CN217659891U - Antiwind electrocardio lead line - Google Patents

Abstract

The utility model relates to an antiwind electrocardio lead line, including the junction box, one side of junction box is provided with the main cable, and three sides are equipped with first group lead line, second group lead line, third group lead line respectively in addition, and first group lead line includes six chest lead lines and first fastener, but six chest lead lines are parallel and the outer wall of adjacent chest lead line is tear formula fusion setting on one section of first group lead line that is close to the junction box, separately sets up at six chest lead lines of terminal department of first group lead line, and the fusion setting of first group lead line and separately set up handing-over department are equipped with first fastener. The anti-winding electrocardio lead wire has the advantages that the structure optimization design is carried out on each group of lead wires, and the anti-winding electrocardio lead wire has a good anti-winding effect.

Description

Antiwind electrocardio lead line

Technical Field

The utility model relates to an electrocardio check out test set field, concretely relates to antiwind electrocardio lead line.

Background

Different lead wires are matched with different electrocardiogram detection devices to detect different heart diseases of patients clinically, the commonly used detection devices comprise a conventional 12-lead electrocardiogram machine, a conventional 18-lead electrocardiogram machine, an electrocardiogram analysis system, a three-dimensional electrocardiogram instrument and the like, the number of the used lead wires is more and more, and the winding problem is more and more serious. Generally, the wire clamp is used for assisting in straightening up the conducting wires, the conducting wires in the front and the back of the wire clamp are separated, and if the conducting wires are numerous, cross winding cannot be avoided.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an antiwind electrocardio lead line solves lead line winding problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the anti-winding electrocardio lead wire comprises a junction box, wherein one side of the junction box is provided with a main cable, the other three sides of the junction box are respectively provided with a first group of lead wires, a second group of lead wires and a third group of lead wires, the first group of lead wires comprise six chest lead wires and a first wire clamp, the six chest lead wires are arranged in parallel on one section of the first group of lead wires close to the junction box, the outer walls of the adjacent chest lead wires are in a tearing type fusion arrangement, the six chest lead wires at the tail end of the first group of lead wires are separately arranged, and the first wire clamp is arranged at the fusion arrangement and the separately arranged junction of the first group of lead wires;

the second group of lead wires comprises a first bundle of limb lead wires and a second bundle of limb lead wires, the first bundle of limb lead wires comprises two first limb lead wires, the two first limb lead wires are arranged in parallel and in a tearable fusion manner on one section of the first bundle of limb lead wires close to the junction box, the two first limb lead wires are separately arranged at the tail end of the first bundle of limb lead wires, and a second wire clamp is arranged at the junction of the fusion arrangement and the separate arrangement of the first bundle of limb lead wires;

the second limb lead wire bundle comprises two second limb lead wires, the two second limb lead wires are arranged in parallel and can be torn off in a fusion manner on one section of the second limb lead wire bundle close to the junction box, the two second limb lead wires are separately arranged at the tail end of the second limb lead wire bundle, and a third wire clamp is arranged at the junction of the fusion arrangement and the separate arrangement of the second limb lead wires;

the third group of lead wires comprises a right chest lead wire harness and a back wall lead wire harness, the right chest lead wire harness comprises three right chest lead wires, the three right chest lead wires are arranged in parallel and in a tearable fusion manner on a section of the right chest lead wire harness close to the junction box, the three right chest lead wires are separately arranged at the tail end of the right chest lead wire harness, and a fourth wire clamp is arranged at the junction of the fusion arrangement and the separate arrangement of the right chest lead wire harness;

the rear wall lead wire harness comprises three rear wall lead wires, the three rear wall lead wires are arranged in parallel and in a tearable fusion mode on a section, close to the junction box, of the rear wall lead wire harness, the three rear wall lead wires are separately arranged at the tail end of the rear wall lead wire harness, and a fifth wire clamp is arranged at the junction of the fusion setting and the separate setting of the rear wall lead wire harness.

Furthermore, the shape of the junction box is isosceles trapezoid, and the main cable, the first group of lead wires, the second group of lead wires and the third group of lead wires are sequentially arranged on the peripheral side of the junction box.

Furthermore, the length direction of the main cable is defined as the left-right direction, the fusion section of the first group of lead wires is obliquely upwards arranged at the junction box, and the fusion section of the third group of lead wires is obliquely downwards arranged at the junction box.

Furthermore, the shape of the junction box is oval, square or diamond.

The utility model has the advantages that:

the utility model discloses an antiwind electrocardio lead line, main cable, first group lead line, second group lead line, third group lead line set gradually in the side all around of junction box, have preliminary each group of the winding effect between the line that leads that prevents. Furthermore, one section of each group of lead wires, which is close to the junction box, is fused with the corresponding lead wires, so that the lead wire groups cannot be easily dispersed without external force, and the problem of winding of the lead wires is effectively avoided. The joint of the fusion section and the separation section of each group of lead wires is provided with a wire clamp, so that the wire clamp not only plays a role in fixing, but also can adjust the length of the separation section of the lead wires after being taken down.

Drawings

FIG. 1 is a schematic structural view of an anti-twisting ECG cable of the present invention;

fig. 2 is a schematic structural view of another embodiment of the anti-twisting electrocardiographic lead wire of the present invention.

Names corresponding to the marks in the figure:

1. a main cable; 2. a junction box; 3. a first group of lead wires; 31. a first wire clamp; 4. a second group of lead wires; 41. a second wire clamp; 42. a third wire clamp; 43. a first bundle of limb lead wires; 44. a second limb lead wire; 5. a third group of lead wires; 51. a fourth wire clamp; 52. a fifth wire clamp; 53. a right chest lead harness; 54. a posterior wall lead harness.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by those skilled in the art all belong to the protection scope of the present invention.

The embodiment of the utility model provides a:

as shown in fig. 1, the anti-winding electrocardiograph lead wire comprises a junction box 2, a main cable 1 is arranged on one side of the junction box 2, a first group of lead wires 3, a second group of lead wires 4 and a third group of lead wires 5 are respectively arranged on the other three sides of the junction box 2, the junction box 2 is isosceles trapezoid in shape, and the main cable 1, the first group of lead wires 3, the second group of lead wires 4 and the third group of lead wires 5 are sequentially arranged on the peripheral side of the junction box 2. In this embodiment, the junction box is defined as an isosceles trapezoid, and the shape of the main body of the junction box is mainly isosceles trapezoid. The main cable is defined to enter the junction box from the right side (one side of the isosceles trapezoid) to the left side, and the outgoing lines of the first group of lead wires, the second group of lead wires and the third group of lead wires are respectively positioned on the other three sides (the other three sides of the isosceles trapezoid) of the junction box. The main cable 1, the first group of lead wires 3, the second group of lead wires 4 and the third group of lead wires 5 are distributed on the periphery of the junction box 2, and play a role in preliminarily dispersing each group of wire harnesses. The embodiment is directed to 18 lead wires, which are terms, and conventional 12 lead wires and the like; because the number of the lead wires contained in the anti-twisting device is large and the lead wires have a certain length, the anti-twisting device needs to be further optimized in design so as to achieve a better anti-twisting effect.

The first group of lead wires 3 comprises six chest lead wires (C1-C6) and a first wire clamp 31, wherein the six chest lead wires are arranged in parallel on one section of the first group of lead wires close to the junction box, the outer walls of the adjacent chest lead wires are arranged in a tearable fusion manner, and the six chest lead wires are separately arranged at the tail end of the first group of lead wires. The fusion arrangement means that the outer wall of each wire, i.e. the part of the insulating layer, is fused together, and the wires can be separated by force similarly to a flat cable, and the separated wires are conventional single wires, and the explanation about the fusion part of other groups of lead wires in the following parts is not repeated.

The first line clamp 31 is arranged at the joint of the fusion arrangement and the separate arrangement of the first group of lead wires 3, and each chest lead wire at the left part of the first line clamp 31 is separately arranged and can freely move by a single wire and contact with the corresponding position of the chest of a human body; the chest lead wires on the right side of the first wire clip 31 are fused and can only move integrally. The first wire clip 31 is a plastic piece with a wire clamping groove in the prior art, and plays a role in clamping and fixing a plurality of wires at the position. The second wire clamp, the third wire clamp, the fourth wire clamp and the fifth wire clamp of the following parts are all similar in structure, and are different in specific size and related to the number of wires; the second wire clamp and the third wire clamp are the same, and the fourth wire clamp and the fifth wire clamp are the same.

The second group of lead wires 4 comprises a first limb lead wire 43 and a second limb lead wire 44 which are arranged up and down, the first limb lead wire 43 comprises two first limb lead wires, the two first limb lead wires are arranged in parallel and in a tearable fusion manner on one section of the first limb lead wire close to the junction box, the two first limb lead wires are separately arranged at the tail end of the first limb lead wire, and a second wire clamp 41 is arranged at the junction of the fusion arrangement and the separate arrangement of the first limb lead wires.

The second limb lead wire 44 includes two second limb lead wires, the two second limb lead wires are arranged in parallel and in a tearable fusion manner at a section of the second limb lead wire close to the junction box, the two second limb lead wires are separately arranged at the tail end of the second limb lead wire 44, and a third wire clamp 42 is arranged at the junction of the fusion arrangement and the separate arrangement of the second limb lead wires 44.

The third set of lead wires 5 comprises a right chest lead wire bundle 53 and a posterior wall lead wire bundle 54, which is also more than the 12 lead wires; the right chest lead wire harness 53 comprises three right chest lead wires (C3 r-C5 r), the three right chest lead wires are arranged in parallel and in a tearable fusion mode on a section, close to the junction box, of the right chest lead wire harness 53, the three right chest lead wires are separately arranged at the tail end of the right chest lead wire harness 53, and a fourth wire clamp 51 is arranged at the junction of the fusion mode and the separate mode of the right chest lead wire harness 53.

The rear wall lead wire harness 54 includes three rear wall lead wires (C7-C9), the three rear wall lead wires are juxtaposed and in a tearable fusion arrangement at a section of the rear wall lead wire harness 54 near the junction box, the three rear wall lead wires are separately arranged at the tail end of the rear wall lead wire harness, and a fifth wire clamp 52 is arranged at the junction of the fusion arrangement and the separate arrangement of the rear wall lead wire harness.

The fusion section of the first group of lead wires 3 is obliquely and upwards arranged at the junction box, the fusion section of the third group of lead wires 5 is obliquely and downwards arranged at the junction box and staggered with the second group of lead wires 4 in the middle, and the function of dispersion and winding prevention is achieved. One section of each group of lead wires, which is close to the junction box, is fused with the corresponding lead wires, so that the lead wire groups cannot be easily dispersed without external force, and the problem of winding of the lead wires is effectively avoided. Generally, the length of the divided section (left part of the clip) of each group of lead wires is as follows, the length of the divided part of the limb lead wire is 50cm, and the length of the divided part of the chest lead wire is 30cm; according to actual demand, can adjust this length that divides, take off corresponding fastener, will correspond the line of leading of group or bundle and tear certain length, after length satisfies, reuse fastener is fixed. The anti-winding electrocardio lead wire in the embodiment only needs one deconcentrator, thereby avoiding the problem of cost increase caused by an additional deconcentrator box.

In other embodiments, the distribution box may also be configured to be oval, square or diamond, and it may also be satisfied that the main cable, the first group of lead wires, the second group of lead wires, and the third group of lead wires are sequentially disposed on the peripheral side of the distribution box.

In other embodiments, in order to realize more leads, as shown in fig. 2, a Frank lead is further included on the basis of fig. 1, and chest leads C and E are added between the first limb lead and the second limb lead, the structure is similar to the above embodiment, and is also a fusion arrangement in one section, a separation arrangement in another section, and a wire clip arranged at the junction of the fusion and the separation.

Claims (4)

1. Antiwind electrocardio lead line, its characterized in that: the split junction box comprises a split junction box, wherein a main cable is arranged on one side of the split junction box, a first group of lead wires, a second group of lead wires and a third group of lead wires are respectively arranged on the other three sides of the split junction box, the first group of lead wires comprise six chest lead wires and a first wire clamp, the six chest lead wires are arranged in parallel on one section of the first group of lead wires close to the split junction box, the outer walls of the adjacent chest lead wires are in tearing type fusion arrangement, the six chest lead wires at the tail end of the first group of lead wires are separately arranged, and the first wire clamp is arranged at the junction of the fusion arrangement and the separate arrangement of the first group of lead wires;

the second group of lead wires comprises a first limb lead wire and a second limb lead wire, the first limb lead wire comprises two first limb lead wires, the two first limb lead wires are arranged in parallel and in a tearable fusion manner on a section of the first limb lead wire close to the junction box, the two first limb lead wires are separately arranged at the tail end of the first limb lead wire, and a second wire clamp is arranged at the junction of the fusion arrangement and the separate arrangement of the first limb lead wires;

the second bundle of limb lead wires comprise two second limb lead wires, the two second limb lead wires are arranged in parallel and in a tearable fusion manner on one section of the second bundle of limb lead wires close to the junction box, the two second limb lead wires are separately arranged at the tail end of the second bundle of limb lead wires, and a third wire clamp is arranged at the junction of the fusion arrangement and the separate arrangement of the second bundle of limb lead wires;

the third group of lead wires comprises a right chest lead wire harness and a back wall lead wire harness, the right chest lead wire harness comprises three right chest lead wires, the three right chest lead wires are arranged in parallel and in a tearable fusion manner on a section of the right chest lead wire harness close to the junction box, the three right chest lead wires are separately arranged at the tail end of the right chest lead wire harness, and a fourth wire clamp is arranged at the junction of the fusion arrangement and the separate arrangement of the right chest lead wire harness;

the rear wall lead wire harness comprises three rear wall lead wires, the three rear wall lead wires are arranged in parallel and in a tearable fusion mode on a section, close to the junction box, of the rear wall lead wire harness, the three rear wall lead wires are separately arranged at the tail end of the rear wall lead wire harness, and a fifth wire clamp is arranged at the junction of the fusion mode and the separate mode of the rear wall lead wire harness.

2. The anti-entanglement electrocardiographic lead wire according to claim 1, wherein: the appearance of junction box is isosceles trapezoid, and main cable, first group lead wire, second group lead wire, third group lead wire set gradually in the side all around of junction box.

3. The anti-entanglement electrocardiographic lead wire according to claim 2, wherein: the length direction of the main cable is defined to be the left-right direction, the fusion section of the first group of lead wires is obliquely upwards arranged from the junction box, and the fusion section of the third group of lead wires is obliquely downwards arranged from the junction box.

4. The anti-entanglement electrocardiographic lead wire according to claim 1, wherein: the shape of the junction box is oval, square or rhombic.

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