CN210186156U - Medical infusion mistake-proofing dropping infusion liquid medicine monitoring device - Google Patents

Abstract

A medical infusion mistake proofing dropping infusion liquid medicine monitoring device comprises: the device comprises a liquid medicine positioning unit, an infusion alarm unit, a wireless signal transmission module, a monitoring host and a monitor; liquid medicine locating element sets up on the nurse dispensing table, liquid medicine locating element passes through radio signal and monitoring host information feedback, the patient information at this nurse station that the wireless signal transmission module of location received the monitoring host and sent, and buffer memory this information in the memory, the liquid medicine bottle is placed and is got this liquid medicine bottle weight and save in the memory in the weighing device title, the code printer acquires this liquid medicine bottle weight of memory and patient information and generates the bar code, print out this liquid medicine bottle information label, take off and paste in this liquid medicine bottle surface from printing the export, the nurse need not increase intensity of labour at the infusion in-process and just can in time discover liquid medicine and patient's phenomenon of misuse.

Description

Medical infusion mistake-proofing dropping infusion liquid medicine monitoring device

Technical Field

The application relates to the field of medical monitoring, in particular to a medical infusion mistake-proofing liquid medicine dripping monitoring device.

Background

Infusion is the most commonly used treatment in hospitals, and patients with severe or common cold and fever need to be treated by infusion. In the traditional infusion flow, a nurse is mainly used for checking the infusion medicines, infusion is started for a patient after the correctness of the infusion medicines is checked, and when the infusion is finished, the nurse is reminded to change the infusion or finish the infusion by the patient or a patient accompanied person. At present, various infusion monitors are in the process of being transported in order to reduce the labor intensity of nurses for manually monitoring the infusion state and improve the working efficiency.

Along with the improvement of living conditions and medical level of people, hospital inpatients are increasing day by day, but nurse personnel of each hospital are in short supply, nurses nurse patients, the labor intensity of nurses is increased, the employment desire of nurses is reduced, which is always a contradiction.

How to reduce the working link and the working strength of nurses as much as possible and ensure the unique matching of the transfusion liquid medicine and the patients from the source is still the problem to be solved urgently in the current transfusion monitoring process.

Disclosure of Invention

In view of this, the present application provides a medical infusion mistake proofing infusion liquid medicine monitoring device to solve the problem of unique matching between the infusion liquid medicine and the patient of the remote accurate control and infusion of the existing infusion monitoring.

In order to realize the utility model aims to provide a medical treatment infusion mistake proofing liquid medicine monitoring device that drips that infuses, include:

the device comprises a liquid medicine positioning unit, an infusion alarm unit, a wireless signal transmission module, a monitoring host and a monitor; liquid medicine locating element sets up on nurse's dispensing table, and liquid medicine locating element passes through radio signal and monitoring host information feedback, and liquid medicine locating element mainly has weighing device, coder, memory, touch display screen, location radio signal transmission module to constitute, and location radio signal transmission module receives the patient information of this nurse station that monitoring host sent, includes: the method comprises the steps that patient name, age, gender, department, bed number information and instillation liquid medicine information are cached in a memory, related information of the patient is displayed on a touch display screen of a liquid medicine positioning unit, when a nurse dispenses the medicine, the medicine is dispensed in sequence according to the patient information displayed on the display screen, a configured liquid medicine bottle is placed in a weighing device, the weight of the liquid medicine bottle is weighed and stored in the memory, a code printer obtains the weight of the liquid medicine bottle in the memory, the patient name, the age, the gender, the department, the bed number information and the medicine information of the liquid medicine bottle and generates a bar code, an information label of the liquid medicine bottle is printed out, and the information label is taken down from a printing outlet and is pasted on the surface of the liquid medicine; meanwhile, the code printer sends the information to the monitoring host through the positioning wireless signal transmission module, and the monitoring host sends the bottle of liquid medicine information to the infusion alarm unit of the patient through the wireless signal transmission module after storing the information and stores the information in the storage of the infusion alarm unit.

The infusion alarm unit is characterized in that the infusion alarm unit comprises a first photoelectric sensor, a second photoelectric sensor, a code scanner, an alarm memory, an indicator light, a wireless communication module, an infusion controller and a clamping component, and is characterized in that the infusion alarm unit is clamped on an infusion branch through the clamping component, an infusion tube penetrates through the interior of the infusion alarm unit and is embedded into a groove of an infusion pipeline, one end of the infusion alarm unit is provided with the code scanner which scans a bar code label of a liquid medicine bottle to acquire the bar code information, the code scanner feeds the information back to the infusion controller, the infusion controller compares the code scanning information with liquid medicine bottle information prestored in the alarm memory, if the information is successfully matched, the indicator light displays green light, the alarm is not given, if the code scanning information is not successfully matched with the stored information, the indicator light displays red light and gives out alarm sound.

The infusion alarm unit is characterized in that a first photoelectric sensor is arranged at the upper part in a groove of an infusion tube of the infusion alarm unit and is 10-20mm away from a Murphy's drip cup, an infusion tube penetrates through the middle of the sensor to sense whether liquid medicine exists in the infusion tube, an alarm signal is sent out once the liquid medicine does not exist in the infusion tube is detected, the signal is fed to an infusion controller, the infusion controller controls a dripping speed control device to regulate or shut off the infusion dripping speed, and meanwhile, infusion dripping speed information and early warning information are fed to a nurse monitoring host through a wireless communication module.

The infusion alarm unit is characterized in that a second photoelectric sensor is arranged at the lower part in a groove of an infusion tube of the infusion alarm unit, the photoelectric sensor is just opposite to the lower part of a section of a liquid drop dropping tube opening in the Murphy's dropper and is 2-3mm away from the section of the liquid drop dropping tube opening, the information of the liquid drop dropping in the Murphy's dropper is mainly detected, a liquid drop controller records the liquid drop information, and the infusion dropping speed information and the early warning information are fed to a nurse monitoring host through a wireless communication module.

The nurse monitoring host is characterized in that the nurse monitoring host is composed of a server, a memory and a monitor, the server of the monitoring host acquires infusion information of each patient stored by the server and displays the infusion information on the monitor one by one, the monitoring host adjusts front and back information of infusion progress at any time according to information fed back by an infusion alarm unit, and the monitoring host controls the host to adjust sickbed information that the online infusion bottle is used for infusion to be most quickly finished to the forefront so as to find early warning in time and replace a liquid medicine bottle or end infusion.

The utility model discloses a benefit:

the application provides a medical infusion mistake-proofing infusion liquid medicine dropping monitoring device, and the technical scheme adopts a weighing, positioning and infusion mistake-proofing method, so that a nurse can find out the phenomenon of misapplication of liquid medicine and a patient in time without increasing labor intensity in the infusion process, and the problem that the traditional infusion monitoring system has no infusion mistake and medicine infusion is solved; the infusion alarm device has the advantages that the alarm is set for the abnormal infusion, the early warning function is also realized for the abnormal conditions such as infusion blockage in the infusion process, infusion drug reaction and the like, the working strength of nurses is reduced, the infusion accident is greatly reduced, and the infusion alarm device has strong practicability.

Drawings

FIG. 1 is a schematic structural diagram of a medical infusion mistake-proofing liquid medicine dropping monitoring device provided by the present application;

in the figure: 1. the device comprises a liquid medicine positioning unit, 101, a weighing device, 102, a code printer, 103, a memory, 104, a touch display screen, 105, a printing outlet, 106, a liquid medicine bottle, 107, a label, 2, a transfusion alarm unit, 21, a first photoelectric sensor, 22, a second photoelectric sensor, 23, a code scanner, 24, an alarm memory, 25, a clamping part, 26, an indicator light, 27, a transfusion controller, 28, a liquid crystal display screen, 29, a transfusion pipe groove, 201, a transfusion pipe, 3, a wireless signal transmission module, 4, a monitoring host, 5 and a monitor.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that "weight of the fluid" as described herein may be understood as "mass of fluid"; the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

It is to be understood that although the terms first, second, third, etc. may be used herein to describe various information, such information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present application. The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination", depending on the context.

Referring to fig. 1, the present application will be further described with reference to an embodiment, in order to realize the purpose of the present invention, there is provided a medical infusion mistake-proof liquid medicine dropping monitoring device, comprising: the device comprises a liquid medicine positioning unit 1, an infusion alarm unit 2, a wireless signal transmission module 3, a monitoring host 4 and a monitor 5; liquid medicine locating element 1 sets up on nurse's dispensing table, and liquid medicine locating element 1 passes through radio signal and 4 information feedback of monitoring host computer, and liquid medicine locating element 1 mainly has weighing machine 101, and code printer 102, memory 103, touch display screen 104 print out 105, and liquid medicine bottle 106 and label 107 constitute, and the patient information of this nurse station that the wireless signal transmission module 3 of location received monitoring host computer 4 and sent includes: the name, age, sex, department, bed number information and information of the instillation liquid medicine are cached in the memory 103, meanwhile, the related information of the patient is displayed on the touch display screen 104 of the liquid medicine positioning unit 1, when a nurse dispenses the medicine, the medicine is dispensed in sequence according to the patient information displayed on the display screen 104, the prepared liquid medicine bottle 106 is placed in the weighing device 101, the weight of the liquid medicine bottle is weighed and stored in the memory 103, the code printer 102 acquires the weight of the liquid medicine bottle 106 in the memory 103, the name, age, sex, department, bed number information and the medicine information of the liquid medicine bottle 106 and generates a bar code, and the liquid medicine bottle information label 107 is printed out, taken down from the printing outlet 105 and pasted on the surface of the liquid medicine bottle 106; meanwhile, the code printer 102 sends the information to the monitoring host 4 through the positioning wireless signal transmission module 3, and after the monitoring host 4 stores the information, the bottle of liquid medicine information is sent to the infusion alarm unit 2 of the patient through the wireless signal transmission module 3 and is stored in the infusion alarm unit 2-unit memory 24.

The infusion alarm unit is characterized in that an infusion alarm unit 2 comprises a first photoelectric sensor 21, a second photoelectric sensor 22, a code scanner 23, an alarm memory 24, an indicator lamp 26, a wireless communication module, an infusion controller 27, a clamping component 25, a liquid crystal display 28, an infusion tube groove 29 and an infusion tube 201, and is characterized in that an infusion alarm unit 2 is clamped on an infusion branch through the clamping component 25, the infusion tube 201 penetrates through the interior of the infusion alarm unit 2 and is embedded into the infusion tube groove 29, a code scanner 23 is arranged at one end of the infusion alarm unit 2 and is used for scanning a code of a bar code label 107 of a liquid medicine bottle 106, the code scanner 23 scans the bar code label 107 on the liquid medicine bottle 106 to obtain the bar code information, the code scanner 23 feeds the information back to the infusion controller 27, the infusion controller 27 compares the code scanning information with the information of the liquid medicine bottle 106 stored in the alarm memory 24 in advance, if the information match is successful, the indicator lamp 26 displays green light without alarming, and if the code scanning information match with the stored information is unsuccessful, the indicator lamp 26 displays red light and gives an alarm sound.

The infusion alarm unit is characterized in that a first photoelectric sensor 21 is arranged at the upper part in an infusion tube groove 29 of the infusion alarm unit 2, the distance between the first photoelectric sensor and a Murphy's drip cup is 10-20mm, a line of an infusion tube 201 penetrates through the middle of the sensor to sense whether liquid medicine exists in the infusion tube 201, an alarm signal is sent out once the liquid medicine does not exist in the infusion tube 201 is detected, the signal is fed to an infusion controller 27, the infusion controller 27 controls a dripping speed control device to regulate and control or shut off the infusion dripping speed, and meanwhile, infusion dripping speed information and early warning information are fed to a nurse monitoring host 4 through a wireless communication module 3.

The transfusion alarm unit is characterized in that the second photoelectric sensor 22 is arranged at the lower part in a transfusion pipe groove 29 of the transfusion alarm unit, the photoelectric sensor is just opposite to the lower part of a section of a dropping pipe orifice of a liquid drop in the Murphy's dropper and is 2-3mm away from the section of the dropping pipe orifice of the liquid drop, the information of the dropping of the liquid drop in the Murphy's dropper is mainly detected, the liquid drop information is recorded by the transfusion controller 27, and the transfusion dripping speed information and the early warning information are fed to the nurse monitoring host 4 through the wireless communication module 3.

The nurse monitoring host is characterized in that the nurse monitoring host 4 is composed of a server, a memory 41 and a monitor 5, the server of the monitoring host 4 acquires infusion information of each patient stored in the memory 41 and displays the infusion information on the monitor 5 one by one, the monitoring host 4 adjusts front and back information of infusion progress at any time according to information fed back by an infusion alarm unit, and the control host 4 adjusts sickbed information of the on-line infusion bottle which is most quickly infused to the front so as to find early warning in time and replace a liquid medicine bottle or end infusion.

Example 1 (three times of patient, 3 bottles for transfusion)

The nurse personnel start the liquid medicine positioning unit 1 and the control host 4, and firstly the nurse personnel input the information of three patients into the control host 4, if: patient name Zhangsan, age 42, sex male, internal medicine, No. 1 bed, infusion and dropping liquid medicine: 250ml of glucose, 150ml of physiological saline and 100ml of levofloxacin, the three-transfusion information of the current time is sent to the liquid medicine positioning unit 1 through the wireless signal transmission module 3, the three-transfusion information is stored in the memory 103 and displayed on the touch display screen 104 by the liquid medicine positioning unit 1, the three-transfusion information of the current time is sent to the transfusion alarm unit 2 through the wireless signal transmission module 3 by the control host 4, and the three-transfusion information is stored in the memory 24 and displayed on the liquid crystal display screen 28 by the transfusion alarm unit 2.

A nurse worker dispenses and performs coding operation, prepares a glucose infusion liquid medicine bottle 106, places the prepared glucose liquid medicine bottle 106 on a weighing device 101 for weighing, selects three pieces of information of a patient on a touch display screen 104, sets the glucose liquid medicine bottle as a No. 1 bottle and stores the bottle in a memory 103, and starts a printing button to print a label 107 of the liquid medicine bottle and paste the bottle on the liquid medicine bottle 106; a nurse personnel prepares a physiological saline liquid medicine bottle 106, places the prepared physiological saline liquid medicine bottle 106 on a weighing device 101 for weighing, selects three pieces of information of a patient on a touch display screen 104, sets the physiological saline liquid medicine bottle to be No. 2, starts a printing button to print a liquid medicine bottle label and sticks the liquid medicine bottle label on the liquid medicine bottle; and repeating the steps until the liquid medicine of the patient with the third patient is prepared, weighed and printed, and performing the operations of dispensing, weighing and labeling the patient with the fourth patient.

Infusion operation, nurse personnel take out the glucose liquid medicine bottle 106 that the patient opened three, carry out clinical infusion, start infusion monitoring unit 2, aim at infusion monitoring unit 2's bar code scanner 23 to glucose liquid medicine bottle 106's label 107 bar code and sweep the sign indicating number discernment, if liquid medicine bottle 106 information and patient infusion information match succeed, pilot lamp 26 shows the green glow, nurse personnel can carry out infusion operation, if match unsuccessfully, pilot lamp 26 shows ruddiness, and send the chimes of doom, nurse personnel can not infuse and seek the reason. When the nurse carries out the next infusion operation, the infusion tube is embedded into the infusion tube groove 29, the position of the infusion tube 201 in the groove is well adjusted, the contact of the photoelectric sensor is right opposite to the center of the infusion tube, and the operation of inserting the needle into the artery infusion is started.

Those of ordinary skill in the art will understand that: all or a portion of the steps of implementing the above-described method embodiments may be performed by hardware associated with program instructions. The program may be stored in a computer-readable storage medium. When executed, the program performs steps comprising the method embodiments described above; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims (5)

1. A medical infusion mistake proofing dropping infusion liquid medicine monitoring device comprises: the device comprises a liquid medicine positioning unit, an infusion alarm unit, a wireless signal transmission module, a monitoring host and a monitor; the medical liquid positioning unit is mainly composed of a weighing device, a code printer, a storage, a touch display screen and a positioning wireless signal transmission module, receives patient information of the nurse station sent by the monitoring host, caches the information in the storage, and displays related information of the patient on the touch display screen of the medical liquid positioning unit;

the liquid medicine bottle is placed in the weighing device, the weight of the liquid medicine bottle is weighed and stored in the memory, the code printer obtains the weight of the liquid medicine bottle and the patient information of the memory and generates a bar code, the information label of the liquid medicine bottle is printed out, and the label is taken down from the printing outlet and is adhered to the surface of the liquid medicine bottle;

the code printer sends the information to the monitoring host through the positioning wireless signal transmission module, and the monitoring host sends the bottle of liquid medicine information to the infusion alarm unit of the patient through the wireless signal transmission module after storing the information and stores the information in the storage of the infusion alarm unit.

2. The device as claimed in claim 1, wherein the infusion alarm unit comprises a first photo sensor, a second photo sensor, a code scanner, an alarm memory, an indicator light, a wireless communication module, an infusion controller and a clamping member, wherein the infusion alarm unit is clamped on the infusion branch via the clamping member, the infusion tube passes through the infusion alarm unit and is embedded into the infusion tube groove, a code scanner is disposed at one end of the infusion alarm unit for scanning the code of the bar code label of the liquid medicine bottle to obtain the bar code information, the code scanner feeds the bar code information back to the infusion controller, the infusion controller compares the code scanning information with the liquid medicine bottle information pre-stored in the alarm memory, and if the matching of the code information is successful, the indicator light displays green light, and if the code scanning information is not matched with the stored information successfully, the indicating lamp displays red light and gives out an alarm sound.

3. The device for monitoring the infusion liquid medicine for preventing the mistake dropping in the medical infusion as claimed in claim 1 or 2, wherein the first photoelectric sensor is arranged at the upper part in the groove of the infusion tube of the infusion alarm unit, the distance between the first photoelectric sensor and the Murphy's dropper is 10-20mm, the infusion tube passes through the middle of the sensor, the first photoelectric sensor senses the existence of the liquid medicine in the infusion tube, an alarm signal is sent out once the absence of the liquid medicine in the infusion tube is detected, the alarm signal is fed to the infusion controller, the infusion controller controls the dropping speed control device to regulate or turn off the infusion dropping speed, and meanwhile, the infusion dropping speed information and the early warning information are fed to the nurse monitoring host through the wireless communication module.

4. The device for monitoring the medical infusion mistake proofing liquid medicine dropping according to claim 1 or 2, characterized in that a second photoelectric sensor is arranged at the lower part in the groove of the infusion tube of the infusion alarm unit, the photoelectric sensor is just opposite to the lower part of the section of the liquid drop dropping tube opening in the Murphy's dropper, and is 2-3mm away from the section of the liquid drop dropping tube opening, the device mainly detects the information of the liquid drop dropping in the Murphy's dropper, the infusion controller records the liquid drop information, and the infusion dropping speed information and the early warning information are fed to the nurse monitoring host through the wireless communication module.

5. The device for monitoring the medical infusion mistake proofing liquid medicine infusion according to claim 1, characterized in that a nurse monitoring host comprises a server, a memory and a monitor, the server of the monitoring host obtains the infusion information of each patient stored by the device and displays the information one by one on the monitor, the monitoring host adjusts the front and back information of the infusion progress at any time according to the information fed back by the infusion alarm unit, and controls the host to adjust the sickbed information of the on-line bottle that the infusion is finished most quickly to the front so as to find out the early warning in time and replace the liquid medicine bottle or the end of the infusion.

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