An electrocardiogram monitoring lead comb
By designing an ECG monitoring lead sorter, which employs a winding shaft, locking mechanism, and control mechanism, the problem of messy leads is solved, enabling orderly organization and convenient storage of leads, thus improving ease of use and safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 诸暨市人民医院
- Filing Date
- 2025-02-21
- Publication Date
- 2026-06-26
AI Technical Summary
Existing ECG monitoring leads are prone to becoming tangled and messy during use, leading to inconvenience and safety hazards. Furthermore, existing tidying devices may damage the leads or affect signal transmission.
An electrocardiogram (ECG) monitoring lead comber was designed, which uses a winding shaft, locking mechanism, and control mechanism, combined with magnets and moving wheels, to achieve orderly arrangement and winding of leads, prevent slippage and overlap, and facilitate the combined use of multiple devices.
It enables the orderly arrangement and convenient storage of wires, avoiding damage to wires and interference with signal transmission, and improving ease of use and safety.
Smart Images

Figure CN224403663U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of lead combing device technology, specifically to an electrocardiogram monitoring lead comber. Background Technology
[0002] During electrocardiogram (ECG) monitoring, multiple leads are typically used to connect the patient to the monitoring equipment to monitor their cardiac activity. These leads, including electrode leads and signal transmission lines, constitute an important part of the ECG monitoring system. However, in practice, these leads often become tangled and disorganized due to their large number, varying lengths, and frequent use. This not only causes inconvenience for medical staff but also increases safety hazards for patients.
[0003] To address this issue, several cable management devices have emerged on the market. These devices mostly use hooks, clips, or wrapping tape to hold the cable in place or wrap it up. However, these devices have some limitations in use. For example, hooks and clips may damage the cable's outer sheath, affecting its lifespan; while wrapping tape, if used improperly, may cause the cable to become knotted or wrapped too tightly, thereby damaging the cable's internal signal transmission function.
[0004] Therefore, it is necessary to develop an electrocardiogram monitoring lead comber to solve the above-mentioned problems in existing technologies. Utility Model Content
[0005] The technical problem to be solved by this utility model is to overcome the defects of the above-mentioned technology and provide an electrocardiogram monitoring lead comber.
[0006] To achieve the above objectives, this utility model provides an electrocardiogram monitoring lead comber, including a base plate, with a first side plate and a second side plate inserted into opposite ends of the base plate. A first blocking plate and a second blocking plate are also provided between the first side plate and the second side plate. A winding shaft is rotatably connected and passes between the first side plate and the second side plate. A coil spring is provided between the first side plate and the first blocking plate. One end of the coil spring is fixedly connected to the first blocking plate, and the other end of the coil spring is fixedly connected to the side wall of the winding shaft. A first cover plate is connected between the first side plate and the first blocking plate, and a second cover plate is connected between the second side plate and the second blocking plate.
[0007] Furthermore, a locking mechanism is provided between the second side plate and the second blocking plate.
[0008] Furthermore, the locking mechanism includes a ratchet sleeved on the outer peripheral wall of the winding shaft and fixedly connected to the winding shaft, and a pawl connected to the ratchet. The pawl includes an engaging part that matches the ratchet and a straight part that is located away from the ratchet. The straight part has a hinge hole in the middle. The pawl is rotatably connected to the upper part of the ratchet through a hinge shaft.
[0009] Furthermore, a tension spring is connected to the end of the pawl away from the ratchet, and the tension spring is perpendicular to the pawl and fixed to the second blocking plate.
[0010] Furthermore, a control mechanism is provided in conjunction with the pawl. The control mechanism includes a first section that abuts against the lower side of the pawl, a second section that is rotatably connected above the first section, and a third section that is rotatably connected above the second section. The third section passes through the second cover plate.
[0011] Furthermore, the first segment has a hinge hole in the middle, and the first segment is rotatably connected to the second blocking plate via a hinge shaft.
[0012] Furthermore, the second cover plate has a guide hole on its top, and the guide hole contains the third segment. The third segment passes through the guide hole and out. A button is fixed on the top of the third segment. Pressing the button will cause the first segment to push the pawl upward to unlock the ratchet pawl.
[0013] Furthermore, a blocking post is fixed in the middle of the winding shaft to facilitate winding.
[0014] Furthermore, for ease of movement, casters are provided under the base plate; these casters are omnidirectional wheels.
[0015] Furthermore, to facilitate the combined use of multiple ECG monitoring lead combers, magnets are also fixed on the outer walls of the first side plate and the second side plate, with the magnetic poles of the magnets on the first side plate and the magnets on the second side plate being arranged in opposite directions.
[0016] Advantages of this utility model: This utility model provides an ECG monitoring lead comber with a simple structure and convenient operation. It can effectively organize and store ECG monitoring leads, keeping them in an orderly arrangement. Through the locking and control mechanisms, the position of the winding shaft can be locked and unlocked, facilitating the winding and release of leads. By setting blocking posts, it can prevent leads from slipping or overlapping during winding, improving the sorting effect. By setting moving wheels, it can easily adjust the position of the device, improving ease of use. By setting magnets, it can easily combine multiple combers to meet diverse needs in practical applications. Attached Figure Description
[0017] Figure 1This is a three-dimensional view of an electrocardiogram monitoring lead comber according to the present invention;
[0018] Figure 2 This is a top view of an electrocardiogram monitoring lead comber according to this utility model;
[0019] Figure 3 This is a cross-sectional view AA of an electrocardiogram monitoring lead comber according to this utility model;
[0020] Figure 4 This is a cross-sectional view of a cardiac monitoring lead comber according to this utility model;
[0021] Figure 5 This is a partial enlarged view of an electrocardiogram monitoring lead comber according to this utility model.
[0022] As shown in the figure: 1. First side plate; 2. Second side plate; 3. First blocking plate; 4. Second blocking plate; 5. Base plate; 6. First cover plate; 7. Second cover plate; 8. Winding shaft; 801. Blocking post; 9. Coil spring; 901. Ratchet; 902. Pawl; 903. Tension spring; 904. Third section; 905. Second section; 906. First section; 907. Guide hole; 10. Insertion part; 11. Moving wheel. Detailed Implementation
[0023] 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", "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, and are not intended to 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.
[0024] 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 technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of this utility model, "a plurality of" means two or more, unless otherwise explicitly specified.
[0025] In the description of the embodiments of this utility model, if a feature is referred to as "setting", "fixing", "connecting", or "installing" on another feature, it can be set, fixed, or connected directly to the other feature, or it can be set, fixed, connected, or installed indirectly on the other feature.
[0026] In the description of the embodiments of this utility model, the term "several" means one or more, and the term "multiple" means two or more. The terms "greater than," "less than," and "exceeding" should be understood as excluding the stated number, while the terms "above," "below," and "within" should be understood as including the stated number. The terms "first" and "second" should be understood as distinguishing technical features and not as indicating or implying relative importance, the number of indicated technical features, or the order of the indicated technical features.
[0027] The present invention will now be described in further detail with reference to the accompanying drawings.
[0028] Combined with appendix Figure 1 To be continued Figure 4 This embodiment provides an electrocardiogram monitoring lead comber, including a base plate 5. A first side plate 1 and a second side plate 2 are inserted into opposite ends of the base plate 5. A first blocking plate 3 and a second blocking plate 4 are also provided between the first side plate 1 and the second side plate 2. A winding shaft 8 is rotatably connected and passed between the first side plate 1 and the second side plate 2. A coil spring 9 is provided between the first side plate 1 and the first blocking plate 3. One end of the coil spring 9 is fixedly connected to the first blocking plate 3, and the other end of the coil spring 9 is fixedly connected to the side wall of the winding shaft 8. A first cover plate 6 is connected between the first side plate 1 and the first blocking plate 3, and a second cover plate 7 is connected between the second side plate 2 and the second blocking plate 4.
[0029] Specifically, an ECG monitoring lead comber of this embodiment includes a base plate 5, a side plate and a blocking plate with a connector on the side of the bottom of the base plate 5 near the base plate 5, and a corresponding slot on the base plate 5. The side plate and the blocking plate are connected to the base plate 5 through the connector. Two side plates are provided on opposite sides of the base plate 5, and a blocking plate is provided between the side plates. The blocking plate is used to block the lead. The first blocking plate 3 is positioned closer to the first side plate 1 than the second side plate 2, and the second blocking plate 4 is positioned closer to the second side plate 2 than the first side plate 1. A first cover plate 6 is provided between the first side plate 1 and the blocking plate, and a second cover plate 7 is provided between the second side plate 2 and the second blocking plate 4. The first side plate 1, the first blocking plate 3 and the first cover plate 6 enclose each other to define a space for accommodating a coil spring 9, and the second side plate 2, the second blocking plate 4 and the second cover plate 7 enclose each other to define a space for accommodating a locking mechanism. This embodiment provides an ECG monitoring lead comber with a simple structure and convenient operation. It can effectively organize and store ECG monitoring leads, keeping them in an orderly arrangement. Through locking and control mechanisms, the position of the winding shaft 8 can be locked and unlocked, facilitating the winding and release of leads. By setting the blocking post 801, the leads can be prevented from slipping or overlapping during winding, improving the sorting effect. By setting the moving wheel 11, the position of the device can be easily adjusted, improving ease of use. By setting the magnet, multiple combers can be easily combined to meet diverse needs in practical applications.
[0030] Combined with appendix Figure 4 A locking mechanism is also provided between the second side plate 2 and the second blocking plate 4.
[0031] Combined with appendix Figure 4 and attached Figure 5 The locking mechanism includes a ratchet 901 sleeved on the outer peripheral wall of the winding shaft 8 and fixedly connected to the winding shaft 8. A pawl 902 is provided in cooperation with the ratchet 901. The pawl 902 includes an engagement part that matches the ratchet 901 and a straight part that is located away from the ratchet 901. A hinge hole is provided in the middle of the straight part. The pawl 902 is rotatably connected to the upper part of the ratchet 901 through a hinge shaft.
[0032] Combined with appendix Figure 4 and attached Figure 5 The end of the pawl 902 away from the ratchet 901 is connected to a tension spring 903, which is perpendicular to the pawl 902 and fixed to the second blocking plate 4.
[0033] Combined with appendix Figure 4 and attached Figure 5A control mechanism is provided to cooperate with the pawl 902. The control mechanism includes a first section 906 that abuts against the lower side of the pawl 902, a second section 905 that is rotatably connected above the first section 906, and a third section 904 that is rotatably connected above the second section 905. The third section 904 passes through the second cover plate 7.
[0034] Combined with appendix Figure 5 The first segment 906 has a hinge hole in the middle, and the first segment 906 is rotatably connected to the second blocking plate 4 through a hinge shaft.
[0035] Combined with appendix Figure 5 The second cover plate 7 has a guide hole 907 on its top. The guide hole 907 contains the third segment 904. The third segment 904 passes through the guide hole 907 and exits. A button is fixed on the top of the third segment 904. Pressing the button will cause the first segment 906 to push the pawl 902 upward to unlock the ratchet 901 and the pawl 902.
[0036] Combined with appendix Figure 1 To facilitate winding, a blocking post 801 is fixed in the middle of the winding shaft 8.
[0037] Combined with appendix Figure 1 To facilitate movement, a caster wheel 11 is provided under the base plate 5. The caster wheel 11 is a universal wheel.
[0038] Furthermore, to facilitate the combined use of multiple ECG monitoring lead combers, magnets are also fixed on the outer walls of the first side plate 1 and the second side plate 2, with the magnetic poles of the magnets on the first side plate 1 and the second side plate 2 being arranged in opposite directions.
[0039] The present invention and its embodiments have been described above. This description is not restrictive, and the accompanying drawings are only one embodiment of the present invention; the actual structure is not limited thereto. In conclusion, if those skilled in the art are inspired by this description and design similar structures and embodiments without departing from the inventive spirit of the present invention, such designs should fall within the protection scope of the present invention.
Claims
1. An electrocardiographic monitor lead set comb, comprising a base plate, characterized in that: A first side plate and a second side plate are inserted into opposite ends of the base plate. A first blocking plate and a second blocking plate are also provided between the first side plate and the second side plate. A winding shaft is rotatably connected and passes between the first side plate and the second side plate. A coil spring is provided between the first side plate and the first blocking plate. One end of the coil spring is fixedly connected to the first blocking plate, and the other end of the coil spring is fixedly connected to the side wall of the winding shaft. A first cover plate is connected between the first side plate and the first blocking plate, and a second cover plate is connected between the second side plate and the second blocking plate.
2. The ECG monitor lead comb according to claim 1, wherein: A locking mechanism is also provided between the second side plate and the second blocking plate.
3. The cardiac monitor lead combiner of claim 2, wherein: The locking mechanism includes a ratchet sleeved on the outer peripheral wall of the winding shaft and fixedly connected to the winding shaft, and a pawl connected to the ratchet. The pawl includes a meshing part that matches the ratchet and a straight part that is located away from the ratchet. The straight part has a hinge hole in the middle. The pawl is rotatably connected to the upper part of the ratchet through a hinge shaft.
4. The ECG monitor lead wire comb of claim 3, wherein: The end of the pawl furthest from the ratchet is connected to a tension spring, which is perpendicular to the pawl and fixed to the second blocking plate.
5. The ECG monitor lead wire comb of claim 4, wherein: A control mechanism is provided to cooperate with the pawl. The control mechanism includes a first section that abuts against the lower side of the pawl, a second section that is rotatably connected above the first section, and a third section that is rotatably connected above the second section. The third section passes through the second cover plate.
6. An ECG monitor lead wire comb according to claim 5, wherein: The first segment has a hinge hole in the middle, and the first segment is rotatably connected to the second blocking plate through a hinge shaft.
7. The cardiac monitor lead combiner of claim 6, wherein: The second cover plate has a guide hole on its top, and the guide hole contains the third segment. The third segment passes through the guide hole and out. A button is fixed on the top of the third segment. Pressing the button will cause the first segment to push the pawl upward to unlock the ratchet pawl.
8. The ECG monitoring lead comber according to claim 1, characterized in that: A blocking post is fixed in the middle of the winding shaft to facilitate winding.
9. A cardiac monitoring lead comber according to claim 1, characterized in that: To facilitate movement, casters are provided under the base plate; these casters are omnidirectional wheels.
10. A cardiac monitoring lead comber according to claim 1, characterized in that: To facilitate the combined use of multiple ECG monitoring lead combers, magnets are also fixed on the outer walls of the first side plate and the second side plate, with the magnetic poles of the magnets on the first side plate and the second side plate being arranged in opposite directions.