CN212256932U - Wireless intelligent ward nursing system - Google Patents

Abstract

The utility model discloses a wireless intelligent ward nursing system, the system includes: hospital server, ward computer, medical staff mobile terminal, patient terminal, control signal transmitter, wireless sensing signal collector, threshold value alarm, remove the bar code scanner, hospital server and ward computer, medical staff mobile terminal, patient terminal interconnect, the ward computer is connected with control signal transmitter, wireless sensing signal collector, threshold value alarm, remove the bar code scanner, a plurality of wireless devices are connected to the control signal transmitter output, the wireless transmitter of a plurality of integrated sensors is connected to wireless sensing signal collector input. The utility model discloses accessible medical staff mobile terminal or patient terminal are long-range to look over the patient vital sign parameter condition through the sensor monitoring, but also the work of remote control wireless device, and the doctor's advice is perhaps looked over in the adjustment, and convenient operation can satisfy the treatment and the nursing needs under the emergency situation.

Description

Wireless intelligent ward nursing system

Technical Field

The utility model relates to a medical care technical field, in particular to wireless intelligent ward nursing system.

Background

In the era of the rapid development of mobile internet, the development of medical services can be promoted by using internet technology, and the safety, efficiency and stability of the medical services are enhanced. For example, the intelligent ward nursing system can integrate various medical resources of a hospital and fully assist medical staff in carrying out medical care work.

In the application of the existing wireless intelligent ward nursing system, medical staff judges the state of illness of a patient according to monitoring data of various devices in the system so as to give diagnosis or rescue measures and carry out treatment on site. However, the number of patients in hospitals is relatively large, the number of main medical staff is relatively small, the requirements of large-scale treatment and full-flow monitoring are difficult to meet only by the means, and the monitoring and treatment requirements under some emergency situations cannot be further solved. Meanwhile, in the application of the existing intelligent ward nursing system, a patient can not actively participate in self illness state management through the monitoring equipment, such as checking medical advice and controlling the work of medical equipment in authority, and the patient is not favorable for feeding back real-time illness state and real-time requirements to medical staff.

The patent of application publication No. CN105869096A discloses an intelligent ward nursing system, which further comprises a voice recognition system, a safety system, a ward equipment control system, an ambulance system and a service system, wherein the voice recognition system, the safety system, the ward equipment control system, the ambulance system and the service system are respectively connected with the controller system in parallel and electrically. The invention applies the wireless network to ward management, medical staff uniformly manages the condition of each ward patient according to the digital signals received by the intelligent management system, realizes multi-ward management, but the system does not design the functions that the patient can participate in, such as checking medical advice and controlling the medical equipment work in the authority, so as to be beneficial for the patient to feed back the real-time illness state and the real-time requirement to the medical staff, simultaneously, the burden of the medical staff can be reduced, and the problem that the medical resources of a hospital are relatively limited is solved. Secondly, the data information transmission mode in the wireless intelligent ward nursing system adopts the communication mode of WIFI and GPRS, and the communication cost is high because the coverage range formed by each node of the system in the hospital is large.

Therefore, it is desirable to design a new wireless intelligent ward care system to solve the above problems.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

An object of the utility model is to provide a wireless intelligent ward nursing system to solve among the current ward nursing system patient can not initiatively participate in self state of an illness management, be unfavorable for the patient to the real-time state of an illness of medical staff feedback and real-time demand, also be unfavorable for alleviateing medical staff burden, alleviate the relatively limited problem of hospital medical resources.

(II) technical scheme

For realizing above-mentioned wireless intelligent ward nursing system, solve among the current ward nursing system patient can not initiatively participate in self state of an illness management, be unfavorable for the patient to the real-time state of an illness of medical staff feedback and real-time demand, also do not favorable to alleviateing medical staff burden, alleviate the relatively limited problem of hospital medical resources, the utility model provides a following technical scheme:

a wireless intelligent ward care system, comprising: hospital server, ward computer, medical staff mobile terminal, patient terminal, control signal transmitter, wireless sensing signal collector, threshold alarm, removal bar code scanner still include a plurality of wireless device, a plurality of wireless transmitter and a plurality of sensor, hospital server and ward computer, medical staff mobile terminal, patient terminal interconnect, the ward computer is connected with control signal transmitter, wireless sensing signal collector, threshold alarm, removal bar code scanner, a plurality of wireless device are connected to the control signal transmitter output, a plurality of wireless transmitter are connected to wireless sensing signal collector input, a plurality of wireless transmitter are connected to a plurality of wireless transmitter inputs respectively.

Preferably, the output end of the wireless sensing signal collector is also connected with a threshold alarm.

Preferably, the plurality of wireless devices and the plurality of wireless transmitters are respectively provided with a unique bar code, and the mobile bar code scanner scans the unique bar code to acquire information of the wireless devices and the wireless transmitters.

Preferably, the control signal transmitter is wirelessly connected with the plurality of wireless devices through Zigbee communication, and the wireless sensing signal collector is wirelessly connected with the plurality of wireless transmitters through Zigbee communication.

Preferably, the hospital server is wirelessly connected with the medical staff mobile terminal and the patient terminal through a 5G network, a WIFI network or a mobile VPN network.

Preferably, the wireless devices include, but are not limited to, an infusion set pump, an enteral feeding solution pump, an oxygen pump, a smart bed, a cordless lamp, an air conditioner.

Preferably, the sensor includes, but is not limited to, a body temperature sensor, a heart rate sensor, a blood pressure sensor, a respiration sensor, a blood glucose sensor, a urine volume sensor, an infusion volume sensor.

(III) advantageous effects

Compared with the prior art, the utility model provides a wireless intelligent ward nursing system possesses following beneficial effect:

1. the utility model discloses except having medical staff's guardianship function, the patient also can look over the patient vital sign parameter condition through the monitoring of sensor equipment, but also remote control wireless device work, adjusts or looks over the doctor's advice, and the initiative is participated in self guardianship management, is favorable to the patient to the real-time state of an illness of medical staff feedback and real-time demand to alleviate medical staff's burden, alleviate the relatively limited problem of hospital's medical resources.

2. The utility model discloses a control signal transmitter passes through Zigbee communication wireless connection with a plurality of wireless devices, and wireless sensing signal collector passes through Zigbee communication wireless connection with a plurality of wireless transmitter, adopts Zigbee communication cost low, low power dissipation, stability height, and it is more to have solved hospital sensor node and wireless device node, problem that communication cost is high.

Drawings

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

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example 1

As shown in fig. 1, the utility model provides a wireless intelligent ward nursing system, include: hospital server, ward computer, medical staff mobile terminal, patient terminal, control signal transmitter, wireless sensing signal collector, threshold alarm, remove the bar code scanner, still include a plurality of wireless device, a plurality of wireless transmitter and a plurality of sensor, hospital server and ward computer, medical staff mobile terminal, patient terminal interconnect, ward computer and control signal transmitter, wireless sensing signal collector, threshold alarm, it connects to remove the bar code scanner, a plurality of wireless device are connected to control signal transmitter output, a plurality of wireless transmitter are connected to wireless sensing signal collector input, a plurality of sensor are connected respectively to a plurality of wireless transmitter inputs.

The working principle of the system is as follows: the method comprises the following steps that a plurality of sensors of different types respectively collect vital sign sensing data of a patient, and the vital sign sensing data are sent to a wireless sensing signal collector through a wireless transmitter connected with the sensors; the wireless sensing signal collector transmits the vital sign sensing data to a ward computer, and the ward computer processes the data and then transmits the data to a hospital server; the medical staff mobile terminal checks the vital signs of the patient and the real-time treatment and nursing conditions through the hospital server, adjusts medical advice, and then wirelessly controls the wireless equipment corresponding to the patient nursing to work through the ward computer and the control signal transmitter; the patient terminal sequentially passes through the hospital server, the ward computer and the wireless equipment corresponding to the control signal transmitter in a wireless control mode to work, and meanwhile the medical advice condition is checked through the hospital server.

The output end of the wireless sensing signal collector is also connected with a threshold alarm. And the threshold alarm judges the data threshold, and alarms and reminds when the vital sign sensing data exceeds the range of the normal value of the vital sign. For example, the normal range of human blood pressure is: 90mmHg < systolic pressure <140mmHg, 60mmHg < diastolic pressure <90 mmHg. The value can be used as a normal range in the threshold alarm, and when the blood pressure of the patient collected by the wireless sensing signal collector exceeds the range, the threshold alarm gives an alarm. Other vital sign parameters such as body temperature, heart rate, respiration, blood sugar and the like also have normal ranges, the normal range of the threshold alarm is used as a threshold, and the alarm is given when the vital sign parameters of the patient collected by the wireless sensing signal collector exceed the normal range.

A plurality of wireless devices and a plurality of wireless transmitters are respectively provided with an unique bar code, the mobile code scanner scans the unique bar codes to acquire the information of the wireless devices and the wireless transmitters, and the unique bar codes on the wireless devices and the wireless transmitters are scanned by the mobile code scanner and matched with the bar codes of the wrist bands of the patients, so that precondition is provided for automatically acquiring the vital sign sensing data of the patients and controlling the wireless devices corresponding to the nursing of the patients. When a patient is admitted, the wrist strap bar code is the unique identification of the identity of the patient, and the information of the name, age, sex, ward, bed number, affiliated department and the like of the patient is recorded on the wrist strap bar code. The unique bar codes on the wireless equipment and the wireless transmitter are matched with the bar code of the wrist strap of the patient, so that the equipment information of the wireless equipment and the wireless transmitter is bound with the information of the corresponding patient. Therefore, the vital sign parameter data sent by the wireless transmitter is sent to the ward computer through the wireless sensing signal collector, the ward computer automatically matches the vital sign parameter data to the vital sign parameter database of the corresponding patient, and meanwhile, the ward computer can also automatically match the control instruction sent by the control signal transmitter to the wireless equipment corresponding to the patient.

It should be noted that the medical staff mobile terminal and the patient terminal may be a mobile phone, a PDA, or other intelligent terminals, and the medical staff mobile terminal and the patient terminal are wirelessly connected to the hospital server through a 5G network, a WIFI network, or a mobile VPN network. The hospital server is connected to the control signal transmitter and the wireless sensing signal collector through the hospital computer, the control signal transmitter is in wireless connection with the wireless devices through Zigbee communication, the wireless sensing signal collector is in wireless connection with the wireless devices through Zigbee communication, the Zigbee communication is low in cost, low in power consumption and high in stability, and the problems that hospital sensor nodes and wireless device nodes are more and the communication cost is high are solved.

Example 2

As shown in fig. 1, the utility model provides a wireless intelligent ward nursing system, include: hospital server, ward computer, medical staff mobile terminal, patient terminal, control signal transmitter, wireless sensing signal collector, threshold alarm, remove the bar code scanner, still include a plurality of wireless device, a plurality of wireless transmitter and a plurality of sensor, hospital server and ward computer, medical staff mobile terminal, patient terminal interconnect, ward computer and control signal transmitter, wireless sensing signal collector, threshold alarm, it connects to remove the bar code scanner, a plurality of wireless device are connected to control signal transmitter output, a plurality of wireless transmitter are connected to wireless sensing signal collector input, a plurality of sensor are connected respectively to a plurality of wireless transmitter inputs.

The output end of the wireless sensing signal collector is also connected with a threshold alarm. And the threshold alarm judges the data threshold, and alarms and reminds when the vital sign sensing data exceeds the range of the normal value of the vital sign. For example, the normal range of human blood pressure is: 90mmHg < systolic pressure <140mmHg, 60mmHg < diastolic pressure <90 mmHg. The value can be used as a normal range in the threshold alarm, and when the blood pressure of the patient collected by the wireless sensing signal collector exceeds the range, the threshold alarm gives an alarm. Other vital sign parameters such as body temperature, heart rate, respiration, blood sugar and the like also have normal ranges, the normal range of the threshold alarm is used as a threshold, and the alarm is given when the vital sign parameters of the patient collected by the wireless sensing signal collector exceed the normal range.

A plurality of wireless devices and a plurality of wireless transmitters are respectively provided with an unique bar code, the mobile code scanner scans the unique bar codes to acquire the information of the wireless devices and the wireless transmitters, and the unique bar codes on the wireless devices and the wireless transmitters are scanned by the mobile code scanner and matched with the bar codes of the wrist bands of the patients, so that precondition is provided for automatically acquiring the vital sign sensing data of the patients and controlling the wireless devices corresponding to the nursing of the patients. When a patient is admitted, the wrist strap bar code is the unique identification of the identity of the patient, and the information of the name, age, sex, ward, bed number, affiliated department and the like of the patient is recorded on the wrist strap bar code. The unique bar codes on the wireless equipment and the wireless transmitter are matched with the bar code of the wrist strap of the patient, so that the equipment information of the wireless equipment and the wireless transmitter is bound with the information of the corresponding patient. Therefore, the vital sign parameter data sent by the wireless transmitter is sent to the ward computer through the wireless sensing signal collector, the ward computer automatically matches the vital sign parameter data to the vital sign parameter database of the corresponding patient, and meanwhile, the ward computer can also automatically match the control instruction sent by the control signal transmitter to the wireless equipment corresponding to the patient.

The wireless equipment comprises an infusion set pump, an enteral nutrient solution pump, a ventilator, a wireless beeper, an oxygen pump, an intelligent sickbed, a wireless lamp, an air conditioner with wireless network control and the like, and the sensors comprise a body temperature sensor, a heart rate sensor, a blood pressure sensor, a respiration sensor, a blood sugar sensor, a urine volume sensor, an infusion volume sensor and the like. Medical staff looks over the vital sign parameter that above-mentioned sensor gathered through mobile terminal to monitor patient's state of an illness condition, and adjust the doctor's advice, and control wireless device work according to the condition. The patient and the family members can also control the corresponding wireless equipment to work by operating the patient terminal according to the condition, and the medical advice condition is checked by the hospital server. For example, medical staff controls an infusion set pump, an enteral nutrient solution pump, an oxygen pump, a breathing machine or an infusion and blood transfusion heater to work through the mobile terminal, and the requirements of emergency treatment and nursing of patients are met. The patient and family members control the temperature, illumination, ventilation and sickbed angle in the sickroom by controlling the corresponding wireless equipment to work, and can also call nursing personnel in emergency by ordering, surfing the internet for entertainment, surfing the internet for learning, using medicine knowledge and treating illness state knowledge at the patient terminal. Embodiment 1 has been described for the specific principles for controlling the operation of a wireless device and will not be described in detail herein. It should be noted that, under the condition of obtaining the related authority, the patient and the family members can control the related wireless devices to work or view the medical advice information (including the explanation of treatment and medication and related science popularization), and communicate the feedback with the tube bed doctor on line at the corresponding time. Since in practical situations the rights of the patient terminal to view information and control the device are correspondingly limited for security and privacy concerns.

In addition, the wireless control device and the wireless sensing device are combined differently, so that the system is suitable for different use environments of departments, such as an ICU ward, the system is required to be highly complete, more types of wireless sensing and control devices are required, and the system is suitable for the requirements of the ICU ward, for example, the wireless devices are required to be emergency treatment devices, such as an infusion set pump, an enteral nutrition liquid pump, an oxygen pump, a breathing machine, an infusion and transfusion warmer, a heart rate monitor and the like, besides a basic wireless calling device, an intelligent sickbed, a wireless electric lamp and an air conditioner with wireless network control. The ordinary ward only needs some basic equipment combinations, such as only a wireless pager, an intelligent sickbed, a wireless lamp and an air conditioner with wireless network control, and the requirement of convenience in daily life is met. Different combination modes are set according to different department characteristics, so that the system is more flexible and efficient, and is easier to popularize and use.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A wireless intelligent ward care system, comprising: hospital server, ward computer, medical staff mobile terminal, patient terminal, control signal transmitter, wireless sensing signal collector, threshold alarm, removal bar code scanner still include a plurality of wireless device, a plurality of wireless transmitter and a plurality of sensor, hospital server and ward computer, medical staff mobile terminal, patient terminal interconnect, the ward computer is connected with control signal transmitter, wireless sensing signal collector, threshold alarm, removal bar code scanner, a plurality of wireless device are connected to the control signal transmitter output, a plurality of wireless transmitter are connected to wireless sensing signal collector input, a plurality of wireless transmitter are connected to a plurality of wireless transmitter inputs respectively.

2. The wireless intelligent ward care system of claim 1, wherein: the output end of the wireless sensing signal collector is also connected with a threshold alarm.

3. The wireless intelligent ward care system of claim 1, wherein: the mobile bar code scanner is used for scanning the unique bar codes to acquire information of the wireless equipment and the wireless transmitters.

4. The wireless intelligent ward care system of claim 1, wherein: the control signal emitter is in wireless connection with the plurality of wireless devices through Zigbee communication, and the wireless sensing signal collector is in wireless connection with the plurality of wireless emitters through Zigbee communication.

5. The wireless intelligent ward care system of claim 1, wherein: the hospital server is in wireless connection with the medical staff mobile terminal and the patient terminal through a 5G network, a WIFI network or a mobile VPN network.

6. The wireless intelligent ward care system of claim 1, wherein: the wireless devices include, but are not limited to, infusion set pumps, enteral feeding solution pumps, oxygen pumps, smart beds, cordless lights, air conditioners.

7. The wireless intelligent ward care system of claim 1, wherein: the sensors include, but are not limited to, body temperature sensors, heart rate sensors, blood pressure sensors, respiration sensors, blood glucose sensors, urine volume sensors, and infusion volume sensors.

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