CN209884137U - Electrocardiograph leads and allies oneself with storage device - Google Patents

Abstract

The utility model discloses an electrocardiograph lead storage device, which comprises a limb lead wire board and a chest lead wire board, wherein the limb lead wire board is divided into a limb lead clamp placing area, a vascular clamp placing area and a limb lead wire storage area; the chest lead wire board is divided into a chest lead electrode suction ball placing area and a chest lead wire storage area, the chest lead electrode suction ball placing area is provided with six chest lead electrode suction ball clamping seats, the chest lead wire storage area is provided with a chest lead wire box, and a chest lead wire sleeve is arranged on the chest lead wire box. The utility model discloses place limb line board and chest line board of leading respectively in electrocardiograph front and side, separate each line of leading through the line box of leading to avoid the winding, avoid electrocardio pseudo-error, signal interference reduces the figure distortion, judges for clinical more accurate making the heart electrograph and makes good basis.

Description

Electrocardiograph leads and allies oneself with storage device

Technical Field

The utility model belongs to a medical appliance auxiliary device, in particular to an electrocardiograph guide auxiliary device.

Background

The electrocardiogram has been known for more than one hundred years, is widely applied to clinic as a non-invasive examination technology, and makes great contribution to clinical medicine. With the development of the application of the electrocardiograph technology and the continuous innovation of the technology, the clinical requirement on the accuracy of the electrocardiograph technology is higher and higher, the electrocardiograph standardization is carried out at the same time, and a foundation is laid for the standardization and the standardization of the electrocardiograph technology. In the conventional electrocardiographic examination, the most common defects are that electrocardiograph lead wires are wound, so that electrocardiographic artifact and signal interference are caused, and distortion of different degrees occurs in the electrocardiographic process, so that correct identification and judgment of electrocardiographic patterns are influenced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a lead storage device for electrocardiograph, which solves the winding problem of lead wires of electrocardiograph.

The utility model provides a technical scheme is:

a lead storage device of an electrocardiograph comprises a limb lead wire plate and a chest lead wire plate, wherein the limb lead wire plate is divided into a limb lead clamp placement area, a blood vessel clamp placement area and a limb lead wire storage area; the chest lead wire board is divided into a chest lead electrode suction ball placing area and a chest lead wire containing area, the chest lead electrode suction ball placing area is provided with six chest lead electrode suction ball clamping seats, the chest lead wire containing area is provided with a chest lead wire box, a chest lead wire sleeve is arranged on the chest lead wire box, and the chest lead wire sleeve and the chest lead wire box are connected through a rail.

The limb lead wire plate is hinged with the chest lead wire plate.

The limb lead wire box is provided with an inwards concave semicircular guide rail, and the limb lead wire box is provided with a cylindrical bulge corresponding to the inwards concave semicircular guide rail.

The chest lead wire box is provided with an inwards concave semicircular guide rail, and the chest lead wire sleeve is provided with a cylindrical protrusion corresponding to the inwards concave semicircular guide rail.

The limb lead wire sleeve is provided with two vertical rows, and each row is provided with three.

The chest lead wire sleeve is provided with two vertical rows, and each row is provided with two.

The limb lead wire board is provided with a lead bus hook, the lead bus is bound by a self-adhesive band, and the self-adhesive band is sleeved on the lead bus hook.

The back of the clamping belt is provided with stripes.

The utility model has simple structure, the limb lead wire board and the chest lead wire board are respectively arranged on the front side and the side surface of the electrocardiogram machine, and the lead wires are separated by the lead wire box so as to avoid winding; the chest lead electrode suction ball and the limb lead clamp are separately placed, are orderly and more convenient and faster to use; and the electrocardiogram artifact and the signal interference are avoided, the pattern distortion is reduced, the pattern quality is improved, and a foundation is laid for making electrocardiogram judgment more accurately in clinic and assisting clinical diagnosis and treatment.

Drawings

Fig. 1 is a schematic view of the overall frame structure of the present invention.

Fig. 2 is a schematic structural diagram of the limb lead wire plate of the present invention.

Fig. 3 is a schematic structural diagram of the chest lead wire plate of the present invention.

Fig. 4-1 is a schematic structural diagram of the limb lead wire box of the present invention.

Fig. 4-2 is a schematic structural diagram of the limb lead wire sleeve of the present invention.

Fig. 5-1 is a schematic structural view of the chest lead wire box of the present invention.

Fig. 5-2 is a schematic structural view of the chest lead wire sheath of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1-3, an electrocardiograph lead storage device comprises a limb lead wire plate 1 and a chest lead wire plate 2, wherein the limb lead wire plate 1 and the chest lead wire plate 2 are connected through a hinge 101 and fixed on an electrocardiograph 100, the limb lead wire plate 1 is arranged on the front side of the electrocardiograph 100, and the chest lead wire plate 2 is arranged on the side of the electrocardiograph 100.

The limb lead wire board 1 is divided into a limb lead clamp placing area, a blood vessel forceps placing area and a limb lead wire containing area, the limb lead clamp placing area is provided with four clamp belts 11, the blood vessel forceps placing area is provided with a clamp 12, the limb lead wire containing area is provided with a limb lead wire box 13, a limb lead wire sleeve 14 is arranged on the limb lead wire box 13, and the limb lead wire sleeve 14 is in track connection with the limb lead wire box 13; the chest lead wire board 2 is divided into a chest lead electrode suction ball placing area and a chest lead wire containing area, the chest lead electrode suction ball placing area is provided with six chest lead electrode suction ball clamping seats 15, the chest lead wire containing area is provided with a chest lead wire box 16, a chest lead wire sleeve 17 is arranged on the chest lead wire box 16, and the chest lead wire sleeve 17 and the chest lead wire box 16 are connected through a rail.

The limb lead wire box 13 is provided with an inner concave semicircular guide rail 131, and the limb lead wire sleeve 14 is provided with a cylindrical protrusion 141 corresponding to the inner concave semicircular guide rail 131.

The chest lead wire box 16 is provided with an inner concave semicircular guide rail 161, and the chest lead wire sleeve 17 is provided with a cylindrical protrusion 171 corresponding to the inner concave semicircular guide rail 161.

The upper edges of the concave semicircular rail 131 and the concave semicircular rail 161 are open so that the lead wire box is fixed by inserting the cylindrical protrusion into the rail, and the end of the rail is closed to prevent the lead wire box from falling off.

The limb lead wire sleeve 14 is provided with two vertical rows, and each row is provided with three.

The chest lead wire sleeve 17 is provided with two vertical rows, and each row is provided with two.

The limb lead wire 31 passes through the wire hole 142 on the limb lead wire sleeve 14, the chest lead wire 32 passes through the wire hole 172 on the chest lead wire sleeve 17, the limb lead R and the two lead wires L are in the same lead wire sleeve, and the two lead wires F and the two lead wires N are in the same lead wire sleeve. The chest lead V1V2V3 three lead wires are in the same lead wire sleeve, and the V4V5V6 three lead wires are in the same lead wire sleeve. The wire hole diameter in the lead wire sleeve is only slightly larger than the lead wire, so that the lead wire can be stretched and can not slide in the lead wire sleeve.

The limb lead wire board 1 is provided with a lead bus hook 18, the lead bus 20 is tied up by a self-adhesive bandage 19, and the self-adhesive bandage 19 is sleeved on the lead bus hook 18.

The back of the clamping band 11 is provided with stripes. Limb lead clip 21 is clipped under clip band 11, and the back of clip band 11 has a horizontal stripe corresponding to the horizontal stripe on the inner surface of limb lead clip 21 to increase friction force and prevent limb lead clip 21 from slipping.

When the electrocardiograph 100 is used, the electrocardiograph 100 is started; the vascular clamp 102 is taken down from the clamp 102, and the alcohol cotton ball or the physiological saline cotton ball is taken to clean the skin of the part to be contacted with the electrode; opening the self-adhesive band 19 of the lead bus 20; taking down the four limb lead clamps 21, and clamping the corresponding limbs; taking down the six chest lead electrode suction balls 22 and placing the suction balls on the corresponding chest wall skin; and (4) drawing the lead wires as required, and printing the electrocardiogram after the electrocardiogram is clear and stable.

Turning off the power supply after the inspection is finished; the chest lead electrode suction ball 22 is clamped on the chest lead electrode suction ball clamping seat 15 in sequence, and the limb lead clamp 21 is clamped on the clamp belt 11; the self-adhesive binding belt 19 binds the lead bus 20 and then hooks the lead bus at the board surface lead bus hook 18.

The utility model has simple structure, the limb lead wire board and the chest lead wire board are respectively arranged on the front side and the side surface of the electrocardiogram machine, and the lead wires are separated by the lead wire box so as to avoid winding; the chest lead electrode suction ball and the limb lead clamp are separately placed, are orderly and more convenient and faster to use; and the electrocardiogram artifact and the signal interference are avoided, the pattern distortion is reduced, the pattern quality is improved, and a foundation is laid for making electrocardiogram judgment more accurately in clinic and assisting clinical diagnosis and treatment.

Claims (8)

1. The utility model provides an ware is accomodate to electrocardiograph guide connection which characterized in that: the limb lead wire board is divided into a limb lead clamp placing area, a blood vessel forceps placing area and a limb lead wire containing area, wherein the limb lead clamp placing area is provided with four clamp belts, the blood vessel forceps placing area is provided with a clamp, the limb lead wire containing area is provided with a limb lead wire box, a limb lead wire sleeve is arranged on the limb lead wire box, and the limb lead wire sleeve is in track connection with the limb lead wire box; the chest lead wire board is divided into a chest lead electrode suction ball placing area and a chest lead wire containing area, the chest lead electrode suction ball placing area is provided with six chest lead electrode suction ball clamping seats, the chest lead wire containing area is provided with a chest lead wire box, a chest lead wire sleeve is arranged on the chest lead wire box, and the chest lead wire sleeve and the chest lead wire box are connected through a rail.

2. The ecg lead wire receptacle of claim 1, wherein: the limb lead wire plate is hinged with the chest lead wire plate.

3. The ecg lead wire receptacle of claim 1, wherein: the limb lead wire box is provided with an inwards concave semicircular guide rail, and the limb lead wire box is provided with a cylindrical bulge corresponding to the inwards concave semicircular guide rail.

4. The ecg lead wire receptacle of claim 1, wherein: the chest lead wire box is provided with an inwards concave semicircular guide rail, and the chest lead wire sleeve is provided with a cylindrical protrusion corresponding to the inwards concave semicircular guide rail.

5. The ecg lead receptacle of claim 3, wherein: the limb lead wire sleeve is provided with two vertical rows, and each row is provided with three.

6. The electrocardiograph lead receptacle according to claim 4, wherein: the chest lead wire sleeve is provided with two vertical rows, and each row is provided with two.

7. The ecg lead wire receptacle of claim 1, wherein: the limb lead wire board is provided with a lead bus hook, the lead bus is bound by a self-adhesive band, and the self-adhesive band is sleeved on the lead bus hook.

8. The ecg lead wire receptacle of claim 1, wherein: the back of the clamping belt is provided with stripes.

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