CN215386466U

CN215386466U - An intelligent infusion device that can automatically adjust the flow rate and change medicines automatically

Info

Publication number: CN215386466U
Application number: CN202023145183.6U
Authority: CN
Inventors: 郑昌佶; 史润普
Original assignee: Harbin University of Science and Technology
Current assignee: Harbin University of Science and Technology
Priority date: 2020-12-24
Filing date: 2020-12-24
Publication date: 2022-01-04
Anticipated expiration: 2030-12-24

Abstract

The utility model discloses an intelligent infusion device that can automatically adjust the flow rate and can automatically change medicines, belonging to the technical field of medical equipment. Including: core control module, key module, OLED display module, WIFI module, ultra-wideband radar module, flow rate control module, infrared detection module, intelligent terminal module and power supply module. The button module, OLED display module, WIFI module, ultra-wideband radar module, flow rate control module, infrared detection module and power supply module are respectively connected with the core control module, and the intelligent terminal module is connected with the core control module through the WIFI module. The infusion speed is automatically adjusted based on the heart rate of the patient collected by the ultra-wideband radar module; the flow rate control module for determining whether to open the next bottle of liquid is based on the infusion speed in the infusion tube detected by the infrared detection module to realize the automatic dressing change of the device. The utility model can not only reduce the risk of patients during the infusion process, but also greatly reduce the workload of medical staff.

Description

Intelligent infusion device capable of automatically adjusting flow rate and automatically changing medicine

Technical Field

The utility model belongs to the technical field of medical instruments, and particularly relates to an intelligent infusion device capable of automatically adjusting flow rate and automatically changing medicine.

Background

Infusion treatment is a common treatment means during hospitalization of patients, multiple infusion bottles are required for continuous infusion treatment usually for one-time infusion treatment, at present, a common infusion mode is that after one infusion bottle is used up, a patient presses a call button, a nurse receives a signal and then manually changes the medicine, and if the patient feels uncomfortable to the current infusion speed in the infusion process, the nurse can only manually regulate the speed by the same mode. At present, medical conditions in China are limited, a nurse needs to take care of a plurality of patients, the nurse cannot reach the patients in time, meanwhile, the time required by each bottle of transfusion bottle is long, the patients need to continuously raise heads to observe the liquid allowance in the process, and great burden is brought to the bodies and the psychology of the patients.

With the development of medical health care, the traditional manual speed-regulating and medicine-changing mode can not meet the requirements of people during transfusion treatment. Therefore, it is necessary to design an intelligent infusion device capable of automatically adjusting the flow rate and changing the drug. The intelligent infusion device can manually control the infusion speed in a key interaction mode, and meanwhile, the infusion speed is automatically adjusted according to the heart rate of a patient collected by the ultra-wideband radar module; the infusion speed in the infusion tube is detected through the infrared detection module, and when the infusion speed is lower than a set infusion speed threshold value, the current flow rate control module is closed and the flow rate control module of the next bottle of liquid is opened to realize the automatic medicine changing function of the device.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an intelligent infusion device capable of automatically adjusting flow rate and automatically changing medicine, so as to solve the problem that the traditional infusion treatment mode needs to manually adjust the flow rate and change a medicine bottle.

The utility model is realized by the following technical scheme:

an intelligent infusion device capable of automatically adjusting flow rate and automatically changing medicine comprises: the device comprises a core control module, a key module, an OLED display module, a WIFI module, an ultra wide band radar module, a flow rate control module, an infrared detection module, an intelligent terminal module and a power supply module; wherein:

the key module, the OLED display module, the WIFI module, the ultra-wideband radar module, the flow rate control module, the infrared detection module and the power supply module are respectively connected with the core control module, and the intelligent terminal module is connected with the core control module through the WIFI module;

a key module: the infusion speed is manually adjusted and the function of switching the device is realized through a core control module, wherein 1 key is used for switching the device, and 2 keys are used for adjusting the infusion speed;

an OLED display module: displaying the real-time heart rate of the patient and the current infusion speed;

a WIFI module: sending the information sent by the core control module to the intelligent terminal module;

an ultra-wideband radar module: for acquiring a patient heart rate;

a flow rate control module: the intelligent infusion device comprises a plurality of flow rate control modules which are sequentially arranged from left to right, and each flow rate control module controls the infusion speed of one bottle of liquid medicine;

the infrared detection module: the intelligent transfusion device comprises infrared detection modules with the same number as that of flow rate control modules, wherein the infrared detection modules are sequentially arranged below the flow rate control modules from left to right, and each infrared detection module detects the transfusion speed of a bottle of liquid medicine;

the intelligent terminal module: receiving and displaying an infusion completion signal sent by the core control module and displaying the serial number of the intelligent infusion device which completes the final infusion;

a power supply module: the power supply is used for supplying power to the core control module;

a core control module: receiving an instruction sent by the key module, and sending an adjusting instruction to the flow rate control module to realize the adjustment of the infusion speed; analyzing and processing the heart rate information acquired by the ultra-wideband radar module and the infusion speed information acquired by the infrared detection module, sending different infusion speed adjusting instructions to the flow rate control module according to the change condition of the heart rate of the patient, sending an instruction to the flow rate control module to reduce the infusion speed when the heart rate of the patient is continuously higher than a set maximum heart rate threshold value within a certain time, and sending an instruction to the flow rate control module to improve the infusion speed when the heart rate of the patient is continuously lower than a set minimum heart rate threshold value within a certain time; when the infusion speed detected by the infrared detection module is lower than the set infusion speed threshold value, an instruction is sent to the flow rate control module corresponding to the upper part of the infrared detection module to completely fold the two extrusion pieces of the module, then the extrusion piece of the next flow rate control module is opened according to the sequence from left to right to complete the automatic medicine changing function, and after the infusion work is completely completed, an infusion completion signal and the serial number of the intelligent infusion device which completes the infusion work are sent to the intelligent terminal module.

The device comprises a device box body, a key module, a WIFI module, an ultra-wideband radar module and a power module, wherein the core control module, the WIFI module, the ultra-wideband radar module and the power module are all installed inside the device box body, the device box body is provided with a plurality of grooves, a flow rate control module is installed at the top of each groove from left to right, an infrared detection module is correspondingly installed below each flow rate control module, the description takes 4 flow rate control modules and 4 infrared detection modules as examples, and the key module and the OLED display module are installed on the surface of the device box.

The utility model has the beneficial effects that:

the utility model provides an intelligent infusion device capable of automatically adjusting flow rate and automatically changing medicine, which can manually control infusion speed in a key interaction mode and automatically adjust the infusion speed according to the heart rate of a patient acquired by an ultra-wideband radar module; the infusion speed in the infusion tube is detected through the infrared detection module, and when the current infusion speed is lower than a set infusion speed threshold value, the current flow rate control module is closed and the flow rate control module of the next bottle of liquid is opened to realize the automatic medicine changing function of the device. The utility model makes up the problem that the traditional infusion treatment mode needs to manually adjust the flow rate and replace the medicine bottle, not only can reduce the risk of the patient in the infusion process, but also greatly lightens the work burden of medical care personnel.

Drawings

FIG. 1 is a block diagram of a system for an intelligent infusion device with automatic flow rate adjustment and automatic drug change according to the present invention;

FIG. 2 is a general structural diagram of an intelligent infusion device capable of automatically adjusting flow rate and automatically changing medicine according to the present invention;

FIG. 3 is a structural diagram of a four-head infusion tube of an intelligent infusion device capable of automatically adjusting the flow rate and automatically changing the medicine according to the utility model;

Detailed Description

Exemplary embodiments of the present invention will be described hereinafter with reference to the accompanying drawings. In order to make the technical solution of the present invention better understood and make the above objects, features and advantages of the present invention more comprehensible, a technical solution of the present invention is described in detail below with reference to the accompanying drawings.

It should be noted that, in order to avoid obscuring the present invention with unnecessary details, only the parts closely related to the solution according to the present invention are shown in the drawings, and other details not so much related to the present invention are omitted.

Detailed description of the utility model

A block diagram of an intelligent infusion device capable of automatically adjusting flow rate and automatically changing medicine is shown in fig. 1, and the device comprises: the device comprises a core control module (1), a key module (2), an OLED display module (3), a WIFI module (4), an ultra-wideband radar module (5), a flow rate control module (6), an infrared detection module (7), an intelligent terminal module (8) and a power supply module (9); wherein:

the key module (2), the OLED display module (3), the WIFI module (4), the ultra-wideband radar module (5), the flow rate control module (6), the infrared detection module (7) and the power supply module (9) are respectively connected with the core control module (1), and the intelligent terminal module (8) is connected with the core control module (1) through the WIFI module (4);

key module (2): the infusion speed is manually adjusted and the infusion device is switched on and off through the core control module (1), wherein 1 key is used for switching on and off the infusion device, and 2 keys are used for adjusting the infusion speed;

OLED display module (3): displaying the real-time heart rate of the patient and the current infusion speed;

WIFI module (4): sending the information sent by the core control module (1) to an intelligent terminal module (8);

ultra-wideband radar module (5): for acquiring a patient heart rate;

flow rate control module (6): the infusion tube is extruded through the stepping motor and the two extrusion pieces so as to adjust the infusion speed in the infusion tube;

infrared detection module (7): detecting the current transfusion speed in the transfusion tube through infrared scanning;

intelligent terminal module (8): receiving and displaying an infusion completion signal sent by the core control module (1) and displaying the serial number of the intelligent infusion device which completes the final infusion;

power module (9): used for supplying power to the core control module (1);

core control module (1): receiving an instruction sent by the key module (2), and sending an adjusting instruction to the flow rate control module (6) to realize the adjustment of the infusion speed; analyzing and processing the heart rate information acquired by the ultra-wideband radar module (5) and the infusion speed information acquired by the infrared detection module (7), and sending different infusion speed adjusting instructions to the flow rate control module (6) according to the change condition of the heart rate of the patient; when the fact that the infusion speed sent by the infrared detection module (7) is lower than a set infusion speed threshold value is detected, an instruction is sent to the flow rate control module (6) corresponding to the infrared detection module to completely close the two extrusion pieces of the module, then the extrusion piece of the next flow rate control module (6) is opened according to the sequence from left to right to complete the automatic medicine changing function, and after the infusion work is completed, an infusion completion signal and the serial number of the intelligent infusion device which has completed the infusion work are sent to the intelligent terminal module (8).

Detailed description of the utility model

The utility model provides a but intelligent infusion set's that automatically regulated velocity of flow and can change dressings overall structure chart is shown in fig. 2, core control module (1), WIFI module (4), ultra wide band radar module (5) and power module (9) are all installed inside the rightmost side of device box body, the device box body has a plurality of recesses, from left to right each recess top respectively installs a velocity of flow control module (6), infrared detection module (7) of corresponding installation in every velocity of flow control module (6) below, this embodiment uses 4 velocity of flow control modules (6) and 4 infrared detection module (7) as the example to carry out the device structure chart show, install in device box surface button module (2) and OLED display module (3).

Detailed description of the utility model

The application mode of the intelligent infusion device capable of automatically adjusting the flow rate and automatically changing the medicine in the actual life is that the device is fixed on the wall of the upper right of a sickbed of a patient, 4 flow rate control modules (6) are completely opened in a default state, and a of four input pipes of a customized four-head infusion pipe₁、b₁、c₁、d₁The parts of the four-head transfusion tube are fixed in the grooves corresponding to a, b, c and d in fig. 2, the customized four-head transfusion tube structure is shown in fig. 3, after the fixation is finished, only the extrusion sheet of the flow rate control module corresponding to a is opened, and the extrusion sheet of the flow rate control module corresponding to b, c and d is closed to start transfusion. The order of a, b, c, d is the acquiescent order of changing dressings promptly from left to right on this intelligent infusion set, and after all medicine infusions were accomplished, the core control module will infuse and accomplish the signal and pass through the WIFI module and transmit for intelligent terminal module, and the nurse is through the intelligent infusion set serial number determining device position that shows to can reach the patient fast and remove the transfer line from intelligent infusion set.

The foregoing is illustrative of the preferred embodiments of the present invention only and is not to be taken as limiting the utility model, as the language used in the specification has been principally selected for readability and instructional purposes, and may not have been selected to delineate or circumscribe the inventive subject matter. Thus, various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the appended claims, and all changes, equivalents, and modifications that fall within the true spirit and scope of the utility model are intended to be embraced therein by the appended claims, which are to be interpreted as illustrative and not in a limiting sense.

Claims

1. An intelligent infusion device that can automatically adjust the flow rate and can automatically change dressings, it is characterized in that: a kind of intelligent infusion device that can automatically adjust the flow rate and can automatically change the dressing comprises: a core control module (1), a button module (2). ), OLED display module (3), WIFI module (4), ultra-wideband radar module (5), flow rate control module (6), infrared detection module (7), intelligent terminal module (8) and power supply module (9); in:

The button module (2), the OLED display module (3), the WIFI module (4), the ultra-wideband radar module (5), the flow rate control module (6), the infrared detection module (7) and the power module (9) are respectively connected with the core control module. The module (1) is connected, and the intelligent terminal module (8) is connected with the core control module (1) through the WIFI module (4);

Button module (2): contains 3 buttons, the functions of manually adjusting the infusion speed and switching the infusion device are realized through the core control module (1), of which 1 button is used to switch the device, and 2 buttons are used to adjust the infusion speed;

OLED display module (3): display the patient's real-time heart rate and current infusion rate;

WIFI module (4): send the information sent by the core control module (1) to the intelligent terminal module (8);

Ultra-wideband radar module (5): used to collect the patient's heart rate;

The flow rate control module (6): the infusion tube is squeezed through a stepping motor and two extruding sheets to adjust the infusion speed in the infusion tube. The core control module (1) sends a control command to the stepping motor, and the stepping motor Drive the two extruded sheets to open or close to achieve the purpose of increasing the infusion rate or reducing the infusion rate. When the two extruded sheets are fully opened, the infusion rate is the largest. When the two extruded sheets are fully closed, the infusion is stopped. This intelligent infusion The device includes a plurality of flow rate control modules (6), which are arranged in sequence from left to right, and each flow rate control module (6) controls the infusion speed of a bottle of medicine;

Infrared detection module (7): detects the infusion speed in the current infusion tube through infrared scanning. The intelligent infusion device includes the same number of infrared detection modules (7) as the flow rate control module (6), which are installed in the flow rate control module from left to right. (6) Below, each infrared detection module (7) detects the infusion speed of a bottle of medicine;

Intelligent terminal module (8): receive and display the infusion completion signal sent by the core control module (1) and display the number of the intelligent infusion device that has completed the infusion;

Power supply module (9): used to supply power to the core control module (1);

The core control module (1): receives the instruction issued by the button module (2), and then sends the adjustment instruction to the flow rate control module (6) to realize the adjustment of the infusion rate; The infusion speed information collected by the module (7) is analyzed and processed, and different infusion speed adjustment instructions are sent to the flow rate control module (6) according to the change of the patient's heart rate; when it is found that the infusion speed detected by the infrared detection module (7) is lower than the set infusion speed. When the infusion speed threshold is determined, send an instruction to the corresponding flow rate control module (6) above the infrared detection module (7) to completely close the two extruded sheets of the module, and then open the next flow rate control in the order from left to right. The extruded sheet of the module (6) completes the function of automatic dressing change, and after the infusion work is completed, it sends an infusion completion signal to the intelligent terminal module (8) and the number of the intelligent infusion device that has completed the infusion work.

2. An intelligent infusion device that can automatically adjust the flow rate and can automatically change dressings according to claim 1, characterized in that: the core control module (1), the WIFI module (4), the ultra-wideband radar module (5) ) and the power module (9) are installed inside the device box, the device box has a plurality of grooves, from left to right, a flow rate control module (6) is installed on the top of each groove, and each flow rate control module (6) ), an infrared detection module (7) is correspondingly installed below the button module (2) and the OLED display module (3) is installed on the surface of the device box.