CN116617491A - Intelligent infusion support for Internet of things and preparation method thereof - Google Patents

Abstract

The invention discloses an intelligent infusion support for the Internet of things and a preparation method thereof, wherein the intelligent infusion support comprises an infusion support pillar and a movable base, a movable ball body is integrally arranged in the middle section of the infusion support pillar, the movable ball body forms an anastomotic deflection structure at the inner side of a movable ball groove, a counterweight seat is fixed at the bottom of the infusion support pillar, the counterweight seat and the side wall of a fixed mounting frame are mutually attached through a buffer spring, a pressure sensor is arranged at the side end of the buffer spring, a counterweight movable disc is arranged at the bottom of the counterweight seat, and the counterweight movable disc is controlled and driven through an integrated module of the Internet of things. According to the intelligent infusion support of the internet of things and the preparation method thereof, the balance weight seat and the balance weight movable disc form a stable balance weight structure similar to a tumbler, meanwhile, the pressure sensor at the balance weight seat is matched with the integrated module of the internet of things to conveniently grasp the infusion condition and warn in real time, and the balance weight movable structure of the balance weight movable disc is used for limiting infusion in a linkage manner, so that the intelligent infusion support has good use safety.

Description

Intelligent infusion support for Internet of things and preparation method thereof

Technical Field

The invention relates to the technical field of infusion support, in particular to an intelligent infusion support for the Internet of things and a preparation method thereof.

Background

Infusion is one of the common medication means in the existing clinical treatment technology, in the clinical work of infusion, medical staff usually needs to hang an infusion bottle on an infusion support, and normal infusion can be carried out by exhausting, venipuncture and fixation, and the infusion bottle and an infusion tube need to be kept hanging at a high place through the infusion support.

However, when the existing infusion support is used, certain problems still exist:

1. the existing infusion support is generally of a simple steel pipe integral forming structure, and a movable wheel is arranged at the bottom of the infusion support for the convenience of long-time sitting discomfort of a patient or moving when the patient needs to go to a toilet for infusion, but because the integral support structure is higher, and a certain gravity center deflection is generated when an infusion bottle is hung, the integral stability is general, and an additional collision buffering protection structure is absent, so that the infusion support is easy to fall down when an external force is applied to the infusion support to generate accidents;

2. in the infusion process of clinical treatment, the condition that infusion time is long often, and the time needs to change the liquid medicine many times sometimes, and whether there is the liquid medicine in the infusion bottle often can not be timely attended to when patient lacks the accompanying, and medical personnel also hardly keep the condition of focusing on patient's infusion constantly because of work is busy, and current infusion support also lacks corresponding warning function, appears some unexpected condition easily, causes medical malpractice even.

Aiming at the problems, the novel design is carried out on the basis of the original intelligent infusion support of the Internet of things and the preparation method thereof.

Disclosure of Invention

The invention aims to provide an intelligent infusion support for the Internet of things and a preparation method thereof, which are used for solving the problems that the stability is insufficient, the use safety is affected, and the alarm cannot be given out when the infusion is finished in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: an intelligent infusion support of the Internet of things and a preparation method thereof are provided, wherein the intelligent infusion support comprises an infusion support pillar and a movable base;

the bottom of the movable base is uniformly provided with universal movable wheels, and the upper surface of the movable base is connected with a fixed mounting frame through bolts;

the top end of the fixed mounting frame is provided with a movable ball groove, and the infusion support strut penetrates through the movable ball groove;

the middle section of the infusion support post is integrally provided with a movable sphere, and the movable sphere forms an anastomotic deflection structure at the inner side of the movable sphere groove;

the bottom of the infusion support post is fixedly provided with a counterweight seat, and the counterweight seat is suspended at the inner side of the fixed mounting frame;

the counterweight seat and the side wall of the fixed mounting frame are mutually attached through a buffer spring, and a pressure sensor is arranged at the side end of the buffer spring;

the bottom of the counterweight seat is provided with a counterweight movable disc, the counterweight movable disc is controlled and driven by the Internet of things integrated module, and the pressure sensor and the Internet of things integrated module form signal input connection;

the middle part of the infusion support post is provided with an infusion tube groove, and the infusion tube groove is synchronously controlled to open and close along with the driving adjustment of the counterweight movable disc.

Preferably, telescopic loop bars are symmetrically arranged on the left side and the right side of the top of the infusion support post, a telescopic loop bar is horizontally arranged between the movable hanging frame and the infusion support post, and the movable hanging frame forms a telescopic adjustment structure at the outer end of the telescopic loop bar;

damping fit is achieved between the movable hanging frame and the telescopic loop bar.

By adopting the technical scheme, the telescopic structure of the movable hanging rack matched with the telescopic sleeve rod can facilitate further flexible extension of the telescopic sleeve rod for larger-range extension support, and the movable hanging rack matched with the counterweight is stable, and is convenient, safe and flexible to use.

Preferably, the counterweight seat is of a nearly cylindrical structure, and a counterweight movable disc is coaxially arranged on the bottom surface of the counterweight seat;

the counterweight movable disc comprises a counterweight movable block, a counterweight guide rail, a first driving motor, a movable rotary disc, a second driving motor and a driving screw.

By adopting the technical scheme, when the gravity center is reduced by the counterweight seat to form a tumbler-like supporting structure, the counterweight is continuously adjusted by the counterweight movable plate, so that the stability of the whole gravity center is improved when the infusion bottle is conveniently mounted.

Preferably, the counterweight movable block is positioned on the bottom surface of the movable turntable, a counterweight guide rail is arranged at the joint of the counterweight movable block and the movable turntable, and the counterweight movable block forms a sliding adjustment structure along the counterweight guide rail;

the counterweight guide rail is arranged along the diameter line of the movable turntable.

By adopting the technical scheme, the counterweight movable block slides along the counterweight guide rail to facilitate further adjustment of the gravity center deviation.

Preferably, the first driving motor is fixedly arranged on the surface of the counterweight seat, the output end of the counterweight seat is tangent to the side edge of the movable turntable, and the movable turntable forms a driving rotation structure below the counterweight seat through the first driving motor.

By adopting the technical scheme, the movable turntable is driven to rotate by the first driving motor, so that the gravity center of 360 degrees is adjusted conveniently.

Preferably, a driving screw rod is arranged in the counterweight guide rail in a penetrating way, and a second driving motor is arranged at the shaft end of the driving screw rod;

the central axis of the driving screw rod is overlapped with the central axis of the counterweight guide rail, and the counterweight movable block forms a thread transmission structure through the driving screw rod.

By adopting the technical scheme, the counterweight movable block is convenient to stably slide along the counterweight guide rail to adjust eccentric displacement by matching with the threaded drive of the second driving motor and the driving screw.

Preferably, an elastic clamping block is arranged on the outer side of the infusion tube groove, an attaching pressing block is arranged on the inner side of the infusion tube groove in an attaching mode, and the attaching pressing block forms a movable pushing structure on the infusion tube on the inner side of the infusion tube groove.

By adopting the technical scheme, the infusion tube groove is limited by the bonding pressing block, and the bonding pressing block extrudes the infusion tube groove to limit and shut off when the infusion bottle is empty.

Preferably, the lower end of the laminating briquetting and the counterweight movable block are movably connected through a movable stay rope, the laminating briquetting forms a lifting movable structure in the infusion support column through the laminating sliding chute, and a supporting spring is laminated and supported between the laminating briquetting and the bottom of the laminating sliding chute.

By adopting the technical scheme, the linkage effect is achieved between the counterweight movable block and the laminating pressing block through the movable inhaul cable, namely, when the infusion bottle is heavy in full weight, the counterweight movable block outwards reversely deflects to adjust the gravity center, meanwhile, the laminating pressing block is driven to leave the infusion tube groove through the pull-down movable inhaul cable, normal infusion can be carried out, and when the infusion bottle is empty, the laminating pressing block resets to extrude the infusion tube groove to limit and shut off, so that the linkage insurance effect is achieved.

Preferably, the integrated module of the internet of things is used for receiving and processing data obtained by the pressure sensor, and comprises a controller, a power supply module, a communication module and an alarm module, wherein the power supply module supplies power for each module, and the communication module is connected with a real-time monitoring system of a nurse station for data transmission;

the controller forms a control circuit to the counterweight movable plate, and is connected with the alarm module which comprises a buzzer and a warning lamp.

By adopting the technical scheme, the nurse can be informed of warning at the same time when the transfusion is finished through the integrated module of the Internet of things and the pressure sensor.

A preparation and assembly method of an intelligent infusion support of the Internet of things comprises the following steps:

s1, preparing an infusion support

The infusion support, the movable ball body and the counterweight seat are integrally welded and formed, the fixed mounting frame is fixed on the outer side of the counterweight seat in a surrounding mode in a hoop mode, and the buffer spring is embedded and mounted between the fixed mounting frame and the counterweight seat;

s2, balancing weight leveling

Directly placing the preassembled part comprising the fixed mounting frame on a horizontal plane, adjusting and testing equipment such as a pressure sensor and the like to keep balance for zeroing, and determining the initial state of the non-hung infusion bottle;

s3, assembling base

And finally, the whole pre-assembled part comprising the fixed mounting frame is fixedly connected with the movable base through bolts, so that the whole assembly preparation is completed.

Compared with the prior art, the invention has the beneficial effects that: according to the intelligent infusion support of the internet of things and the preparation method thereof, the balance weight seat and the balance weight movable disc form a stable balance weight structure similar to a tumbler, and when the intelligent infusion support is convenient, flexible and stable to use, the pressure sensor at the balance weight seat is matched with the integrated module of the internet of things to conveniently grasp the infusion condition and warn in real time, and meanwhile, the balance weight movable structure of the balance weight movable disc is utilized to link and limit the infusion, so that the intelligent infusion support has good use safety.

1. The balance weight seat is provided with the stable adjustment supporting structure matched with the balance weight movable disc, the gravity center is lowered through the balance weight seat in the use process of assembly, the movable ball groove is matched with the movable support of the movable ball body to form the tumbler-like anti-toppling supporting structure, and meanwhile, when the movable hanging frame is used for hanging the infusion bottle, the balance weight movable disc can be matched with the pressure sensor to detect the deflection condition of the gravity center to carry out corresponding balance weight adjustment, so that the movable hanging frame can be further stretched to flexibly support and simultaneously keep the support stable;

2. the integrated module of the Internet of things is arranged for matching use, and in the using process of the device, the whole gravity center can be correspondingly deviated due to the weight change of the infusion bottle when the infusion bottle is fully loaded and empty, so that the liquid weight change in the infusion bottle can be detected through the pressure sensor, the nursing station is contacted with the monitoring service gravity center through the communication module when the infusion bottle is empty, and meanwhile, the sound and light warning is carried out through the self warning module, so that the infusion bottle can be conveniently replaced in time;

3. the safety of the infusion tube is controlled to be turned off through the balance weight adjusting structure of the balance weight movable disc, when a new infusion bottle is mounted, the balance weight movable disc carries out balance weight leveling in the opposite direction of the gravity center offset direction, the balance weight movable block moves outwards to pull the movable inhaul cable, so that the attaching pressing block is separated from the infusion tube groove, normal infusion is not affected, when the infusion bottle is empty, the balance weight movable block resets, the attaching pressing block resets under the action of the supporting spring to squeeze the infusion tube, and therefore the safety of safety is achieved.

Drawings

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

FIG. 2 is a schematic view of the bottom view of the counterweight mobile plate of the invention;

FIG. 3 is a schematic diagram of a front cross-sectional structure of a counterweight mobile plate of the invention;

FIG. 4 is a schematic diagram of a side sectional structure of an infusion tube groove of the present invention;

FIG. 5 is a schematic view of a channel of an infusion tube in a top-down view;

FIG. 6 is a schematic view of the overall structure of the offset support of the present invention during adjustment;

fig. 7 is a schematic diagram of an integrated module system of the internet of things according to the present invention.

In the figure: 1. a transfusion stand column; 2. a movable base; 3. a universal moving wheel; 4. a fixed mounting rack; 5. a movable ball groove; 6. a movable sphere; 7. a counterweight seat; 8. a buffer spring; 9. a pressure sensor; 10. a counterweight movable plate; 101. a counterweight movable block; 102. a counterweight guide rail; 103. a first driving motor; 104. a movable turntable; 105. a second driving motor; 106. driving a screw; 11. the integrated module of the Internet of things; 12. an infusion tube groove; 13. a movable hanger; 14. a telescopic loop bar; 15. an elastic clamping block; 16. laminating and briquetting; 17. a movable inhaul cable; 18. attaching the chute; 19. and a support spring.

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.

Referring to fig. 1-7, the present invention provides a technical solution: the intelligent infusion support comprises an infusion support post 1 and a movable base 2, wherein telescopic loop bars 14 are symmetrically arranged on the left side and the right side of the top of the infusion support post 1, telescopic loop bars 14 are horizontally arranged between a movable hanging frame 13 and the infusion support post 1, a telescopic adjustment structure is formed at the outer end of the telescopic loop bars 14 by the movable hanging frame 13, damping fit is achieved between the movable hanging frame 13 and the telescopic loop bars 14, the telescopic structure of the telescopic loop bars 14 is matched with the movable hanging frame 13, the telescopic loop bars 14 can be conveniently and flexibly prolonged to be expanded and supported in a larger range, balance weights are matched with the telescopic loop bars, universal movable wheels 3 are uniformly distributed at the bottom of the movable base 2, and a fixed mounting frame 4 is connected to the upper surface of the movable base 2 through bolts;

as shown in fig. 1 and fig. 4-7, the top end of the fixed mounting frame 4 is provided with a movable ball groove 5, the middle section of the transfusion frame support 1 penetrates through the movable ball groove 5, the movable ball 6 is integrally provided with a movable ball 6, the inner side of the movable ball groove 5 forms an anastomotic deflection structure, the bottom of the transfusion frame support 1 is fixedly provided with a counterweight seat 7, the counterweight seat 7 is suspended at the inner side of the fixed mounting frame 4, the counterweight seat 7 and the side wall of the fixed mounting frame 4 are mutually attached through a buffer spring 8, the side end of the buffer spring 8 is provided with a pressure sensor 9, the bottom of the counterweight seat 7 is provided with a counterweight movable disc 10, the counterweight movable disc 10 is controlled and driven through an integrated module 11 of the internet of things, the integrated module 9 and the integrated module 11 of the internet of things form signal input connection, the integrated module 11 of the internet of things is used for receiving and processing data obtained by the pressure sensor 9, the integrated module of the internet of things 11 comprises a controller, a power module, the power module is a plurality of modules, the communication module is connected with a real-time monitoring system for data transmission, the controller forms a control circuit with the movable disc 10, the controller is connected with the movable disc through the buffer spring 8, and the alarm module is connected with the alarm module when the alarm module of the alarm module and the alarm module is finished through the integrated module of the internet of things sensor 11;

1-3 and 6, the counterweight seat 7 is of a nearly cylindrical structure, the counterweight movable disc 10 is coaxially arranged on the bottom surface of the counterweight seat 7, the counterweight movable disc 10 comprises a counterweight movable block 101, a counterweight guide rail 102, a first driving motor 103, a movable turntable 104, a second driving motor 105 and a driving screw 106, the counterweight seat 7 is used for lowering the gravity center to form a tumbler-like supporting structure, the counterweight movable disc 10 is used for continuously further counterweight adjustment, the stability of the integral gravity center is improved when an infusion bottle is conveniently mounted, the counterweight movable block 101 is positioned on the bottom surface of the movable turntable 104, a counterweight guide rail 102 is arranged at the joint of the counterweight movable block 101 and the movable turntable 104, the counterweight movable block 101 forms a sliding adjustment structure along the counterweight guide rail 102, the counterweight guide rail 102 is arranged along the diameter line of the movable turntable 104, the counterweight movable block 101 is convenient to further adjust the gravity center, the first driving motor 103 is fixedly arranged on the surface of the counterweight seat 7, the output end of the counterweight seat 7 is tangential to the side edge of the movable turntable 104, the movable turntable 104 is used for forming a driving motor 103 under the counterweight seat 7, the first driving motor 103 is convenient to mount the counterweight movable turntable 104, the counterweight guide rail 102 is used for mutually adjusting the gravity center through the first driving screw 106, the counterweight guide rail 102 is convenient to rotate, and the counterweight movable turntable 106 is convenient to move, and the movable turntable 106 is convenient to move along the central axis 106 is arranged, and the central axis of the movable guide rail 106 is convenient to move, and the movable screw 106 is arranged through the movable guide rail 106, and the movable guide rail 106 is convenient to rotate, and the movable screw 106 is convenient to move and has a driving screw 106;

according to the illustration in fig. 1 and 3-6, the middle part of the infusion support pillar 1 is provided with an infusion tube groove 12, the infusion tube groove 12 is synchronously controlled to open and close along with the driving adjustment of the counterweight movable disc 10, the outer side of the infusion tube groove 12 is provided with an elastic clamping block 15, the inner side of the infusion tube groove 12 is provided with a joint pressing block 16 in a joint manner, the joint pressing block 16 forms a movable pushing structure on the infusion tube at the inner side of the infusion tube groove 12, the joint pressing block 16 plays a limiting role on the infusion tube groove 12, when an infusion bottle is empty, and the like, the joint pressing block 16 extrudes the infusion tube groove 12 to be limited and closed, the lower end of the joint pressing block 16 is movably connected with the counterweight movable block 101 through a movable stay rope 17, the joint pressing block 16 forms a lifting movable structure in the interior of the infusion support pillar 1 through the joint pressing chute 18, and the joint supporting is provided with a supporting spring 19 between the joint pressing block 16 and the bottom of the joint pressing chute 18, the joint pressing block plays a role between the counterweight movable block 101 and the joint pressing block 16 through the movable stay rope 17, namely when the bottle full weight is heavier, as shown in fig. 6, the counterweight movable pressing block 101 is reversely shifts the gravity center outwards, the joint pressing block 101, the joint pressing block is used for limiting and the joint pressing block 1 is reset and the infusion tube pressing block 16 is reset, and the infusion bottle is normally closed when the joint pressing block is reset, and the infusion bottle is closed;

a preparation and assembly method of an intelligent infusion support of the Internet of things comprises the following steps:

s1, preparing an infusion support

The infusion support post 1, the movable ball 6 and the counterweight seat 7 are integrally welded and formed, the fixed mounting frame 4 is fixed on the outer side of the counterweight seat 7 in a surrounding mode in a hoop mode, and the buffer spring 8 is embedded and mounted between the fixed mounting frame 4 and the counterweight seat 7;

s2, balancing weight leveling

Directly placing the pre-assembled part comprising the fixed mounting frame 4 on a horizontal plane, maintaining the placing balance of equipment such as the pressure sensor 9 for zeroing, and determining the initial state of the non-hung infusion bottle;

s3, assembling base

And finally, the whole pre-assembled part comprising the fixed mounting frame 4 is connected and fixed with the movable base 2 through bolts, so that the whole assembly preparation is completed.

While embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations may be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an intelligent infusion support of thing networking, includes infusion support pillar (1) and removes base (2), its characterized in that:

the universal moving wheels (3) are uniformly distributed at the bottom of the moving base (2), and the upper surface of the moving base (2) is connected with a fixed mounting frame (4) through bolts;

the top end of the fixed mounting frame (4) is provided with a movable ball groove (5), and the infusion support column (1) penetrates through the movable ball groove (5);

the middle section of the infusion support pillar (1) is integrally provided with a movable ball body (6), and the movable ball body (6) forms an anastomotic deflection structure at the inner side of the movable ball groove (5);

the bottom of the infusion support pillar (1) is fixedly provided with a counterweight seat (7), and the counterweight seat (7) is suspended at the inner side of the fixed mounting frame (4);

the counterweight seat (7) and the side wall of the fixed mounting frame (4) are mutually attached through a buffer spring (8), and a pressure sensor (9) is arranged at the side end of the buffer spring (8);

a counterweight movable disc (10) is arranged at the bottom of the counterweight seat (7), the counterweight movable disc (10) is controlled and driven by an Internet of things integrated module (11), and a pressure sensor (9) and the Internet of things integrated module (11) form signal input connection;

the middle part of the infusion support pillar (1) is provided with an infusion tube groove (12), and the infusion tube groove (12) is synchronously controlled to open and close along with the driving adjustment of the counterweight movable disc (10).

2. The intelligent infusion support for the internet of things according to claim 1, wherein: the left side and the right side of the top of the infusion support pillar (1) are symmetrically provided with movable hangers (13), a telescopic loop bar (14) is horizontally arranged between the movable hangers (13) and the infusion support pillar (1), and the movable hangers (13) form a telescopic adjustment structure at the outer end of the telescopic loop bar (14);

damping fit is achieved between the movable hanging frame (13) and the telescopic loop bar (14).

3. The intelligent infusion support for the internet of things according to claim 1, wherein: the counterweight seat (7) is of a nearly cylindrical structure, and a counterweight movable disc (10) is coaxially arranged on the bottom surface of the counterweight seat (7);

the counterweight movable disc (10) comprises a counterweight movable block (101), a counterweight guide rail (102), a first driving motor (103), a movable rotary disc (104), a second driving motor (105) and a driving screw (106).

4. The intelligent infusion support for the internet of things according to claim 3, wherein: the counterweight movable block (101) is positioned on the bottom surface of the movable turntable (104), a counterweight guide rail (102) is arranged at the joint of the counterweight movable block (101) and the movable turntable (104), and the counterweight movable block (101) forms a sliding adjustment structure along the counterweight guide rail (102);

the counterweight guide rail (102) is arranged along the diameter line of the movable turntable (104).

5. The intelligent infusion support for the internet of things according to claim 4, wherein: the first driving motor (103) is fixedly arranged on the surface of the counterweight seat (7), the output end of the counterweight seat (7) is tangent to the side edge of the movable turntable (104), and the movable turntable (104) forms a driving rotation structure below the counterweight seat (7) through the first driving motor (103).

6. The intelligent infusion support of the internet of things according to claim 5, wherein: a driving screw (106) is arranged in the counterweight guide rail (102) in a penetrating way, and a second driving motor (105) is arranged at the shaft end of the driving screw (106);

the central axis of the driving screw (106) and the central axis of the counterweight guide rail (102) are mutually overlapped, and the counterweight movable block (101) forms a thread transmission structure through the driving screw (106).

7. The intelligent infusion support for the internet of things according to claim 6, wherein: the outside of transfer line groove (12) is provided with elasticity clamp splice (15), and the inboard laminating of transfer line groove (12) is provided with laminating briquetting (16), and laminating briquetting (16) constitute movable pushing structure to the transfer line in the inboard of transfer line groove (12).

8. The intelligent infusion support for the internet of things according to claim 7, wherein: the lower end of the laminating briquetting (16) is movably connected with the counterweight movable block (101) through a movable stay rope (17), the laminating briquetting (16) forms a lifting movable structure in the infusion support column (1) through a laminating chute (18), and a supporting spring (19) is laminated and supported between the laminating briquetting (16) and the bottom of the laminating chute (18).

9. The intelligent infusion support for the internet of things according to claim 1, wherein: the system comprises an Internet of things integrated module (11) and a nurse station real-time monitoring system, wherein the Internet of things integrated module (11) is used for receiving and processing data obtained by the pressure sensor (9), and the Internet of things integrated module (11) comprises a controller, a power supply module, a communication module and an alarm module, wherein the power supply module supplies power for each module, and the communication module is connected with the nurse station real-time monitoring system and used for data transmission;

the controller forms a control circuit for the counterweight movable disc (10), and is connected with the alarm module which comprises a buzzer and a warning lamp.

10. The method for preparing and assembling the intelligent infusion support for the internet of things according to claim 9, which is characterized in that: the method comprises the following steps:

s1, preparing an infusion support

The infusion support post (1), the movable ball body (6) and the counterweight seat (7) are integrally welded and formed, the fixed mounting frame (4) is fixed on the outer side of the counterweight seat (7) in a surrounding mode in a hoop mode, and the buffer spring (8) is embedded and mounted between the fixed mounting frame (4) and the counterweight seat (7);

s2, balancing weight leveling

Directly placing the preassembled part comprising the fixed mounting frame (4) on a horizontal plane, maintaining the placing balance of equipment such as a pressure sensor (9) for zeroing, and determining the initial state of an unhooked infusion bottle;

s3, assembling base

And finally, the whole pre-assembled part comprising the fixed mounting frame (4) is fixedly connected with the movable base (2) through bolts, so that the whole assembly preparation is completed.