CN219440243U - Remote first-aid medicine injection device - Google Patents

Abstract

The utility model discloses a remote first-aid medicine injection device, which comprises: a body comprising a pump body and an injection assembly; the pump body is internally provided with a control system for controlling the injection speed of the liquid medicine; one end of a liquid inlet pipe of the injection assembly is connected with a liquid outlet of the pump body, and the other end of the liquid inlet pipe is connected with the retaining needle; the control system is connected with the remote terminal through wireless communication; and the anti-displacement assembly is attached to the pump body and the injection assembly. According to the remote first-aid medicine injection device, the pump body and the injection assembly are arranged, and liquid injection is intelligently controlled, so that not only are the amount of infused medicine and the depth of implantation more accurately controlled, but also the remote first-aid medicine injection device is communicated with the remote terminal in real time, more patients are helped simultaneously, and the working efficiency of medical staff is improved.

Description

Remote first-aid medicine injection device

Technical Field

The utility model relates to the technical field of medical appliances, in particular to a remote first-aid medicine injection device.

Background

The success rate of battlefield first aid, earthquake and flood rescue is low, and the success rate is mainly limited by equipment conditions and lack of field professionals. Whether in a field hospital or a rear hospital, a doctor can continuously input special medicines (such as sedative analgesic medicines or antiarrhythmic medicines which need micropump injection) by depending on complete equipment according to the characteristics of the injuries and the characteristics of various medicines of the patient. However, in the course of a battle environment or natural disaster relief, the sick and wounded are in a state of moving and jolting at any time, and the micro-injection pump is pushed and pushed by a little careless, so that the medicine can quickly enter the body, if sedative analgesic medicine is used, the excessive input in a short time can cause sudden stop of respiratory heart, so that the sick and wounded can be extremely dangerous, and sometimes improper treatment can even cause casualties. This current situation presents challenges to the development of field rescue medicine.

The problems mainly existing at present are as follows:

1. in the current emergency environment, medical staff need to monitor the conditions of a plurality of patients at the same time, and the limited medical environment faces a large number of wounded persons; the monitoring effect is poor, the problem that individual patients are not timely rescued due to the omission is easily caused, and the monitoring device is also extremely labor intensity and challenge for medical staff;

2. in the first aid process, the patient is required to be injected with medicaments for rescuing, such as heart strengthening, blood pressure reducing, urination promoting, pain relieving, sedation and the like, and the injection speed and the dosage of the medicaments are required to be accurately controlled; however, the current injection device is very easy to have the problem that the medicine enters the body in a large amount instantly due to the moving and pushing of the micro injection pump.

For the above reasons, there is an urgent need to design a remote emergency medicine injection device that overcomes the above problems.

Disclosure of Invention

In view of the problems mentioned in the background art, it is an object of the present utility model to provide a remote emergency medicine injection device to solve the problems mentioned in the background art.

In order to achieve the above purpose, the present utility model mainly provides the following technical solutions:

a remote emergency medicine injection device, comprising:

a body comprising a pump body and an injection assembly; the pump body is internally provided with a control system for controlling the injection speed of the liquid medicine; one end of a liquid inlet pipe of the injection assembly is connected with a liquid outlet of the pump body, and the other end of the liquid inlet pipe is connected with the retaining needle; the control system is connected with the remote terminal through wireless communication;

and the anti-displacement assembly is attached to the pump body and the injection assembly.

Further, the anti-displacement component is a transparent film which is attached to the pump body and the injection component;

a traceless medical adhesive tape is arranged around the transparent film;

and the transparent film is provided with ventilation holes.

Further, the device also comprises a protective piece which is arranged at the inner wall of the transparent film and corresponds to the position of the retaining needle;

the guard is a frame-like balloon cushion with the indwelling needle in its center.

Further, the pump body comprises a shell, a control system arranged in the shell, a liquid storage bag, a transfusion pipeline and a pressurizing bag coated on the liquid storage bag;

the pressurizing bag is an air bag and is connected with a miniature inflator pump through an inflation tube; the micro inflator pump is electrically connected with a micro processor of the control system.

Further, the pump body comprises a shell, a control system arranged in the shell, a liquid reservoir, a micro motor and a transfusion pipeline;

a piston is arranged in the liquid storage device and is connected with a push rod, and the other end of the push rod is connected with the output shaft of the miniature motor; the micro motor is electrically connected with the micro processor of the control system.

Further, the control system comprises a PCB circuit board, a micro processor integrated on the PCB circuit board, a wireless transceiver module and a power supply assembly;

the display screen and the control button are respectively arranged at the top wall of the pump body and are electrically connected with the microprocessor.

Further, the pump further comprises a pressure sensor which is arranged at the bottom wall of the pump body; which is electrically connected with the microprocessor;

the pressure sensor adopts a flexible film type pressure sensor.

Further, the device also comprises a fixing component which is a left fixing band and a right fixing band;

the left fixing belt and the right fixing belt are respectively arranged at the left end and the right end of the body, and the end parts are connected through sticking buckles.

Compared with the prior art, the utility model has the beneficial effects that:

according to the remote first-aid medicine injection device, the pump body and the injection assembly are arranged, and liquid injection is intelligently controlled, so that not only are the amount of infused medicine and the depth of implantation more accurately controlled, but also the remote first-aid medicine injection device is communicated with the remote terminal in real time, more patients are helped at the same time, and the working efficiency of medical staff is improved;

according to the remote first-aid medicine injection device, the injection medicine is arranged in the pump body, so that the problem that a large amount of medicine enters the body due to moving and extrusion can be effectively avoided; thereby improving the safety of injection;

the remote first-aid medicine injection device can be suitable for injection of cardiotonic, pain relieving medicine and first-aid medicine, and is also suitable for experimental requirements of conventional transfusion; the device does not need a height difference, can synchronously move with the wounded, and avoids secondary injury of the wounded;

the remote first-aid medicine injection device is in wireless communication with the remote terminal, so that the remote terminal can conveniently monitor the injection speed in real time, and if the abnormal first time exists, the abnormal first time is fed back to the medical staff; effectively lighten the working intensity of medical staff.

The foregoing description is only an overview of the present utility model, and is intended to provide a clear understanding of the technical means of the present utility model, and may be practiced according to the teachings of the present specification, as hereinafter described in detail with reference to the accompanying drawings.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a remote emergency medicine injection device according to the present utility model in use;

FIG. 2 is a schematic diagram of a remote emergency medicine injection device according to the present utility model;

FIG. 3 is an enlarged view at A in FIG. 2;

fig. 4 is a schematic structural view of embodiment 1;

fig. 5 is a schematic structural view of embodiment 3;

FIG. 6 is a schematic internal circuit diagram of a remote emergency medicine injection device of the present utility model;

reference numerals illustrate:

1. a pump body; 11. a housing; 12. a reservoir; 13. an infusion pipeline; 14. a pressurized bag; 15. an inflation tube; 16. a miniature inflator pump; 17. a reservoir; 18. a piston; 19. a push rod 20, a micro motor;

2. an injection assembly; 21. a liquid inlet pipe; 22. a steel needle seat; 23. a puncture needle; 24. a retention hose; 25. a hose base;

3. a control system; 31. a PCB circuit board; 32. a microprocessor; 33. a wireless transceiver module; 34. a power supply assembly; 35. a pressure sensor; 36. a display screen; 37. a control button; 38. a remote terminal;

4. an anti-displacement assembly; 41. a transparent film; 42. a guard; 43. traceless medical adhesive tape;

5. a constant temperature assembly; 51. an electric heating wire; 52. a micro constant temperature controller; 53. a temperature sensor; 54. a thermal insulation cloth;

6. a fixing assembly; 61. a left fixing band; 62. a right fixing band;

Detailed Description

In order to further describe the technical means and effects adopted by the utility model to achieve the preset aim, the following detailed description refers to the specific implementation, structure, characteristics and effects of a remote first-aid medicine injection device according to the utility model with reference to the accompanying drawings and preferred embodiments.

As shown in fig. 1-3, a remote emergency medicine injection device of the present utility model includes:

a body comprising a pump body 1 and an injection assembly 2; the pump body 1 is internally provided with a control system 3 for controlling the injection speed of the liquid medicine; one end of a liquid inlet pipe 21 of the injection assembly 2 is connected with a liquid outlet of the pump body 1, and the other end of the liquid inlet pipe is connected with an indwelling needle; the control system 3 is connected with a remote terminal 38 through wireless communication; the pump body 1 is a pump body 1 with a built-in control system 3, and the working principle is similar to that of the conventional micro pump; the remote terminal is in wireless communication connection with the remote terminal;

the anti-displacement assembly 4 is attached to the pump body 1 and the injection assembly 2, and can achieve a certain fixing effect.

The injection assembly 2 is an indwelling needle type, and comprises a liquid inlet pipe 21, a steel needle seat 22, a puncture needle 23, an indwelling hose 24 and a hose seat 25; wherein; the injection component 2 adopts a retaining needle type, which meets the injection requirement of the application; avoid the problem of needle running caused by patient movement.

Referring to fig. 1, the anti-displacement component 4 is a transparent film 41 attached to the pump body 1 and the injection component 2;

a traceless medical adhesive plaster 43 is arranged around the transparent film 41;

the transparent film 41 is provided with ventilation holes.

The transparent film 41 is made of medical material with ventilation holes, and the periphery of the transparent film is attached to the skin of a patient, so that discomfort is avoided.

Further, the catheter also comprises a protecting piece 42 which is arranged at the inner wall of the transparent film 41 and corresponds to the position of the indwelling needle;

the guard 42 is a frame-like balloon cushion with the indwelling needle in its center.

The present application finds that the balloon pad is arranged corresponding to the position of the injection assembly 2, which can further prevent the indwelling needle portion from being subjected to external force.

Example 1

Referring to fig. 4, the pump body 1 includes a housing 11, a control system 3 disposed therein, a liquid storage bag 12, a liquid delivery pipe 13, and a pressurizing bag 14 wrapped on the liquid storage bag 12;

the pressurizing bag 14 is an air bag and is connected with a micro air pump 16 through an air inflation pipe 15; the micro-inflator 16 is electrically connected to the microprocessor 32 of the control system 3.

In this embodiment, the injection requirement of the reservoir 12 is met; placing the reservoir 12 within the pressurized bag 14 by providing the pressurized bag 14; the liquid medicine bag is pressurized by the pressure bag, and the liquid in the liquid medicine bag is output under the pressure effect, so that the limitation of gravity transfusion is overcome; and the output power of the micro air pump 16 can be adjusted according to the requirement, so that the infusion rate can be adjusted.

Example 2

Referring to fig. 4-6, the device further comprises a constant temperature assembly 5, which comprises an electric heating wire 51, a micro constant temperature controller 52 and a temperature sensor 53; the electric heating wire 51 is integrated in the pressurizing bag 14, and the temperature sensor 53 is integrated in the pressurizing bag 14; the micro constant temperature controller 52 is electrically connected with the micro process; the temperature is controlled to rise or fall so as to keep the temperature within a preset temperature range;

because the requirements of field rescue or use under cold conditions are considered, the constant temperature component 5 is specially arranged to ensure that the temperature of liquid injection meets the requirements of human body, and discomfort caused by cold liquid injection is avoided.

Example 3

Referring to fig. 5, the pump body 1 includes a housing 11, a control system 3 disposed therein, a liquid reservoir 17, a micro-motor 20, and an infusion line 13;

a piston 18 is arranged in the liquid storage 17, the piston 18 is connected with a push rod 19, and the other end of the push rod 19 is connected with the output shaft of the micro motor 20; the micro-motor 20 is electrically connected to the micro-processor 32 of the control system 3.

In this embodiment, the method is suitable for injection similar to a syringe; filling the liquid medicine to be injected into the liquid reservoir 17; at the same time, this is the output power of the micro-motor 20, i.e., the rate of drug solution injection can be controlled.

In the above embodiments 1 and 2, the injection requirements for injection of different medical solutions can be satisfied.

Example 4

Referring to fig. 5, the outer wall of the reservoir 17 may be covered with a thermal insulation cloth 54; the heat preservation cloth 54 is internally integrated with an electric heating wire 51 and a temperature sensor 53, which are respectively and electrically connected with the micro processor 32 and the micro constant temperature controller 52 which are arranged in the control system 3; the problem of cooling of the injected liquid under cold adjustment can be solved.

Referring to fig. 6, the control system 3 includes a PCB 31, a microprocessor 32 integrated on the PCB 31, a wireless transceiver module 33, and a power module 34;

the display 36 and the control button 37 are respectively arranged at the top wall of the pump body 1 and are electrically connected with the microprocessor 32.

In the application, the power module is preferably a lithium battery, and the working time is 12 hours. The device is suitable for use in emergency environments;

meanwhile, the electronic components such as the micro processor 32 and the wireless transceiver module 33 are all needed by the person skilled in the art, and the appropriate model is selected and used according to the needs.

In the application, the remote terminal is a remote monitoring platform or a control center and the like, the infusion condition of each patient is fed back to the remote terminal in real time by the emergency medicine injection device, and if abnormal data exist, the infusion condition is fed back to the monitoring terminal of medical staff, and the medical staff can process the infusion condition in the first time;

the monitoring terminal of the medical staff is preferably a device capable of receiving the feedback signal, such as a smart phone or a medical PDA.

The control buttons 37 here are a power switch button, an infusion adjustment knob, and a temperature adjustment knob.

Referring to fig. 6, the pump further comprises a pressure sensor 35 disposed at the bottom wall of the pump body 1; which is electrically connected to the microprocessor 32;

the pressure sensor 35 is a flexible film type pressure sensor 35.

A pressure sensor 35 is arranged on the bottom wall of the pump body 1, so that the pressure of the pump body 1 to the skin is transmitted to the micro processor 32 in real time, and an alarm signal is sent out through analysis and treatment when data are abnormal, so that the problem that the body falls off or is excessively tight to wear is avoided;

the alarm assembly herein is integrated into the control system 3, preferably an audible and visual alarm, which is electrically connected to the microprocessor 32.

Further, referring to fig. 1-2, the fixing assembly 6 includes a left fixing band 61 and a right fixing band 62;

the left fixing belt 61 and the right fixing belt 62 are respectively arranged at the left end and the right end of the body, and the end parts are connected through sticking buckles. The fixing component 6 can fix the pump body 1 at the arm.

It should be noted that the injection position is preferably at the forearm of the arm; the injection position of the retaining needle and the fixed position of the pump body 1 are kept 10-20 mm.

The utility model relates to a remote first-aid medicine injection device, which is used in the using process;

the first aid medical staff selects the pump body 1 in the required embodiment 1 or embodiment 3 according to the condition of the medicine required to be injected by the patient;

the reservoir 17 in example 3 is taken as an example here; injecting an appropriate amount of injection into the reservoir 17; setting the injection rate according to the condition of the patient; the wireless transceiver module 33 transmits the monitoring data to the remote terminal 38 in real time for analysis and processing, if abnormal data is generated, the abnormal data is fed back to the monitoring terminal of the medical staff, and the medical staff can process the monitoring data in the first time.

The present utility model has been further described with reference to the examples, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims (8)

1. A remote emergency medicine injection device, comprising:

the body comprises a pump body (1) and an injection assembly (2); a control system (3) is arranged in the pump body (1) and is used for controlling the injection speed of the liquid medicine; one end of a liquid inlet pipe (21) of the injection assembly (2) is connected with a liquid outlet of the pump body (1), and the other end of the liquid inlet pipe is connected with an indwelling needle; the control system (3) is connected with a remote terminal (38) through wireless communication;

and the anti-displacement assembly (4) is attached to the pump body (1) and the injection assembly (2).

2. The remote emergency medicine injection device of claim 1, wherein:

the anti-displacement component (4) is a transparent film (41) which is attached to the pump body (1) and the injection component (2);

a traceless medical adhesive tape (43) is arranged around the transparent film (41);

and the transparent film (41) is provided with ventilation holes.

3. A remote emergency medicine injection device according to claim 2, wherein:

the protective piece (42) is arranged at the inner wall of the transparent film (41) and corresponds to the position of the indwelling needle;

the guard (42) is a frame-like balloon cushion with the indwelling needle in its center.

4. The remote emergency medicine injection device of claim 1, wherein:

the pump body (1) comprises a shell (11), a control system (3) arranged in the shell, a liquid storage bag (12), a transfusion pipeline (13) and a pressurizing bag (14) coated on the liquid storage bag (12);

the pressurizing bag (14) is an air bag and is connected with a micro air pump (16) through an air inflation pipe (15); the micro inflator pump (16) is electrically connected with a micro processor (32) of the control system (3).

5. The remote emergency medicine injection device of claim 1, wherein:

the pump body (1) comprises a shell (11), a control system (3), a liquid reservoir (17), a micro motor (20) and a transfusion pipeline (13) which are arranged in the shell;

a piston (18) is arranged in the liquid storage device (17), the piston (18) is connected with a push rod (19), and the other end of the push rod (19) is connected with the output shaft of the miniature motor (20); the micro motor (20) is electrically connected with a micro processor (32) of the control system (3).

6. The remote emergency medicine injection device of claim 1, wherein:

the control system (3) comprises a PCB (printed circuit board) (31), a micro processor (32) integrated on the PCB (31), a wireless transceiver module (33) and a power supply assembly (34);

the display screen (36) and the control button (37) are respectively arranged at the top wall of the pump body (1) and are electrically connected with the micro-processor (32).

7. The remote emergency medicine injection device of claim 6, wherein:

the pump further comprises a pressure sensor (35) which is arranged at the bottom wall of the pump body (1); which is electrically connected to the microprocessor (32);

the pressure sensor (35) is a flexible film type pressure sensor (35).

8. The remote emergency medicine injection device of claim 1, wherein:

the fixing assembly (6) is a left fixing belt (61) and a right fixing belt (62);

the left fixing belt (61) and the right fixing belt (62) are respectively arranged at the left end and the right end of the body, and the end parts are connected through sticking buckles.