CN219109478U

CN219109478U - Wire stroking device for electrocardiograph

Info

Publication number: CN219109478U
Application number: CN202223390912.3U
Authority: CN
Inventors: 吴菊梅
Original assignee: First Peoples Hospital of Guangyuan
Current assignee: First Peoples Hospital of Guangyuan
Priority date: 2022-12-18
Filing date: 2022-12-18
Publication date: 2023-06-02
Anticipated expiration: 2032-12-18

Abstract

A wire stroking device for electrocardiograph comprises a wire dividing seat and a corrugated pipe; the inner end of the corrugated pipe is sleeved and fixed on the branching seat; a distribution board is arranged at the inner end port of the corrugated pipe; the outer end port of the corrugated pipe is provided with a wire arranging disc; the wire distributing disc is provided with a plurality of threading holes, the wire distributing disc is provided with a plurality of wire arranging holes, and the plurality of threading holes are matched with the plurality of wire arranging holes. One embodiment is that the branching seat is provided with three branching seats. The distributing disc and the arranging disc play roles in positioning and orderly arranging the wires in the stretching process of the corrugated tube, and have a wire straightening function. The wire sorting machine has high working efficiency and saves the time for wire sorting in conventional operation. The embodiment of three sub-seat openings is adopted, the wires are divided into three groups to be positioned and arranged, the operation and the use are more convenient, and the arrangement is also quicker.

Description

Wire stroking device for electrocardiograph

Technical Field

The utility model relates to a medical apparatus, in particular to a wire stroking device for an electrocardiograph.

Background

In the prior art, electrocardiographs used in hospitals are medical electronic instruments commonly used in clinical diagnosis and scientific research, and can automatically record bioelectric signals generated by myocardial activation during heart activities. The transmission bus of the electrocardiograph generally comprises 10 wires, and is divided into three groups, wherein the first group is 6 chest wires, the second group is 2 upper limb wires, the third group is 2 lower limb wires, and the tail ends of the wires of the electrocardiograph are required to be connected with different parts of a human body. Because need be connected with the machine with human different positions through the wire, the wire needs sufficient length, and when using after finishing accomodating the wire, the wire of overlength is inconvenient for accomodate, and the interwinding is difficult to be straightened when needing to use, not only influences work efficiency, often still delays the treatment.

Chinese patent document CN 203953652U discloses an electrocardiograph lead wire anti-winding device, which adopts a lead wire grouping mode to respectively pass through a wire tube, and a fixing groove is arranged at the far end of the wire tube for positioning and arranging in a row. The defects are that: 1. the arrangement of the wire tube and the fixing groove occupies space, and the working length of the wire is shortened due to the fact that the wire passes through the wire tube, so that the normal use of the wire is affected; 2. the wires are arranged before and after each detection operation (10 wires are required to be taken out of or clamped into the fixing grooves respectively), so that the working efficiency is seriously affected. 3. The wires in the same group may be entangled with each other during use. There is a need in clinical practice for a technical solution that avoids wire winding and does not affect the working efficiency.

Disclosure of Invention

The utility model aims to provide a wire stroking device for an electrocardiograph.

The utility model adopts the following technical scheme: comprises a branching seat and a corrugated pipe; the inner end of the corrugated pipe is sleeved and fixed on the branching seat; a distribution board is arranged at the inner end port of the corrugated pipe; the outer end port of the corrugated pipe is provided with a wire arranging disc; the wire distributing disc is provided with a plurality of threading holes, the wire distributing disc is provided with a plurality of wire arranging holes, and the plurality of threading holes are matched with the plurality of wire arranging holes.

The principle and the using method of the utility model are as follows: firstly, a wire distributing seat is fixed on a desktop near the base part of a transmission bus of an electrocardiograph, a plurality of wires respectively penetrate through the wire distributing seat, then sequentially penetrate through a wire distributing disc and a wire distributing disc of a corrugated pipe, and then the corrugated pipe is arranged on the wire distributing seat. The corrugated pipe is in an extending state during the use period of the electrocardiograph, and a plurality of wires are recovered into the corrugated pipe and orderly arranged between the distribution board and the wire arranging board. When the electrocardiograph is used, an operator can adjust the corrugated pipe to a contracted state while tightening the outer ends of the plurality of wires, and the plurality of wires immediately penetrate out of the corrugated pipe to be in an orderly separated state, so that the operation inspection can be normally performed. After the inspection, the operator stretches the corrugated pipe to return to the extended state, and the plurality of wires are recovered to be orderly arranged in the corrugated pipe. The distributing disc and the arranging disc play roles in positioning and orderly arranging the wires in the stretching process of the corrugated tube, so that the wire straightening function of a plurality of wires is realized.

The improvement is that the branching seat is provided with three branching seats, each of the three branching seats comprises a first seat capable of penetrating 6 chest wires, a second seat capable of penetrating 2 upper limb wires and a third seat capable of penetrating 2 lower limb wires, and each corrugated pipe comprises a first corrugated pipe, a second corrugated pipe and a third corrugated pipe; the first corrugated pipe is fixed on the first seat, the second corrugated pipe is fixed on the second seat, and the third corrugated pipe is fixed on the third seat.

The structure divides 10 wires (6 chest wires, 2 upper limb wires and 2 lower limb wires) into three groups, and the three corrugated pipes are used for classifying, positioning and arranging, so that the operation is more convenient and the arrangement is also quicker.

The wire distributing seat is characterized in that the wire distributing seat is provided with 1 single seat opening, the number of the corrugated pipes is 1, the number of the wire penetrating holes is 10, and the number of the wire distributing holes is 10. The structure classifies, positions and arranges 10 wires (6 chest wires, 2 upper limb wires and 2 lower limb wires) through the corrugated pipe, and can finish the arrangement work of the 10 wires at one time, and the structure is simple and the operation is simple.

The utility model has the following advantages: 1. has the function of stroking wires. The distributing disc and the arranging disc play roles in positioning and orderly arranging the wires in the stretching process of the corrugated tube, and the mutual winding of a plurality of wires in the using period is effectively avoided. 2. The working efficiency is high. Compared with the technical proposal of the spool and the fixing groove of the Chinese patent document CN 203953652U, the method omits the step of orderly arranging each wire before and after operation, and avoids the problem of influencing the working efficiency. Because the mutual winding of the wires is avoided, the time for arranging the wires in the conventional operation is saved, and the working efficiency of electrocardiographic examination is improved. 3. The occupied space is small. After the electrocardiographic examination operation is finished, the lead arrangement can be easily finished by stretching the corrugated tube, and the leads are orderly arranged in the corrugated tube, so that excessive space is not occupied. 4. The embodiment of three corrugated pipes is adopted, 10 wires are divided into three groups to be positioned and arranged, the operation is more convenient, and the arrangement is also quicker.

Drawings

Fig. 1 is a schematic perspective view of a branching seat according to an embodiment of the present utility model.

Fig. 2 is a schematic view of the structure (bellows retraction) of the first embodiment of the present utility model.

Fig. 3 is a schematic view of the structure of a first embodiment of the present utility model (including a plurality of wires).

Fig. 4 is a schematic view of the bellows structure of the present utility model.

Fig. 5 is a schematic structural diagram of a second embodiment of the present utility model.

Fig. 6 is a schematic view of the modified structure (stretched state) of fig. 3.

In the figure: the wire distributing seat 1, the corrugated tube 2, the inner end 3, the wire distributing disc 4, the outer end 5, the wire distributing disc 6, the threading hole 7, the wire distributing hole 8, the first seat 11, the second seat 12, the third seat 13, the single seat 14, the first corrugated tube 21, the second corrugated tube 22 and the third corrugated tube 23.

Detailed Description

As shown in fig. 1 to 6, one embodiment of the present utility model includes a branching seat 1 and a bellows 2; the inner end 3 of the corrugated pipe 2 is sleeved and fixed on the branching seat 1; a port 3 at the inner end of the corrugated pipe 2 is provided with a distribution board 4; a wire arranging disc 6 is arranged at the port of the outer end 5 of the corrugated pipe 2; the wire distributing disc 4 is provided with a plurality of threading holes 7, the wire distributing disc 6 is provided with a plurality of wire arranging holes 8, and the plurality of threading holes 7 are matched with the plurality of wire arranging holes 8.

The principle and the using method of the utility model are as follows: firstly, a wire distributing seat 1 is fixed on a desktop near the base part of a transmission bus of an electrocardiograph, a plurality of wires respectively penetrate through the wire distributing seat 1, then sequentially penetrate through a wire distributing disc 4 and a wire distributing disc 6 of a corrugated pipe 2, and then the corrugated pipe 2 is arranged on the wire distributing seat 1. The corrugated tube 2 is in an extending state during the waiting period of the electrocardiograph, and a plurality of wires are recovered into the corrugated tube 2 and orderly arranged between the distribution board 4 and the wire arranging board 6. When the electrocardiograph is used, an operator can adjust the corrugated tube 2 to a retracted state while tightening the outer ends of the plurality of wires, and the plurality of wires immediately penetrate out of the corrugated tube 2 to be in an orderly-arranged state, so that the operation and the inspection can be normally performed at the moment. After the inspection, the operator stretches the corrugated tube 2 to return to the extended state, and the plurality of wires are recovered to be orderly arranged in the corrugated tube 2. The distributing disc 4 and the arranging disc 6 play roles in positioning and orderly arranging the wires in the stretching process of the corrugated tube 2, so that the wire stroking function of a plurality of wires is realized.

As shown in fig. 1, 2, 3 and 6, the branching seat 1 is provided with three sub-seats, the three sub-seats comprise a first seat 11 through which 6 chest wires can be inserted, a second seat 12 through which 2 upper limb wires can be inserted and a third seat 13 through which 2 lower limb wires can be inserted, and the corrugated tube 2 comprises a first corrugated tube 21, a second corrugated tube 22 and a third corrugated tube 23; the first bellows 21 is fixed to the first seat 11, the second bellows 22 is fixed to the second seat 12, and the third bellows 23 is fixed to the third seat 13. The structure divides 10 wires (6 chest wires, 2 upper limb wires and 2 lower limb wires) into three groups, and the three corrugated pipes 2 are classified, positioned and arranged, so that the operation is more convenient and the arrangement is also quicker.

As shown in fig. 5, another improvement is that the branching seat is provided with 1 single seat opening 14, the number of the corrugated pipes 2 is 1, the number of the threading holes 7 is 10, and the number of the wire arranging holes 8 is 10. The structure classifies, positions and arranges 10 wires (6 chest wires, 2 upper limb wires and 2 lower limb wires) through one corrugated pipe 2, and can finish the arrangement work of the 10 wires at one time, and the structure is simple and the operation is simple.

The utility model is not limited to the specific structure of the above embodiment, and equivalent transformation of other similar structures falls within the protection scope of the utility model.

Claims

1. A wire stroking device for electrocardiograph is characterized in that: comprises a branching seat and a corrugated pipe; the inner end of the corrugated pipe is sleeved and fixed on the branching seat; a distribution board is arranged at the inner end port of the corrugated pipe; the outer end port of the corrugated pipe is provided with a wire arranging disc; the wire distributing disc is provided with a plurality of threading holes, the wire distributing disc is provided with a plurality of wire arranging holes, and the plurality of threading holes are matched with the plurality of wire arranging holes.

2. A wire stripper for an electrocardiograph according to claim 1, wherein: the branching seat is provided with three branching seats, each of the three branching seats comprises a first seat capable of penetrating through 6 chest wires, a second seat capable of penetrating through 2 upper limb wires and a third seat capable of penetrating through 2 lower limb wires, and each corrugated pipe comprises a first corrugated pipe, a second corrugated pipe and a third corrugated pipe; the first corrugated pipe is fixed on the first seat, the second corrugated pipe is fixed on the second seat, and the third corrugated pipe is fixed on the third seat.

3. A wire stripper for an electrocardiograph according to claim 1, wherein: the wire distributing seat is provided with 1 single seat, the number of the corrugated pipes is 1, the number of the threading holes is 10, and the number of the wire arranging holes is 10.