Line conditioner
By designing the connecting and binding components of the cable organizer, the problem of disordered cable placement in multi-line equipment was solved, achieving orderly cable management, extending cable life, and improving work efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- FOSHAN SECOND PEOPLES HOSPITAL
- Filing Date
- 2025-04-22
- Publication Date
- 2026-06-26
AI Technical Summary
The disorderly arrangement of complex circuits in existing multi-circuit instruments leads to easy wear and tear on the circuits, shortens their service life, and reduces work efficiency.
Design a cable organizer, including a connecting component and a binding component. The binding component consists of multiple binding strips and connecting buckles. The binding strips are provided with buckle holes, and the connecting buckles are adjustablely connected to the buckle holes to bind the cables of multi-line instruments and keep them neat.
It extends the lifespan of the circuit, reduces the frequency of equipment failures caused by circuit damage, reduces maintenance costs, and improves the work efficiency of medical staff.
Smart Images

Figure CN224403665U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of medical device technology, and in particular to a circuit organizer. Background Technology
[0002] The complex wiring of existing multi-wire devices such as electrocardiogram monitors, defibrillators, and electrocardiographs is often disordered, which brings many negative effects: On the one hand, disordered wiring is prone to wear and breakage, which not only shortens the service life of the wiring, but may also cause device malfunctions, affect the normal operation of medical equipment, and delay patient treatment; on the other hand, messy wiring makes it difficult for medical staff to quickly find the required wiring in emergency operations, which greatly reduces work efficiency. Utility Model Content
[0003] The main purpose of this utility model is to provide a circuit organizer, which aims to solve the technical problem that the complex circuits of existing multi-circuit instruments are often placed in a disorderly manner, resulting in easy wear and tear of the circuits, shortened service life of the circuits, and reduced work efficiency.
[0004] In order to achieve the above-mentioned utility model objectives, this utility model proposes a circuit organizer for use in multi-circuit devices, including a connecting component and a binding component;
[0005] The strapping component includes multiple strapping strips and multiple connecting buckles. The multiple strapping strips are spaced apart on the connecting component. One end of each connecting buckle is connected to a strapping strip. The strapping strip has multiple snap holes, and the snap holes are located on the side of the connecting buckle away from the strapping component. The connecting buckle is used to adjustably connect to the snap holes.
[0006] Furthermore, the connecting component is provided with a through hole, which is located at the center of the connecting component, and the connecting component is connected to the handle of the multi-line instrument through the through hole.
[0007] Furthermore, the first width of the strapping strip decreases from one end of the strapping strip connected to the connecting member toward the other end of the strapping strip away from the connecting member.
[0008] Furthermore, the other end of the binding strip away from the connecting member forms an arc-shaped portion, which protrudes in a direction away from the connecting member.
[0009] Furthermore, the connecting buckle and the plurality of buckle holes are located on the same radial straight line.
[0010] Furthermore, the connecting buckle is located at one-third of the distance from the connecting end to the free end of the binding strip.
[0011] Furthermore, the binding strips include a first binding strip, a second binding strip, a third binding strip, a fourth binding strip, and a fifth binding strip of the same length, and the second width of the first binding strip, the second binding strip, the third binding strip, the fourth binding strip, and the fifth binding strip increases sequentially, wherein the second width refers to the middle width of each binding strip in the length direction.
[0012] Furthermore, a first gap is formed between the first and second binding strips, a second gap is formed between the second and third binding strips, a third gap is formed between the third and fourth binding strips, and a fourth gap is formed between the fourth and fifth binding strips. The third widths of the first, second, third, and fourth gaps decrease sequentially, wherein the third width refers to the middle width in the length direction of each gap.
[0013] Furthermore, the circuit organizer also includes an instrument maintenance component, which is disposed on the connecting component and arranged opposite to the strapping component. The instrument maintenance component is used to display the status of the multi-circuit instrument.
[0014] Furthermore, the instrument maintenance component includes a display panel, a knob, and a pointer. The display panel is connected to the connecting component and forms multiple status areas on the display panel. The knob is rotatably connected to the display panel, and the pointer is connected to the knob, pointing to different areas of the display panel through the knob.
[0015] Beneficial effects:
[0016] This utility model discloses a cable organizer for use in multi-line devices, comprising a connecting component and a strapping component; the strapping component includes multiple strapping strips and multiple connecting buckles, the multiple strapping strips are spaced apart on the connecting component, one end of each connecting buckle is connected to a strapping strip, the strapping strips are provided with multiple snap-fit holes, and the snap-fit holes are located on the side of the connecting buckle away from the strapping component, the connecting buckle is used to adjustably connect to the snap-fit holes. Therefore, by placing the connecting component on the multi-wire instrument, with the instrument's wiring placed on the strapping strip of the strapping component, and then bending the strapping strip so that the corresponding buckle holes are connected to the connecting buckle, the multi-wire instrument's wiring is bundled and clamped onto the strapping strip. This process organizes the complex and disordered wiring of the multi-wire instrument, keeping the wiring neat and reducing the risk of wear and tear, thereby extending the wiring's lifespan, reducing the frequency of instrument malfunctions due to wiring damage, and decreasing maintenance costs and the hassle of replacing wiring. At the same time, medical staff no longer need to spend a lot of time searching for and sorting out messy wiring when operating multi-wire instruments, significantly improving work efficiency. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of a circuit organizer according to an embodiment of the present invention;
[0018] Figure 2 This is a schematic diagram of an instrument maintenance component according to an embodiment of the present invention.
[0019] in:
[0020] 1. Connecting components; 3. Through holes; 4. Instrument maintenance components;
[0021] 21. Connecting buckle; 22. Buckle hole; 23. Curved part;
[0022] 201. First binding strip; 202. Second binding strip; 203. Third binding strip; 204. Fourth binding strip; 205. Fifth binding strip; 206. First gap; 207. Second gap; 208. Third gap; 209. Fourth gap;
[0023] 40. Display board; 41. Knob; 42. Pointer.
[0024] The realization of the purpose, functional features and advantages of this utility model will be further explained in conjunction with the embodiments and with reference to the accompanying drawings. Detailed Implementation
[0025] It should be understood that the specific embodiments described herein are merely illustrative of the present invention and are not intended to limit the present invention.
[0026] In the description of this utility model, it should be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," and "counterclockwise," etc., indicating the orientation or positional relationship, are based on the orientation or positional relationship shown in the accompanying drawings and are only for the convenience of describing this utility model and simplifying the description. They do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model. Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of indicated technical features. Thus, features defined with "first" and "second" may explicitly or implicitly include one or more of the stated features. In the description of this utility model, "a plurality of" means two or more, unless otherwise explicitly and specifically defined.
[0027] In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "joining" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection, a direct connection, or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.
[0028] In this invention, unless otherwise explicitly specified and limited, "above" or "below" the second feature can include direct contact between the first and second features, or contact between the first and second features through another feature between them. Furthermore, "above," "over," and "on top" of the second feature includes the first feature directly above or diagonally above the second feature, or simply indicates that the first feature is at a higher horizontal level than the second feature. "Below," "below," and "under" the second feature includes the first feature directly below or diagonally below the second feature, or simply indicates that the first feature is at a lower horizontal level than the second feature.
[0029] Reference Figure 1 This embodiment provides a cable organizer for use in multi-cable devices, including a connecting component 1 and a strapping component;
[0030] The binding component includes multiple binding strips and multiple connecting buckles 21. The multiple binding strips are spaced apart on the connecting component 1. One end of each connecting buckle 21 is connected to a binding strip. The binding strip is provided with multiple snap holes 22, and the snap holes 22 are located on the side of the connecting buckle 21 away from the binding component. The connecting buckle 21 is used to adjustably connect to the snap holes 22.
[0031] In the above embodiments, the cable organizer is mainly used in multi-line devices such as electrocardiogram monitors, defibrillators, and electrocardiographs. The organizer includes a connecting component 1 and a binding component. The binding component includes multiple binding strips and connecting buckles 21. The binding strips extend from one end of the connecting component 1, and there is a certain interval between every two binding strips, forming a layout similar to octopus tentacles. This allows it to flexibly adapt to different numbers and thicknesses of cables. One end of each binding strip is fixed to the connecting component 1, and the other end is a free end. The free end is designed with multiple snap holes 22. These snap holes 22 are arranged along the length of the binding strip, providing a variety of adjustment options to adapt to different binding needs. The connecting buckle 21 is located at the end of the binding strip near the connecting component 1 and is firmly connected to the binding strip. The purpose of the connecting buckle 21 is to cooperate with the snap holes 22 on the binding strip. By adjusting the connection between the connecting buckle 21 and a specific snap hole 22, the tightness of the cable can be adjusted. In use, the connecting component 1 is installed on the handle of the multi-wire instrument. The wires of the multi-wire instrument are placed between the connecting buckle 21 and the snap-fit hole 22. The binding strip is bent towards the end of the connecting buckle 21 away from the binding strip, so that the corresponding snap-fit hole 22 snaps into the connecting buckle 21. This binds and clamps the wires of the multi-wire instrument onto the binding strip, thus completing the organization of the wires of the multi-wire instrument. Each binding strip can bind and clamp different wires. Therefore, this organizer can keep the wires neat, reduce the risk of wear and tear, extend the service life of the wires, reduce the frequency of instrument failure due to wire damage, reduce maintenance costs and the trouble of replacing wires. At the same time, when medical staff operate multi-wire instruments, they no longer need to spend a lot of time searching for and sorting out messy wires, which greatly improves work efficiency.
[0032] Reference Figure 1 In one embodiment, the connecting component 1 is provided with a through hole 3, the through hole 3 is located at the center of the connecting component 1, and the connecting component 1 is connected to the handle of the multi-line instrument through the through hole 3.
[0033] In the above embodiment, the connecting component 1 is provided with a through hole 3, so that the connecting component 1 is a silicone connecting piece with a through hole 3 in the center. The through hole 3 is located at the center of the connecting component 1, so that the entire connecting component 1 can be easily installed on the handle of the multi-line instrument through this through hole 3. The connecting component 1 is made of silicone material not only because of its softness and durability, but also because it has good insulation properties, which helps to prevent signal interference. The strap is also made of silicone material and is integrally molded with the connecting component 1 to ensure the stability and consistency of the overall structure. The through hole 3 and the connecting component 1 are preferably circular or elliptical in design, and their centers coincide to avoid the problem of falling off due to accidental collision.
[0034] Reference Figure 1In one embodiment, the first width of the strapping strip decreases from one end of the strapping strip connected to the connecting member 1 toward the other end of the strapping strip away from the connecting member 1.
[0035] In the above embodiment, the strapping strip extends from one end of the connecting member 1, and the first width gradually decreases from the connecting end to the free end, forming a gradient design. One end of the strapping strip is firmly connected to the connecting member 1, called the connecting end, and the other end is the free end, which is narrower. The width mentioned in the text refers to the lateral dimension. The free end is also designed with an arc-shaped part 23, which protrudes in a direction away from the connecting member 1. The spacing between each strapping strip is reasonably set, making the entire cable organizer look like the tentacles of an octopus, which can flexibly adapt to different numbers and thicknesses of cables. In addition, multiple snap holes 22 are arranged along the length of the strapping strip at the free end, providing a variety of adjustment options. The connecting buckle 21 is located at the end of the strapping strip close to the connecting member 1 and is located in the same radial direction as the multiple snap holes 22. That is, these snap holes 22 are radially arranged on the side of the connecting buckle 21 away from the connecting member 1, so that the center of the connecting buckle 21 and the multiple snap holes 22 are on the same straight line, ensuring accurate docking of the connecting buckle 21 and the snap holes 22 during use, improving the convenience and stability of use.
[0036] Furthermore, on the strapping strip, the connecting buckle 21 is located at approximately one-third of the distance from the connecting end to the free end. This means that the distance between the connecting buckle 21 and the connecting end accounts for one-third of the total length of the strapping strip, while the remaining two-thirds of the length contains multiple locking holes 22. These locking holes 22 are arranged along the length of the strapping strip, and the locking hole 22 closest to the connecting buckle 21 is spaced apart from the connecting buckle 21, ensuring sufficient space for adjustment during operation. This not only ensures that the strapping strip has sufficient flexibility to adapt to various binding needs, but also provides multiple adjustment options, so that each wire can be securely and effectively fixed.
[0037] Reference Figure 1 In one embodiment, the binding strips include a first binding strip 201, a second binding strip 202, a third binding strip 203, a fourth binding strip 204, and a fifth binding strip 205 of the same length, and the second width of the first binding strip 201, the second binding strip 202, the third binding strip 203, the fourth binding strip 204, and the fifth binding strip 205 increases sequentially, wherein the second width refers to the middle width of each binding strip in the length direction.
[0038] In the above embodiments, the binding strips include a first binding strip 201, a second binding strip 202, a third binding strip 203, a fourth binding strip 204, and a fifth binding strip 205. The first binding strip 201, the second binding strip 202, the third binding strip 203, the fourth binding strip 204, and the fifth binding strip 205 have the same length. The number of binding strips is not limited to five; there can be multiple. Each binding strip is provided with a connecting buckle 21. One end of each binding strip is connected to the connecting component 1, and the other end is a free end. The second widths of the binding strips 201, 202, 203, 204, and 205 increase sequentially. This second width refers to the middle width along the length of each binding strip, with the first binding strip 201 being the narrowest and the fifth binding strip 205 being the widest. As the widths of the binding strips increase sequentially, the narrower binding strips are suitable for fixing thinner lines, while the wider binding strips are suitable for thicker lines. This enables effective management and organization of different types of lines, improving flexibility and applicability.
[0039] Furthermore, a specific interval is provided between each pair of adjacent binding strips. Specifically, a first interval 206 is formed between the first binding strip 201 and the second binding strip 202, a second interval 207 is formed between the second binding strip 202 and the third binding strip 203, a third interval 208 is formed between the third binding strip 203 and the fourth binding strip 204, and a fourth interval 209 is formed between the fourth binding strip 204 and the fifth binding strip 205. The third width of the first interval 206, the second interval 207, the third interval 208, and the fourth interval 209 decreases sequentially. This third width refers to the middle width in the length direction of each interval, with the first interval 206 being the widest and the fourth interval 209 being the narrowest. This effectively improves the flexibility of the binding strips 20 and also ensures the independence and ease of operation of each binding strip.
[0040] Reference Figures 1-2 In one embodiment, the circuit organizer further includes an instrument maintenance component 4, which is disposed on the connecting component 1 and arranged opposite to the binding component. The instrument maintenance component 4 is used to display the status of the multi-circuit instrument.
[0041] In the above embodiment, the circuit organizer further includes an instrument maintenance component 4, which displays the status of the multi-circuit instrument. The instrument maintenance component 4 is arranged opposite to the strapping component on the connecting component 1. The instrument maintenance component 4 includes three main parts: a display panel 40, a knob 41, and a pointer 42. The display panel 40 is directly connected to the connecting component 1 and arranged opposite to the strapping component. The display panel 40 is divided into multiple status areas, each marked with a different color, such as green for operating status, yellow for requiring maintenance, and red for malfunction. These status areas allow medical personnel to quickly identify the operating status of the equipment. The knob 41 is rotated and connected to the display panel. On the display panel 40, the position of pointer 42 can be adjusted by rotation, so that it points to different status areas on the display panel 40. Pointer 42 is connected to knob 41. When knob 41 is rotated, pointer 42 also moves accordingly, accurately pointing to the selected status area. This allows users to easily update the indication information according to the actual working status of multi-line instruments. For example, if a multi-line instrument malfunctions, pointer 42 can be adjusted to the red fault area by rotating knob 41, thus intuitively displaying the current fault status of the equipment. This helps to improve the overall management level in the medical environment. Especially in emergency situations, it enables rapid response and measures to be taken, improving the convenience and reliability of equipment management.
[0042] The above description is only a preferred embodiment of the present utility model and does not limit the patent scope of the present utility model. Any equivalent structural or procedural transformations made based on the content of the present utility model specification and drawings, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of the present utility model.
Claims
1. A circuit organizer, applied to multi-circuit devices, characterized in that, Includes connecting components and securing components; The strapping component includes multiple strapping strips and multiple connecting buckles. The multiple strapping strips are spaced apart on the connecting component. One end of each connecting buckle is connected to a strapping strip. The strapping strip has multiple snap holes, and the snap holes are located on the side of the connecting buckle away from the strapping component. The connecting buckle is used to adjustably connect to the snap holes.
2. The circuit organizer according to claim 1, characterized in that, The connecting component has a through hole located at its center, and the connecting component is connected to the handle of the multi-line instrument through the through hole.
3. The circuit organizer according to claim 1, characterized in that, The first width of the strapping strip decreases from one end of the strapping strip that connects to the connecting member toward the other end of the strapping strip that is away from the connecting member.
4. The circuit organizer according to claim 3, characterized in that, The end of the binding strip away from the connecting member forms an arc-shaped portion, which protrudes in a direction away from the connecting member.
5. The circuit organizer according to claim 1, characterized in that, The connecting buckle and the plurality of buckle holes are located on the same radial straight line.
6. The circuit organizer according to claim 1, characterized in that, The connecting buckle is located at one-third of the distance from the connecting end to the free end of the binding strip.
7. The circuit organizer according to claim 3, characterized in that, The binding strips include a first binding strip, a second binding strip, a third binding strip, a fourth binding strip, and a fifth binding strip of the same length, and the second width of the first binding strip, the second binding strip, the third binding strip, the fourth binding strip, and the fifth binding strip increases sequentially, wherein the second width refers to the middle width of each binding strip in the length direction.
8. The circuit organizer according to claim 7, characterized in that, A first gap is formed between the first and second binding strips, a second gap is formed between the second and third binding strips, a third gap is formed between the third and fourth binding strips, and a fourth gap is formed between the fourth and fifth binding strips. The third widths of the first, second, third, and fourth gaps decrease sequentially, wherein the third width refers to the middle width in the length direction of each gap.
9. The circuit organizer according to claim 1, characterized in that, The circuit organizer also includes an instrument maintenance component, which is disposed on the connecting component and arranged opposite to the strapping component. The instrument maintenance component is used to display the status of the multi-circuit instrument.
10. The circuit organizer according to claim 9, characterized in that, The instrument maintenance components include a display panel, a knob, and a pointer. The display panel is connected to the connecting component and forms multiple status areas on the display panel. The knob is rotatably connected to the display panel, and the pointer is connected to the knob, pointing to different areas of the display panel through the knob.