CN114129818A - Infusion real-time monitoring device for digestive system department - Google Patents

Abstract

The invention relates to a real-time monitoring device, in particular to a real-time infusion monitoring device for department of gastroenterology. The technical problem to be solved is as follows: the infusion real-time monitoring device for the department of gastroenterology is capable of intelligently monitoring the dropping condition of liquid medicine and fixing a liquid medicine bottle. The technical scheme is as follows: a real-time infusion monitoring device for a digestive system department comprises a first connecting block and a frame body, wherein the frame body is arranged inside one side of the first connecting block; a connecting rod connected to the inner wall of the frame body; the fixed rod is connected to the middle part of the inner wall of the frame body; four first sliding rods are connected between the connecting rod and the fixed rod; and the first sliding block is connected between the first sliding rods in a sliding manner and is positioned on one side close to the fixed rod. The second spring drives the striking rod to reset, so that the striking rod strikes the steel clock to warn medical staff that the patient is transfused completely.

Description

Infusion real-time monitoring device for digestive system department

Technical Field

The invention relates to a real-time monitoring device, in particular to a real-time infusion monitoring device for department of gastroenterology.

Background

With the development of science and technology, the medical treatment level is also continuously improved, infusion is a common means for treating human diseases in medical treatment, a plurality of acute diseases can be treated quickly through infusion, and people suffering from stomach diseases are more and more because the young people of the modern society often stay up all night and can not eat on time, the stomach diseases belong to the digestive system, the stomach is uncomfortable, the patients can go to the digestive system of a hospital for examination, and infusion treatment can be selected if the problems are not serious.

Although the existing infusion equipment can ensure that a certain distance exists between a transfusion bottle and a patient, so that the liquid medicine can smoothly flow into the body of the patient, a monitoring mechanism is lacked, so that the patient needs to check and watch the liquid medicine at irregular time in the infusion process, so as to ensure that the infusion can be stopped in time when the liquid medicine is completely dripped, but when the patient is busy in a hospital and has more patients, the medical staff can possibly neglect the patient; in addition, if patient oneself observes the liquid medicine circumstances of dripping, can disperse patient's attention, consume the uncomfortable sense that physical stamina may aggravate the patient, consequently need to develop the circumstances of dripping of a but intelligent monitoring liquid medicine, and can carry out the infusion real-time supervision device who is used for gastroenterology who fixes to the liquid medicine bottle.

Disclosure of Invention

In order to overcome the defect that the existing transfusion equipment needs manpower to check and watch at variable time so as to ensure that the transfusion can be stopped in time when the liquid medicine is dripped and finished, the technical problem to be solved is as follows: the infusion real-time monitoring device for the department of gastroenterology is capable of intelligently monitoring the dropping condition of liquid medicine and fixing a liquid medicine bottle.

The technical scheme is as follows: a real-time infusion monitoring device for department of gastroenterology comprises:

the frame body is arranged inside one side of the first connecting block;

a connecting rod connected to the inner wall of the frame body;

the fixed rod is connected to the middle part of the inner wall of the frame body;

four first sliding rods are connected between the connecting rod and the fixed rod;

the first sliding block is connected between the first sliding rods in a sliding mode and is positioned on one side close to the fixed rod;

four first springs are connected between the first sliding block and the fixed rod;

the first sliding block is connected with two material receiving blocks which are symmetrically arranged;

the warning mechanism is arranged on one side, close to the first connecting block, of the fixed rod and used for warning medical staff that liquid medicine is completely dripped;

and the clamping mechanism is connected to the first sliding block and used for stabilizing the liquid medicine bottle.

As a further preferable aspect, the warning means includes:

the inner wall of one side of the fixed rod, which is close to the first connecting block, is provided with a sliding sleeve;

the second sliding block is connected inside the sliding sleeve in a sliding manner;

the second sliding block close to one side of the connecting rod is symmetrically and rotatably connected with the swinging block;

the torsion springs are connected between the swinging blocks and the upper parts of the second sliding blocks;

two first supports are arranged on one side, close to the first connecting block, of the bottom of the fixed rod, and the first supports are symmetrically arranged;

the steel bell is rotatably connected between one sides of the first supports, which are far away from the first connecting block;

the first sliding sleeve is connected between the bottoms of the first brackets;

the beating rod is connected inside the first sliding sleeve in a sliding manner;

the second spring is connected between one side of the striking rod, which is close to the steel bell, and the first sliding sleeve;

and the swinging rod is rotatably connected between the other side of the striking rod and one side of the second sliding block.

As a further preferable mode, the clamping mechanism includes:

four sliding rails are arranged on the inner wall of the first sliding block and are symmetrically arranged;

the tops of the sliding rails are connected with third sliding blocks in a sliding manner;

the third spring is connected between the inner part of the third sliding block and the sliding rail on the same side;

and the clamping blocks are connected between the inner sides of the third sliding blocks on the same transverse side.

As a further preferable aspect, the medical device further comprises a spreading mechanism, and the spreading mechanism comprises:

the two sides of the inner wall of the connecting rod are symmetrically provided with the second brackets;

the wedge blocks are connected between the inner sides of the second brackets on the same side;

the contact block is connected between the inner sides of the third sliding blocks on the same transverse side and is located on one side of the clamping block on the same side.

As a further preferable mode, the device further comprises a flow limiting mechanism, and the flow limiting mechanism comprises:

the fixing blocks are symmetrically arranged between the middle parts of the fixing rods;

the middle part of one side of the fixed block, which is far away from the fixed rod, is connected with the rotating shaft in a symmetrical and rotating way;

the middle parts of the rotating shafts are connected with the rotating blocks;

and the fourth spring is connected between the two opposite sides of the rotating shaft and the fixing blocks on the same side.

As a further preferable scheme, the device further comprises a pulling mechanism, wherein the pulling mechanism comprises:

the third bracket is symmetrically connected to the top of the connecting rod;

the opposite sides of the third brackets are rotatably connected with the reels;

the inner wall of the fixed rod is symmetrically provided with a second sliding sleeve;

the fourth sliding block is slidably arranged inside the second sliding sleeve;

a fifth spring is connected between the upper part of the fourth sliding block and the second sliding sleeve on the same side;

one side of the second connecting block, which is opposite to the rotating shaft, is connected with the second connecting block, and the second connecting block is movably connected with the fourth sliding block at the same side;

one side of the inside of the fourth sliding block, which is close to the connecting rod, is connected with the fifth sliding block in a sliding manner;

the sixth spring is connected between the bottom of the fifth sliding block and the fourth sliding block on the same side;

the stay cord, the fifth sliding block top all with be connected with the stay cord between the first sliding block, the stay cord all passes the fourth sliding block of homonymy, the stay cord all with the reel winding of homonymy.

As a further preferable mode, the device further comprises a friction mechanism, and the friction mechanism comprises:

a second sliding rod is arranged on one side of the upper part in the frame body, which is far away from the first connecting block;

the handle is connected to the second sliding rod in a sliding mode;

a seventh spring is connected between one side of the middle part of the handle and the frame body;

and the friction block is connected to the handle.

As a further preferable scheme, the friction block is made of rubber, so that the damping feeling of the liquid medicine bottle can be increased.

The invention has the following advantages: 1. the striking rod is driven to reset by the second spring, so that the striking rod strikes the steel clock to warn medical staff that the transfusion is finished, and the medical staff can not notice the liquid medicine after the liquid medicine is transfused because the patient is easy to fall asleep due to discomfort of the body during the transfusion, so that the blood backflow is caused.

2. The wedge drives the touching piece and moves toward the outside, and then drives the third sliding block and presss from both sides tight piece and move toward the outside for press from both sides tight piece and loosen the liquid medicine bottle, so, alright make things convenient for medical personnel to change the liquid medicine bottle.

3. The friction block is contacted with the liquid medicine bottle, so that the damping sense of the downward sliding of the liquid medicine bottle can be increased, the falling speed of the liquid medicine bottle is prevented from being too high, the impact force is large, the liquid medicine bottle is broken, the liquid medicine bottle is fixed by the friction block, the liquid medicine bottle can be prevented from being pushed upwards, the situation that a liquid medicine conveying pipe is difficult to insert into the liquid medicine bottle is avoided, and the operation difficulty of medical workers is reduced.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a first part of the present invention.

Fig. 3 is a schematic perspective view of a second part of the present invention.

Fig. 4 is a perspective view of a third part of the present invention.

Fig. 5 is a schematic perspective view of a first warning mechanism according to the present invention.

Fig. 6 is a schematic perspective view of a second warning mechanism of the present invention.

Fig. 7 is a schematic partial perspective view of the warning mechanism of the present invention.

Fig. 8 is a schematic perspective view of the clamping mechanism of the present invention.

Fig. 9 is a schematic perspective view of a portion of the clamping mechanism of the present invention.

Fig. 10 is a perspective view of the distracting mechanism of the present invention.

Fig. 11 is a schematic perspective view of a flow restriction mechanism according to the present invention.

Fig. 12 is a schematic perspective view of the pulling mechanism of the present invention.

Fig. 13 is a perspective view of a first portion of the pulling mechanism of the present invention.

Fig. 14 is a perspective view of a second portion of the pulling mechanism of the present invention.

Fig. 15 is a perspective view of the friction mechanism of the present invention.

Wherein: 1-a first connecting block, 2-a frame body, 3-a connecting rod, 4-a first sliding rod, 5-a first sliding block, 6-a first spring, 7-a fixing rod, 8-a connecting block, 9-a warning mechanism, 91-a sliding sleeve, 92-a second sliding block, 93-a swinging block, 94-a torsion spring, 95-a first bracket, 96-a steel bell, 97-a first sliding sleeve, 98-a striking rod, 99-a second spring, 910-a swinging rod, 10-a clamping mechanism, 101-a sliding rail, 102-a third sliding block, 103-a clamping block, 104-a third spring, 11-a spreading mechanism, 111-a second bracket, 112-a wedge block, 113-a touch block, 12-a current limiting mechanism and 121-a fixing block, 122-a rotating shaft, 123-a rotating block, 124-a fourth spring, 13-a pulling mechanism, 131-a third bracket, 132-a reel, 133-a pull rope, 134-a second sliding sleeve, 135-a fourth sliding block, 136-a fifth spring, 137-a second connecting block, 138-a fifth sliding block, 139-a sixth spring, 14-a friction mechanism, 141-a second sliding rod, 142-a handle, 143-a seventh spring and 144-a friction block.

Detailed Description

The invention is further illustrated by the following specific examples in which, unless otherwise explicitly stated and limited, terms such as: the arrangement, installation, connection are to be understood broadly, for example, they may be fixed, detachable, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

A real-time infusion monitoring device for digestive system department is disclosed, as shown in figures 1-15, and comprises a first connecting block 1, a frame body 2, a connecting rod 3, a first slide bar 4, a first slide block 5, first springs 6, a fixing rod 7, a material receiving block 8, a warning mechanism 9 and a clamping mechanism 10, wherein the frame body 2 is arranged inside the front side of the first connecting block 1, the connecting rod 3 is arranged on the upper side inside the frame body 2, the fixing rod 7 is arranged in the middle of the inner wall of the frame body 2, the first slide bar 4 is symmetrically connected to the front and back sides of the connecting rod 3, the lower side of the first slide bar 4 is connected with the fixing rod 7, the first slide block 5 is slidably connected between the lower sides of the first slide bar 4, two first springs 6 are connected between the front and back sides of the bottom of the first slide block 5 and the fixing rod 7, the material receiving block 8 is symmetrically arranged on the front and back sides of the first slide block 5, the rear side of the fixing rod 7 is provided with the warning mechanism 9, the first slide block 5 is provided with a clamping mechanism 10.

The warning mechanism 9 comprises a sliding sleeve 91, a second sliding block 92, a swinging block 93, a torsion spring 94, a first bracket 95, a steel bell 96, a first sliding sleeve 97, a striking rod 98, a second spring 99 and a swinging rod 910, the inner wall of the rear side of the fixing rod 7 is provided with a sliding sleeve 91, the inside of the sliding sleeve 91 is slidably connected with a second sliding block 92, the upper part of the second sliding block 92 is rotationally connected with a swinging block 93 in a bilateral symmetry mode, the outer side of the swinging block 93 is connected with a torsion spring 94 between the upper part of the second sliding block 92, the rear side of the bottom of the fixing rod 7 is provided with two first supports 95, the first supports 95 are arranged in a bilateral symmetry mode, a steel bell 96 is rotationally connected between the front sides of the first supports 95, a first sliding sleeve 97 is connected between the bottom of the first supports 95, a striking rod 98 is slidably connected inside the first sliding sleeve 97, a second spring 99 is connected between the front side of the striking rod 98 and the first sliding sleeve 97, and a swinging rod 910 is rotationally connected between the rear side of the striking rod 98 and the lower side of the second sliding block 92.

The clamping mechanism 10 comprises a sliding rail 101, a third sliding block 102, a clamping block 103 and a third spring 104, the sliding rail 101 is symmetrically arranged on the front side and the rear side of the inner wall of the first sliding block 5, the third sliding block 102 is connected to the top of the sliding rail 101 in a sliding manner, the third spring 104 is connected between the inside of the third sliding block 102 and the sliding rail 101 on the same side, and the clamping block 103 is connected between the inner sides of the third sliding block 102 on the same lateral side.

When a patient in the gastroenterology department needs to carry out transfusion, the device can be used, the device is arranged on the wall of a transfusion room in a hospital, a liquid medicine bottle is placed in the frame body 2 in an inverted mode, the liquid medicine bottle moves downwards to be contacted with the clamping block 103 to drive the clamping block 103 to move outwards and further drive the third sliding block 102 to move outwards, the third spring 104 is stretched at the moment, under the action of the third spring 104, the clamping block 103 clamps the liquid medicine bottle, the stability of the liquid medicine bottle is improved, the liquid medicine bottle moves downwards to be contacted with the material receiving block 8, the material receiving block 8 is driven to move downwards due to gravity, the first sliding block 5 is driven to move downwards, the first spring 6 in the initial state is compressed at the moment, after the liquid medicine bottle stops moving, a medical worker manually inserts one end of the liquid medicine bottle into the bottom of the liquid medicine bottle through the lower side of the frame body 2, and inserts the other end of the liquid medicine bottle into the arm of the patient to carry out transfusion, along with the decrease of the liquid medicine in the liquid medicine bottle and the decrease of the weight, the first spring 6 is reset slowly to drive the first sliding block 5, the material receiving block 8 and the liquid medicine bottle to move up slowly, when the first sliding block 5 moves up to be contacted with the swinging block 93, the swinging block 93 is driven to move up, and further the second sliding block 92 and the swinging rod 910 are driven to move up, the swinging rod 910 drives the striking rod 98 to move back, the second spring 99 is compressed at the moment, after the second spring 99 is compressed to the limit, the swinging block 93 stops moving, the first sliding block 5 continues to move up to drive the swinging block 93 to rotate, the torsion spring 94 deforms at the moment, when the first sliding block 5 continues to move up to be separated from the swinging block 93, the torsion spring 94 resets at the moment, the swinging block 93 is driven to reset, and simultaneously the second spring 99 resets to drive the striking rod 98, the swinging rod 910, the second sliding block 92 and the swinging block 93 to reset, make and strike pole 98 and strike steel clock 96, warn medical personnel patient and have already infused and finish, because during the infusion, the patient is because the discomfort of health is sleeping easily, lead to unable the perception after the liquid medicine has been infused, and then lead to the blood backward flow, so, can in time remind medical personnel or patient own liquid medicine to have been infused, make medical personnel in time pull out the needle, alright avoid the situation of blood backward flow to take place, the infusion finishes, medical personnel tak away the liquid medicine bottle away, third spring 104 resets this moment, drive third sliding block 102 and press from both sides tight piece 103 and reset.

Still including strutting mechanism 11, strutting mechanism 11 including second support 111, wedge 112 and touching piece 113, the equal bilateral symmetry in both sides is equipped with second support 111 around the connecting rod 3 inner wall, all is connected with wedge 112 between the second support 111 inboard of homonymy, all is connected with touch piece 113 between the third sliding block 102 inboard of horizontal homonymy, touch piece 113 all is located the clamp tight piece 103 outside of homonymy.

The medical staff puts the liquid medicine bottle on the material receiving block 8, the material receiving block 8 moves downwards to drive the first sliding block 5, the third sliding block 102, the clamping block 103 and the touch block 113 to move downwards, when the touch block 113 moves downwards to be separated from the wedge block 112, the third spring 104 is reset at the moment, and drives the third sliding block 102, the clamping block 103 and the touch block 113 to move inwards, so that the clamping block 103 clamps the liquid medicine bottle, and during infusion, the liquid medicine bottle is lighter and lighter, so that the first sliding block 5 drives the third sliding block 102, the clamping block 103 and the touch block 113 to move up slowly for resetting, when the touch block 113 moves upward to contact with the wedge block 112, the touch block 113 is driven to move outward, and the third sliding block 102 and the clamping block 103 are driven to move outwards, at which time the third spring 104 is compressed, so that the clamping block 103 loosens the liquid medicine bottle, and thus, the medical staff can conveniently change the liquid medicine bottle.

Still including current-limiting mechanism 12, current-limiting mechanism 12 is equipped with fixed block 121 including fixed block 121, pivot 122, rotatory piece 123 and fourth spring 124 around the symmetry between the left and right sides of dead lever 7, and bilateral symmetry rotary type is connected with pivot 122 between the fixed block 121 downside, and pivot 122 middle part all is connected with rotatory piece 123, is connected with fourth spring 124 around the pivot 122 between both sides and the fixed block 121 of homonymy.

The pulling mechanism 13 is further included, the pulling mechanism 13 includes a third bracket 131, a reel 132, a pull rope 133, a second sliding sleeve 134, a fourth sliding block 135, a fifth spring 136, a second connecting block 137, a fifth sliding block 138 and a sixth spring 139, the top of the connecting rod 3 is bilaterally symmetrical to the third bracket 131, the inner side of the third bracket 131 is rotatably connected with the reel 132, the inner wall of the fixing rod 7 is bilaterally symmetrical to the second sliding sleeve 134, the second sliding block 135 is slidably connected inside the second sliding sleeve 134, the fifth spring 136 is connected between the outer side of the upper part of the fourth sliding block 135 and the second sliding sleeve 134 on the same side, the outer side of the rotating shaft 122 is connected with the second connecting block 137, the second connecting block 137 is movably connected with the fourth sliding block 135 on the same side, the upper side inside of the fourth sliding block 135 is slidably connected with the fifth sliding block 138, the bottom of the fifth sliding block 138 is connected with the sixth spring 139 between the fourth sliding block 135 on the same side, a pull rope 133 is connected between the top of each fifth sliding block 138 and the first sliding block 5, the pull ropes 133 penetrate through the fourth sliding blocks 135 on the same side, and the pull ropes 133 are wound on the reels 132 on the same side.

When the liquid medicine bottle drives the material receiving block 8 and the first sliding block 5 to move downwards, the first sliding block 5 drives the fifth sliding block 138 to move upwards through the pull rope 133, at the moment, the sixth spring 139 in the initial state is stretched, when the fifth sliding block 138 cannot move upwards continuously, the fourth sliding block 135 is driven to move upwards, at the moment, the fifth spring 136 is stretched, the fourth sliding block 135 moves upwards to drive the second connecting block 137 to rotate upwards, further, the rotating shaft 122 and the rotating block 123 are driven to rotate, at the moment, the fourth spring 124 deforms, the medical staff inserts the infusion tube into the liquid medicine bottle, the infusion tube is positioned between the rotating blocks 123, when the first sliding block 5 moves upwards to reset, the pull rope 133 is loosened, at the moment, the sixth spring 139 resets to drive the fifth sliding block 138 to reset, meanwhile, the fifth spring 136 resets to drive the fourth sliding block 135 to reset, at the moment, the fourth spring 124 resets to drive the rotating shaft 122, the rotating block 136 to reset, The rotating block 123 and the second connecting block 137 reset, when the rotating block 123 clamps the infusion tube, the patient also finishes infusion at the moment, and the rotating block 123 clamps the infusion tube to prevent the needle from not being pulled out in time, so that blood backflow is avoided.

The friction mechanism 14 is further included, the friction mechanism 14 includes a second sliding rod 141, a handle 142, a seventh spring 143 and a friction block 144, the second sliding rod 141 is arranged on the front side inside the upper portion of the frame body 2, the handle 142 is connected to the rear side of the second sliding rod 141 in a sliding manner, the seventh spring 143 is connected between the front side of the middle of the handle 142 and the frame body 2, and the friction block 144 is arranged on the rear lower side of the handle 142.

When the medical staff puts the liquid medicine bottle into the frame body 2, the handle 142 is manually grasped, the handle 142 is pulled backwards, the seventh spring 143 is stretched, the handle 142 drives the friction block 144 to move backwards, so that the friction block 144 is contacted with the liquid medicine bottle, because the friction block 144 is made of rubber, the damping feeling of the downward sliding of the liquid medicine bottle can be increased, the liquid medicine bottle is prevented from being broken due to the too high falling speed and large impact force of the liquid medicine bottle, after the liquid medicine bottle falls off, the medical care personnel fixes the liquid medicine bottle through the friction block 144 and inserts the infusion tube into the bottom of the liquid medicine bottle, because the force required for inserting the infusion tube is larger, therefore, the friction block 144 fixes the liquid medicine bottle, which can prevent the liquid medicine bottle from being pushed upwards, and avoid the liquid medicine tube from being difficult to be inserted into the liquid medicine bottle and after the liquid medicine tube is inserted into the bottom of the liquid medicine bottle, when the handle 142 is released, the seventh spring 143 is reset, and the handle 142 and the friction block 144 are reset.

The embodiments described above are provided to enable persons skilled in the art to make or use the invention and that modifications or variations can be made to the embodiments described above by persons skilled in the art without departing from the inventive concept of the present invention, so that the scope of protection of the present invention is not limited by the embodiments described above but should be accorded the widest scope consistent with the innovative features set forth in the claims.

Claims (8)

1. A transfusion real-time monitoring device for department of gastroenterology, characterized by including:

the device comprises a first connecting block (1) and a frame body (2), wherein the frame body (2) is arranged inside one side of the first connecting block (1);

a connecting rod (3) connected to the inner wall of the frame body (2);

the fixed rod (7) is connected to the middle part of the inner wall of the frame body (2);

four first sliding rods (4) are connected between the connecting rod (3) and the fixed rod (7);

the first sliding block (5) is connected between the first sliding rods (4) in a sliding manner and is positioned at one side close to the fixed rod (7);

four first springs (6) are connected between the first sliding block (5) and the fixed rod (7);

the first sliding block (5) is connected with two material receiving blocks (8) which are symmetrically arranged;

the warning mechanism (9) is arranged on one side, close to the first connecting block (1), of the fixing rod (7) and used for warning medical staff that liquid medicine is completely dripped;

and the clamping mechanism (10) is connected to the first sliding block (5) and is used for stabilizing the liquid medicine bottle.

2. A real-time monitoring device for infusion solutions for the digestive system department according to claim 1, wherein the warning means (9) comprises:

the inner wall of one side of the fixed rod (7) close to the first connecting block (1) is provided with a sliding sleeve (91);

a second slide block (92) slidably connected to the inside of the slide sleeve (91);

the swinging block (93) is symmetrically and rotatably connected to the second sliding block (92) on one side close to the connecting rod (3);

a torsion spring (94), wherein the torsion spring (94) is connected between the swinging block (93) and the upper part of the second sliding block (92);

two first supports (95) are arranged on one side, close to the first connecting block (1), of the bottom of the fixing rod (7), and the first supports (95) are symmetrically arranged;

the steel bell (96) is rotatably connected between one sides of the first brackets (95) far away from the first connecting block (1);

a first runner (97) connected between the bottoms of the first brackets (95);

a striking rod (98) which is connected in a sliding way inside the first sliding sleeve (97);

a second spring (99), wherein the second spring (99) is connected between one side of the striking rod (98) close to the steel bell (96) and the first sliding sleeve (97);

the swinging rod (910) is rotatably connected between the other side of the striking rod (98) and one side of the second sliding block (92).

3. A real-time monitoring device for infusion solutions for the digestive system department according to claim 2, characterized in that the clamping means (10) comprises:

the inner wall of the first sliding block (5) is provided with four sliding rails (101), and the sliding rails (101) are symmetrically arranged;

the tops of the sliding rails (101) are connected with a third sliding block (102) in a sliding manner;

a third spring (104) is connected between the inner part of the third sliding block (102) and the slide rail (101) on the same side;

and the clamping blocks (103) are connected between the inner sides of the third sliding blocks (102) on the same transverse side.

4. A real-time monitoring device for infusion solutions for digestive system department according to claim 3, characterized in that it further comprises a distraction mechanism (11), the distraction mechanism (11) comprising:

the two sides of the inner wall of the connecting rod (3) are symmetrically provided with the second brackets (111);

the wedge blocks (112) are connected between the inner sides of the second brackets (111) on the same side;

the contact blocks (113) are connected between the inner sides of the third sliding blocks (102) on the same side in the transverse direction, and the contact blocks (113) are located on one sides of the clamping blocks (103) on the same side.

5. The real-time monitoring device for the infusion for the digestive system as set forth in claim 4, further comprising a flow restriction mechanism (12), the flow restriction mechanism (12) comprising:

the fixing blocks (121) are symmetrically arranged between the middle parts of the fixing rods (7);

the rotating shaft (122) is symmetrically and rotatably connected between the middle parts of the fixing blocks (121) far away from one side of the fixing rod (7);

the middle parts of the rotating shafts (122) are connected with the rotating blocks (123);

and a fourth spring (124) is connected between the two opposite sides of the rotating shaft (122) and the fixing block (121) on the same side.

6. The real-time monitoring device for infusion for the department of gastroenterology according to claim 5, further comprising a pulling mechanism (13), the pulling mechanism (13) comprising:

the third bracket (131) is symmetrically connected to the top of the connecting rod (3);

the reels (132) are rotatably connected to the opposite sides of the third brackets (131);

the inner wall of the fixed rod (7) is symmetrically provided with a second sliding sleeve (134);

a fourth sliding block (135) sliding inside the second sliding sleeve (134);

a fifth spring (136) is connected between the upper part of the fourth sliding block (135) and the second sliding sleeve (134) on the same side;

one side of the rotating shaft (122), which is opposite to the other side, is connected with a second connecting block (137), and the second connecting block (137) is movably connected with a fourth sliding block (135) on the same side;

one side of the inside of the fourth sliding block (135), which is close to the connecting rod (3), is connected with the fifth sliding block (138) in a sliding way;

a sixth spring (139), wherein the sixth spring (139) is connected between the bottom of the fifth sliding block (138) and the fourth sliding block (135) on the same side;

stay cord (133), be connected with stay cord (133) between fifth slider (138) top all and first slider (5), fourth slider (135) of homonymy are all passed in stay cord (133), and stay cord (133) all twines with reel (132) of homonymy.

7. The real-time monitoring device for infusion for the department of gastroenterology according to claim 6, further comprising a friction mechanism (14), the friction mechanism (14) comprising:

a second sliding rod (141), wherein the second sliding rod (141) is arranged on one side of the upper part in the frame body (2) far away from the first connecting block (1);

a handle (142) slidably connected to the second slide bar (141);

a seventh spring (143), wherein the seventh spring (143) is connected between one side of the middle part of the handle (142) and the frame body (2);

a friction block (144) connected to the handle (142).

8. The real-time monitoring device for infusion in digestive system department according to claim 7,

the friction block (144) is made of rubber, so that the damping sense of the liquid medicine bottle can be increased.

Images