Infusion line organizer

Abstract

The utility model discloses a kind of infusion pipeline organizers, it is related to medical instrument technical field, to solve current in medical infusion process, infusion pipeline often will appear winding, messy situation, this not only affects medical staff operation, prone to infusion speed control error technical problem, including the fixing member installed in the outer side of shunt pipe, the fixing member includes first protective sleeve, the inside of the side wall of first protective sleeve is constructed with the first slot of arc shape, the inside of first slot is movably installed with second protective sleeve, the inside of the side wall of second protective sleeve is constructed with the second slot of arc shape, the utility model can reach telescopic adjusting effect by the setting of first protective sleeve, second protective sleeve, third protective sleeve, so it can be conveniently adjusted to the interval of shunt pipe protection, reduce extrusion, abrasion and other damage of shunt pipe by outside, with the advantages that the protection strength of shunt pipe is improved, not easy to wind, maintain good infusion effect.

Description

Technical Field

[0001] This utility model relates to the field of medical device technology, and more specifically, to an infusion tubing organizer. Background Technology

[0002] An infusion tubing typically consists of a puncture needle, needle cap, infusion tubing, medication filter, flow regulator, Murphy drip chamber, and connection device for the infusion bottle or bag. The puncture needle is used to pierce the skin and blood vessels; the infusion tubing delivers the medication; the medication filter removes impurities; the flow regulator controls the flow rate; and the Murphy drip chamber is used to monitor the drip rate and remaining medication volume.

[0003] Currently used infusion tubing typically has multiple branch lines, which often leads to tangling and disorganization during medical infusions. This not only affects the operation of medical staff and easily causes errors in controlling the infusion rate, but may also delay treatment in emergencies. Furthermore, the messy tubing can cause psychological stress for patients, negatively impacting their treatment experience. Currently, there is a lack of devices on the market that are simple in structure, easy to operate, and can effectively organize infusion tubing. Therefore, we propose an infusion tubing organizer. Utility Model Content

[0004] The purpose of this utility model is to overcome the shortcomings of the existing technology, adapt to the needs of reality, and provide an infusion tubing organizer to solve the technical problem that in the current medical infusion process, infusion tubing often becomes tangled and messy, which not only affects the operation of medical staff, but also easily leads to errors in the control of infusion rate.

[0005] To solve the above-mentioned technical problems, this utility model provides the following technical solution: an infusion tubing organizer, including a fixing member installed on the outside of the diversion tube;

[0006] The fastener includes a first protective sleeve, the inner side wall of which has an arc-shaped first through groove, a second protective sleeve is movably installed inside the first through groove, the inner side wall of which has an arc-shaped second through groove, a third protective sleeve is movably installed inside the second through groove, and an arc-shaped locking strip is integrally formed on the opposite side of each of the first protective sleeves. The outer wall of the diverter tube has a strip-shaped locking groove that engages with the locking strip, and the inner side walls of the second and third protective sleeves are both fixedly provided with limiting buckles for clamping the diverter tube.

[0007] This utility model achieves telescopic adjustment through the design of a first protective sleeve, a second protective sleeve, and a third protective sleeve. This allows for convenient adjustment of the spacing protecting the diverter tube, reducing external pressure, wear, and other damage to the diverter tube. Simultaneously, the locking strip on the first protective sleeve engages with the strip-shaped groove on the outer wall of the diverter tube, facilitating quick and easy assembly and disassembly. This allows for easy installation of the fixing components on the outside of the diverter tube, and the clamping of the diverter tube by the limiting buckles on the inner walls of the second and third protective sleeves ensures improved positional stability of the diverter tube under the protection of the fixing components, preventing it from shaking or shifting, reducing the probability of entanglement, and effectively improving the overall structural performance.

[0008] Preferably, the opposite sides of the first protective sleeve are provided with a first movable groove communicating with the first through groove, and the second protective sleeve is provided with a first threaded hole at the position of the first movable groove. The internal thread of the first threaded hole is fitted with a first limiting pin that fits against the side of the first movable groove.

[0009] Preferably, the second protective sleeve has a second movable groove communicating with the second through groove on the opposite side, and the third protective sleeve has a second threaded hole at the position corresponding to the second movable groove. The second threaded hole is internally threaded with a second limiting pin, and the side wall of the first protective sleeve has a slot to facilitate the movement of the second limiting pin.

[0010] Preferably, a connecting plate is fixedly provided at the bottom of the first protective sleeve, a connecting groove is provided at the top of one end of the connecting plate, and a connecting block is fixedly provided at the other end of the connecting plate to cooperate with the connecting groove, and the connecting block is U-shaped.

[0011] Preferably, the opposing surfaces of the connecting grooves are provided with limiting grooves, and the opposing sides of the connecting blocks are integrally formed with limiting balls that engage with the limiting grooves.

[0012] Preferably, the limiting buckle is made of rubber, and the top of the limiting buckle has a groove to facilitate the passage of the diversion tube hose.

[0013] Compared with the prior art, the beneficial effects of this utility model are:

[0014] 1. This utility model achieves telescopic adjustment through the setting of the first protective sleeve, the second protective sleeve, and the third protective sleeve. This allows for convenient adjustment of the spacing protecting the diverter tube, reducing external pressure, wear, and other damage to the diverter tube. At the same time, the locking strip on the first protective sleeve engages with the strip-shaped locking groove on the outer wall of the diverter tube, facilitating quick and easy disassembly and assembly. This makes it easy to install the fixing component on the outside of the diverter tube, and the limiting buckles on the inner walls of the second and third protective sleeves clamp the diverter tube. This ensures that the diverter tube is more stable under the protection of the fixing component, preventing it from shaking or shifting, reducing the probability of entanglement, and effectively improving the overall structural performance.

[0015] 2. This utility model also facilitates the connection between multiple fasteners through the design of the connecting plate, connecting groove and connecting block at the bottom of the first protective sleeve. The U-shaped design of the connecting block can easily deform under compression, which facilitates the combination of the limiting groove on the facing side of the connecting groove and the limiting ball on the opposite side of the connecting block, making the connection between the fasteners more stable and the installation and disassembly operations convenient. It is also conducive to flexible combination and arrangement according to the actual layout of the infusion pipeline, further improving the effect of shunt tube arrangement. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0017] Figure 2 This is a partial cross-sectional view of the structure of this utility model;

[0018] Figure 3 This is a schematic diagram of the fixing component structure in this utility model;

[0019] Figure 4 This is an exploded view of the fastener structure in this utility model;

[0020] Figure 5 for Figure 2 Enlarged structural diagram of section A;

[0021] Figure 6 This is a schematic diagram of one usage state of the present invention.

[0022] The following are the labels in the diagram: 1. Main pipe; 2. Diverter pipe; 201. Strip groove; 3. Fixing component; 301. First protective sleeve; 302. First through groove; 303. Second protective sleeve; 304. Second through groove; 305. Third protective sleeve; 306. Positioning strip; 307. First movable groove; 308. First threaded hole; 309. Slot; 310. Second movable groove; 311. Second threaded hole; 312. Limiting buckle; 4. First limiting pin; 5. Second limiting pin; 6. Connecting plate; 601. Connecting groove; 602. Limiting groove; 603. Connecting block; 604. Limiting ball. Detailed Implementation

[0023] like Figures 1 to 6 As shown, this utility model relates to an infusion tubing organizer, which includes a fixing member 3 installed on the outside of the diversion tube 2; the diversion tube 2 is connected to the main pipeline 1, and the flow state is controlled by a control valve to facilitate diversion infusion. The fixing member 3 can increase the strength of the diversion tube 2, making it less prone to bending and tangling, and improving the stability of the position.

[0024] The fixing component 3 includes a first protective sleeve 301. The inner side wall of the first protective sleeve 301 has an arc-shaped first through groove 302. A second protective sleeve 303 is movably installed inside the first through groove 302. The inner side wall of the second protective sleeve 303 has an arc-shaped second through groove 304. A third protective sleeve 305 is movably installed inside the second through groove 304. Each of the first protective sleeves 301 has an integrally formed arc-shaped locking strip 306 on opposite sides. The outer wall of the diversion pipe 2 has a strip-shaped locking groove 201 that engages with the locking strip 306. The inner side walls of both the second protective sleeve 303 and the third protective sleeve 305 are fixedly provided with limiting buckles 312 for clamping the diversion pipe 2. The first protective sleeve 301 has a... The first through slot 302 facilitates the movement and displacement of the second protective sleeve 303, achieving an adjustable length. Similarly, the third protective sleeve 305 can extend the length adjustment distance by moving inside the second through slot 304, thus improving the flexibility of the structural fit. The combination of the locking strip 306 on the inner side of the first protective sleeve 301 and the strip-shaped locking groove 201 on the outer wall of the side end of the diverter 2 can quickly fix the installation position of the fastener 3. At the same time, this connection structure also makes it easy to disassemble the fastener 3 and facilitates the assembly operation. The first protective sleeve 301, the second protective sleeve 303, and the third protective sleeve 305 all have elastic deformation characteristics, which can form a good squeezing and clamping effect when squeezed, maintaining the stability of the fastener 3 installation.

[0025] In an embodiment of this utility model, the opposite sides of the first protective sleeve 301 are provided with a first movable groove 307 communicating with the first through groove 302. The second protective sleeve 303 is provided with a first threaded hole 308 at the position of the first movable groove 307. The internal thread of the first threaded hole 308 is fitted with a first limiting pin 4 that fits against the side of the first movable groove 307. The opening of the first movable groove 307 ensures that the displacement of the second protective sleeve 303 is not affected after the first limiting pin 4 is connected to the first threaded hole 308, so that the first limiting pin 4 and the first movable groove 307 can cooperate to limit the movement distance of the second protective sleeve 303.

[0026] In an embodiment of this utility model, the second protective sleeve 303 has a second movable groove 310 on its opposite side that communicates with the second through groove 304. The third protective sleeve 305 has a second threaded hole 311 at a position corresponding to the second movable groove 310. The second threaded hole 311 is internally threaded with a second limiting pin 5. The side wall of the first protective sleeve 301 has a slot 309 to facilitate the movement of the second limiting pin 5. The movement of the second limiting pin 5 within the second movable groove 310 through the combination of the second limiting pin 5 and the second threaded hole 311 can limit the displacement distance of the third protective sleeve 305. The slot 309 facilitates the installation and removal of the second limiting pin 5 without affecting its movement, thus facilitating the fit.

[0027] In an embodiment of this utility model, a connecting plate 6 is fixedly provided at the bottom of the first protective sleeve 301. A connecting groove 601 is provided at the top of one end of the connecting plate 6, and a connecting block 603 is fixedly provided at the other end of the connecting plate 6 to cooperate with the connecting groove 601. The connecting block 603 is U-shaped. The connecting plate 6 can combine two adjacent fixing parts 3 to improve the stability of the installation position of the fixing parts 3. The cooperation between the connecting groove 601 and the connecting block 603 can form a docking effect.

[0028] In the embodiments of this utility model, the opposing surfaces of the connecting groove 601 are provided with limiting grooves 602, and the opposing sides of the connecting block 603 are integrally formed with limiting balls 604 that engage with the limiting grooves 602; by having the limiting balls 604 engage with the limiting grooves 602, the connection strength of the connecting plates 6 on both sides can be strengthened, making them less likely to separate.

[0029] In the embodiments of this utility model, the limiting buckle 312 is made of rubber, and the top of the limiting buckle 312 is provided with a slot to facilitate the passage of the shunt pipe 2 hose. The rubber material of the limiting buckle 312 is easy to be squeezed and deformed, and at the same time, it can increase the friction when it is in contact with the shunt pipe 2 hose, which can improve the stability of the position after the second protective sleeve 303 or the third protective sleeve 305 is displaced.

[0030] Working Principle: This embodiment provides an infusion tubing organizer. In use, inserting the second protective sleeve 303 into the first through-groove 302 within the first protective sleeve 301 achieves a telescopic effect. The first limiting pin 4, passing through the first movable groove 307 and connecting to the first threaded hole 308, restricts the movement distance of the second protective sleeve 303. Similarly, inserting the third protective sleeve 305 into the second through-groove 304 and connecting the second limiting pin 5 through the second movable groove 310 and connecting to the second threaded hole 311 limits the position of the third protective sleeve 305. This allows for telescopic adjustment of the distance between the second and third protective sleeves 303 and 305, achieving an adjustable length for the fixing component 3. This facilitates adjustment of the length protecting the diversion tube 2. Limiting buckles 3 are provided on the inner walls of the side ends of the second and third protective sleeves 303 and 305. 12 can clamp the tubing of the shunt tube 2, which can improve the stability of the installation position of the fixing component 3. At the same time, the rubber limiting buckle 312 can increase the movement resistance when in contact with the shunt tube 2, and can be automatically positioned after the length is adjusted. When it is necessary to add protection to several shunt tubes 2, the connecting plates 6 set at the bottom of two adjacent fixing components 3 can be connected. By inserting the connecting block 603 into the inside of the connecting groove 601, the connection strength can be improved, and the limiting ball 604 can be squeezed and shifted. In this way, when the limiting ball 604 moves down to the position of the limiting groove 602, it can automatically reset and thus be inserted into the inside of the limiting groove 602 to limit the connection position of the two. This connection method can further improve the strength of the installation position of the fixing component 3, improve the stability of the position of the shunt tube 2 during infusion, prevent tangling, and maintain a good infusion effect.

[0031] The embodiments disclosed herein are preferred embodiments, but are not limited thereto. Those skilled in the art can readily grasp the spirit of this utility model based on the above embodiments and make different extensions and variations. However, as long as they do not depart from the spirit of this utility model, they are all within the protection scope of this utility model.

Claims

1. An infusion tubing organizer, characterized in that, Including the fastener (3) installed on the outside of the diversion pipe (2); The fastener (3) includes a first protective sleeve (301), the inner side wall of the first protective sleeve (301) has an arc-shaped first through groove (302), the inner side wall of the first protective sleeve (302) is movably installed with a second protective sleeve (303), the inner side wall of the second protective sleeve (303) has an arc-shaped second through groove (304), the inner side wall of the second through groove (304) is movably installed with a third protective sleeve (305), the first protective sleeve (301) has an arc-shaped locking strip (306) integrally formed on opposite sides, the outer wall of the diversion pipe (2) has a strip-shaped locking groove (201) that engages with the locking strip (306), and the inner side walls of the second protective sleeve (303) and the third protective sleeve (305) are both fixedly provided with limiting buckles (312) for clamping the diversion pipe (2).

2. The infusion tubing organizer according to claim 1, characterized in that, The first protective sleeve (301) has a first movable groove (307) on each of its opposite sides that communicates with the first through groove (302). The second protective sleeve (303) has a first threaded hole (308) at the position of the first movable groove (307). The first threaded hole (308) has a first limiting pin (4) that fits against the side of the first movable groove (307) installed in its internal thread.

3. The infusion tubing organizer according to claim 1, characterized in that, The second protective sleeve (303) has a second movable groove (310) on its opposite side that communicates with the second through groove (304). The third protective sleeve (305) has a second threaded hole (311) at the position corresponding to the second movable groove (310). The second threaded hole (311) is internally threaded with a second limiting pin (5). The side wall of the first protective sleeve (301) has a slot (309) to facilitate the movement of the second limiting pin (5).

4. The infusion tubing organizer according to claim 1, characterized in that, The bottom of the first protective sleeve (301) is fixedly provided with a connecting plate (6), one end of the connecting plate (6) is provided with a connecting groove (601), and the other end of the connecting plate (6) is fixedly provided with a connecting block (603) that cooperates with the connecting groove (601), and the connecting block (603) is U-shaped.

5. The infusion tubing organizer according to claim 4, characterized in that, The connecting groove (601) has a limiting groove (602) on each of its facing surfaces, and the connecting block (603) has a limiting ball (604) integrally formed on each of its opposite sides that engages with the limiting groove (602).

6. The infusion tubing organizer according to claim 1, characterized in that, The limiting buckle (312) is made of rubber, and the top of the limiting buckle (312) has a slot for the flow tube (2) hose to pass through.

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