CN114392426B

CN114392426B - Artificial intelligent intravenous drip group pipe instrument

Info

Publication number: CN114392426B
Application number: CN202210073844.3A
Authority: CN
Inventors: 张伟; 王宝志; 孙喜飞; 王凤明; 张岩; 赵良元; 钱时俊; 张国庆; 陈超远; 张漠; 张曦铭; 王建君; 陈忠仁; 陈琴放; 顾欣; 王荣丽; 林志成; 王鑫; 何文化; 李明哲
Original assignee: Hainan Shengbaiyi Technology Co ltd; Hainan Yuanyi Adult Intelligent Technology Co ltd; Shanghai Gangjing Technology Group Co ltd
Current assignee: Hainan Shengbaiyi Technology Co ltd; Hainan Yuanyi Adult Intelligent Technology Co ltd; Shanghai Gangjing Technology Group Co ltd
Priority date: 2022-01-21
Filing date: 2022-01-21
Publication date: 2024-03-12
Anticipated expiration: 2042-01-21
Also published as: CN114392426A

Abstract

The invention discloses an artificial intelligent intravenous drip tube group instrument, in particular to the technical field of medical appliances, which comprises a battery box, wherein a tube group instrument shell is arranged above the battery box, and a monitoring mechanism is arranged in the tube group instrument shell; the monitoring mechanism comprises a computing chip arranged inside the shell of the cluster tube instrument, a storage is arranged on one side of the computing chip, and a singlechip is arranged on one side of the storage. The invention adopts the monitoring mechanism, when overspeed, too slow, no medicine and abrupt change all cause the audible and visual alarm to alarm so as to remind personnel to quickly arrive at the site for processing, the medicine dripping monitoring is easier, the waste of medicines caused by the early needle pulling is avoided, the dripping speed of the medicines can be quantified, the treatment effect is improved, the life safety is avoided being endangered, the on-duty nurse can track the intravenous drip process in real time, the frequent occurrence of intravenous drip medical accidents is avoided, and the invention is safer and more convenient.

Description

Artificial intelligent intravenous drip group pipe instrument

Technical Field

The invention relates to the technical field of medical appliances, in particular to an artificial intelligent intravenous drip tube group instrument.

Background

Intravenous drip has become the most widely used most important treatment modality in hospitals, so that more than one million infusion tubes are simultaneously used for clicking at every moment, and the burdensome intravenous drip operation is seen.

The intravenous drip process cannot be tracked by nurses on duty, and guardians do not need to be professional or careless to observe, or intravenous drip medical accidents frequently occur due to untimely contact and the like.

Disclosure of Invention

In order to overcome the defects of the prior art, the embodiment of the invention provides an artificial intelligent intravenous drip group tube instrument, which adopts a monitoring mechanism, alarms to remind personnel to arrive at a site quickly for processing, is easier to monitor the dripping speed of the medicine, avoids the waste of the medicine caused by pulling the needle in advance, can quantify the dripping speed of the medicine, improves the treatment effect, avoids endangering the life safety, can track the intravenous drip process in real time, avoids the frequent occurrence of intravenous drip medical accidents, and is safer and more convenient to solve the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the artificial intelligent intravenous drip tube group instrument comprises a battery box, wherein a tube group instrument shell is arranged above the battery box, and a monitoring mechanism is arranged in the tube group instrument shell;

the monitoring mechanism comprises a computing chip arranged inside a casing of the group pipe instrument, a storage is arranged on one side of the computing chip, a singlechip is arranged on one side of the storage, a wireless transceiver is arranged at the top end of the casing of the group pipe instrument, an output end of the wireless transceiver is connected with a storage host, an audible-visual alarm is arranged at the top end of the storage host, an output end of the storage host is connected with a computer display screen, a display is arranged on the front side of a battery box, four dropper chucks are arranged on the rear side of the battery box, and an infrared probe is arranged on the inner wall of each dropper chuck.

In a preferred implementation mode, the computing chip, the storage device and the single chip microcomputer are fixedly connected with the bottom end of the inner wall of the shell of the group pipe instrument, the input end of the wireless transceiver is communicated with the output end of the single chip microcomputer, the lower part of the battery box is close to the four corners, the moving wheels are installed, the moving wheels are fixed with the battery box through bolts, two placing clamps are arranged on one side of the dropper clamping head, and the inner wall of the placing clamps is fixedly connected with the outer part of the shell of the group pipe instrument close to the bottom end.

In a preferred embodiment, the adjusting linkage is installed to place the clamp below, adjusting linkage is including setting up the support that cup joints that is placing the clamp below, cup joint the inside guide screw thread piece that is provided with of support, guide screw thread piece top is provided with the direction spiral shell ring piece, the inside threaded connection of direction screw thread piece has first two-way transmission lead screw, driving motor is installed to first two-way transmission lead screw bottom, and is provided with switch on the driving motor, direction spiral shell ring piece both sides all are provided with first articulated push rod, first articulated push rod top is connected with first sliding block, first articulated push rod one side is provided with the second articulated push rod that is close to top one side swing joint with the direction spiral shell ring piece, second articulated push rod top is connected with the second sliding block, guide screw thread piece one side is provided with two and allies oneself with the lantern ring pole, the lantern ring pole top swing joint has the third sliding block, it is provided with the outer linkage lantern pole to expand lantern pole one side, outer the lantern pole top swing joint has the fourth sliding block, guide screw thread piece inner wall and the opposite screw thread of direction spiral shell piece sets up opposite screw thread and two-way transmission screw thread opposite side.

In a preferred implementation mode, the upper end and the lower end of the second hinged push rod are respectively movably connected with the guide screw ring block and the second sliding block in pairs, the joint of the top end of the first hinged push rod and the first sliding block is movably connected, the fourth sliding block and the first sliding block are symmetrically arranged, the third sliding block and the second sliding block are symmetrically arranged, limiting plates are arranged on one sides of the first sliding block, the second sliding block, the third sliding block and the fourth sliding block, limiting air bags are fixedly connected to one sides of the limiting plates, and contact sensors are arranged on one sides of the limiting air bags.

In a preferred embodiment, the blocking mechanism is arranged above the dropper clamping head, the blocking mechanism comprises an extrusion laminating plate arranged above the dropper clamping head, the bottom end of the extrusion laminating plate is connected with a first threaded sleeve ring block, one side of the extrusion laminating plate is provided with a limiting extrusion plate, the inner wall of the first threaded sleeve ring block is connected with a second bidirectional transmission screw rod, one side of the first threaded sleeve ring block is provided with a second threaded sleeve ring block, one side of the second threaded sleeve ring block, close to the top end, is connected with an extrusion frame, one side of the extrusion frame is provided with an extrusion groove clamped with the extrusion laminating plate, one end of the second bidirectional transmission screw rod is coaxially and in transmission connection with a fastening motor, external threads at two ends of the second bidirectional transmission screw rod are oppositely arranged, the vertical cross section area of the extrusion laminating plate is smaller than the vertical cross section area of the extrusion groove, and the inner wall threads of the second threaded sleeve ring block are oppositely arranged with those of the first threaded sleeve ring block.

The invention has the technical effects and advantages that:

1. according to the invention, the infrared probe is used for sensing, the number of drops per minute can be calculated through the calculation chip, the data is transmitted into the storage host through the wireless transceiver, the stored data is compared, the overspeed, the slowness, the no medicine, the normal and the abrupt changes can be displayed on the display and the computer display screen, the patient information, the sickbed, the name and the ward can be displayed, and when the overspeed, the slowness, the no medicine and the abrupt changes occur, the audible and visual alarm can be used for alarming and reminding personnel to quickly arrive at the site for processing, so that the medicine dropping monitoring is easier, the medicine is prevented from being wasted by pulling the needle in advance, the dropping speed of the medicine can be quantized, the treatment curative effect is improved, the life safety is avoided, the on-duty nurse can track the intravenous drip process in real time, the occurrence of intravenous drip medical accidents is avoided, and the safety and convenience are improved;

2. according to the invention, the driving motor is adopted to drive the first bidirectional transmission screw rod to rotate, the guide screw thread block moves downwards under the action of the screw thread, the guide screw thread ring block moves upwards under the action of the screw thread, the fourth sliding block and the first sliding block are mutually close to be extruded, the third sliding block and the second sliding block are mutually close to each other, the limiting plate drives the limiting air bag to move, the contact sensor is attached to the position of the lower thin infusion tube of the infusion tube, the limiting effect is achieved on the bottoms of the infusion tubes, the limiting fixing requirements of the infusion tubes with different diameters can be rapidly achieved, the linkage effect is produced, the linkage consistency is improved, the simultaneous limiting of the infusion tubes is rapidly achieved, the limiting time of the infusion tubes is saved, the working efficiency of medical staff is improved, and the time and labor are saved;

3. when the drip tube is free of medicines, the blocking mechanism is adopted, the second bidirectional transmission screw rod drives the first threaded sleeve ring block to enable the extrusion laminating plate to move leftwards, the limiting extrusion plate moves leftwards, the second threaded sleeve ring block drives the extrusion frame to move rightwards under the action of threads, the extrusion laminating plate enters an extrusion groove in the extrusion frame, the transfusion tubule is embedded and extruded and fixed, the limiting extrusion plate and the side face of the extrusion frame are extruded mutually, the transfusion tubule plays a role of extrusion sealing, and thus the transfusion tube can be blocked, and blood of an injector cannot flow backwards into the drip tube;

4. to sum up, through the mutual influence of above-mentioned a plurality of effects, the medicine is dripped clean and is monitored more easily, avoid pulling out the extravagant medicine of needle in advance, can be with the quantitative of drip velocity of medicine, improve the treatment effect, avoid endangering life safety, avoid leading to intravenous drip medical malpractice frequently, it is safer convenient, improve the linkage uniformity, it is spacing to realize a plurality of drip pipes fast, save more the spacing time to a plurality of drip pipes, improve medical personnel's work efficiency, labour saving and time saving more, can block up the transfer line, thereby injection personnel's blood can not produce and fall to drip in the pipe, can improve the liquid medicine and drip the monitorability in advance on the sum, play better medical treatment effect, improve the convenience of dripping of control liquid medicine, and the high efficiency.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic diagram of a computing chip structure according to the present invention.

Fig. 3 is a rear perspective view of the battery box of the present invention.

Fig. 4 is a schematic diagram of a connection between a first bidirectional transmission screw and a driving motor.

Fig. 5 is a schematic view of a part of the structure of the joint between the guide screw ring block and the first hinged push rod.

Fig. 6 is an enlarged schematic view of the structure of fig. 3 a according to the present invention.

Fig. 7 is an enlarged view of fig. 5B according to the present invention.

FIG. 8 is a schematic view of the joint between the extruded veneer of the present invention and the first threaded collar block.

Fig. 9 is a schematic diagram showing the operation of the display according to the present invention.

The reference numerals are: 1. a battery box; 2. a cluster tool housing; 3. a computing chip; 4. a reservoir; 5. a single chip microcomputer; 6. a wireless transceiver; 7. a storage host; 8. a computer display screen; 9. an audible and visual alarm; 10. a display; 11. a dropper chuck; 12. an infrared probe; 13. a moving wheel; 14. placing a clamp; 15. sleeving a bracket; 16. a first bidirectional transmission screw rod; 17. a driving motor; 18. a guide screw block; 19. a pilot screw block; 20. a first hinged push rod; 21. a first slider; 22. a second hinged push rod; 23. a second slider; 24. a link collar rod; 25. a third slider; 26. an external expansion linkage sleeve rod; 27. a fourth slider; 28. a limiting plate; 29. a limit air bag; 30. a contact sensor; 31. extruding the bonding plate; 32. a first threaded collar block; 33. limiting extrusion plates; 34. a second bidirectional transmission screw rod; 35. a second threaded collar block; 36. extruding a frame; 37. an extrusion groove; 38. fastening motor, 39, power switch.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

An artificial intelligent intravenous drip tube group instrument as shown in figures 1-9 comprises a battery box 1, wherein a tube group instrument shell 2 is arranged above the battery box 1, and a monitoring mechanism is arranged in the tube group instrument shell 2;

the monitoring mechanism comprises a computing chip 3 arranged inside a cluster tube instrument shell 2, a storage 4 is arranged on one side of the computing chip 3, a singlechip 5 is arranged on one side of the storage 4, a wireless transceiver 6 is arranged at the top end of the cluster tube instrument shell 2, the output end of the wireless transceiver 6 is connected with a storage host 7, an audible-visual alarm 9 is arranged at the top end of the storage host 7, the output end of the storage host 7 is connected with a computer display screen 8, a display 10 is arranged on the front side of a battery box 1, four dropper chucks 11 are arranged on the rear side of the battery box 1, and an infrared probe 12 is arranged on the inner wall of each dropper chuck 11.

In some embodiments, as shown in fig. 1-3, the computing chip 3, the storage 4 and the single chip microcomputer 5 are fixedly connected with the bottom end of the inner wall of the tube cluster housing 2, the input end of the wireless transceiver 6 is communicated with the output end of the single chip microcomputer 5, the moving wheels 13 are installed at positions, close to four corners, below the battery box 1, of the battery box 1, the moving wheels 13 are fixed with the battery box 1 through bolts, one sides of the two tube chucks 11 are provided with placing clamps 14, the inner wall of the placing clamps 14 is fixedly connected with the outer portion, close to the bottom end, of the tube cluster housing 2, so that the stored data can be sent to the storage host 7 through the computing chip 3, the storage 4 and the single chip microcomputer 5, and the tube cluster housing 2 through the single chip microcomputer 5, and the battery box 1 can be driven by means of the four moving wheels 13, and therefore the battery box 1 can be conveniently transported to the designated positions.

In some embodiments, as shown in fig. 3-7, an adjusting linkage mechanism is installed below the placing clamp 14, the adjusting linkage mechanism comprises a sleeving bracket 15 arranged below the placing clamp 14, a guiding thread block 18 is arranged inside the sleeving bracket 15, a guiding screw ring block 19 is arranged above the guiding thread block 18, a first bidirectional transmission screw rod 16 is connected inside the guiding thread block 18 in a threaded manner, a driving motor 17 is installed at the bottom end of the first bidirectional transmission screw rod 16, a power switch 39 is arranged on the driving motor 17, first hinging push rods 20 are arranged on two sides of the guiding screw ring block 19, a first sliding block 21 is connected at the top end of the first hinging push rod 20, a second hinging push rod 22 movably connected with one side, close to the top end, of the guiding screw ring block 19 is arranged at one side of the second hinging push rod 22, a second sliding block 23 is connected at the top end of the guiding screw ring block 18, two linking ring rods 24 are arranged at one side of the guiding screw rod 18, the top end of the connecting sleeve ring rod 24 is movably connected with a third sliding block 25, one side of the connecting sleeve ring rod 24 is provided with an outward expansion connecting sleeve rod 26, the top end of the outward expansion connecting sleeve rod 26 is movably connected with a fourth sliding block 27, the threads on the inner wall of the guide screw ring block 19 are opposite to the threads on the inner wall of the guide screw ring block 18, the external threads on the two ends of the first bidirectional transmission screw rod 16 are symmetrical and opposite, the upper end and the lower end of the second hinged push rod 22 are respectively movably connected with the guide screw ring block 19 and the second sliding block 23, the joint of the top end of the first hinged push rod 20 and the first sliding block 21 is movably connected, the fourth sliding block 27 and the first sliding block 21 are symmetrically arranged, the third sliding block 25 and the second sliding block 23 are symmetrically arranged, one side of the first sliding block 21, the second sliding block 23, the third sliding block 25 and the fourth sliding block 27 are respectively provided with a limiting plate 28, one side of the limiting plate 28 is fixedly connected with a limiting air bag 29, the contact sensor 30 is installed on one side of the limiting air bag 29, so that the first bidirectional transmission screw rod 16 drives the guide thread block 18 to move downwards under the action of threads and drives the guide thread ring block 19 to move upwards under the action of threads, the second hinged push rod 22 drives the second sliding block 23 to slide leftwards, the first hinged push rod 20 drives the first sliding block 21 to slide leftwards, the sleeve ring rod 24 drives the third sliding block 25 to slide rightwards, the fourth sliding block 27 slides rightwards, the fourth sliding block 27 and the first sliding block 21 are close to each other and squeeze, the third sliding block 25 and the second sliding block 23 are close to each other, and when the contact sensor 30 moves and is attached to the position of a thin infusion tube below the infusion tube, a plurality of infusion tubes can be limited and fixed, and the linkage limiting effect is realized.

In some embodiments, as shown in fig. 6-8, a blocking mechanism is arranged above the dropper chuck 11, the blocking mechanism comprises an extrusion attachment plate 31 arranged above the dropper chuck 11, the bottom end of the extrusion attachment plate 31 is connected with a first threaded collar block 32, one side of the extrusion attachment plate 31 is provided with a limiting extrusion plate 33, the inner wall of the first threaded collar block 32 is connected with a second bidirectional transmission screw 34, one side of the first threaded collar block 32 is provided with a second threaded collar block 35, one side of the second threaded collar block 35 close to the top end is connected with an extrusion frame 36, one side of the extrusion frame 36 is provided with an extrusion groove 37 clamped with the extrusion attachment plate 31, one end of the second bidirectional transmission screw 34 is coaxially connected with a fastening motor 38, external threads at two ends of the second bidirectional transmission screw 34 are oppositely arranged, the vertical cross-sectional area of the extrusion attachment plate 31 is smaller than that of the extrusion groove 37, the inner wall threads of the second threaded collar block 35 are oppositely arranged with those of the first threaded collar block 32, so that when a medicine is not applied to a dropping tube, the fastening motor 38 drives the second bidirectional transmission screw 34 to rotate positively, the second bidirectional transmission screw 34 drives the first threaded collar block 31 to drive the second bidirectional transmission screw to move to the left to the inner side of the extrusion attachment plate 31, and the extrusion attachment plate 36 is prevented from moving to the inner side of the extrusion frame 36 to the compression groove 37, and the inner side of the blood is completely extruded into the extrusion frame, and the transfusion frame is prevented from entering the extrusion groove 37.

The working principle of the invention is as follows: when the drip tubes are placed, four drip tubes can be placed in the drip tube chuck 11 in sequence, then a medical staff manually presses the power switch 39, the driving motor 17 is started to drive the first bidirectional transmission screw rod 16 to rotate, the first bidirectional transmission screw rod 16 drives the guide thread block 18 to move downwards under the action of threads, meanwhile, the first bidirectional transmission screw rod 16 drives the guide thread ring block 19 to move upwards under the action of threads, so that the guide thread ring block 19 drives the second hinged push rod 22 to move upwards, the second hinged push rod 22 drives the second sliding block 23 to slide leftwards, the first hinged push rod 20 drives the first sliding block 21 to slide leftwards, the guide thread block 18 drives the link ring rod 24 to move downwards, the link collar rod 24 drives the right side of the third sliding block 25 to slide, and the expansion link collar rod 26 drives the fourth sliding block 27 to slide rightwards, so that the fourth sliding block 27 and the first sliding block 21 are close to each other and squeeze, the third sliding block 25 and the second sliding block 23 are close to each other, so that two adjacent limiting plates 28 can be driven to move, the limiting plates 28 drive the limiting air bags 29 to move, when the contact sensor 30 is attached to the position of the drip tube lower thin infusion tube, the driving of the driving motor 17 is stopped, the limiting effect can be achieved on larger areas of the bottoms of a plurality of drip tubes, and therefore the drip tubes can be limited and fixed, and can be placed vertically downwards under the action of gravity;

when the liquid medicine in the drip tube is dripped during the drip management, the infrared probe 12 can be used for sensing, the calculating chip 3 can be used for calculating the number of dripping times per minute, calculated data are imported into the storage 4, after the storage 4 is stored, the calculated data are transmitted to the wireless transceiver 6 through the single chip 5, the data are transmitted to the storage host 7 through the wireless transceiver 6, the data stored in the storage host 7 are compared, and the intravenous drip speed is mainly determined according to the age, the illness state and the property of the medicine of a patient. Normally, the adult drop rate is 40 to 60 drops per minute, and the child drop rate is 20 to 40 drops per minute. If the aged people suggest that no matter what medicine is instilled, the aged people have slower cardiac circulatory function, slower medicine absorption and poorer physical conditions. There are also drugs for treating the heart, which are slow to drop at a rate of about 16 to 20 drops per minute. The dripping speed of cerebral edema is faster if shock is treated.

When the data display dropping speed is zero, the data can be displayed on the display 10 and the computer display screen 8 in a medicine-free state, and meanwhile, patient information, sickbed, name and ward can be displayed, and when overspeed, too slow, medicine-free and abrupt changes occur, the audible and visual alarm 9 can give an alarm, and after the alarm is finished, the operation adjustment can be carried out by professional medical staff to quickly achieve the on-site solution;

when no medicine exists, when the drip tube does not exist, the drip tube at the top end of the drip tube is connected with the infusion bottle to form a connecting pipeline, the fastening motor 38 is started to drive the second bidirectional transmission screw rod 34 to rotate forwards, the second bidirectional transmission screw rod 34 drives the first threaded sleeve ring block 32 to move leftwards, the first threaded sleeve ring block 32 drives the extrusion bonding plate 31 to move leftwards, the extrusion bonding plate 31 drives the limiting extrusion plate 33 to move leftwards, meanwhile, the second bidirectional transmission screw rod 34 drives the second threaded sleeve ring block 35 to move rightwards under the action of threads, the second threaded sleeve ring block 35 drives the extrusion frame 36 to move rightwards, and thus the extrusion bonding plate 31 starts to enter the extrusion groove 37 inside the extrusion frame 36, the drip tube can be embedded and extruded and fixed, the side surfaces of the limiting extrusion plate 33 and the extrusion frame 36 are mutually extruded, and the drip tube plays a role of extrusion sealing.

The last points to be described are: first, in the description of the present application, it should be noted that, unless otherwise specified and defined, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be mechanical or electrical, or may be a direct connection between two elements, and "upper," "lower," "left," "right," etc. are merely used to indicate relative positional relationships, which may be changed when the absolute position of the object being described is changed;

secondly: in the drawings of the disclosed embodiments, only the structures related to the embodiments of the present disclosure are referred to, and other structures can refer to the common design, so that the same embodiment and different embodiments of the present disclosure can be combined with each other under the condition of no conflict;

finally: the foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims

1. An artificial intelligence intravenous drip crowd pipe appearance, includes battery box (1), its characterized in that: a group pipe instrument shell (2) is arranged above the battery box (1), and a monitoring mechanism is arranged inside the group pipe instrument shell (2);

the monitoring mechanism comprises a computing chip (3) arranged inside a tube-group instrument shell (2), a storage device (4) is arranged on one side of the computing chip (3), a single chip microcomputer (5) is arranged on one side of the storage device (4), a wireless transceiver (6) is arranged on the top end of the tube-group instrument shell (2), the output end of the wireless transceiver (6) is connected with a storage host (7), an audible-visual alarm (9) is arranged on the top end of the storage host (7), the output end of the storage host (7) is connected with a computer display screen (8), a display (10) is arranged on the front side of the battery box (1), four dropper chucks (11) are arranged on the rear side of the battery box (1), an infrared probe (12) is arranged on the inner wall of the dropper chucks (11), a placing clamp (14) is arranged on one side of the dropper chucks, the inner wall of the placing clamp (14) is fixedly connected with the outer portion of the bottom end of the tube-group instrument shell (2), an adjusting linkage mechanism is arranged below the placing clamp (14), the adjusting linkage mechanism comprises a placing clamp (14) and a guide ring (18) is sleeved on a guide ring (18), the guide screw block (18) is internally connected with a first bidirectional transmission screw rod (16) in a threaded manner, a driving motor (17) is installed at the bottom end of the first bidirectional transmission screw rod (16), a power switch (39) is arranged on the driving motor (17), first hinged push rods (20) are arranged on two sides of a guide screw ring block (19), a first sliding block (21) is connected to the top end of the first hinged push rods (20), a second hinged push rod (22) movably connected with one side of the guide screw ring block (19) close to the top end is arranged on one side of the first hinged push rods (20), a second sliding block (23) is connected to the top end of the second hinged push rod (22), two sleeve ring rods (24) are arranged on one side of the guide screw ring block (18), a third sliding block (25) is movably connected to the top end of the sleeve ring rod (24), an external expansion sleeve rod (26) is arranged on one side of the sleeve ring rod (24), a fourth sliding block (27) is movably connected to the top end of the external expansion sleeve rod (26), two opposite threads of the guide screw ring block (19) are symmetrically arranged on the two opposite to the two ends of the guide screw ring block (18) and are respectively connected with two opposite threads (23), the utility model discloses a motor vehicle, including articulated push rod, limiting plate (28) one side fixedly connected with limiting air bag (29), limiting air bag (29) one side is installed to limiting air bag (29), limiting air bag (29) one side is installed, first articulated push rod (20) top and junction swing joint of first sliding block (21), fourth sliding block (27) and first sliding block (21) symmetry set up, third sliding block (25) and second sliding block (23) symmetry set up, limiting plate (28) are all installed to first sliding block (21), second sliding block (23), third sliding block (25), fourth sliding block (27) one side.

2. An artificial intelligence intravenous drip tube apparatus according to claim 1, characterized in that: the computing chip (3), the storage (4) and the singlechip (5) are fixedly connected with the bottom end of the inner wall of the group pipe instrument shell (2), and the input end of the wireless transceiver (6) is communicated with the output end of the singlechip (5).

3. An artificial intelligence intravenous drip tube apparatus according to claim 1, characterized in that: the battery box (1) is characterized in that moving wheels (13) are arranged at positions, close to four corners, below the battery box (1), and the moving wheels (13) are fixed with the battery box (1) through bolts.

4. An artificial intelligence intravenous drip tube apparatus according to claim 1, characterized in that: the utility model discloses a dropper clamp, including dropper clamp (11) and dropper clamp, be provided with blocking mechanism above dropper clamp (11), blocking mechanism is including setting up extrusion laminating board (31) in dropper clamp (11) top, extrusion laminating board (31) bottom is connected with first screw thread collar piece (32), extrusion laminating board (31) one side is provided with spacing extrusion board (33), first screw thread collar piece (32) inner wall connection has second bidirectional transmission lead screw (34), first screw thread collar piece (32) one side is provided with second screw thread collar piece (35), second screw thread collar piece (35) are close to top one side and are connected with extrusion frame (36), extrusion groove (37) with extrusion laminating board (31) looks joint have been seted up to extrusion frame (36) one side, second bidirectional transmission lead screw (34) one end coaxial transmission is connected with fastening motor (38).

5. An artificial intelligence intravenous drip tube apparatus according to claim 4 and characterized in that: the external threads at two ends of the second bidirectional transmission screw rod (34) are oppositely arranged, the vertical cross-sectional area of the extrusion laminating plate (31) is smaller than that of the extrusion groove (37), and the threads at the inner wall of the second thread sleeve block (35) are oppositely arranged with the threads at the inner wall of the first thread sleeve block (32).