CN217310330U - Lead wire collator for ECG monitor - Google Patents

Abstract

The utility model discloses a lead wire collator of an ECG monitor, which comprises a box body, a rotating part and a driving part; the box body comprises N mounting holes, one end of each mounting hole forms a first opening, the other end of each mounting hole forms a second opening, N first through holes are formed in one side of the side portion of the box body, N second through holes are formed in the other side of the side portion of the box body, each second through hole corresponds to one first through hole, and the side portion of the box body is provided with a first positioning structure; the number of the rotating parts is N, each rotating part is arranged on a first opening, and the rotating parts are provided with fixing mechanisms for fixing a lead wire; the number of the driving parts is N, each driving part is arranged on a second opening, each driving part is connected with one rotating part and drives the rotating part to rotate together with the fixing mechanism on the rotating part, and each driving part is provided with a second positioning structure matched with the first positioning structure. The utility model discloses can accomodate many lead lines respectively for the difficult winding of different lead lines is in the same place.

Description

Lead wire collator for ECG monitor

Technical Field

The utility model relates to the technical field of medical instruments, in particular to a lead wire collator of an ECG monitor.

Background

The electrocardiographic monitoring is a means for monitoring the electrical activity of the heart, blood pressure, respiration and oxygen saturation, and the common electrocardiograph can only simply observe the transient electrocardiographic activity at that time and cannot monitor the continuous activity of the electrocardiograph. The electrocardiogram monitoring makes up for the defect of short electrocardiogram time. The electrocardiographic monitoring is a non-invasive detection method, can timely observe the state of an illness, provides valuable electrocardiographic activity, blood pressure conditions, respiration and oxygen saturation conditions, and is suitable for patients with abnormal electrocardiographic activity.

The electrocardiograph monitor is usually connected with a plurality of lead wires, for example, the common electrocardiograph monitor is connected with five lead wires or three lead wires, each lead wire is connected with an electrode plate, when in use, different electrode plates are pasted on different parts of a patient, so as to accurately reflect the properties of arrhythmia, detect important indexes such as heart rate, myocardial blood supply, blood oxygen saturation and the like, and provide basis for early diagnosis and treatment.

After the traditional ECG monitor is connected with a plurality of lead wires, different lead wires are easily wound together, meanwhile, the lead wires are long in length, and during use, the lead wires are easily contacted with the ground, so that the lead wires are easily treaded by passers-by, and the passers-by is stumbled by the lead wires on the ground.

SUMMERY OF THE UTILITY MODEL

The present invention aims at solving at least one of the technical problems in the above-mentioned technology to a certain extent. Therefore, an object of the utility model is to provide an ECG monitor line collator that leads, it can accomodate many lead lines respectively for the difficult winding of different lead lines is in the same place.

In order to achieve the above object, the embodiment of the present invention provides a lead wire organizer for an electrocardiograph monitor, which comprises a box body, a rotating member and a driving member;

the box body comprises N mounting holes, one end of each mounting hole forms a first opening, the other end of each mounting hole forms a second opening, N first through holes are formed in one side of the side portion of the box body, N second through holes are formed in the other side of the side portion of the box body, each second through hole corresponds to one first through hole, and the side portion of the box body is provided with a first positioning structure;

the number of the rotating parts is N, each rotating part is arranged on a first opening, and the rotating parts are provided with fixing mechanisms for fixing a lead wire;

the number of the driving parts is N, each driving part is arranged on a second opening, each driving part is connected with a rotating part and drives the rotating part to rotate together with the fixing mechanism on the rotating part, and a second positioning structure matched with the first positioning structure is arranged on each driving part;

wherein N is an integer of 2 or more.

According to the utility model discloses ECG monitor line collator that leads, when the installation, earlier a plurality of rotation pieces set up respectively on the first opening of difference, then penetrate one of them line of leading from a first perforation, wear out from a second perforation, and fix this line of leading on the fixed establishment of this rotation piece, penetrate another line of leading from another first perforation after that, wear out from another second perforation, and fix this line of leading on the fixed establishment of this rotation piece, repeat above-mentioned step and fix many lines of leading on the fixed establishment of difference, and finally, set up different driving pieces on the second opening of difference, and be connected with the rotation piece of difference. When the storage device is used for storing the lead wire, the force is applied to the driving part to drive the driving part to rotate, the driving part rotates to drive the rotating part to rotate, and the lead wire is wound on the fixing mechanism when the rotating part rotates due to the fact that the lead wire is fixed on the fixing mechanism of the rotating part. Force is applied to the other driving member to accommodate the other lead wire. Accomodate many lead the line to suitable length after, first location structure and the cooperation of second location structure to prevent that the driving piece from rotating. Therefore, the utility model discloses can accomodate many lead wires respectively for the difficult winding of different lead wires is in the same place.

In addition, according to the utility model discloses an ECG monitor line collator that leads that above-mentioned embodiment provided can also have following additional technical characterstic:

further, N equals 3 or N equals 5.

Furthermore, fixed establishment is the fixed column, and the fixed column includes first fixed arm and second fixed arm, forms the standing groove that supplies a lead wire to place between first fixed arm and the second fixed arm.

Further, the outer side walls of the first fixing arm and the second fixing arm are arc winding surfaces.

Furthermore, inner side walls of the first fixing arm and the second fixing arm are provided with internal threads; set up the actuating lever on the driving piece, the actuating lever sets up the external screw thread, and the actuating lever passes through external screw thread and internal thread and fixed column threaded connection.

Further, the first through hole and the second through hole are track-shaped through holes.

Further, the outer end face of the driving piece is provided with a knob.

Furthermore, the first positioning structure is a rough surface, and the second positioning structure is a hook surface.

Drawings

Fig. 1 is a schematic structural view of a lead wire organizer of an electrocardiograph monitor according to an embodiment of the present invention;

fig. 2 is a schematic structural view of another electrocardiograph monitor lead wire organizer according to an embodiment of the present invention;

fig. 3 is an exploded view of a lead wire organizer for an electrocardiograph monitor according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a rotating member according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a driving member according to an embodiment of the present invention.

Description of the reference symbols

The box body 1, the mounting hole 11, the second opening 111 and the first through hole 12;

the rotating piece 2, the fixed column 21, the first fixed arm 211, the second fixed arm 212, the placing groove 213, the arc winding surface 214 and the internal thread 215;

the driving piece 3, the driving rod 31, the external thread 311 and the knob 32;

a first positioning structure 4;

a second positioning structure 5;

a lead wire 10;

an electrocardiograph monitor 20.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary intended for explaining the present invention, and should not be construed as limiting the present invention.

As shown in fig. 1 to 5, the lead wire organizer of the electrocardiograph monitor according to the embodiment of the present invention includes a box body 1, a rotating member 2 and a driving member 3; box body 1 includes a plurality of mounting hole 11 of N, and 11 one end in each mounting hole forms first opening, and 11 other ends in each mounting hole form second opening 111, and 1 lateral part one side of box body sets up a plurality of first perforation 12 of N, and 1 lateral part opposite side of box body sets up a plurality of second perforation, and each second perforation corresponds with a first perforation 12, and 1 lateral part of box body sets up first location structure 4.

The number of the rotating parts 2 is N, each rotating part 2 is arranged on a first opening, and the rotating parts 2 are provided with fixing mechanisms for fixing a lead wire 10; the number of the driving parts 3 is N, each driving part 3 is arranged on a second opening 111, each driving part 3 is connected with a rotating part 2 and drives the rotating part 2 to rotate together with the fixing mechanism on the rotating part 2, and each driving part 3 is provided with a second positioning structure 5 matched with the first positioning structure 4; wherein N is an integer of 2 or more.

During installation, the rotating parts 2 are respectively arranged on different first openings, then one of the lead wires 10 is inserted into one first through hole 12 and is penetrated out of one second through hole, the lead wire 10 is fixed on a fixing mechanism of the rotating part 2, then the other lead wire 10 is inserted into the other first through hole 12 and is penetrated out of the other second through hole, the lead wire 10 is fixed on a fixing mechanism of the rotating part 2, the steps are repeated to fix the lead wires 10 on different fixing mechanisms, and finally, different driving parts 3 are arranged on different second openings 111 and are connected with different rotating parts 2. When the storage box is used, force is applied to a driving part 3 to drive the driving part 3 to rotate, the driving part 3 rotates to drive a rotating part 2 to rotate, a lead wire 10 is fixed on a fixing mechanism of the rotating part 2, and when the rotating part 2 rotates, the lead wire 10 is wound on the fixing mechanism to store the lead wire 10. Force is applied to the other driving member 3 to receive the other lead wire 10. After the plurality of lead wires 10 are stored to a proper length, the first positioning structure 4 is matched with the second positioning structure 5, so that the driving part 3 is prevented from rotating. Therefore, the utility model discloses can accomodate many lead wire 10 respectively for the difficult winding of different lead wire 10 is in the same place.

The lead wire 10 connected to the conventional electrocardiograph monitor 20 is usually a three-lead wire or a five-lead wire, in this example, as shown in fig. 2, N may be equal to 3, that is, three mounting holes 11 are provided on the box body 1, and three rotating members 2 and three driving members 3 are provided to match the three-lead wire. Of course, as shown in fig. 1, N may also be equal to 5, five mounting holes 11 are provided on the box body 1, and five rotating members 2 and five driving members 3 are provided to match the five lead wires.

In this example, the fixing mechanism may be a fixing post 21, the fixing post 21 includes a first fixing arm 211 and a second fixing arm 212, and a placing slot 213 for placing a lead wire 10 is formed between the first fixing arm 211 and the second fixing arm 212. After the lead wire 10 is inserted into the first through hole 12 and pulled out of the second through hole, a portion of the lead wire 10 located between the first through hole 12 and the second through hole may be pressed into the placement groove 213, thereby fixing the lead wire 10 and facilitating the storage of the lead wire 10.

As an example, the outer side walls of the first fixing arm 211 and the second fixing arm 212 are arc winding surfaces 214, that is, after a lead wire 10 is fixed in the placing groove 213, the driving member 3 is driven to rotate to drive the rotating member 2 to rotate, the rotating member 2 rotates together with the fixing post 21 to drive the lead wire 10 to wind on the arc winding surfaces 214, so as to receive the lead wire 10, and the receiving manner of other lead wires 10 is the same.

In this example, the inner side walls of the first fixing arm 211 and the second fixing arm 212 are provided with inner threads 215; the driving rod 31 is arranged on the driving piece 3, the driving rod 31 is provided with an external thread 311, and the driving rod 31 is in threaded connection with the fixed column 21 through the external thread 311 and the internal thread 215. When the installation, will rotate piece 2 and set up on first opening, driving piece 3 sets up on second opening 111, driving lever 31 of driving piece 3 earlier with fixed column 21 threaded connection, connect the completion back, driving piece 3 rotates and drives fixed column 21 and rotate, realizes that lead line 10 accomodates.

In order to prevent the lead wire 10 from being scratched by the case body 1 when the lead wire 10 is stored, the first through hole 12 and the second through hole are runway-shaped through holes, when the lead wire 10 is stored, the lead wire 10 is stored and moved along the runway-shaped through holes, and two ends of the runway-shaped through holes are arc-shaped, so that the outer surface of the lead wire 10 cannot be scratched when the lead wire 10 is stored and moved, the lead wire is not clamped when being stored, and the storage efficiency is high.

In order to facilitate the rotation of the driving member 3, in this example, the knob 32 is disposed on the outer end surface of the driving member 3, when the storage is needed, the thumb and the forefinger of the user can grasp the knob 32 and then apply a force to rotate the driving member 3, and the rotation of the driving member 3 is facilitated by disposing the knob 32.

In some examples, the first positioning structure 4 is a hair surface, and the second positioning structure 5 is a hook surface, that is, the first positioning structure 4 and the second positioning structure 5 are connected and matched through a hook and loop fastener structure. After the lead wire 10 is stored to a proper length, the hook surface is adhered to the hair surface, so that the driving member 3 is prevented from rotating.

The utility model discloses ECG monitor line collator of leading can adjust respectively many lead line 10 and accomodate to suitable length, can prevent lead line 10 and ground contact and stumble the people of passing by, and many lead line 10 are difficult for twining together, simple structure, and it is convenient to adjust.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications made by those skilled in the art should not be construed as departing from the scope of the present invention.

Claims (7)

1. The utility model provides an ECG monitor line collator that leads which characterized in that: comprises a box body, a rotating part and a driving part;

the box body comprises N mounting holes, one end of each mounting hole forms a first opening, the other end of each mounting hole forms a second opening, N first through holes are formed in one side of the side portion of the box body, N second through holes are formed in the other side of the side portion of the box body, each second through hole corresponds to one first through hole, and the side portion of the box body is provided with a first positioning structure;

the number of the rotating parts is N, each rotating part is arranged on a first opening, and the rotating parts are provided with fixing mechanisms for fixing a lead wire;

the number of the driving parts is N, each driving part is arranged on a second opening, each driving part is connected with a rotating part and drives the rotating part to rotate together with the fixing mechanism on the rotating part, and a second positioning structure matched with the first positioning structure is arranged on each driving part;

wherein N is an integer of 2 or more.

2. The ECG monitor lead wire organizer of claim 1, wherein: n equals 3 or N equals 5.

3. The electrocardiograph monitor lead wire collator according to claim 1, wherein: the fixing mechanism is a fixing column which comprises a first fixing arm and a second fixing arm, and a placing groove for placing a lead wire is formed between the first fixing arm and the second fixing arm.

4. The ECG monitor lead wire organizer of claim 3, wherein: the outer side walls of the first fixing arm and the second fixing arm are arc winding surfaces.

5. The ECG monitor lead wire organizer of claim 3, wherein: inner side walls of the first fixed arm and the second fixed arm are provided with internal threads; set up the actuating lever on the driving piece, the actuating lever sets up the external screw thread, and the actuating lever passes through external screw thread and internal thread and fixed column threaded connection.

6. The electrocardiograph monitor lead wire collator according to claim 1, wherein: the first positioning structure is a hair surface, and the second positioning structure is a hook surface.

7. The electrocardiograph monitor lead wire collator according to claim 1, wherein: the first through hole and the second through hole are runway-shaped through holes.

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