication nursing system, which solves the problems of fragmentation of ward information and low medical resource utilization rate.
In order to achieve the above-mentioned object, the present invention provides a full-scene intelligent ward communication nursing system, comprising:
the bedside terminal equipment is arranged beside the patient's bedside and used for monitoring the physiological state of the patient, acquiring real-time monitoring information, generating a first alarm signal according to the real-time monitoring information, acquiring the transfusion condition and generating a reminding signal after the transfusion is finished;
the high-speed information transmission bus is used for connecting the bedside terminal devices with each other and uploading the real-time monitoring information, so that the real-time property of data is ensured, the function of a wireless access point is provided, and auxiliary measurement and monitoring equipment is expanded to access a network;
the ward management host is connected with the high-speed information transmission bus, acquires the real-time monitoring information, screens the real-time monitoring information to acquire target monitoring information, acquires node data by adjusting the acquisition frequency of acquiring the real-time monitoring information, and generates a second alarm signal according to the node data;
the bedside calling terminal is arranged beside the patient, and the voice calling function is realized by voice monitoring and identifying the patient voice, so that the patient can talk and talkback with the nursing station through the bedside calling terminal when the movement of the patient is blocked;
the nursing calling terminal is arranged in the nursing station and is respectively in wireless connection with the bedside terminal equipment, the bedside calling terminal and the ward management host, and is used for respectively establishing communication between the nursing station and the nurse station as well as between the nursing station and the medical station, and forwarding a call generated by the bedside calling terminal during hosting.
Further, the bedside terminal equipment comprises a physiological state monitoring module, an injection monitoring module, a signal generating module, a blocking module and a display module;
the physiological state monitoring module is used for acquiring real-time monitoring information, wherein the real-time monitoring information comprises the real-time heartbeat frequency, the real-time body temperature, the real-time blood pressure and the respiratory frequency of a patient, and comprises a heartbeat frequency monitoring sub-module, a body temperature monitoring sub-module, a blood pressure monitoring sub-module and a respiratory frequency monitoring sub-module, wherein the heartbeat frequency monitoring sub-module is used for acquiring the real-time heartbeat frequency Ht of the patient, the body temperature monitoring sub-module is used for acquiring the real-time body temperature Tt of the patient, the blood pressure monitoring sub-module is used for acquiring the real-time blood pressure Bt respiratory frequency monitoring sub-module of the patient, and the t is the generation time of the real-time monitoring information;
the injection monitoring module is arranged on the injection frame and used for acquiring the flow rate l of the injection;
the signal generation module is respectively connected with the physiological state monitoring module and the injection monitoring module and is used for generating a first alarm signal according to the real-time monitoring information and generating a reminding signal when transfusion is finished;
the blocking module is connected with the signal generating module and used for stopping injection when receiving the reminding signal;
the display module is connected with the physiological state monitoring module and used for visualizing the real-time monitoring information of the patient.
Further, the signal generation module comprises a first preset sub-module and a judging sub-module;
the first preset submodule is preset with dangerous physiological state information corresponding to the real-time monitoring information, and the dangerous physiological state information comprises a heartbeat fastest frequency Hx, a heartbeat lowest frequency Hn, a high-voltage maximum value Bx, a low-voltage minimum value Bn, a body highest temperature Tx, a body lowest temperature Tn, a respiration fastest frequency Wx, a respiration lowest frequency Wn and a required injection quantity L;
the judging sub-module is used for generating a first alarm signal according to the real-time monitoring information, and generating a reminding signal after transfusion is finished comprises:
when the real-time monitoring information does not accord with the first judgment condition, a first alarm signal is generated;
when l=l, generating a reminding signal;
the first judgment condition is that Hn is less than or equal to Ht and less than or equal to Hx, tn is less than or equal to Tt and less than or equal to Tx, wn is less than or equal to Wt and less than or equal to Wx, and Bn is less than or equal to Bt and less than or equal to Bx.
Further, the high-speed information transmission bus comprises a time data acquisition module, a competition algorithm module, an uploading module and a wireless access module;
the time data acquisition module is used for acquiring the generation time t and the information acquisition time ti of the real-time monitoring information;
the competition algorithm module is used for judging the priority of uploading the real-time monitoring information according to the difference tdelta between the generation time t of the real-time monitoring information and the information acquisition time ti;
the uploading module is respectively connected with the data acquisition module and the competition algorithm module and is used for uploading the real-time monitoring information according to the uploading priority of the data.
Further, the competition algorithm module is configured to determine the priority of data uploading according to the difference tδ between the generation time t and the information acquisition time ti of the real-time monitoring information, where the determining includes:
the competition algorithm module is set with a system response time t0;
when tdelta accords with a second judging condition, judging that the uploading priority of the real-time monitoring information is a first priority;
when tdelta accords with a third judging condition, judging that the uploading priority of the real-time monitoring information is a second priority;
when tdelta accords with a fourth judging condition, judging that the uploading priority of the real-time monitoring information is a third priority;
the second judgment condition is tdelta more than or equal to 2t0, the third judgment condition is t0 < tdelta less than 2t0, and the fourth judgment condition is tdelta less than or equal to t0.
Further, the ward management host comprises a data information acquisition module, a data screening module, an acquisition frequency adjustment module and an alarm module;
the data information acquisition module is used for acquiring the real-time monitoring information;
the data screening module is configured to screen the obtained real-time monitoring information, and includes:
judging the real-time monitoring information by utilizing a fifth judging condition to acquire the target information;
the fifth judging condition is that Hn is less than or equal to Ht is less than or equal to Hx or Tn is less than or equal to Tt is less than or equal to Tx or Wn is less than or equal to Wt is less than or equal to Wx or Bn is less than or equal to Bt is less than or equal to Bx;
the acquisition frequency adjustment module is used for adjusting the acquisition frequency of the target information so as to acquire node data;
the alarm module is used for generating a second alarm signal according to the node data.
Further, the acquisition frequency adjustment module comprises a second preset sub-module, a node information acquisition module and an adjustment module;
the second preset submodule is preset with an acquisition frequency a, a heartbeat change value Hc, a blood pressure change value Bc, a body temperature change value Tc and a respiration change value Wc;
the node information acquisition module is configured to acquire node information according to an acquisition frequency, and includes:
test node information is obtained according to equation (1),
;
node information is obtained according to formula (2),
;
obtaining a node information difference value according to a formula (3),
;
the adjusting module is configured to adjust the detection frequency according to the node information difference value, and includes:
when the node information difference value meets a sixth judgment condition, the original detection frequency a is adjusted to be a/2;
when the node information difference value does not meet a sixth judgment condition, the original detection frequency is not adjusted;
the sixth judgment condition is that Ha3 is more than or equal to Hc or Ta3 is more than or equal to Tc or Wa3 is more than or equal to Wc or Ba3 is more than or equal to Bc.
Further, the alarm module is configured to generate a second alarm signal according to the number of detection frequency adjustments, including:
setting the maximum out-of-limit threshold value as n times;
and when the frequency of detection frequency adjustment reaches a set maximum out-of-limit threshold value, generating a second alarm signal.
Further, the bedside call terminal comprises a voice sending module, a manual sending module and a voice call module;
the voice sending module is used for identifying the voice of a patient, and when the patient sends out a specific word, a call request is generated;
the manual sending module is used for manually generating a call request;
the voice communication module is respectively connected with the voice transmission module and the manual transmission module and used for establishing communication and intercom with the nursing station according to the communication request.
Further, the nursing calling terminal comprises a nursing calling nurse station sub-terminal and a nursing calling doctor on-duty sub-terminal;
the nursing call nurse station sub-terminal is used for establishing communication and intercom between the nursing station and the nurse station and comprises a management machine and an auxiliary machine, wherein the management machine is also provided with a communication request function for receiving the bedside call terminal, and the auxiliary machine is only provided with a communication and intercom function for establishing communication and intercom between the nursing station and the nurse station;
the nursing calling doctor guard sub-terminal is used for establishing a call between a nursing station and a guard medical station, is connected with a plurality of bedside calling terminals, has a hosting function, and can forward the received call request to the management machine.
Compared with the prior art, the method has the beneficial effects that the real-time monitoring information is acquired through the bedside terminal equipment, the first alarm signal is generated according to the real-time monitoring information, the transfusion condition is acquired, the reminding signal is generated after the transfusion is finished, the bedside terminal equipment is connected through the high-speed information transmission bus and uploads the real-time monitoring information, the real-time performance of data is guaranteed, the function of a wireless access point is provided, other auxiliary measuring and monitoring equipment is expanded to access a network, the real-time monitoring information is acquired through the ward management host, the real-time monitoring information acquired through screening the real-time monitoring information is acquired through adjusting the acquisition frequency of the real-time monitoring information, node data is acquired, the second alarm signal is generated according to the node data, the nursing station is communicated with the nursing station through the bedside calling terminal when the movement of a patient is blocked, the nursing station is communicated with the nurse station through the nursing calling terminal, the medical station is communicated with the nursing station, the integrated level of the information of a patient room is improved, the medical resource utilization rate is improved, and the management efficiency of a medical patient on a medical object is improved.
In particular, the physiological monitoring module of the bedside terminal equipment can monitor the real-time heartbeat frequency, the real-time body temperature, the real-time blood pressure and the respiratory frequency of a patient and acquire the omnibearing physiological state information of the patient, so that nursing staff can know the current physical state of the patient, the safety of the patient is ensured, and the injection monitoring module can acquire the flow of injection.
In particular, through the signal generation module, can produce alarm signal when patient's health is in abnormal state, ensured patient's safety, produce the warning signal after the infusion finishes, prevent the module to be used for stopping the injection when receiving the warning signal for medical personnel need not keep on duty for a long time in the ward, improved medical resource's utilization efficiency, display module can demonstrate patient's physiological state in real time, and medical personnel is convenient for know patient's health state.
In particular, the priority of data uploading is judged according to the delay time through the competition algorithm module, the real-time performance of the data is guaranteed, the safety of a patient is guaranteed, other auxiliary measuring and monitoring equipment such as nuclear magnetic CT equipment which is inconvenient to access a system in a wired mode is conveniently expanded through the wireless access module, and the access network provides a data transmission channel, so that the integration level of the information of a sick house is improved.
In particular, the priority of data uploading is judged according to the delay time through the competition algorithm module, so that the data uploading is more efficient.
In particular, the real-time monitoring information is screened through the data information acquisition module, the data screening module, the acquisition frequency adjustment module and the alarm module, the real-time monitoring information of the screened monitoring information is acquired, the acquisition frequency of the real-time monitoring information is adjusted and acquired, the node data are acquired, a large amount of real-time data are reduced, the relative transmission flux of the nursing system is improved, the application range of the nursing system is enlarged, the possible risks are processed, and the safety of patients is ensured.
In particular, the second preset submodule is preset with the acquisition frequency a, so that a large amount of real-time monitoring data are summarized into monitoring data in each time period, the physiological state of a patient in each time period is obtained, the difference value of the detection data of each time period is compared with a preset change value, the physiological change condition of the patient is obtained, the disease development of the patient is known, and the safety of the patient is ensured.
In particular, when the action of a patient is blocked through the bedside calling terminal, the bedside calling terminal is started in a shouting mode, so that a nursing station can know the abnormal condition of the patient in time, and the risk of medical accidents is reduced.
Particularly, through nursing call terminal with head of a bed terminal, head of a bed call terminal and ward management host computer wireless connection for establish the communication with nurse station and medical station respectively with the nursing station, forward the call that the head of a bed call terminal produced when the host computer, promote the management efficiency of hospital to medical object.
Drawings
FIG. 1 is a schematic diagram of a first architecture of a full scene intelligent ward communication nursing system according to an embodiment of the present invention;
FIG. 2 is a schematic diagram of a second architecture of a full scene smart ward communication system according to an embodiment of the present invention;
fig. 3 is a schematic diagram of a third architecture of a full-scene intelligent ward communication nursing system according to an embodiment of the present invention.
Detailed Description
In order that the objects and advantages of the invention will become more apparent, the invention will be further described with reference to the following examples; it should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.
Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present invention, and are not intended to limit the scope of the present invention.
It should be noted that, in the description of the present invention, terms such as "upper," "lower," "left," "right," "inner," "outer," and the like indicate directions or positional relationships based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the apparatus or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.
Furthermore, it should be noted that, in the description of the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as being fixedly connected, as well as being detachably connected, or as being integrally connected; is a mechanical connection and also an electrical connection; is directly connected, also indirectly connected through an intermediate medium, and is the communication between the two components. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to the specific circumstances.
Referring to fig. 1, a full-scene intelligent ward communication nursing system provided by an embodiment of the invention includes:
the bedside terminal equipment 10 is arranged beside the patient's bedside and used for monitoring the physiological state of the patient, acquiring real-time monitoring information, generating a first alarm signal according to the real-time monitoring information, acquiring the transfusion condition and generating a reminding signal after transfusion is finished;
a high-speed information transmission bus 20 for connecting the head of a bed terminal devices to each other and uploading the real-time monitoring information, ensuring the real-time performance of data, providing the function of a wireless access point, and expanding the access network of auxiliary measurement and monitoring devices;
the ward management host 30 is connected with the high-speed information transmission bus, acquires the real-time monitoring information, screens the real-time monitoring information to acquire target monitoring information, acquires node data by adjusting the acquisition frequency for acquiring the real-time monitoring information, and generates a second alarm signal according to the node data;
the bedside call terminal 40 is arranged beside the patient's bedside, and is used for recognizing the patient's voice through voice monitoring, so as to realize a voice call function and enable the patient to talk and talkback with the nursing station through the bedside call terminal when the patient is blocked from moving;
the nursing calling terminal 50 is arranged in the nursing station and is respectively in wireless connection with the bedside terminal equipment, the bedside calling terminal and the ward management host machine, and is used for respectively establishing communication between the nursing station and the nurse station and between the nursing station and the medical station, and forwarding a call generated by the bedside calling terminal during hosting.
Specifically, the embodiment of the invention obtains real-time monitoring information through the bedside terminal equipment, generates a first alarm signal according to the real-time monitoring information, generates a reminding signal after transfusion is finished, connects the bedside terminal equipment through a high-speed information transmission bus, uploads the real-time monitoring information, ensures the real-time performance of data, provides a function of a wireless access point, expands other auxiliary measuring and monitoring equipment to access a network, obtains the real-time monitoring information through a ward management host, obtains the real-time monitoring information obtained by screening the real-time monitoring information, obtains node data through adjusting the obtaining frequency of the real-time monitoring information, generates a second alarm signal according to the node data, enables a patient to talk to a nursing station through a bedside calling terminal when the movement of the patient is blocked, enables the nursing station to establish communication with a nurse station through a nursing calling terminal, enables the integration level of the information of a patient room to be improved, improves the utilization rate of medical resources and improves the management efficiency of the medical objects of a hospital.
Specifically, as shown in fig. 2, the bedside terminal device 10 includes a physiological status monitoring module 11, an injection monitoring module 12, a signal generating module 13, a blocking module 14, and a display module 15;
the physiological state monitoring module is used for acquiring real-time monitoring information, wherein the real-time monitoring information comprises the real-time heartbeat frequency, the real-time body temperature, the real-time blood pressure and the respiratory frequency of a patient, and comprises a heartbeat frequency monitoring sub-module, a body temperature monitoring sub-module, a blood pressure monitoring sub-module and a respiratory frequency monitoring sub-module, wherein the heartbeat frequency monitoring sub-module is used for acquiring the real-time heartbeat frequency Ht of the patient, the body temperature monitoring sub-module is used for acquiring the real-time body temperature Tt of the patient, the blood pressure monitoring sub-module is used for acquiring the real-time blood pressure Bt respiratory frequency monitoring sub-module of the patient, and the t is the generation time of the real-time monitoring information;
the injection monitoring module is arranged on the injection frame and used for acquiring the flow rate l of the injection;
the signal generation module is respectively connected with the physiological state monitoring module and the injection monitoring module and is used for generating a first alarm signal according to the real-time monitoring information and generating a reminding signal when transfusion is finished;
the blocking module is connected with the signal generating module and used for stopping injection when receiving the reminding signal;
the display module is connected with the physiological state monitoring module and used for visualizing the real-time monitoring information of the patient.
Specifically, the embodiment of the invention can monitor the real-time heartbeat frequency, the real-time body temperature, the real-time blood pressure and the respiratory frequency of the patient through the physiological monitoring module of the bedside terminal equipment, acquire the omnibearing physiological state information of the patient, ensure that nursing staff has specific knowledge on the current physical state of the patient, ensure the safety of the patient and ensure that the injection monitoring module can acquire the flow of injection.
Specifically, the signal generation module comprises a first preset sub-module and a judging sub-module;
the first preset submodule is preset with dangerous physiological state information corresponding to the real-time monitoring information, and the dangerous physiological state information comprises a heartbeat fastest frequency Hx, a heartbeat lowest frequency Hn, a high-voltage maximum value Bx, a low-voltage minimum value Bn, a body highest temperature Tx, a body lowest temperature Tn, a respiration fastest frequency Wx, a respiration lowest frequency Wn and a required injection quantity L;
the judging sub-module is used for generating a first alarm signal according to the real-time monitoring information, and generating a reminding signal after transfusion is finished comprises:
when the real-time monitoring information does not accord with the first judgment condition, a first alarm signal is generated;
when l=l, generating a reminding signal;
the first judgment condition is that Hn is less than or equal to Ht and less than or equal to Hx, tn is less than or equal to Tt and less than or equal to Tx, wn is less than or equal to Wt and less than or equal to Wx, and Bn is less than or equal to Bt and less than or equal to Bx.
Specifically, the embodiment of the invention can generate the alarm signal when the patient body is in an abnormal state through the signal generation module, thereby ensuring the safety of the patient, generating the reminding signal after the transfusion is finished, and stopping the injection when the reminding signal is received by the blocking module, so that medical staff is not in long-term watch in a ward, the utilization efficiency of medical resources is improved, the physiological state of the patient can be displayed in real time through the display module, and the medical staff can know the physical state of the patient conveniently.
Specifically, the high-speed information transmission bus comprises a time data acquisition module, a competition algorithm module, an uploading module and a wireless access module;
the time data acquisition module is used for acquiring the generation time t and the information acquisition time ti of the real-time monitoring information;
the competition algorithm module is used for judging the priority of uploading the real-time monitoring information according to the difference tdelta between the generation time t of the real-time monitoring information and the information acquisition time ti;
the uploading module is respectively connected with the data acquisition module and the competition algorithm module and is used for uploading the real-time monitoring information according to the uploading priority of the data.
Specifically, the embodiment of the invention judges the priority of data uploading according to the delay time through the competition algorithm module, ensures the real-time performance of the data, thereby ensuring the safety of patients, and facilitates the expansion of other auxiliary measuring and monitoring equipment such as nuclear magnetic CT equipment which is inconvenient to access a system in a wired mode through the wireless access module, and the access network provides a data transmission channel, so that the integration level of the information of the sick house is improved.
Specifically, the contention algorithm module is configured to determine the priority of data uploading according to the difference tδ between the generation time t and the information acquisition time ti of the real-time monitoring information, where the determining includes:
the competition algorithm module is set with a system response time t0;
when tdelta accords with a second judging condition, judging that the uploading priority of the real-time monitoring information is a first priority;
when tdelta accords with a third judging condition, judging that the uploading priority of the real-time monitoring information is a second priority;
when tdelta accords with a fourth judging condition, judging that the uploading priority of the real-time monitoring information is a third priority;
the second judgment condition is tdelta more than or equal to 2t0, the third judgment condition is t0 < tdelta less than 2t0, and the fourth judgment condition is tdelta less than or equal to t0.
Specifically, the embodiment of the invention judges the priority of data uploading according to the delay time through the competition algorithm module, so that the data uploading is more efficient.
Specifically, as shown in fig. 3, the ward management host 30 includes a data information acquisition module 31, a data screening module 32, an acquisition frequency adjustment module 33, and an alarm module 34;
the data information acquisition module is used for acquiring the real-time monitoring information;
the data screening module is configured to screen the obtained real-time monitoring information, and includes:
judging the real-time monitoring information by utilizing a fifth judging condition to acquire the target information;
the fifth judging condition is that Hn is less than or equal to Ht is less than or equal to Hx or Tn is less than or equal to Tt is less than or equal to Tx or Wn is less than or equal to Wt is less than or equal to Wx or Bn is less than or equal to Bt is less than or equal to Bx;
the acquisition frequency adjustment module is used for adjusting the acquisition frequency of the target information so as to acquire node data;
the alarm module is used for generating a second alarm signal according to the node data.
Specifically, the embodiment of the invention screens the real-time monitoring information through the data information acquisition module, the data screening module, the acquisition frequency adjustment module and the alarm module, acquires the real-time monitoring information of the screened monitoring information, acquires the node data through adjusting the acquisition frequency for acquiring the real-time monitoring information, reduces a large amount of real-time data, improves the relative transmission flux of the nursing system, increases the application range of the nursing system, processes the risk possibly appearing, and ensures the safety of patients.
Specifically, the acquisition frequency adjustment module comprises a second preset sub-module, a node information acquisition module and an adjustment module;
the second preset submodule is preset with an acquisition frequency a, a heartbeat change value Hc, a blood pressure change value Bc, a body temperature change value Tc and a respiration change value Wc;
the node information acquisition module is configured to acquire node information according to an acquisition frequency, and includes:
test node information is obtained according to equation (1),
;
node information is obtained according to formula (2),
;
obtaining a node information difference value according to a formula (3),
;
the adjusting module is configured to adjust the detection frequency according to the node information difference value, and includes:
when the node information difference value meets a sixth judgment condition, the original detection frequency a is adjusted to be a/2;
when the node information difference value does not meet a sixth judgment condition, the original detection frequency is not adjusted;
the sixth judgment condition is that Ha3 is more than or equal to Hc or Ta3 is more than or equal to Tc or Wa3 is more than or equal to Wc or Ba3 is more than or equal to Bc.
Specifically, the acquisition frequency a is preset through the second preset submodule, so that a large amount of real-time monitoring data are summarized into monitoring data in each time period, the physiological state of a patient in each time period is obtained, the physiological change condition of the patient is obtained through comparison of the difference value of the detection data in each time period and a preset change value, the disease condition development of the patient is known, and the safety of the patient is ensured.
The alarm module is used for generating a second alarm signal according to the frequency adjustment of the detection frequency, and comprises:
setting the maximum out-of-limit threshold value as n times;
and when the frequency of detection frequency adjustment reaches a set maximum out-of-limit threshold value, generating a second alarm signal. Specifically, the embodiment of the invention generates the second alarm signal through the node data, and generates an alarm when the physiological state of the patient is seriously reduced, so that medical staff can effectively measure the patient in time, and the possible medical risk is reduced.
Specifically, the bedside call terminal comprises a voice sending module, a manual sending module and a voice call module;
the voice sending module is used for identifying the voice of a patient, and when the patient sends out a specific word, a call request is generated;
the manual sending module is used for manually generating a call request;
the voice communication module is respectively connected with the voice transmission module and the manual transmission module and used for establishing communication and intercom with the nursing station according to the communication request.
Specifically, the embodiment of the invention can enable the patient to start the bedside calling terminal in a shouting way when the action of the patient is blocked through the bedside calling terminal, so that a nursing station can know the abnormal condition of the patient in time, and the risk of medical accidents is reduced.
Specifically, the nursing calling terminal comprises a nursing calling nurse station sub-terminal and a nursing calling doctor on-duty sub-terminal;
the nursing call nurse station sub-terminal is used for establishing communication and intercom between the nursing station and the nurse station and comprises a management machine and an auxiliary machine, wherein the management machine is also provided with a communication request function for receiving the bedside call terminal, and the auxiliary machine is only provided with a communication and intercom function for establishing communication and intercom between the nursing station and the nurse station;
the nursing calling doctor guard sub-terminal is used for establishing a call between a nursing station and a guard medical station, is connected with a plurality of bedside calling terminals, has a hosting function, and can forward the received call request to the management machine.
Specifically, the nursing calling terminal is in wireless connection with the bedside terminal, the bedside calling terminal and the ward management host computer, so that the nursing station is respectively communicated with the nurse station and the medical station, calls generated by the bedside calling terminal are forwarded during hosting, and the management efficiency of a hospital on medical objects is improved.
Thus far, the technical solution of the present invention has been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of protection of the present invention is not limited to these specific embodiments. Equivalent modifications and substitutions for related technical features may be made by those skilled in the art without departing from the principles of the present invention, and such modifications and substitutions will be within the scope of the present invention.
The foregoing description is only of the preferred embodiments of the invention and is not intended to limit the invention; various modifications and alterations of this invention will occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (7)
1. A full-scene wisdom ward allies oneself with news nursing system, characterized in that includes:
the bedside terminal equipment is arranged beside the patient's bedside and used for monitoring the physiological state of the patient, acquiring real-time monitoring information, generating a first alarm signal according to the real-time monitoring information, acquiring the transfusion condition and generating a reminding signal after the transfusion is finished;
the high-speed information transmission bus is used for connecting the bedside terminal devices with each other and uploading the real-time monitoring information, so that the real-time property of data is ensured, the function of a wireless access point is provided, and auxiliary measurement and monitoring equipment is expanded to access a network;
the ward management host is connected with the high-speed information transmission bus, acquires the real-time monitoring information, screens the real-time monitoring information to acquire target monitoring information, acquires node data by adjusting the acquisition frequency of acquiring the real-time monitoring information, and generates a second alarm signal according to the node data;
the bedside calling terminal is arranged beside the patient, and the voice calling function is realized by voice monitoring and identifying the patient voice, so that the patient can talk and talkback with the nursing station through the bedside calling terminal when the movement of the patient is blocked;
the nursing calling terminal is arranged in the nursing station and is respectively in wireless connection with the bedside terminal equipment, the bedside calling terminal and the ward management host, and is used for respectively establishing communication between the nursing station and the nurse station as well as between the nursing station and the medical station, and forwarding a call generated by the bedside calling terminal during hosting;
the ward management host comprises a data information acquisition module, a data screening module, an acquisition frequency adjustment module and an alarm module;
the data information acquisition module is used for acquiring the real-time monitoring information;
the data screening module is configured to screen the obtained real-time monitoring information, and includes:
judging the real-time monitoring information by utilizing a fifth judging condition to acquire target monitoring information;
the fifth judging condition is that Hn is less than or equal to Ht is less than or equal to Hx or Tn is less than or equal to Tt is less than or equal to Tx or Wn is less than or equal to Wt is less than or equal to Wx or Bn is less than or equal to Bt is less than or equal to Bx;
wherein Ht is the patient's real-time heart beat frequency, tt is the patient's real-time body temperature, wt is the patient's real-time breathing frequency, bt is the patient's real-time blood pressure, hx is the fastest heart beat frequency, hn is the lowest heart beat frequency, bx is the highest high pressure, bn is the lowest low pressure, tx is the highest body temperature, tn is the lowest body temperature, wx is the fastest breathing frequency, wn is the lowest breathing frequency;
the acquisition frequency adjustment module is used for adjusting the acquisition frequency of the target monitoring information so as to acquire node data;
the alarm module is used for generating a second alarm signal according to the node data;
the acquisition frequency adjustment module comprises a second preset sub-module, a node information acquisition module and an adjustment module;
the second preset submodule is preset with an acquisition frequency a, a heartbeat change value Hc, a blood pressure change value Bc, a body temperature change value Tc and a respiration change value Wc;
the node information acquisition module is configured to acquire node information according to an acquisition frequency, and includes:
test node information is obtained according to equation (1),
;
node information is obtained according to formula (2),
;
obtaining a node information difference value according to a formula (3),
;
the adjusting module is configured to adjust the acquisition frequency according to the node information difference value, and includes:
when the node information difference value meets a sixth judgment condition, the original acquisition frequency a is adjusted to be a/2;
when the node information difference value does not meet a sixth judgment condition, the original acquisition frequency is not adjusted;
the sixth judgment condition is that Ha3 is more than or equal to Hc or Ta3 is more than or equal to Tc or Wa3 is more than or equal to Wc or Ba3 is more than or equal to Bc;
the alarm module generating a second alarm signal according to the frequency adjustment of the acquisition frequency includes:
setting the maximum out-of-limit threshold value as n times;
and when the frequency of the acquired frequency adjustment reaches a set maximum out-of-limit threshold, generating a second alarm signal.
2. The full-scene intelligent ward communication nursing system of claim 1, wherein the bedside terminal device comprises a physiological status monitoring module, an injection monitoring module, a signal generating module, a blocking module and a display module;
the physiological state monitoring module is used for acquiring real-time monitoring information, wherein the real-time monitoring information comprises the real-time heartbeat frequency, the real-time body temperature, the real-time blood pressure and the respiratory frequency of a patient, and comprises a heartbeat frequency monitoring sub-module, a body temperature monitoring sub-module, a blood pressure monitoring sub-module and a respiratory frequency monitoring sub-module, wherein the heartbeat frequency monitoring sub-module is used for acquiring the real-time heartbeat frequency Ht of the patient, the body temperature monitoring sub-module is used for acquiring the real-time body temperature Tt of the patient, the blood pressure monitoring sub-module is used for acquiring the real-time blood pressure Bt respiratory frequency monitoring sub-module of the patient, and the t is the generation time of the real-time monitoring information;
the injection monitoring module is arranged on the injection frame and used for acquiring the flow rate l of the injection;
the signal generation module is respectively connected with the physiological state monitoring module and the injection monitoring module and is used for generating a first alarm signal according to the real-time monitoring information and generating a reminding signal when transfusion is finished;
the blocking module is connected with the signal generating module and used for stopping injection when receiving the reminding signal;
the display module is connected with the physiological state monitoring module and used for visualizing the real-time monitoring information of the patient.
3. The full-scene intelligent ward communication nursing system as set forth in claim 2, wherein the signal generating module includes a first preset sub-module and a judging sub-module;
the first preset submodule is preset with dangerous physiological state information corresponding to the real-time monitoring information, and the dangerous physiological state information comprises a heartbeat fastest frequency Hx, a heartbeat lowest frequency Hn, a high-voltage maximum value Bx, a low-voltage minimum value Bn, a body highest temperature Tx, a body lowest temperature Tn, a respiration fastest frequency Wx, a respiration lowest frequency Wn and a required injection quantity L;
the judging sub-module is used for generating a first alarm signal according to the real-time monitoring information, and generating a reminding signal after transfusion is finished comprises:
when the real-time monitoring information does not accord with the first judgment condition, a first alarm signal is generated;
when l=l, generating a reminding signal;
the first judgment condition is that Hn is less than or equal to Ht and less than or equal to Hx, tn is less than or equal to Tt and less than or equal to Tx, wn is less than or equal to Wt and less than or equal to Wx, and Bn is less than or equal to Bt and less than or equal to Bx.
4. The full-scene intelligent ward communication nursing system as set forth in claim 3 wherein said high-speed information transmission bus comprises a time data acquisition module, a contention algorithm module, an upload module and a wireless access module;
the time data acquisition module is used for acquiring the generation time t and the information acquisition time ti of the real-time monitoring information;
the competition algorithm module is used for judging the priority of uploading the real-time monitoring information according to the difference tdelta between the generation time t of the real-time monitoring information and the information acquisition time ti;
the uploading module is respectively connected with the data acquisition module and the competition algorithm module and is used for uploading the real-time monitoring information according to the uploading priority of the data.
5. The full-scene intelligent ward communication nursing system according to claim 4, wherein the competition algorithm module is configured to determine the priority of data uploading according to a difference tδ between the generation time t and the information acquisition time ti of the real-time monitoring information, comprising:
the competition algorithm module is set with a system response time t0;
when tdelta accords with a second judging condition, judging that the uploading priority of the real-time monitoring information is a first priority;
when tdelta accords with a third judging condition, judging that the uploading priority of the real-time monitoring information is a second priority;
when tdelta accords with a fourth judging condition, judging that the uploading priority of the real-time monitoring information is a third priority;
the second judgment condition is tdelta more than or equal to 2t0, the third judgment condition is t0 < tdelta less than 2t0, and the fourth judgment condition is tdelta less than or equal to t0.
6. The full-scene intelligent ward communication nursing system as set forth in claim 1, wherein the bedside call terminal includes a voice transmission module, a manual transmission module and a voice call module;
the voice sending module is used for identifying the voice of a patient, and when the patient sends out a specific word, a call request is generated;
the manual sending module is used for manually generating a call request;
the voice communication module is respectively connected with the voice transmission module and the manual transmission module and used for establishing communication and intercom with the nursing station according to the communication request.
7. The full scene intelligent ward communication nursing system of claim 6 wherein the nursing call terminal includes a nursing call nurse station sub-terminal and a nursing call doctor gatekeeper sub-terminal;
the nursing call nurse station sub-terminal is used for establishing communication and intercom between the nursing station and the nurse station and comprises a management machine and an auxiliary machine, wherein the management machine is also provided with a communication request function for receiving the bedside call terminal, and the auxiliary machine is only provided with a communication and intercom function for establishing communication and intercom between the nursing station and the nurse station;
the nursing calling doctor guard sub-terminal is used for establishing a call between a nursing station and a guard medical station, is connected with a plurality of bedside calling terminals, has a hosting function, and can forward the received call request to the management machine.
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