CN112587756A

CN112587756A - Infusion auxiliary mechanism with remote control function and control system thereof

Info

Publication number: CN112587756A
Application number: CN202011483192.8A
Authority: CN
Inventors: 朱锐锐; 杜婉莉
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-16
Filing date: 2020-12-16
Publication date: 2021-04-02

Abstract

The invention discloses an infusion auxiliary mechanism with a remote control function and a control system thereof, and relates to the technical field of auxiliary tools in hospital departments. The infusion tube is convenient to fix, compared with the traditional fixing mode of clamping the infusion tube, the infusion tube fixing device does not influence the infusion speed, can realize the real-time monitoring and alarming function of the infusion allowance, can control and monitor the infusion temperature, can control the infusion speed, can realize the function of wirelessly transmitting the infusion temperature and the infusion allowance to a remote doctor in real time, is convenient for the doctor to remotely master the infusion condition at any time, and increases the practicability.

Description

Infusion auxiliary mechanism with remote control function and control system thereof

Technical Field

The invention relates to the technical field of auxiliary tools for hospital departments, in particular to an infusion auxiliary mechanism with a remote control function and a control system thereof.

Background

Hospitals refer to medical institutions that carry out necessary medical examination, treatment measures, nursing techniques, reception services, rehabilitation equipment, treatment and transportation and the like for patients according to laws, regulations and industrial specifications, and mainly aim at saving and killing injuries, the service objects of the medical nursing system not only comprise patients and wounded persons with symptoms, but also comprise old people which cannot take care of themselves or are limited in activity and dependent on medical nursing, severe patients who need long-term rehabilitation and frequent observation and examination due to medical nursing dependence or unstable illness state, or there may be other specific situations and populations such as healthy people (e.g. pregnant women, parturients, neonates) and fully healthy people (e.g. people coming from hospitals for physical examination or oral cleaning), which, when initially set up, the refuge is provided for people to take refuge, entertainment programs are provided, the coming people are comfortable, the intention of the people to take care is provided, and the refuge device gradually becomes a special mechanism for accommodating and treating the patients. When a patient is transfused in a hospital department, a doctor can use the transfusion auxiliary mechanism to give an alarm for the transfusion allowance so as to ensure the safety of the patient.

But present hospital department is all fixed with infusion complementary unit through the mode of cliping the transfer line, leads to the speed of infusion to receive the influence, and most infusion complementary unit can't control infusion temperature for the infusion effect is not good, and most infusion complementary unit can't carry out wireless real-time supervision function to the infusion condition, leads to the doctor to need often look over patient's infusion condition, leads to the practicality to reduce.

Disclosure of Invention

The present invention is directed to an infusion assisting mechanism with remote control function and a control system thereof, so as to solve the problems mentioned in the background art.

In order to achieve the purpose, the invention provides the following technical scheme:

an infusion auxiliary mechanism with a remote control function and a control system thereof comprise a shell, a connecting mechanism and an auxiliary system, wherein a placing groove is arranged on one side of the shell, a first connecting lantern ring is fixedly connected to the top of the shell, a micro heating pad is fixedly mounted on the upper side inside the placing groove, a temperature sensor is fixedly mounted on the lower side inside the placing groove, a laser generator is embedded into the front side inside the placing groove, a laser receiver is embedded into the rear side inside the placing groove, a touch display screen, an alarm and a micro motor box are fixedly mounted on the front surface of the shell respectively, a micro servo motor is fixedly mounted inside the micro motor box, and the connecting mechanism comprises a first connecting piece and a second connecting piece;

the auxiliary system comprises an MCU controller, a receiving module, an output module, a power supply module, a feedback module and a wireless transmitter.

As a further scheme of the invention: one side of the first connecting piece is provided with a first semicircular groove, the bottom of the first connecting piece is fixedly connected with a second connecting lantern ring, one side of the second connecting piece is provided with a second semicircular groove, the front part and the back part of one side of the first connecting piece, which is close to the first semicircular groove, are symmetrically provided with connecting grooves, the front part and the back part of one side of the second connecting piece, which is close to the second semicircular groove, are symmetrically and fixedly connected with connecting blocks, one side of the connecting blocks, which is far away from the second connecting piece, is fixedly connected with a spring, the first connecting piece is matched with the second connecting piece, the first connecting piece and the second connecting piece are horizontally and symmetrically arranged, the first semicircular groove is matched with the second semicircular groove, the first semicircular groove and the second semicircular groove form a circular groove, the connecting blocks are positioned inside the connecting grooves and are matched with the connecting grooves, one side of the connecting blocks, which is positioned, and the connecting block is connected with the connecting groove in a sliding way.

As a still further scheme of the invention: and a connecting wire is arranged between the second connecting lantern ring and the first connecting lantern ring, and the first connecting lantern ring is connected with the second connecting lantern ring through the connecting wire.

As a still further scheme of the invention: the rear side at casing top is provided with the semicircle ring, and the front side fixedly connected with block at casing top, the front portion of semicircle ring runs through there is the vertical axis, and the rear portion embedding of vertical axis has first magnet, one side embedding of block has the second magnet, semicircle ring and block all set up the top that closes on the standing groove at the casing, the vertical axis passes through interference fit with the semicircle ring and is connected, and the lower extreme of vertical axis rotates with the top of casing to be connected, semicircle ring and standing groove looks adaptation, and vertical axis and block looks adaptation, first magnet and second magnet looks adaptation.

As a still further scheme of the invention: laser generator and laser receiver looks adaptation, and laser generator and laser receiver look sideways at and personally submit 20 contained angles with the level.

As a still further scheme of the invention: miniature heating pad and temperature sensor and standing groove homogeneous phase adaptation, miniature servo motor's output rotates and is connected with the screw thread axle, the standing groove closes on the front side of miniature motor case and is provided with the adjustment tank, the inside of adjustment tank is provided with the regulation pole, the rear side of adjusting the pole is provided with the thread groove, the rear end of screw thread axle runs through in the rear side of miniature motor case and the front side of casing in proper order to be in the inside of adjustment tank, the screw thread axle all is connected through clearance fit with miniature motor case and casing, and the screw thread axle is in the inside of thread groove at the forehead rear end of adjustment tank inside, screw thread axle and thread groove looks adaptation, adjust pole and screw thread axle adaptation.

As a still further scheme of the invention: the input end of the receiving module is connected with the output end of the touch display screen, the output end of the receiving module is connected with the input end of the MCU controller, the output end of the MCU controller is respectively connected with the input ends of the touch display screen and the output module, the output end of the feedback module is connected with the input end of the MCU controller, the power supply module is a rechargeable battery, and the power supply module is used for providing electric energy for the touch display screen, the MCU controller, the receiving module, the output module and the feedback module.

As a still further scheme of the invention: the output module comprises an output node I, an output node II, an output node III and an output node IV, the output node I is connected with the miniature heating pad, the output node II is connected with the miniature servo motor, the output node III is connected with the alarm, the output node IV is connected with the wireless transmitter, and the wireless transmitter is wirelessly connected with a personal computer or a mobile phone.

As a still further scheme of the invention: the feedback module comprises a first feedback node and a second feedback node, the temperature sensor is connected with the first feedback node, and the laser receiver is connected with the second feedback node.

Compared with the prior art, the invention has the beneficial effects that:

1. the auxiliary mechanism is conveniently fixed at the bottom of the infusion bottle by the matched use of the first connecting piece, the second connecting piece, the first connecting lantern ring, the second connecting lantern ring, the connecting line, the first semicircular groove, the second semicircular groove, the connecting block and the spring, and the infusion tube is conveniently fixed in the placing groove by the matched use of the semicircular ring, the block body, the vertical shaft, the first magnet and the second magnet, compared with the traditional fixing mode of clamping the infusion tube, the speed of infusion cannot be influenced;

2. through the matching use of the micro heating pad, the temperature sensor, the laser generator, the laser receiver, the alarm, the micro servo motor, the threaded shaft, the adjusting groove, the adjusting rod, the threaded groove, the MCU controller, the receiving module, the output module, the power supply module and the touch display screen, the infusion residual quantity real-time monitoring alarm function can be realized, the infusion temperature can be controlled and monitored, and the infusion speed can be controlled;

3. the invention realizes the function of wirelessly transmitting the infusion temperature and the infusion allowance to a remote doctor in real time, so that the doctor can remotely master the infusion condition at any time, and the practicability is improved.

Drawings

Fig. 1 is a schematic structural diagram of an infusion assisting mechanism with a remote control function and a control system thereof.

Fig. 2 is a sectional view of a top view of a first connector and a second connector of an infusion assisting mechanism with a remote control function and a control system thereof.

Fig. 3 is a partial cross-sectional view of a side view of a housing of an infusion assist mechanism with remote control and its control system.

Fig. 4 is an enlarged structural schematic diagram of an infusion assisting mechanism with a remote control function and a control system A of the infusion assisting mechanism.

Fig. 5 is an enlarged structural schematic diagram of a transfusion auxiliary mechanism with a remote control function and a control system B thereof.

Fig. 6 is a system block diagram of an infusion assisting mechanism with a remote control function and a control system thereof.

Fig. 7 is a system block diagram of an infusion assisting mechanism with a remote control function and an output module in a control system of the infusion assisting mechanism.

Fig. 8 is a system block diagram of a remote control infusion assisting mechanism and a feedback module in a control system thereof.

The labels in the figure are: 1. a housing; 2. a placement groove; 3. a first connecting collar; 4. a first connecting member; 5. a second connecting member; 6. a second connecting collar; 7. a connecting wire; 8. a first semicircular groove; 9. a second semi-circular groove; 10. a touch display screen; 11. an alarm; 12. a micro motor case; 13. connecting grooves; 14. connecting blocks; 15. a spring; 16. a micro heating pad; 17. a temperature sensor; 18. a laser generator; 19. a laser receiver; 20. a semicircular ring; 21. a block body; 22. a vertical axis; 23. a first magnet; 24. a second magnet; 25. an adjustment groove; 26. adjusting a rod; 27. a threaded shaft; 28. a thread groove; 29. an MCU controller; 30. a receiving module; 31. an output module; 32. a power supply module; 33. a feedback module; 34. a first output node; 35. a second output node; 36. an output node III; 37. an output node four; 38. a wireless transmitter; 39. a first feedback node; 40. a second feedback node; 41. a miniature servo motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 8, in an embodiment of the present invention, an infusion assisting mechanism with a remote control function and a control system thereof include a housing 1, a connecting mechanism and an assisting system, and are characterized in that: a placing groove 2 is arranged on one side of a shell 1, a first connecting sleeve ring 3 is fixedly connected to the top of the shell 1, a micro heating pad 16 is fixedly installed on the upper side inside the placing groove 2, a temperature sensor 17 is fixedly installed on the lower side inside the placing groove 2, a laser generator 18 is embedded in the front side inside the placing groove 2, a laser receiver 19 is embedded in the rear side inside the placing groove 2, a touch display screen 10, an alarm 11 and a micro motor box 12 are fixedly installed on the front surface of the shell 1 respectively, a micro servo motor 41 is fixedly installed in the micro motor box 12, and a connecting mechanism comprises a first connecting piece 4 and a second connecting piece 5;

the auxiliary system comprises an MCU controller 29, a receiving module 30, an output module 31, a power supply module 32, a feedback module 33 and a wireless transmitter 38.

In some embodiments of the present invention, a first semicircular groove 8 is formed on one side of the first connecting member 4, a second connecting collar 6 is fixedly connected to the bottom of the first connecting member 4, a second semicircular groove 9 is formed on one side of the second connecting member 5, connecting grooves 13 are symmetrically formed on the front and back portions of one side of the first connecting member 4 adjacent to the first semicircular groove 8, connecting blocks 14 are symmetrically and longitudinally connected to one side of the second connecting member 5 adjacent to the second semicircular groove 9, a spring 15 is fixedly connected to one side of the connecting block 14 away from the second connecting member 5, the first connecting member 4 is fitted to the second connecting member 5, the first connecting member 4 and the second connecting member 5 are horizontally and symmetrically arranged, the first semicircular groove 8 is fitted to the second semicircular groove 9, the first semicircular groove 8 and the second semicircular groove 9 form a circular groove, the connecting block 14 is located inside the connecting grooves 13, and the connecting blocks 14 are fitted to the connecting grooves 13, the connecting block 14 is connected with the inner wall of the connecting groove 13 through a spring 15 at one side inside the connecting groove 13, the connecting block 14 is connected with the connecting groove 13 through a sliding connection, a connecting wire 7 is arranged between the second connecting lantern ring 6 and the first connecting lantern ring 3, and the first connecting lantern ring 3 is connected with the second connecting lantern ring 6 through the connecting wire 7.

Through the circular recess that first semicircular groove 8 of first connecting piece 4 and the second semicircular groove 9 of second connecting piece 5 are constituteed, and through the removal of connecting block 14 between spread groove 13, conveniently fix first connecting piece 4 and second connecting piece 5 in the bottom of infusion bottle, compare traditional mode of cliping, can not influence the speed of infusion.

In some embodiments of the present invention, a semicircular ring 20 is disposed at the rear side of the top of the housing 1, a block 21 is fixedly connected to the front side of the top of the housing 1, a vertical shaft 22 penetrates through the front portion of the semicircular ring 20, a first magnet 23 is embedded in the rear portion of the vertical shaft 22, a second magnet 24 is embedded in one side of the block 21, both the semicircular ring 20 and the block 21 are disposed at the top of the housing 1 close to the placement groove 2, the vertical shaft 22 is connected with the semicircular ring 20 through interference fit, the lower end of the vertical shaft 22 is rotatably connected with the top of the housing 1, the semicircular ring 20 is adapted to the placement groove 2, the vertical shaft 22 is adapted to the block 21, and the first magnet 23 is adapted to the second magnet 24.

Through rotating semicircle ring 20, until semicircle ring 20 and the contact of block 21, through the appeal of first magnet 23 with second magnet 24, can fix the transfer line in standing groove 2, increased the convenience of installing this complementary unit.

In some embodiments of the present invention, an input terminal of the receiving module 30 is connected to an output terminal of the touch display screen 10, an output terminal of the receiving module 30 is connected to an input terminal of the MCU controller 29, an output terminal of the MCU controller 29 is connected to input terminals of the touch display screen 10 and the output module 31, an output terminal of the feedback module 33 is connected to an input terminal of the MCU controller 29, the power module 32 is a rechargeable battery, the power module 32 is configured to provide power to the touch display screen 10, the MCU controller 29, the receiving module 30, the output module 31, and the feedback module 33, the output module 31 includes a first output node 34, a second output node 35, a third output node 36, and a fourth output node 37, the first output node 34 is connected to the micro heating pad 16, the second output node 35 is connected to the micro servo motor 41, the third output node 36 is connected to the alarm 11, the fourth output node 37 is connected to the wireless transmitter 38, the wireless transmitter 38 is wirelessly connected with a personal computer or a mobile phone, the feedback module 33 comprises a first feedback node 39 and a second feedback node 40, the temperature sensor 17 is connected with the first feedback node 39, the laser receiver 19 is connected with the second feedback node 40, the laser generator 18 is matched with the laser receiver 19, an included angle of 20 degrees is formed between the side view of the laser generator 18 and the side view of the laser receiver 19 and the horizontal plane, the micro heating pad 16 and the temperature sensor 17 are matched with the placing groove 2, the output end of the micro servo motor 41 is rotatably connected with a threaded shaft 27, the placing groove 2 is provided with an adjusting groove 25 close to the front side of the micro motor box 12, an adjusting rod 26 is arranged inside the adjusting groove 25, a threaded groove 28 is arranged on the rear side of the adjusting rod 26, the rear end of the threaded shaft 27 sequentially penetrates through the rear side of the micro motor box 12 and the front side of the shell 1 and is arranged inside the adjusting groove 25, the threaded shaft 27 is connected with the micro, and the rear end of the screw shaft 27 inside the adjusting groove 25 is inside the screw groove 28, the screw shaft 27 is fitted with the screw groove 28, and the adjusting lever 26 is fitted with the screw shaft 27.

Through the MCU controller 29, the receiving module 30, the output module 31, the power supply module 32 and the feedback module 33, the operation of the alarm 11, the micro heating pad 16, the temperature sensor 17, the micro servo motor 41, the wireless transmitter 38 and the laser receiver 19 is conveniently controlled, and the functions of real-time monitoring and alarming of infusion allowance, control and monitoring of infusion temperature, control of infusion speed and wireless transmission are respectively realized.

The working principle of the invention is as follows:

during the installation, the user first applies a force to the second coupling member 5 in a direction away from the first coupling member 4, the coupling piece 14 stretches the spring 15 to move outward of the coupling groove 13, then the bottom of the infusion bottle passes through the first semicircular groove 8 and the second semicircular groove 9, the first connecting piece 4 and the second connecting piece 5 are conveniently fixed at the bottom of the infusion bottle through a circular groove formed by the spring 15, the first semicircular groove 8 of the first connecting piece 4 and the second semicircular groove 9 of the second connecting piece 5, compared with the traditional clamping mode, the speed of infusion cannot be influenced, then the transfusion tube is placed in the placing groove 2, then the semicircular ring 20 is rotated by taking the vertical shaft 22 as the center of a circle until the semicircular ring 20 is contacted with the block body 21, and the transfusion tube is placed in the placing groove by the attraction force of the first magnet 23 and the second magnet 24, can fix the transfer line in standing groove 2, increased the convenience of installing this complementary unit.

In the using process, when the liquid medicine exists in the infusion tube, the laser receiver 19 cannot receive the laser emitted by the laser generator 18 through the light refraction, when the liquid medicine does not exist in the infusion tube, the laser receiver 19 can receive the laser emitted by the laser generator 18, the laser receiver 19 transmits information to the MCU controller 29 through the second feedback node 40, the MCU controller 29 transmits the information to the touch display screen 10 and the third output node 36, the touch display screen 10 displays the information of the liquid medicine shortage, and the third output node 36 controls the alarm 11 to work to give an alarm; when the infusion temperature needs to be controlled, the required temperature is input through the touch display screen 10, the touch display screen 10 transmits an instruction to the MCU controller 29 through the receiving module 30, the MCU controller 29 transmits the instruction to the first output node 34, the first output node 34 controls the micro heating pad 16 to work to control the infusion temperature, the temperature sensor 17 transmits the current temperature information to the MCU controller 29 through the first feedback node 39 in real time, and the MCU controller 29 displays the current temperature value through the touch display screen 10 in real time; when the infusion speed needs to be adjusted, the control speed is input through the touch display screen 10, the touch display screen 10 transmits an instruction to the MCU controller 29 through the receiving module 30, the MCU controller 29 transmits the instruction to the second output node 35, the second output node 35 controls the micro servo motor 41 to work, the micro servo motor 41 does work to drive the threaded shaft 27 to rotate, and the threaded shaft 27 drives the adjusting rod 26 to move forwards and backwards so as to extrude the infusion tube, so that the control of the infusion speed is realized; and the transfusion temperature and the transfusion allowance are transmitted to a remote doctor in real time through the output node IV 37, so that the doctor can remotely master the transfusion condition at any time, and the practicability is improved.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides an infusion complementary unit and control system with remote control function, includes casing (1), coupling mechanism and auxiliary system, its characterized in that: a placing groove (2) is formed in one side of the shell (1), a first connecting sleeve ring (3) is fixedly connected to the top of the shell (1), a micro heating pad (16) is fixedly mounted on the upper side inside the placing groove (2), a temperature sensor (17) is fixedly mounted on the lower side inside the placing groove (2), a laser generator (18) is embedded in the front inside the placing groove (2), a laser receiver (19) is embedded in the rear inside the placing groove (2), a touch display screen (10), an alarm (11) and a micro motor box (12) are fixedly mounted on the front surface of the shell (1) respectively, a micro servo motor (41) is fixedly mounted inside the micro motor box (12), and the connecting mechanism comprises a first connecting piece (4) and a second connecting piece (5);

the auxiliary system comprises an MCU controller (29), a receiving module (30), an output module (31), a power supply module (32), a feedback module (33) and a wireless transmitter (38).

2. An infusion assisting mechanism with a remote control function according to claim 1, characterized in that: a first semicircular groove (8) is formed in one side of the first connecting piece (4), a second connecting lantern ring (6) is fixedly connected to the bottom of the first connecting piece (4), a second semicircular groove (9) is formed in one side of the second connecting piece (5), connecting grooves (13) are symmetrically formed in the front and back portions of one side, close to the first semicircular groove (8), of the first connecting piece (4), connecting blocks (14) are symmetrically and fixedly connected in the front and back portions of one side, close to the second semicircular groove (9), of the second connecting piece (5), springs (15) are fixedly connected to one side, far away from the second connecting piece (5), of each connecting block (14), the first connecting piece (4) is matched with the second connecting piece (5), the first connecting piece (4) is horizontally symmetrically arranged with the second connecting piece (5), and the first semicircular groove (8) is matched with the second semicircular groove (9), and first semicircular groove (8) and second semicircular groove (9) constitute a circular recess, connecting block (14) are in the inside of spread groove (13), and connecting block (14) and spread groove (13) looks adaptation, connecting block (14) are connected through spring (15) in the inside one side of spread groove (13) and the inner wall of spread groove (13), and connecting block (14) and spread groove (13) pass through sliding connection.

3. An infusion assisting mechanism with a remote control function according to claim 2, characterized in that: a connecting wire (7) is arranged between the second connecting lantern ring (6) and the first connecting lantern ring (3), and the first connecting lantern ring (3) is connected with the second connecting lantern ring (6) through the connecting wire (7).

4. An infusion assisting mechanism with a remote control function according to claim 1, characterized in that: the rear side at casing (1) top is provided with semicircle ring (20), and the front side fixedly connected with block (21) at casing (1) top, the front portion of semicircle ring (20) runs through vertical axis (22), and the rear portion embedding of vertical axis (22) has first magnet (23), one side embedding of block (21) has second magnet (24), semicircle ring (20) and block (21) all set up the top that is close to standing groove (2) in casing (1), vertical axis (22) are connected through interference fit with semicircle ring (20), and the lower extreme of vertical axis (22) rotates with the top of casing (1) to be connected, semicircle ring (20) and standing groove (2) looks adaptation, and vertical axis (22) and block (21) looks adaptation, first magnet (23) and second magnet (24) looks adaptation.

5. An infusion assisting mechanism with a remote control function according to claim 1, characterized in that: the laser generator (18) is matched with the laser receiver (19), and the side view of the laser generator (18) and the laser receiver (19) forms an included angle of 20 degrees with the horizontal plane.

6. An infusion assisting mechanism with a remote control function according to claim 1, characterized in that: the micro heating pad (16) and the temperature sensor (17) are matched with the placing groove (2), the output end of the micro servo motor (41) is rotatably connected with a threaded shaft (27), the placing groove (2) is provided with an adjusting groove (25) close to the front side of the micro motor box (12), an adjusting rod (26) is arranged inside the adjusting groove (25), a threaded groove (28) is arranged on the rear side of the adjusting rod (26), the rear end of the threaded shaft (27) sequentially penetrates through the rear side of the micro motor box (12) and the front side of the shell (1) and is located inside the adjusting groove (25), the threaded shaft (27) is connected with the micro motor box (12) and the shell (1) in a clearance fit manner, the rear end of the threaded shaft (27) located inside the adjusting groove (25) is located inside the threaded groove (28), and the threaded shaft (27) is matched with the threaded groove (28), the adjusting rod (26) is matched with the threaded shaft (27).

7. An infusion control system with remote control function as claimed in claim 1, wherein: the input of receiving module (30) is connected with the output of touch-control display screen (10), and the output of receiving module (30) is connected with the input of MCU controller (29), the output of MCU controller (29) is connected with the input of touch-control display screen (10) and output module (31) respectively, the output of feedback module (33) is connected with the input of MCU controller (29), power module (32) is rechargeable battery, power module (32) are used for providing the electric energy for touch-control display screen (10), MCU controller (29), receiving module (30), output module (31) and feedback module (33).

8. An infusion control system with remote control function as claimed in claim 1, wherein: output module (31) is including output node one (34), output node two (35), output node three (36) and output node four (37), output node one (34) are connected with miniature heating pad (16), output node two (35) are connected with miniature servo motor (41), output node three (36) are connected with alarm (11), output node four (37) are connected with wireless transmitter (38), wireless transmitter (38) wireless connection has personal computer or mobile phone.

9. An infusion control system with remote control function as claimed in claim 1, wherein: the feedback module (33) comprises a first feedback node (39) and a second feedback node (40), the temperature sensor (17) is connected with the first feedback node (39), and the laser receiver (19) is connected with the second feedback node (40).