CN209984691U - Anti-toppling infusion dropper and anti-toppling intelligent infusion device with same - Google Patents

Abstract

The utility model relates to the field of medical equipment, in particular to an anti-toppling infusion dropper and an anti-toppling intelligent infusion device with the dropper; the output liquid conveying pipe positioned in the liquid storage dropping pipe is a hose, a gravity ball is arranged on the hose, electromagnetic liquid stop valves are arranged on the output liquid conveying pipe and the reflux liquid storage pipe, and a bubble detector is arranged on the output liquid conveying pipe; the intelligent liquid device comprises a transfusion box, a motor, an air bag, a controller, a battery and the transfusion dropper, and the air bag applies pressure to the medicine bag to ensure that the air pressure of the medicine bag is always greater than the blood pressure; the electromagnetic liquid stop valve and the bubble detector are electrically connected with the controller; when bubbles are detected, the electromagnetic liquid stop valve closes the output infusion tube and opens the reflux infusion tube; when no air bubble exists, the backflow infusion tube is closed, and the output infusion tube is opened; the device provided by the utility model can effectively prevent the infusion dropper from toppling over in the infusion process and leading to the infusion accident, and ensure that the patient is not limited by space in the infusion process and can move freely.

Description

Anti-toppling infusion dropper and anti-toppling intelligent infusion device with same

Technical Field

The utility model relates to the technical field of medical equipment, more specifically relates to an anti-toppling infusion dropper and anti-toppling intelligent infusion device with the same.

Background

Due to the rapid development of the current times, the footsteps of the human beings can not be stopped. When a patient is ill, the patient needs to be dripped in a stable place, but the patient cannot be transfused in a comfortable environment due to special environments. In the existing portable transfusion devices, the core principle, namely the high hanging of a dropper and the Murphy's dropper principle, is not changed, and the high hanging of the dropper ensures that the pressure in the dropper is higher than the blood pressure so as to avoid the blood backflow; the Murphy's dropper needs to be kept upright to prevent air from entering the infusion tube. Some existing portable infusion devices are in a form similar to a portable vest/helmet, with a mounting pocket for mounting an infusion rod on the vest/helmet body. This design still is the high hanging infusion of tradition, and it is inconvenient to dress, to shaking by a wide margin can appear like some navigation operation processes, and it is inconvenient to bring for special worker's patient infusion, and based on the size of vest size, it is also inconvenient to dress moreover, does not have fundamentally solution problem, still can have to empty, trade liquid untimely, operate inconvenient scheduling problem.

SUMMERY OF THE UTILITY MODEL

The utility model overcomes above-mentioned prior art at least one defect, provide an prevent empting infusion burette and prevent empting infusion set who has this burette, can effectively avoid empting and lead to the infusion accident to appear because of infusion in-process burette.

In order to solve the technical problem, the utility model discloses a technical scheme is: an anti-toppling infusion dropper comprises a liquid storage dropper, an output infusion tube and a return infusion tube; one end of the liquid storage dropper is provided with a liquid inlet and a reflux port, and the other end of the liquid storage dropper is provided with a liquid outlet; one end of the output infusion tube extends into the liquid storage dropper from the liquid outlet, and the other end of the output infusion tube is connected with the needle head; one end of the backflow liquid conveying pipe is communicated with the output liquid conveying pipe, and the other end of the backflow liquid conveying pipe is connected with the backflow port; the output infusion tube positioned in the liquid storage dropping tube is a hose, and the end part of the hose is provided with a gravity ball. The liquid medicine flows into the liquid storage dropper from a liquid inlet of the liquid storage dropper, the output infusion tube is connected with the liquid outlet, one end of the output infusion tube extends into the liquid storage dropper from the liquid outlet, the section of the output infusion tube is a hose, and a gravity small ball is sleeved at the end part of the hose; the small ball is always at the bottom of the liquid level due to the action of gravity, so that the output infusion tube can be always positioned in the liquid medicine regardless of the spatial position of the liquid storage dropper.

Furthermore, the output infusion tube is divided into a detection end and an output end, the detection end is the output infusion tube from the liquid outlet to the joint of the reflux infusion tube and the output infusion tube, and the output end is the output infusion tube from the joint of the reflux infusion tube and the output infusion tube to the end where the needle is located; electromagnetic liquid stop valves are arranged on the output end of the output infusion tube and the reflux infusion tube. Electromagnetic liquid stopping valves are arranged at the output end of the output liquid conveying pipe and the reflux liquid conveying pipe, so that when the liquid medicine is completely dripped or bubbles appear in the output liquid storage dropper, the electromagnetic liquid stopping valve at the output end closes the pipe orifice of the output liquid conveying pipe, and the liquid medicine flows back to the liquid storage dropper from the reflux liquid conveying pipe; under the condition of normal transfusion, the electromagnetic liquid stop valve of the reflux transfusion tube is closed, and the liquid medicine is circulated to the human body from the output transfusion tube; therefore, the phenomenon of blood backflow and the like after the liquid medicine is dripped can be effectively avoided.

Furthermore, the output infusion tube is also provided with a bubble detector, and the bubble detector is arranged at the detection end of the output infusion tube. The detection end of the output infusion tube is provided with a bubble detector which can detect whether bubbles appear in the output infusion tube at any time, if the bubbles appear, the electromagnetic liquid stop valve closes the output end, the reflux infusion tube is opened, the liquid medicine flows back to the liquid storage dropper from the reflux infusion tube, and secondary detection is carried out on the liquid medicine; if no bubble is detected, the liquid medicine flows from the output infusion tube to the human body; therefore, air can be effectively prevented from being circulated to blood vessels of a human body, bubbles are effectively prevented from entering the human body, and harm to the human body is reduced.

Further, the liquid storage dropper is of a spherical structure, and the length value of the hose is greater than or equal to the maximum inner diameter value of the liquid storage dropper. The length value of the hose is larger than or equal to the inner diameter value of the liquid storage dropper, so that no matter how the liquid storage dropper turns over, the port of the hose can be always positioned in the liquid medicine under the gravity action of the gravity ball.

The utility model also provides an anti-toppling intelligent transfusion device, which comprises a transfusion box, a motor, an air bag, a controller, a battery and the anti-toppling transfusion dropper; the anti-toppling infusion dropper is fixed at one end of the infusion box, the controller and the motor are both arranged on the infusion box, the motor, the electromagnetic liquid stop valve and the bubble detector are all electrically connected with the controller, and the motor is also connected with the air bag; the air bag is arranged in the infusion box, and the infusion medicine bag is placed in the infusion box and is contacted with the air bag; the battery is used for providing power for the whole device. In the utility model, the infusion medicine bag is prevented from being in the infusion box, the controller controls the motor to inflate the air bag, and the air bag applies pressure to the medicine bag, so as to ensure that the liquid medicine in the medicine bag can normally flow into the human body from the output infusion tube; electromagnetism ends liquid valve, bubble detector and motor all with controller electric connection, through the operation of each equipment of controller unified control, realize intelligent control, have dripped when the liquid medicine, appear the bubble in the output transfer line, perhaps can not normally flow in the liquid medicine in the output transfer line, through the bubble detector, electromagnetism ends the cooperation between liquid valve and the controller, in time closes the output transfer line, prevent that the bubble from getting into the human body, and avoid not having the liquid medicine in the output transfer line to take place blood reflux. When the arm of the human body is in a complex motion state, the air can be automatically exhausted, the dropper is not limited by the motion state, the whole device can effectively prevent the falling, and the infusion function is completed. The liquid medicine is safely infused into the human body to finish the normal state of infusion.

The utility model discloses in, prevent empting intelligent infusion set and realize letting patient's hand can carry out normal work activity, can do violent motion even, even human hand action range is too big, and the spherical burette violently overturns, does not let the air bubble get into the human body yet, has ensured the security of infusion, changes traditional burette and puts in the eminence and carry and prevent intraductal air admission transmission pipe, has restricted patient's active state's inconvenient part.

Furthermore, a pressure sensor is also arranged on the air bag, and the pressure sensor is arranged on one side of the air bag, which is contacted with the infusion medicine bag; the pressure sensor is electrically connected with the controller. The medicine bag is pressurized through the air bag, and the pressure in the medicine bag of the medicine bag is detected through the pressure sensor, so that the liquid medicine pressure is always higher than the blood pressure, and the safety of a human body in the infusion process is ensured.

Furthermore, the transfusion box comprises a box body and a turnover cover, wherein one end of the turnover cover is hinged with the box body, and the other end of the turnover cover is detachably connected with the box body through a connecting piece; the heater and the temperature sensor are arranged in the box body and/or on the turnover cover and are electrically connected with the controller. The infusion box provides fixed function for the cartridge bag, sets up the heater on the infusion box and heats the cartridge bag, detects the temperature of liquid medicine in the cartridge bag through thermodetector, makes the temperature of liquid medicine be fit for the human body, avoids infusion process liquid medicine temperature lower and arouse human discomfort.

Furthermore, the output end of the output infusion tube is also provided with a flow sensor and an alarm, and the flow sensor and the alarm are both electrically connected with the controller. The flow sensor can measure the flow of the liquid medicine input into the human body at any time, and the speed of inputting the liquid medicine into the human body per minute can be set according to the requirement; this prevent empting intelligent infusion set has flow measurement and regulatory function, can set for the minute input rate of liquid medicine through flow control button to can see the surplus of solution flow and the time that the required transport finishes on the display, realize automatic control to input liquid medicine flow velocity of flow. When the residual amount of the solution reaches the specified residual amount, the alarm system is started, the flow hole leading to the blood vessel can be automatically closed, the infusion is stopped, the alarm is sounded, and the buzzer is sounded to remind people to replace the liquid in time.

Further, the transfusion box on still be equipped with display, flow control button, atmospheric pressure adjustment button and temperature regulation button, display, flow control button, atmospheric pressure adjustment button and temperature regulation button all with controller electric connection. The display can show pressure value, temperature value, speed and the flow value of detecting the cartridge bag in real time, can adjust flow rate, atmospheric pressure, temperature through flow control button, atmospheric pressure adjustment button and temperature adjustment button at any time, realizes infusion process's intelligent control.

Furthermore, the transfusion box is also provided with a bandage, and the bandage is provided with a magic tape. The binding belt is arranged on the transfusion box, and the transfusion box can be fixed on the arm through the binding belt, so that a patient can walk at any time in the transfusion process without being limited by a field, and the patient is always fixed in the transfusion process; the magic tape is arranged on the bandage, so that the fixing box of the bandage can be conveniently detached.

In the utility model, the controller obtains bubble information through the bubble sensor, and the bubble detector and the electromagnetic liquid stopping valve are utilized to realize the control of liquid bubbles, so as to prevent the bubbles from entering the human body; the controller obtains pressure information through the pressure sensor and utilizes the air bag to realize pressure control on the liquid medicine. The controller obtains temperature information through the temperature sensor, and the heater is utilized to realize the control of the temperature. The controller obtains flow information through the flow sensor to realize the control of the liquid flow. The controller displays the residual amount of the liquid medicine flow and the time required for finishing the conveying through the display screen, and realizes braking control on the flow and the flow speed of the input liquid medicine. When the residual amount of the liquid medicine reaches the specified residual amount, the alarm system is started, the output infusion tube can be automatically closed, infusion is stopped, and buzzing sound is given out to remind people to replace the liquid in time, so that the practicability is high, and intelligent management of the flow of the input liquid is realized.

Compared with the prior art, the beneficial effects are: the utility model provides an anti-toppling infusion dropper and an anti-toppling intelligent infusion device with the dropper, which can lead a patient not to be restricted by infusion and can change the motion state of hands at any time by matching the anti-toppling infusion dropper with the air bag; the traditional infusion mode is changed, the medicine bag does not need to be hung highly, the medicine bag is worn on the body of a patient through the infusion box, the patient can freely walk in the infusion process, and the activity space is not limited.

Drawings

Fig. 1 is a schematic structural view of the anti-toppling infusion dropper of the present invention.

Fig. 2 is a schematic view of the connection structure of the output infusion tube, the return infusion tube and the electromagnetic liquid stop valve of the present invention.

Fig. 3 is a schematic structural view of the anti-toppling infusion dropper of the present invention when vertically placed, horizontally placed and inverted.

Fig. 4 is a schematic view of the structure explosion of the anti-toppling intelligent transfusion device of the utility model.

Fig. 5 is a schematic view of the structure of the anti-toppling intelligent transfusion device in use state.

FIG. 6 is a schematic view of the control relationship in the anti-toppling intelligent transfusion device of the present invention.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the invention; for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted. The positional relationships depicted in the drawings are for illustrative purposes only and are not to be construed as limiting the invention.

Example 1:

as shown in fig. 1 to 3, an anti-toppling infusion dropper 11 comprises a liquid storage dropper 11, an output infusion tube 12 and a return infusion tube 13; one end of the liquid storage dropper 11 is provided with a liquid inlet and a reflux port, and the other end is provided with a liquid outlet; one end of the output infusion tube 12 extends into the liquid storage dropper 11 from the liquid outlet, and the other end is used for being connected with a needle head; one end of the backflow infusion tube 13 is communicated with the output infusion tube 12, and the other end is connected with the backflow port; the output infusion tube 12 in the liquid dropper 11 is a hose 121, and a gravity ball 14 is arranged at the end of the hose 121. The liquid medicine flows into the liquid storage dropper 11 from a liquid inlet of the liquid storage dropper 11, an output infusion tube 12 is connected with the liquid outlet, one end of the output infusion tube 12 extends into the liquid storage dropper 11 from the liquid outlet, the section of the output infusion tube 12 is a hose 121, and a gravity small ball 14 is sleeved at the end part of the hose 121; the small ball 14 is always at the bottom of the liquid level due to gravity, so the output infusion tube 12 can always be located in the liquid medicine regardless of the spatial position of the liquid dropper 11.

Specifically, the output infusion tube 12 is divided into a detection end 123 and an output end 122, the detection end 123 is the output infusion tube 12 from the liquid outlet to the joint between the return infusion tube 13 and the output infusion tube 12, and the output end 122 is the output infusion tube 12 from the joint between the return infusion tube 13 and the output infusion tube 12 to the end where the needle is located; the output end 122 of the output infusion tube 12 and the return infusion tube 13 are both provided with an electromagnetic liquid stop valve 15. The electromagnetic liquid stop valve 15 is arranged on the output end 122 of the output infusion tube 12 and the return infusion tube 13, so that when the liquid medicine is completely dripped or bubbles appear in the output liquid storage dropper 11, the electromagnetic liquid stop valve 15 at the output end 122 closes the orifice of the output infusion tube 12, and the liquid medicine flows back to the liquid storage dropper 11 from the return infusion tube 13; under the normal transfusion condition, the electromagnetic liquid stop valve 15 of the reflux transfusion tube 13 is closed, and the liquid medicine flows to the human body from the output transfusion tube 12; therefore, the phenomenon of blood backflow and the like after the liquid medicine is dripped can be effectively avoided.

The output infusion tube 12 is also provided with a bubble detector, which is provided at the detection end 123 of the output infusion tube 12. A bubble detector is arranged at the detection end 123 of the output infusion tube 12, so that whether bubbles appear in the output infusion tube 12 or not can be detected at any time, if the bubbles appear, the electromagnetic liquid stop valve 15 closes the output end 122, the return infusion tube 13 is opened, the liquid medicine flows back to the liquid storage dropper 11 from the return infusion tube 13, and secondary detection is carried out on the liquid medicine; if no bubble is detected, the liquid medicine flows from the output infusion tube 12 to the human body; therefore, air can be effectively prevented from being circulated to blood vessels of a human body, bubbles are effectively prevented from entering the human body, and harm to the human body is reduced.

In addition, the liquid drop tube 11 is of a spherical structure, and the length value of the hose 121 is greater than or equal to the maximum inner diameter value of the liquid drop tube 11. The length of the hose 121 is greater than or equal to the inner diameter of the liquid dropper 11, so that no matter how the liquid dropper 11 is turned over, the port of the hose 121 is always positioned in the liquid medicine under the gravity action of the gravity ball 14.

Example 2

As shown in fig. 4 and 5, the utility model also provides an anti-toppling intelligent infusion device, which comprises an infusion box 2, a motor 3, an air bag 4, a controller, a battery 5 and an anti-toppling infusion dropper 1 in the embodiment 1; the anti-toppling infusion dropper 1 is fixed at one end of the infusion box 2, the controller and the motor 3 are both arranged on the infusion box 2, the motor 3, the electromagnetic liquid stop valve 15 and the bubble detector are all electrically connected with the controller, and the motor 3 is also connected with the air bag 4; the air bag 4 is arranged in the transfusion box 2, and the transfusion medicine bag is arranged in the transfusion box 2 and is contacted with the air bag 4; the battery 5 is used to supply power to the entire apparatus. In the utility model, the infusion medicine bag is prevented from being in the infusion box 2, the controller controls the motor 3 to inflate the air bag 4, and the air bag 4 applies pressure to the medicine bag, so as to ensure that the liquid medicine in the medicine bag can normally flow into the human body from the output infusion tube 12; electromagnetism ends liquid valve 15, bubble detector and motor 3 all with controller electric connection, operation through each equipment of controller unified control, realize intelligent control, finish when the liquid medicine drips, appear the bubble in the output transfer line 12, perhaps can not normally flow in the liquid medicine in the output transfer line 12, through the bubble detector, electromagnetism ends the cooperation between liquid valve 15 and the controller, in time close output transfer line 12, prevent that the bubble from getting into the human body, and avoid not having the liquid medicine to take place the blood backward flow in the output transfer line 12. When the arm of the human body is in a complex motion state, the air can be automatically exhausted, the dropper is not limited by the motion state, the whole device can effectively prevent the falling, and the infusion function is completed. The liquid medicine is safely infused into the human body to finish the normal state of infusion.

The utility model discloses in, prevent empting intelligent infusion set and realize letting patient's hand can carry out normal work activity, can do violent motion even, even human hand action range is too big, and the spherical burette violently overturns, does not let the air bubble get into the human body yet, has ensured the security of infusion, changes traditional burette and puts in the eminence and carry and prevent intraductal air admission transmission pipe, has restricted patient's active state's inconvenient part.

Specifically, the air bag 4 is also provided with a pressure sensor which is arranged on one side of the air bag 4 contacted with the infusion medicine bag; the pressure sensor is electrically connected with the controller. The medicine bag is pressurized through the air bag 4, and the pressure in the medicine bag of the medicine bag is detected through the pressure sensor, so that the liquid medicine pressure is always higher than the blood pressure, and the safety of a human body in the infusion process is ensured.

The transfusion box 2 comprises a box body and a turnover cover, wherein one end of the turnover cover is hinged with the box body, and the other end of the turnover cover is detachably connected with the box body through a connecting piece; and a heater and a temperature sensor are arranged in the box body and/or on the turnover cover, and the heater and the temperature sensor are both electrically connected with the controller. Infusion box 2 provides fixed function for the cartridge bag, sets up the heater on infusion box 2 and heats the cartridge bag, detects the temperature of liquid medicine in the cartridge bag through thermodetector, makes the temperature of liquid medicine fit for the human body, avoids infusion process liquid medicine temperature lower and arouse human discomfort.

In addition, the output end 122 of the output infusion tube 12 is further provided with a flow sensor and an alarm, and both the flow sensor and the alarm are electrically connected with the controller. The flow sensor can measure the flow of the liquid medicine input into the human body at any time, and the speed of inputting the liquid medicine into the human body per minute can be set according to the requirement; this prevent empting intelligent infusion set has flow measurement and regulatory function, can set for the minute input rate of liquid medicine through flow control button to can see the surplus of solution flow and the time that the required transport finishes from display 21, realize automatic control to input liquid medicine flow velocity of flow. When the residual amount of the solution reaches the specified residual amount, the alarm system is started, the flow hole leading to the blood vessel can be automatically closed, the infusion is stopped, the alarm is sounded, and the buzzer is sounded to remind people to replace the liquid in time.

Wherein, still be equipped with display 21, flow control button, atmospheric pressure adjustment button and temperature regulation button on transfusion box 2, display 21, flow control button, atmospheric pressure adjustment button and temperature regulation button all with controller electric connection. The display 21 can display the pressure value, temperature value, velocity and flow value of the detected medicine bag in real time, and the flow velocity, air pressure and temperature can be adjusted at any time through the flow adjusting button, the air pressure adjusting button and the temperature adjusting button, so that the intelligent control of the infusion process is realized.

In addition, the transfusion box 2 is also provided with a bandage 6, and the bandage 6 is provided with a magic tape. The binding band 6 is arranged on the transfusion box 2, and the transfusion box 2 can be fixed on the arm through the binding band 6, so that a patient can walk at any time in the transfusion process without being limited by a field, and the patient is always fixed in the transfusion process; set up the magic subsides on bandage 6, the fixed box of bandage 6 of being convenient for is dismantled.

As shown in fig. 6, in the present invention, the controller obtains bubble information through the bubble sensor, and the bubble detector and the electromagnetic liquid stop valve 15 are used to control the liquid bubbles, so as to prevent the bubbles from entering the human body; the controller obtains pressure information through the pressure sensor and utilizes the air bag 4 to realize the pressure control of the liquid medicine. The controller obtains temperature information through the temperature sensor, and the heater is utilized to realize the control of the temperature. The controller obtains flow information through the flow sensor to realize the control of the liquid flow. The controller displays the residual amount of the liquid medicine flow and the time required for finishing the conveying through the display screen, and realizes braking control on the flow and the flow speed of the input liquid medicine. When the residual amount of the liquid medicine reaches the designated residual amount, the alarm system is started, the output infusion tube 12 can be automatically closed, infusion is stopped, and buzzing sound is given out to remind people to replace the liquid in time, so that the practicability is high, and intelligent management of the flow of the input liquid is realized.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not limitations to the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. An anti-toppling infusion dropper is characterized by comprising a liquid storage dropper (11), an output infusion tube (12) and a return infusion tube (13); one end of the liquid storage dropper (11) is provided with a liquid inlet and a reflux port, and the other end is provided with a liquid outlet; one end of the output infusion tube (12) extends into the liquid storage dropper (11) from the liquid outlet, and the other end is connected with the needle head; one end of the backflow infusion tube (13) is communicated with the output infusion tube (12), and the other end is connected with the backflow port; an output infusion tube (12) positioned in the liquid storage dropper (11) is a hose (121), and a gravity ball (14) is arranged at the end part of the hose (121).

2. The anti-toppling infusion dropper according to claim 1, wherein the output infusion tube (12) is divided into a detection end (123) and an output end (122), the detection end (123) is the output infusion tube (12) from the liquid outlet to the joint of the return infusion tube (13) and the output infusion tube (12), and the output end (122) is the output infusion tube (12) from the joint of the return infusion tube (13) and the output infusion tube (12) to the end where the needle is located; an electromagnetic liquid stop valve (15) is arranged on both the output end (122) of the output infusion tube (12) and the return infusion tube (13).

3. The anti-toppling infusion dropper of claim 2, wherein the output infusion tube (12) is further provided with a bubble detector, and the bubble detector is arranged at the detection end (123) of the output infusion tube (12).

4. An anti-toppling infusion dropper as claimed in any one of claims 1 to 3, wherein the liquid storage dropper (11) is of a spherical structure; the length value of the hose (121) is larger than or equal to the maximum inner diameter value of the liquid storage dropper (11).

5. An anti-toppling intelligent transfusion device, which is characterized by comprising a transfusion box (2), a motor (3), an air bag (4), a controller and a battery (5), and further comprising an anti-toppling transfusion dropper (1) as claimed in claims 1 to 4; the anti-toppling infusion dropper (1) is fixed at one end of the infusion box (2), the controller and the motor (3) are arranged on the infusion box (2), the motor (3), the electromagnetic liquid stop valve (15) and the bubble detector are electrically connected with the controller, and the motor (3) is also connected with the air bag (4); the air bag (4) is arranged in the transfusion box (2), and a transfusion medicine bag is arranged in the transfusion box (2) and is contacted with the air bag (4); the battery (5) is used for providing power for the whole device.

6. The intelligent anti-toppling infusion device is characterized in that a pressure sensor is further arranged on the air bag (4), and the pressure sensor is arranged on one side of the air bag (4) which is in contact with an infusion medicine bag; the pressure sensor is electrically connected with the controller.

7. The intelligent anti-toppling infusion device is characterized in that the infusion box (2) comprises a box body and a turnover cover, one end of the turnover cover is hinged with the box body, and the other end of the turnover cover is detachably connected with the box body through a connecting piece; the heater and the temperature sensor are arranged in the box body and/or on the turnover cover and are electrically connected with the controller.

8. The intelligent anti-toppling infusion device as claimed in claim 7, wherein the output end (122) of the output infusion tube (12) is further provided with a flow sensor, and the flow sensor is electrically connected with the controller.

9. The intelligent anti-toppling infusion device as claimed in claim 8, wherein a display (21), a flow adjusting button, an air pressure adjusting button and a temperature adjusting button are further arranged on the infusion box (2), and the display (21), the flow adjusting button, the air pressure adjusting button and the temperature adjusting button are electrically connected with the controller.

10. The intelligent anti-toppling infusion device as claimed in any one of claims 5 to 9, wherein a bandage (6) is further arranged on the infusion box (2), and a magic tape is arranged on the bandage (6).

Images