CN219110423U - Medical intelligent infusion workstation - Google Patents

Abstract

The utility model relates to a medical intelligent infusion workstation, which utilizes ZigBee ad hoc network, concentrates the working information of each infusion unit in a plurality of infusion workstations to mobile equipment through ZigBee wireless communication module for unified storage and display, and transmits the information to corresponding APP through networking, medical staff can know the working information and alarm signal of each infusion workstation through mobile equipment such as mobile phones carried by themselves, the working efficiency of the medical staff is not limited by space, the working intensity of the medical staff is reduced, various abnormal conditions and alarm information in the infusion process can reach the medical staff in the first time, and the medical staff can process in time; the infusion unit comprises one or more of an infusion pump, a nutrition pump, an injection pump, a target control pump and an analgesic pump, and is provided with an infrared detection module, so that intelligent monitoring of the existence of the liquid medicine amount is realized, medical staff is timely reminded, and remote monitoring of intravenous injection is realized.

Description

Medical intelligent infusion workstation

Technical Field

The utility model belongs to the technical field of medical appliances, and particularly relates to a medical intelligent infusion workstation.

Background

Intravenous injection is a common clinical rescue and treatment method, and is also a common administration treatment technology of nursing professions. Clinically, according to different situations of medicines and patients, proper conveying and rolling speeds are needed to be matched, particularly, certain rescue medicines are needed, and the administration speed and the dosage of the medicines are controlled finely; if injected too quickly, poisoning and heart failure may result; if the injection is too slow, insufficient dosage may occur, resulting in insufficient patient treatment and an impact. The conventional clinical injection at present generally adopts a nurse to hold an injector by hand, uses eyes to observe, relies on manual to push medicine liquid, is difficult to accurately control the injection speed and control the injection stability, and when patients are many, medical staff is tired of running, the workload is large, often one person is many people to treat, and is busy at all, which increases unnecessary pressure and burden to nursing work of medical staff. Therefore, an infusion workstation consisting of an infusion pump, an injection pump, a mobile trolley, related infusion accessories and an infusion information control system is proposed in the market and is used for a movable multifunctional device for intravenous infusion of liquid medicine to a patient.

Disclosure of Invention

In order to solve the problems, the utility model provides a medical intelligent infusion workstation.

A medical intelligent infusion workstation comprising: the system comprises a mobile device, a cloud host and a plurality of infusion workstations; the infusion workstation comprises a movable bracket, and a combined frame and a central workstation are arranged on the movable bracket; a plurality of infusion units and ZigBee wireless communication modules are arranged on the combined rack; the system comprises a central workstation, a ZigBee wireless communication module, a cloud host and a mobile device, wherein the central workstation is in communication connection with the central workstation through the ZigBee wireless communication module, the central workstation is used for collecting and processing working information of the infusion units and giving instructions to the working information, the working information of each infusion unit is uploaded to the cloud host through the ZigBee wireless communication module for unified storage and display, the cloud host is in communication connection with the mobile device, and signals are transferred to the mobile device through the cloud host; the infusion unit comprises a control chip, an infrared detection module and an alarm module; the control chip controls the infrared detection module to start an infrared signal to detect the liquid medicine amount, and controls the LED indicator lamp and the buzzer in the alarm module to be realized when no liquid is detected in the infusion tube, and synchronously sends an alarm signal to the cloud host through the ZigBee wireless communication module, and transmits the signal to the mobile device through the cloud host.

The infrared detection module comprises a transmitting end and a receiving end; the transmitting end and the receiving end are positioned at two sides of the plastic dropper, the transmitting end sends out infrared signals, the infrared signals are received by the receiving end after being scattered by the plastic dropper and the internal liquid, and whether the internal liquid exists or not is judged according to the voltage change generated by the infrared signals received by the receiving end.

Wherein, control chip is CC2530 control chip.

The ZigBee wireless communication module comprises a router and a coordinator; the infusion workstation transmits the information to the router, then to the coordinator, displays the information on the cloud host through the serial port, and transmits the information to the corresponding mobile equipment through the Internet.

Wherein the mobile device comprises a networking tablet and a cell phone.

The bottom of the movable support is provided with a brake castor, and the top of the movable support is also provided with an infusion bag hook.

Wherein the infusion unit comprises an infusion pump, a syringe pump, a nutrition pump, a target control pump and an analgesic pump; the infusion pump, the injection pump, the nutrition pump, the target control pump and the analgesia pump are all provided with infrared detection modules and are in communication connection with the central workstation through the control chip.

The utility model has the following beneficial effects:

according to the utility model, the ZigBee ad hoc network is utilized, the working information of each infusion unit in a plurality of infusion workstations is concentrated to the mobile equipment through the ZigBee wireless communication module for unified storage and display, and the information is sent to the corresponding APP through networking, so that medical staff can know the working information and alarm signals of each infusion workstation through mobile equipment such as mobile phones carried by the medical staff, the space is not limited, the working efficiency of the medical staff is greatly improved, the working intensity of the medical staff is reduced, various abnormal conditions and alarm information in the infusion process can reach the medical staff at the first time, and the medical staff can process in time; the infusion unit comprises one or more of an infusion pump, a nutrition pump, an injection pump, a target control pump and an analgesic pump, and is provided with an infrared detection module, so that intelligent monitoring of the existence of the liquid medicine amount is realized, medical staff is timely reminded, and remote monitoring of intravenous injection is realized.

Drawings

FIG. 1 is a schematic illustration of the structure of a medical intelligent infusion workstation of the present utility model;

FIG. 2 is a schematic diagram of a medical intelligent infusion workstation according to the present utility model;

fig. 3 is a circuit diagram of an infrared detection module of the present utility model.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more; the terms "coaxial," "bottom," "one end," "top," "middle," "another end," "upper," "one side," "top," "inner," "front," "center," "two ends," and the like are used in an orientation or positional relationship based on that shown in the drawings, merely to facilitate describing the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, unless explicitly stated and limited otherwise, the terms "mounted," "configured," "connected," "secured," "screwed," and the like are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; either directly or indirectly through intermediaries, or in communication with each other or in interaction with each other, unless explicitly defined otherwise, the meaning of the terms described above in this application will be understood by those of ordinary skill in the art in view of the specific circumstances.

As shown in fig. 1 and 2, a medical intelligent infusion workstation, comprising: the system comprises a mobile device, a cloud host and a plurality of infusion workstations; the infusion workstation comprises a movable support 1, wherein a combined frame 2 and a central workstation 5 are arranged on the movable support 1, and the central workstation 5 is provided with a display screen; a plurality of infusion units 3 and ZigBee wireless communication modules 4 are arranged on the combined rack 2; the infusion units 3 and the ZigBee wireless communication modules 4 are both in communication connection with the central workstation 5, the central workstation 5 is in wireless communication connection with the cloud host through the ZigBee wireless communication modules 4, the central workstation 5 collects and processes the working information of the infusion units 3 and gives instructions to the working information, the working information of each infusion unit 3 is uploaded to the cloud host through the ZigBee wireless communication modules 4 for unified storage and display, the cloud host is in communication connection with the mobile device, and the cloud host transmits signals to the mobile device through the cloud host; the infusion unit 3 comprises a control chip, an infrared detection module and an alarm module, wherein the control chip is a CC2530 control chip; the control chip controls the infrared detection module to start an infrared signal to detect the liquid medicine amount, when no liquid is detected in the infusion tube, the control chip controls the LED indicator lamp and the buzzer in the alarm module to be realized, and synchronously sends an alarm signal to the cloud host through the ZigBee wireless communication module 4, and transmits the signal to the mobile device through the cloud host. According to the utility model, the ZigBee ad hoc network is utilized, the working information of each infusion unit 3 in a plurality of infusion workstations is concentrated to the mobile equipment through the ZigBee wireless communication module 4 for unified storage and display, and the information is sent to the corresponding APP through networking, so that medical staff can know the working information and alarm signals of each infusion workstation through mobile equipment such as mobile phones carried by the medical staff, the space is not limited, the working efficiency of the medical staff is greatly improved, the working intensity of the medical staff is reduced, various abnormal conditions and alarm information in the infusion process can reach the medical staff in the first time, and the medical staff can process in time; the infusion unit 3 comprises one or more of an infusion pump, a nutrition pump, an injection pump, a target control pump and an analgesic pump, and is provided with an infrared detection module, so that intelligent monitoring of the existence of the liquid medicine amount is realized, medical staff is timely reminded, and remote monitoring of intravenous injection is realized.

As shown in fig. 3, the infrared detection module includes a transmitting end and a receiving end, where D1 and D2 are respectively the transmitting end and the receiving end of the infrared signal; the transmitting end and the receiving end are positioned at two sides of the plastic dropper, the transmitting end sends out infrared signals, the infrared signals are received by the receiving end after being scattered by the plastic dropper and the internal liquid, and whether the internal liquid exists or not is judged according to the voltage change generated by the infrared signals received by the receiving end. When there is not liquid in the plastic dropper, the plastic dropper scatters most infrared signals under the scattering effect, the voltage of the receiving end can not change at this moment, when the plastic dropper is filled with medicines, the infrared signals are equivalent to a convex lens, the infrared signals pass through the plastic dropper, the infrared light rays are converged and enter the receiving end according to the direction of optical refraction law changing incident light rays, the infrared signals influence the level of the pins of the integrated operational amplifier, namely, whether the internal liquid exists or not is judged according to the change of the voltage of the receiving end, whether the D2 receives the infrared signals influences the level of the second pins of the integrated operational amplifier, and the level of the second pins influences the level of the first pins.

The ZigBee wireless communication module 4 comprises a router and a coordinator; the infusion workstation transmits information to the router and then to the coordinator, the information is displayed on the cloud host through the serial port and then is transmitted to corresponding mobile equipment through the Internet, the mobile equipment comprises a networking flat plate and a mobile phone, the mobile phone is a necessary product for modern people, therefore, the mobile equipment for receiving signals through the mobile phone does not need to be additionally configured, and the mobile phone is mainly networked with the cloud host through corresponding APP.

The bottom of the movable support 1 is provided with a brake castor 6, movement and braking of an infusion workstation are facilitated, the ground is prevented from being inclined to move at will, and the top of the movable support is also provided with an infusion bag hook 7.

Wherein the infusion unit 3 comprises an infusion pump, a syringe pump, a nutrition pump, a target control pump and an analgesic pump; the infusion pump, the injection pump, the nutrition pump, the target control pump and the analgesia pump are all provided with infrared detection modules and are in communication connection with the central workstation 5 through a control chip. Because the concentration and the particle size of the liquid medicine have influence on the refractive index and the transmissivity of infrared light, when the reagent is crystal liquid, namely the solute is a small molecular substance, the detection rate of the infrared detection module is higher.

The present utility model is not described in detail in the present application, and is well known to those skilled in the art.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (7)

1. A medical intelligent infusion workstation, comprising:

the system comprises a mobile device, a cloud host and a plurality of infusion workstations;

the infusion workstation comprises a movable bracket, and a combined frame and a central workstation are arranged on the movable bracket;

a plurality of infusion units and ZigBee wireless communication modules are arranged on the combined rack;

the system comprises a central workstation, a ZigBee wireless communication module, a cloud host and a mobile device, wherein the central workstation is in communication connection with the central workstation through the ZigBee wireless communication module, the central workstation is used for collecting and processing working information of the infusion units and giving instructions to the working information, the working information of each infusion unit is uploaded to the cloud host through the ZigBee wireless communication module for unified storage and display, the cloud host is in communication connection with the mobile device, and signals are transferred to the mobile device through the cloud host;

the infusion unit comprises a control chip, an infrared detection module and an alarm module;

the control chip controls the infrared detection module to start an infrared signal to detect the liquid medicine amount, and controls the LED indicator lamp and the buzzer in the alarm module to be realized when no liquid is detected in the infusion tube, and synchronously sends an alarm signal to the cloud host through the ZigBee wireless communication module, and transmits the signal to the mobile device through the cloud host.

2. A medical intelligent infusion workstation as claimed in claim 1, wherein,

the infrared detection module comprises a transmitting end and a receiving end;

the transmitting end and the receiving end are positioned at two sides of the plastic dropper, the transmitting end sends out infrared signals, the infrared signals are received by the receiving end after being scattered by the plastic dropper and the internal liquid, and whether the internal liquid exists or not is judged according to the voltage change generated by the infrared signals received by the receiving end.

3. A medical intelligent infusion workstation as claimed in claim 1, wherein,

the control chip is a CC2530 control chip.

4. A medical intelligent infusion workstation as claimed in claim 1, wherein,

the ZigBee wireless communication module comprises a router and a coordinator;

the infusion workstation transmits the information to the router, then to the coordinator, displays the information on the cloud host through the serial port, and transmits the information to the corresponding mobile equipment through the Internet.

5. A medical intelligent infusion workstation as claimed in claim 1, wherein,

the mobile device includes a networking tablet and a handset.

6. A medical intelligent infusion workstation as claimed in claim 1, wherein,

the bottom of the movable support is provided with a brake castor, and the top of the movable support is also provided with an infusion bag hook.

7. A medical intelligent infusion workstation as claimed in claim 1, wherein,

the infusion unit comprises an infusion pump, a syringe pump, a nutrition pump, a target control pump and an analgesic pump;

the infusion pump, the injection pump, the nutrition pump, the target control pump and the analgesia pump are all provided with infrared detection modules and are in communication connection with the central workstation through the control chip.

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