CN218075014U - A storage device for electrocardio-drawing line - Google Patents

Abstract

The utility model discloses a containing device for an electrocardiograph wire, which comprises a shell, a winding device and a tape, wherein the winding device and the tape are arranged in the shell, one side of the shell is provided with a notch for the tape to pass through, the tape is wound on the winding device, one end of the tape is fixedly connected with the winding device, and the other end of the tape extends to the outside of the shell through the notch; the electrocardiogram line is fixed along the length direction of the tape, the length of the electrocardiogram line is greater than that of the tape, a first through hole is formed in the position, corresponding to the winding device, of the shell, one end of the electrocardiogram line penetrates through the first through hole and extends to the outside of the shell, and the other end of the electrocardiogram line extends to the outside of the shell through the notch; the utility model discloses simple structure, convenient to use can effectually avoid the chaotic condition of electrocardio-line and signal transmission process mutual interference to appear in the long-term use of heart motor, have guaranteed quick going on smoothly of electrocardio inspection, improve medical personnel's work efficiency simultaneously.

Description

A storage device for electrocardio-drawing line

Technical Field

The utility model relates to the technical field of medical equipment, more specifically the storage device who relates to a be used for electrocardio-line that says so.

Background

The electrocardiograph can automatically record the bioelectric signals (electrocardio signals) generated by exciting cardiac muscle during heart activity, and is a medical electronic instrument commonly used for clinical diagnosis and scientific research. Because the distance between each part of the body and the heart is different due to different tissues of each part, different potential changes are shown at each part of the body surface, the relation between the surface potential generated by the electrical activity in the heart of the human body and the time is called electrocardiogram, and the electrocardiograph is an instrument for recording these physiological electrical signals.

The electrocardio-wires needed by the electrodes at the chest part are more in clinic when electrocardiographic examination is carried out, the electrocardio-wires are easy to be wound each other when in use, medical workers are inconvenient in operation, and meanwhile, after the electrocardio-wires are wound, the condition of mutual interference can also occur when the collected signals are transmitted, so that the image collection and the diagnosis quality of patients are influenced, at the moment, the medical workers are needed to arrange the electrocardio-wires which are wound each other one by one, the time and the labor are wasted, and the medical resources are indirectly wasted.

SUMMERY OF THE UTILITY MODEL

The utility model provides a solve above-mentioned technical problem and provide a storage device for electrocardio-drawing line.

In order to achieve the above purpose, the utility model provides a storage device for an electrocardiograph wire, which comprises a shell, a winding device and a tape, wherein the winding device and the tape are arranged inside the shell;

the electrocardiogram line is fixed along the length direction of the tape, the length of the electrocardiogram line is larger than that of the tape, a first through hole is formed in the position, corresponding to the winding device, of the shell, one end of the electrocardiogram line penetrates through the first through hole and extends to the outside of the shell, and the other end of the electrocardiogram line extends to the outside of the shell through the notch.

Preferably, the winding device is a winding drum, and the winding drum can rotate in the shell;

two ends of the winding drum are communicated, the caliber of the port is larger than the aperture of the first through hole, one end of the winding drum is over against the first through hole, a second through hole for the electrocardiogram line to pass through is formed in the side surface of the winding drum, and the contact part of the electrocardiogram line and the winding drum is fixed;

the other end of the winding drum penetrates through the shell and is connected with a rocking handle.

Preferably, the end of the spool is connected to the housing by a bearing.

Preferably, the winding device comprises a spring, a winding drum, a positioning rod and a positioning mechanism, the winding drum is sleeved on the positioning rod, the spring is sleeved on a position between the winding drum and the positioning rod, one end of the spring is fixed on the positioning rod, the other end of the spring is fixed on the winding drum, and the positioning rod is fixed on the shell;

the first through hole is formed in the position, corresponding to the end part of the winding drum, of the shell, a third through hole for the electrocardiogram line to pass through is formed in the winding drum, and the part, in contact with the winding drum, of the electrocardiogram line is fixed;

the positioning mechanism is arranged outside the shell and clings to the notch.

Preferably, the winding reel is also connected to the housing by a bearing.

Preferably, the width of the clockwork spring is smaller than the length of the winding drum, and the third through hole is formed in a position, where the winding drum avoids the clockwork spring, of the winding drum.

Preferably, the aperture of the third through hole is larger than the thickness of the electrocardiogram line.

Preferably, positioning mechanism constitute at breach top locating plate by fixing the base and the sliding connection in the breach bottom, the base corresponds the one side of locating plate has the constant head tank, chi area and electrocardio-graphic line all pass through from the position between base and the slide orientation board, and all seted up on slide orientation board and the base and kept away the groove.

Preferably, the electrocardiogram wire is detachably connected to the electrocardiogram machine.

Preferably, the electrocardiogram is inserted on the electrocardiogram machine.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

the utility model discloses simple structure, convenient to use can effectually avoid the chaotic condition of electrocardio-line and signal transmission process mutual interference to appear in the long-term use of heart motor, have guaranteed going on smoothly fast of electrocardio inspection, improve medical personnel's work efficiency simultaneously.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principle of the invention.

Fig. 1 is an overall schematic view of embodiment 1 of the present invention;

fig. 2 is a schematic cross-sectional view of embodiment 1 of the present invention;

fig. 3 is a schematic view of the installation of the winding device in embodiment 2 of the present invention;

fig. 4 is an installation diagram of the winding device in embodiment 3 of the present invention.

Description of reference numerals:

1. the device comprises a shell, 2, a winding device, 211, a winding drum, 212, a second through hole, 213, a rocking handle, 221, a spiral spring, 222, a winding drum, 223, a positioning rod, 224, a positioning mechanism, 225, a third through hole, 226, a base, 227, a sliding positioning plate, 3, a tape, 4, a notch, 5, an electrocardiogram, 6, a bearing, 11 and a first through hole.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.

Example 1:

as shown in fig. 1-2, a containing device for an electrocardiograph wire comprises a housing 1, a winding device and a tape 3, wherein the winding device and the tape 3 are arranged inside the housing 1, one side of the housing 1 is provided with a notch 4 for the tape 3 to pass through, the tape 3 is wound on the winding device 2, one end of the tape is fixedly connected with the winding device 2, and the other end of the tape extends to the outside of the housing 1 through the notch 4;

the electrocardiogram 5 is fixed along the length direction of the tape 3, the length of the electrocardiogram 5 is greater than that of the tape 3, a first through hole 11 is formed in the position, corresponding to the winding device 2, of the shell 1, one end of the electrocardiogram 5 penetrates through the first through hole 11 and extends to the outside of the shell 1, and the other end of the electrocardiogram 5 extends to the outside of the shell 1 through the notch 4;

after the heart motor is put into use, the winding device 2 is rotated to wind the tape 3 on the winding device 2, and at the moment, the electrocardiogram 5 is also wound on the winding device 2, so that the electrocardiogram 5 is stored;

when the heart motor is needed to be used, the tape 3 is drawn out of the shell 1, the electrocardiogram 5 is also drawn out of the shell 1, and then the heart motor is used;

in practice, the length of the electrocardiogram 5 outside the shell 1 can be controlled by rotating the winding device 2.

Preferentially, reduce the torsion when accomodating electrocardiogram 5 or laying electrocardiogram 5, electrocardiogram 5 detachable connects on the heart motor, and is concrete, and electrocardiogram 5 pegs graft on the heart motor for but quick assembly disassembly between electrocardiogram 5 and the heart motor.

Example 2:

on the basis of the embodiment 1, a winding device is provided, specifically, as shown in fig. 3, the winding device is a winding drum 211, and the winding drum 211 can rotate in the housing 1;

two ends of the winding drum 211 are through, the aperture of the port is larger than the aperture of the first through hole 11, one end of the winding drum 211 is opposite to the first through hole 11, the side surface of the winding drum 211 is provided with a second through hole 212 for the electrocardiogram 5 to pass through, and the contact part of the electrocardiogram 5 and the winding drum 211 is fixed;

the other end of the winding drum passes through the shell 1 and is connected with a rocking handle 213;

the ruler tape 3 is fixed on the winding drum 211, one end of the electrocardiogram 5, which is used for connecting with the heart motor, sequentially passes through the second through hole 212 and the first through hole 11 and extends to the outside of the shell 1, when the electrocardiogram 5 needs to be stored, the winding drum 211 is rotated through the rocking handle 213, so that the ruler tape 3 is wound on the winding drum 211, and the storing of the electrocardiogram 5 is further realized; when the electrocardiogram 5 needs to be paid out from the shell 1, the tape 3 can be drawn out from the shell 1;

specifically, the end of the spool 21 is connected to the housing 1 through a bearing 6.

Example 3:

the winding device is provided based on embodiment 1, specifically, as shown in fig. 4, the winding device includes a spring 221, a winding drum 222, a positioning rod 223 and a positioning mechanism 224, the winding drum 222 is sleeved on the positioning rod 223, the spring 221 is sleeved on a position between the winding drum 222 and the positioning rod 223, one end of the spring 221 is fixed on the positioning rod 223, the other end is fixed on the winding drum 222, and the positioning rod 223 is fixed on the housing 1;

the first through hole 11 is arranged at a position of the shell 1 corresponding to the end part of the winding drum 222 and is close to the drum wall of the winding drum 222, the winding drum 222 is provided with a third through hole 225 for the electrocardiogram 5 to pass through, and the contact part of the electrocardiogram 5 and the winding drum 222 is fixed;

the positioning mechanism 224 is arranged outside the shell 1 and is tightly attached to the notch 4;

the ruler tape 3 is fixed on the winding drum 222, one end of the electrocardiogram 5, which is used for connecting the electrocardiogram motor, sequentially passes through the third through hole 225 and the first through hole 11 and extends to the outside of the shell 1, when the electrocardiogram 5 needs to be released from the shell 1, the ruler tape 3 is drawn out of the shell 1, the clockwork spring 221 is contracted at the moment, and after the electrocardiogram 5 with the needed length is obtained, the ruler tape 3 is fixed through the positioning mechanism 224; when the electrocardiogram 5 needs to be stored in the shell 1, the tape 3 is released through the positioning mechanism 224, the clockwork spring 221 is reset at the moment, the winding drum 222 rotates, the tape 3 is wound on the winding drum 222 at the moment, and the electrocardiogram 5 is stored in the shell 1;

specifically, the winding reel 222 is also connected to the housing 1 through the bearing 6.

In a preferred embodiment of the above embodiment, the width of the power spring 221 is smaller than the length of the winding drum 222, and the third through hole 225 is formed at a position where the winding drum 222 avoids the power spring 221.

As a preferable solution of the above embodiment, the aperture of the third through hole 225 is larger than the thickness of the electrocardiograph 5.

As a preferable scheme of the above embodiment, the positioning mechanism 224 is composed of a base 226 fixed at the bottom of the notch 4 and a positioning plate 227 slidably connected with the top of the notch 4, one surface of the base 226 corresponding to the positioning plate 227 is provided with a positioning groove, the tape 3 and the electrocardiogram 5 both pass through the position between the base 226 and the sliding positioning plate 227, and the sliding positioning plate 227 and the base 226 are both provided with avoiding grooves.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. The storage device for the electrocardiogram wire is characterized by comprising a shell, a winding device and a tape, wherein the winding device and the tape are arranged in the shell;

the electrocardiogram line is fixed along the length direction of the tape, the length of the electrocardiogram line is larger than that of the tape, a first through hole is formed in the position, corresponding to the winding device, of the shell, one end of the electrocardiogram line penetrates through the first through hole to extend to the outside of the shell, and the other end of the electrocardiogram line penetrates through the notch to extend to the outside of the shell.

2. The container of claim 1, wherein the winding device is a spool rotatable within the housing;

two ends of the winding drum are communicated, the caliber of the port is larger than the aperture of the first through hole, one end of the winding drum is over against the first through hole, a second through hole for the electrocardiogram line to pass through is formed in the side surface of the winding drum, and the part of the electrocardiogram line, which is in contact with the winding drum, is fixed;

the other end of the winding drum penetrates through the shell and is connected with a rocking handle.

3. The storage device for electrocardiograph according to claim 2, wherein the end of the spool is connected to the housing by a bearing.

4. The storage device for the electrocardiogram wire according to claim 1, wherein the winding device comprises a spring, a winding drum, a positioning rod and a positioning mechanism, the winding drum is sleeved on the positioning rod, the spring is sleeved on a position between the winding drum and the positioning rod, one end of the spring is fixed on the positioning rod, the other end of the spring is fixed on the winding drum, and the positioning rod is fixed on the shell;

the first through hole is formed in the position, corresponding to the end part of the winding drum, of the shell, a third through hole for the electrocardiogram line to pass through is formed in the winding drum, and the part, in contact with the winding drum, of the electrocardiogram line is fixed;

the positioning mechanism is arranged outside the shell and clings to the notch.

5. The receptacle of claim 4, wherein the winding drum is also coupled to the housing by a bearing.

6. The storage device for the electrocardiogram wire according to claim 4, wherein the width of the winding spring is smaller than the length of the winding drum, and the third through hole is provided at a position where the winding drum avoids the winding spring.

7. The container according to claim 6, wherein the third through hole has a diameter larger than the thickness of the electrocardiograph.

8. The storage device for the electrocardiograph according to claim 4, wherein the positioning mechanism comprises a base fixed at the bottom of the notch and a positioning plate slidably connected to the top of the notch, the base has a positioning groove on a surface corresponding to the positioning plate, the tape and the electrocardiograph pass through the position between the base and the sliding positioning plate, and the sliding positioning plate and the base are both provided with avoiding grooves.

9. The storage device for electrocardiograph wires according to any one of claims 1-8, wherein the electrocardiograph wires are detachably connected to the electrocardiograph motor.

10. The storage device for electrocardiograph wires according to claim 9, wherein the electrocardiograph wires are connected to an electrocardiograph motor.

Images