CN210044702U - Automatic defibrillator conversion electrode plate - Google Patents

Abstract

The utility model relates to an automatic defibrillator conversion plate electrode, including last metal sheet, lower metal sheet, middle metal block and insulated handle, go up metal sheet and metal sheet upper and lower parallel arrangement down, middle metal block is located between metal sheet and the lower metal sheet, middle metal block top surface and last metal sheet contact, middle metal block bottom surface and metal sheet contact down, and the lower surface of going up the metal sheet, the surface of middle metal block, the upper surface of lower metal sheet have all wrapped up insulation housing. Will the utility model discloses fill up between defibrillation electrode and contact electrode, lower metal sheet lower surface and contact electrode laminating, defibrillation electrode paste on the upper surface of last metal sheet to switch on defibrillation electrode and contact electrode, can avoid corroding the analysis appearance of defibrillating. The lower surface of the lower metal plate is in contact with the skin of a human body, the disposable electrode slice is stuck on the upper metal plate, the disposable electrode slice is prevented from being stuck on the skin, and damage to the skin is prevented, especially for some patients with allergic constitution.

Description

Automatic defibrillator conversion electrode plate

Technical Field

The utility model relates to a medical supplies technical field especially relates to automatic defibrillator conversion plate electrode.

Background

Defibrillators and defibrillators are commonly used in the treatment and rescue of heart disease. The defibrillator acts on human body by releasing high-voltage electric pulse to achieve the purpose of rescuing and treating heart diseases, and is medical electronic equipment for rescuing and treating arrhythmia by applying electric shock. The heart can only produce effective beats if all the muscle fibers of the heart are under precise synchronous contraction.

When using a defibrillator, it is necessary to calibrate the accuracy of the energy it delivers. The two defibrillation electrodes are placed on the surfaces of two contact electrodes of an analyzer of the defibrillator, and the discharge buttons on the two electrode plates are pressed down at the same time, so that the defibrillator discharges, and the released energy is displayed on a display screen of the analyzer. In the process, because the defibrillation electrode is provided with the adhesive surface, the two contact electrodes are easy to corrode.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an automatic defibrillator conversion plate electrode can protect automatic defibrillator.

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

automatic defibrillator conversion electrode board, including last metal sheet, metal sheet down, middle metal block and insulating handle, go up metal sheet and metal sheet parallel arrangement from top to bottom down, middle metal block is located between metal sheet and the lower metal sheet, middle metal block top surface and last metal sheet contact, middle metal block bottom surface and metal sheet contact down, the lower surface of going up the metal sheet, the surface of middle metal block, the upper surface of lower metal sheet all wraps up insulating casing, insulating handle and insulating casing rigid coupling.

Wherein, the end of the insulated handle is connected with the insulated shell.

Furthermore, an insulating shell C is arranged on the lower surface of the upper metal plate, a through hole A for the middle metal block to pass through is formed in the position, corresponding to the middle metal block, of the insulating shell C, an insulating shell D used for wrapping the middle metal block is arranged on the periphery of the through hole A, and the insulating shell D and the insulating shell C are manufactured integrally; the upper surface of the lower metal plate is provided with an insulating shell A, a through hole B for the middle metal block to pass through is formed in the position, corresponding to the middle metal block, of the insulating shell A, an insulating shell B used for wrapping an insulating shell D is arranged on the periphery of the through hole B, and the lower end of the insulating shell B and the insulating shell A are integrally manufactured.

Furthermore, insulating casing D and insulating casing B joint are fixed.

Furthermore, the insulating shell D is matched with the spigot of the insulating shell B.

Wherein, the insulated handle is fixedly connected with the insulated shell C or manufactured integrally.

Furthermore, the insulating handle is provided with a through hole for four fingers to pass through.

Further, the insulating shell A downwards wraps the edge of the lower surface of the lower metal plate; the insulating case C upwardly wraps the edge of the upper surface of the upper metal plate.

Preferably, the upper metal plate and the lower metal plate are both rectangular plates.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses can switch on defibrillation electrode and contact electrode indirectly, avoid defibrillation electrode directly to paste on the analysis appearance of defibrillating, prevent to corrode the analysis appearance of defibrillating.

Drawings

Fig. 1 is a top three-dimensional view of the present invention;

FIG. 2 is a cross-sectional view at A in FIG. 1;

fig. 3 is a bottom three-dimensional view of the present invention;

fig. 4 is a schematic structural view of the insulating case C;

in the figure: 1-upper metal plate, 2-insulating shell C, 3-insulating handle, 4-through hole, 5-lower metal plate, 6-middle metal block, 7-insulating shell A, 21-insulating shell D and 71-insulating shell B.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings.

As shown in fig. 1 and 2, the utility model discloses an automatic defibrillator conversion electrode board, including last metal sheet 1, metal sheet 5 down, middle metal block 6 and insulated handle 3, go up metal sheet 1 and metal sheet 5 parallel arrangement from top to bottom down, middle metal block 6 is located metal sheet 1 and down between the metal sheet 5, 6 top surfaces of middle metal block and last metal sheet 1 contact, 6 bottom surfaces of middle metal block and the contact of metal sheet 5 down, go up the lower surface of metal sheet 1, the surface of middle metal block 6, the upper surface of metal sheet 5 has all wrapped up insulating casing down, insulated handle 3 and insulating casing rigid coupling. Wherein the end of the insulated handle 3 is connected with the insulated housing.

As shown in fig. 2 and 4, an insulating casing C2 is disposed on the lower surface of the upper metal plate 1, a through hole a for the middle metal block 6 to pass through is disposed at a position of the insulating casing C2 corresponding to the middle metal block 6, an insulating casing D21 for wrapping the middle metal block 6 is disposed at the periphery of the through hole a, and the insulating casing D21 and the insulating casing C2 are integrally manufactured. As shown in fig. 4, an installation slot for installing the middle metal block 6 is formed in the inner periphery of the insulating housing D21, and the middle metal block 6 is installed in the installation slot.

The upper surface of the lower metal plate 5 is provided with an insulating shell A7, a through hole B for the middle metal block 6 to pass through is formed in the position, corresponding to the middle metal block 6, of the insulating shell A7, an insulating shell B71 used for wrapping an insulating shell D21 is arranged on the periphery of the through hole B, and the lower end of the insulating shell B71 and the insulating shell A7 are integrally manufactured. As shown in fig. 2, insulating housing D21 is snap-fit to insulating housing B71, and insulating housing D21 is mated to the spigot of insulating housing B71. The insulated handle 3 is fixedly connected with the insulated shell C2 or manufactured integrally, and the insulated handle 3 is provided with a through hole 4 for four fingers to pass through, thereby being convenient to hold.

As shown in fig. 1 and 3, the insulating case a7 wraps downward the edge of the lower surface of the lower metal plate 5; the insulating case C2 wraps the edge of the upper surface of the upper metal plate 1 upward. The insulating shell and the insulating handle can be made of plastic.

The sizes of the upper metal plate 1, the lower metal plate 5 and the middle metal block 6 can be set according to requirements. Preferably, the upper metal plate 1 and the lower metal plate 5 are rectangular plates, and the upper metal plate 1 and the lower metal plate 5 have a length of 105mm and a width of 80 mm. The cross section of the middle metal block 6 is square, and the side length is 45 mm; the thickness of the insulating shell B71 is 1mm-2 mm. The insulating shell A7 is rectangular, the length is 110mm, and the width is 85 mm; the insulating housing C2 is rectangular, 170mm in length and 110mm in width.

During the use, will the utility model discloses fill up between the contact electrode of defibrillation electrode and defibrillator analysis appearance, 5 lower surfaces of lower metal sheet and contact electrode laminating, the electrode of defibrillating is pasted on the upper surface of last metal sheet 1, and middle metal block 6 switches on metal sheet 1 again and metal sheet 5 down to switch on defibrillation electrode and contact electrode, can avoid corroding the defibrillator analysis appearance. The utility model discloses still have another usage, will be 5 lower surfaces of metal sheet and human skin contact down, paste disposable electrode piece on last metal sheet 1, avoid disposable electrode piece paste on skin, prevent to cause the harm to skin, especially some easy allergic constitution's patient.

Of course, the present invention can be embodied in many other forms without departing from the spirit or essential attributes thereof, and it should be understood that various changes and modifications can be made by one skilled in the art without departing from the spirit or essential attributes thereof, and that such changes and modifications are intended to be included within the scope of the appended claims.

Claims (9)

1. Automatic defibrillator conversion electrode board, its characterized in that: including last metal sheet, middle metal block and insulating handle down, go up metal sheet and metal sheet parallel arrangement from top to bottom down, middle metal block is located between metal sheet and the lower metal sheet, and middle metal block top surface and last metal sheet contact, middle metal block bottom surface and metal sheet contact down, and the lower surface of going up the metal sheet, the surface of middle metal block, the upper surface of metal sheet all wraps up insulating casing down, insulating handle and insulating casing rigid coupling.

2. The automatic defibrillator transformative electrode pad of claim 1, wherein: the end of the insulated handle is connected with the insulated shell.

3. The automatic defibrillator transformative electrode pad of claim 1 or 2, wherein: an insulating shell C is arranged on the lower surface of the upper metal plate, a through hole A for the middle metal block to pass through is formed in the position, corresponding to the middle metal block, of the insulating shell C, an insulating shell D used for wrapping the middle metal block is arranged on the periphery of the through hole A, and the insulating shell D and the insulating shell C are manufactured integrally; the upper surface of the lower metal plate is provided with an insulating shell A, a through hole B for the middle metal block to pass through is formed in the position, corresponding to the middle metal block, of the insulating shell A, an insulating shell B used for wrapping an insulating shell D is arranged on the periphery of the through hole B, and the lower end of the insulating shell B and the insulating shell A are integrally manufactured.

4. The automatic defibrillator transformative electrode pad of claim 3, wherein: and the insulating shell D is clamped and fixed with the insulating shell B.

5. The automatic defibrillator transformative electrode pad of claim 4, wherein: the insulating shell D is matched with the spigot of the insulating shell B.

6. The automatic defibrillator transformative electrode pad of claim 3, wherein: the insulated handle is fixedly connected with the insulated shell C or manufactured integrally.

7. The automatic defibrillator transfer electrode pad of claim 1, 2 or 6, wherein: the insulating handle is provided with a through hole for the four fingers to pass through.

8. The automatic defibrillator transformative electrode pad of claim 3, wherein: the insulating shell A downwards wraps the edge of the lower surface of the lower metal plate; the insulating case C upwardly wraps the edge of the upper surface of the upper metal plate.

9. The automatic defibrillator transformative electrode pad of claim 1, wherein: the upper metal plate and the lower metal plate are both rectangular plates.

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