CN216352398U - High-integration infusion apparatus traceable system - Google Patents

Abstract

The utility model discloses a high-integration infusion apparatus traceable system, which is characterized by comprising the following components: the first identification component is connected to the main control component and used for identifying the type and the category of the infusion set and transmitting the acquired information to the main control component; the main control part is connected to the labeler and is used for receiving the information collected by the first identification part and conveying the printing information to the labeler, receiving the information of the second identification part and sending an alarm command to the alarm module; the label machine is a radio frequency label printer and is used for receiving the printing information of the main control unit and printing a radio frequency label; the second identification component is connected to the main control component; the utility model adopts the application of the combination of the camera and the bar code scanner to simultaneously acquire the image and the bar code information and the radio frequency technology, and the acquisition of multiple information is beneficial to improving the accuracy of the statistics of the medicine entering and leaving the warehouse and reducing the problem of human errors.

Description

High-integration infusion apparatus traceable system

Technical Field

The utility model relates to the technical field of medical equipment, in particular to a high-integration infusion apparatus traceable system.

Background

The infusion apparatus is a common medical consumable, and a channel between a vein and liquid medicine is established through aseptic treatment for intravenous infusion. Generally, the infusion apparatus is formed by connecting eight parts, namely a vein needle or an injection needle, a needle head protective cap, an infusion hose, a liquid medicine filter, a flow rate regulator, a drip cup, a bottle stopper puncture outfit, an air filter and the like, and a part of the infusion apparatus also comprises an injection piece, a medicine adding port and the like. In order to improve the overall medical level, the medical resource utilization is integrated to prevent the backflow in the infusion apparatus for repeated utilization at one time. At present, a hospital forms authority classification according to the grade and category of a medical institution, and information data such as specific medical and health institutions, departments, types, weights, transfer personnel, time and the like are generated by counting and inquiring medical waste, so that traceability of medical waste treatment whole-process responsibility is realized; most of the conventional traceability systems need personnel statistics, and errors are prone to occurring, so that a highly-integrated infusion apparatus traceability system is provided.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model aims to provide a highly-integrated infusion apparatus traceability system which is used for tracking an infusion apparatus, ensuring real-time tracking of the infusion apparatus from a warehouse to a patient using link and preventing the infusion apparatus from being misused.

To solve the above technical problem, according to an aspect of the present invention, the present invention provides the following technical solutions: a highly integrated infusion set traceability system, comprising:

the first identification component is connected to the main control component and used for identifying the type and the category of the infusion set and transmitting the acquired information to the main control component;

the main control part is connected to the labeler and is used for receiving the information collected by the first identification part and conveying the printing information to the labeler, receiving the information of the second identification part and sending an alarm command to the alarm module;

the label machine is a radio frequency label printer and is used for receiving the printing information of the main control unit and printing a radio frequency label;

the second identification component is connected to the main control component and comprises a camera connected to the main control component and used for collecting video information and a radio frequency detector connected to the main control component and used for collecting the video information and giving an alarm;

and the warning module is an acousto-optic alarm module, and the acousto-optic alarm module is connected to the main control component.

As a preferred scheme of the highly integrated infusion apparatus traceability system, the device further comprises an input module, wherein the input module is connected to the main control unit and is used for inputting information for taking out the infusion apparatus from the warehouse to the main control unit;

the identification component III is connected to the main control component and is used for collecting the model of the infusion apparatus taken out of the warehouse and inputting infusion apparatus information to the main control component for comparison;

the decoder is used for decoding the radio frequency code on the infusion set;

and the radio frequency detector is used for detecting whether the radio frequency code of the infusion set is decoded or not and giving an alarm.

As a preferred scheme of the highly integrated infusion apparatus traceability system, the device further comprises a hospital bed identification component, wherein the hospital bed identification component is connected to the main control component and the hospital bed alarm module, and is used for identifying information of the infusion apparatus and respectively sending the information to the hospital bed alarm module and the main control component;

and the sickbed alarm module is used for identifying the information of the sickbed identification component and giving an alarm.

As a preferred scheme of the highly-integrated infusion apparatus traceability system, the identification component is divided into a camera connected to the main control component for collecting infusion apparatus radio frequency information and a barcode scanner connected to the main control component for identifying delivery barcode information on an infusion apparatus packaging bag.

As a preferable scheme of the highly-integrated infusion apparatus traceability system, the identification component three is a camera capable of acquiring infusion apparatus radio frequency information.

As a preferable scheme of the highly-integrated infusion apparatus traceability system, the hospital bed identification component is a code scanner, and the code scanner is connected to the hospital bed alarm module.

Compared with the prior art, the utility model has the beneficial effects that: the camera is matched with the bar code scanner to simultaneously acquire images and bar code information, and the application of the radio frequency technology is matched, so that the acquisition of multiple information is beneficial to improving the accuracy of the statistics of the medicine entering and leaving the warehouse, and the problem of human errors is reduced; the bar code of the infusion apparatus is aligned to the sickbed identification assembly to be identified and information is conveyed to the main control unit to be recorded, the information of the infusion apparatus is inconsistent with the information of the sickbed, and then the control unit controls the alarm module to alarm, so that the accurate tracing of the infusion apparatus used by a patient is facilitated, and the whole medical tracing process is convenient to optimize.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and detailed embodiments, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise. Wherein:

FIG. 1 is a schematic block diagram of a highly integrated infusion set traceability system of the present invention;

FIG. 2 is a structural block diagram of an identification component of the highly integrated infusion set traceability system of the present invention;

FIG. 3 is a block diagram of a second structure of an identification component of the highly integrated infusion set traceability system of the present invention;

fig. 4 is a structural block diagram of an identification component three and a bed identification component of the highly integrated infusion set traceability system of the utility model.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described herein, and it will be apparent to those of ordinary skill in the art that the present invention may be practiced without departing from the spirit and scope of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Next, the present invention will be described in detail with reference to the drawings, wherein for convenience of illustration, the cross-sectional view of the device structure is not enlarged partially according to the general scale, and the drawings are only examples, which should not limit the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.

Fig. 1 to 4 are schematic block diagrams of an embodiment of a highly integrated infusion set traceability system of the present invention, and the device is specifically described with reference to fig. 1 to 4.

A highly integrated infusion set traceability system, comprising:

the first identification component 110 is used for identifying the type and the type of the infusion set and transmitting the acquired information to the main control component 120, specifically, the first identification component 110 is connected to the main control component 120, and the first identification component 110 is divided into a camera connected to the main control component 120 and used for acquiring the radio frequency information of the infusion set and a code scanner connected to the main control component 120 and used for identifying the factory barcode information on the infusion set packaging bag;

the main control unit 120 is configured to receive the information collected by the first identification unit 110 and transmit the print information to the labeler 130, specifically, the main control unit 120 is connected to the labeler 130, and receives the information of the second identification unit 140 and sends an alarm command to the alarm module 150, and the main control unit 120 is a computer;

the labeler 130 is configured to receive the printing information of the main control unit 120 and print a radio frequency label, and specifically, the labeler 130 is a radio frequency label printer;

the second identification component 140 is a camera for acquiring video information and a radio frequency detector 240 connected to the main control component 120 for acquiring video information and giving an alarm, specifically, the second identification component 140 is connected to the main control component 120, and the second identification component 140 is connected to the main control component 120;

the warning module 150 is used for giving an alarm, specifically, the warning module 150 is a sound and light alarm module, and the sound and light alarm module is connected to the main control unit 120, and when the sound and light alarm module receives an alarm signal of the main control unit 120, a sound and light alarm can be performed.

The device further comprises an input module 210 for inputting the information of taking out the infusion set from the warehouse to the main control unit 120, specifically, the input module 210 is connected to the main control unit 120, the input module 210 is an input device such as a keyboard, and when in use, the information of the infusion set to be used is input into the main control unit 120 through the input device;

the third identification component 220 is used for acquiring the type of the outgoing infusion set and inputting infusion set information to the main control component 120 for comparison, specifically, the third identification component 220 is connected to the main control component 120, and the third identification component 220 is a camera capable of acquiring infusion set radio frequency information;

the decoder 230 is used for decoding the radio frequency code on the infusion set, specifically, the decoder 230 is in the prior art, and the radio frequency code can pass through the radio frequency detector 240 after being decoded by the decoder 230 during delivery;

the rf detector 240 is configured to detect whether the rf code of the infusion apparatus is decoded, and specifically, when the rf detector 240 detects that the infusion apparatus is not decoded, it sends an alarm to remind a medical worker that the infusion apparatus is not registered.

The device further comprises a sickbed identification component 310, a sickbed alarm module 320 and a main control component 120, wherein the sickbed identification component 310 is used for identifying information of the infusion apparatus and respectively sending the information to the sickbed alarm module 320 and the main control component 120, specifically, the sickbed identification component 310 is connected to the main control component 120 and the sickbed alarm module 320, the sickbed identification component 310 is a code scanner, and the code scanner is connected to the sickbed alarm module 320;

the bed alarm module 320 is used for the bed recognition component 310 to recognize information and alarm.

With reference to fig. 1 to 4, the traceability system of the highly integrated infusion set of the present embodiment has the following specific operation processes: when the infusion apparatus is put in storage, the video and the identification bar code information of the infusion apparatus are collected through the first identification part 110, then the information is transmitted to the main control part 120, the main control part 120 judges the type and the number of the infusion apparatus, then the information is recoded according to the type and the number and is transmitted to the labeler 130, the labeler 130 prints out a radio frequency label, a medical worker pastes the label on the infusion apparatus, then the infusion apparatus identifies the image and the radio frequency information through the second identification part 140 and transmits the image and the radio frequency information to the main control part 120, when the radio frequency information is not detected, the main control part 120 controls the alarm module to alarm, the operation of pasting the radio frequency code from the new identification information is needed, and the image and the radio frequency information are normally put in storage;

when the infusion apparatus is delivered from the warehouse, the medical staff correspondingly inputs the type and the number of the infusion apparatus into the main control unit 120, then takes out the infusion apparatus according to the requirement, identifies the infusion apparatus through the third identification unit 220 and sends identification information to the main control unit 120, at the moment, the main control unit 120 compares the information, if the information is inconsistent, the alarm module is controlled to alarm, if the information is identical, the information passes through the alarm module, then the information is decoded through the decoder 230, the infusion apparatus is sent out through the radio frequency detector 240, at the moment, the radio frequency detector 240 detects the information in real time, if the fact that the infusion apparatus is not decoded is detected, the alarm is carried out, and the checking of the medical staff is facilitated;

when the infusion apparatus is used by a patient, firstly, the bar code of the infusion apparatus is aligned with the sickbed identification component for identification, and information is transmitted to the main control component 120 for recording, and if the information of the infusion apparatus is inconsistent with the information of the patient, the control component controls the alarm module to alarm.

While the utility model has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the various features of the disclosed embodiments of the utility model may be used in any combination, provided that no structural conflict exists, and the combinations are not exhaustively described in this specification merely for the sake of brevity and resource conservation. Therefore, it is intended that the utility model not be limited to the particular embodiments disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (6)

1. A highly integrated infusion set traceability system is characterized by comprising:

the first identification component is connected to the main control component and used for identifying the type and the category of the infusion set and transmitting the acquired information to the main control component;

the main control part is connected to the labeler and is used for receiving the information collected by the first identification part and conveying the printing information to the labeler, receiving the information of the second identification part and sending an alarm command to the alarm module;

the label machine is a radio frequency label printer and is used for receiving the printing information of the main control unit and printing a radio frequency label;

the second identification component is connected to the main control component and comprises a camera connected to the main control component and used for collecting video information and a radio frequency detector connected to the main control component and used for collecting the video information and giving an alarm;

and the warning module is an acousto-optic alarm module, and the acousto-optic alarm module is connected to the main control component.

2. The highly-integrated infusion apparatus traceability system according to claim 1, further comprising an input module, wherein the input module is connected to the main control unit and is used for inputting information for taking out the infusion apparatus from the warehouse into the main control unit;

the identification component III is connected to the main control component and is used for collecting the model of the infusion apparatus taken out of the warehouse and inputting infusion apparatus information to the main control component for comparison;

the decoder is used for decoding the radio frequency code on the infusion set;

and the radio frequency detector is used for detecting whether the radio frequency code of the infusion set is decoded or not and giving an alarm.

3. The highly integrated infusion apparatus traceability system according to claim 2, further comprising a hospital bed identification component, wherein the hospital bed identification component is connected to the main control component and the hospital bed alarm module, and is configured to identify information of the infusion apparatus and send the information to the hospital bed alarm module and the main control component respectively;

and the sickbed alarm module is used for identifying the information of the sickbed identification component and giving an alarm.

4. The highly integrated infusion set traceability system of claim 3, wherein the first identification component is divided into a camera connected to the main control component for collecting infusion set radio frequency information and a barcode scanner connected to the main control component for identifying factory barcode information on the infusion set packaging bag.

5. The highly-integrated infusion set traceability system according to claim 4, wherein the third identification component is a camera capable of collecting infusion set radio frequency information.

6. The highly integrated infusion set traceability system of claim 5, wherein the bed identification component is a code scanner, and the code scanner is connected to the bed alarm module.

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