CN212415749U - Electrocardiogram lead device - Google Patents

Abstract

The utility model discloses an electrocardio device that leads, include: the front ends of a thumb, an index finger and a middle finger of the right glove are respectively provided with a first joint; the front ends of the thumb, the index finger and the middle finger of the left-hand glove are respectively provided with a second joint; a first wire splitter electrically connected to the first connector through a first connection wire; a second splitter electrically connected to the second connector by a second connection line; the third splitter is electrically connected with the first splitter and the second splitter through third connecting wires respectively; the front end of the chest lead bus is electrically connected with the third deconcentrator, and the tail end of the chest lead bus is electrically connected with the electrocardio acquisition monitoring equipment; the lower end faces of the first joint and the second joint are respectively provided with a disposable electrode slice which is detachably connected. The utility model has the advantages that: the electrocardiogram parameters of the chest can be rapidly measured; the disposable electrode plate is convenient to replace, and cross infection is prevented; the lower end face of the disposable electrode slice is provided with a bonding layer.

Description

Electrocardiogram lead device

Technical Field

The utility model relates to the field of medical equipment, in particular to electrocardio device that leads.

Background

In the medical field, the death caused by cardiovascular diseases accounts for about 40 percent of the total death, and the death poses great threats to the health of people. Cardiovascular diseases are characterized by paroxysmal and dangerous states, and researches show that the electrocardiogram of patients with cardiovascular diseases shows. Therefore, the real-time electrocardio monitoring is carried out on the patient to find the abnormal change of the electrocardio in time, and the method has important significance for preventing and treating cardiovascular diseases. The front end of the existing electrocardio-acquisition device is provided with a lead adsorption ball and a lead clamp, the lead adsorption balls are placed on detection points of the chest of a patient one by one, the lead clamp is clamped at the tail ends of four limbs of the patient, and then the electrocardio-acquisition detection is carried out, but the electrocardio-acquisition method is not suitable for being used under emergency treatment and field operations. Under emergency treatment and field operations, the electrocardio values are required to be rapidly collected, and excessive time is wasted by using the lead ball and the lead clamp. And the lead ball is unstable in adsorption and easy to generate interference. Under the condition that the chest and the four limbs are injured, the lead ball and the lead clamp can not be adsorbed or cause pain of a patient. In addition, the lead ball and the lead clamp cannot be replaced and disinfected in time under the field operation condition, so that cross infection is possibly caused, and the health of the patient is harmed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an electrocardio device that leads, its electrocardio parameter that can the rapid survey chest.

The utility model also has an object to provide an electrocardio lead device, its first joint, second joint, third joint and fourth joint can be dismantled with disposable electrode slice and be connected, are convenient for change, prevent cross infection.

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

the front ends of a thumb, an index finger and a middle finger of the right glove are respectively provided with a first joint;

the front ends of the thumb, the index finger and the middle finger of the left-hand glove are respectively provided with a second joint;

a first wire splitter electrically connected to the first connector through a first connection wire;

a second splitter electrically connected to the second connector by a second connection line; and

the third splitter is electrically connected with the first splitter and the second splitter through third connecting wires respectively;

the front end of the chest lead bus is electrically connected with the third deconcentrator, and the tail end of the chest lead bus is electrically connected with the electrocardio acquisition monitoring equipment;

the lower end faces of the first joint and the second joint are respectively provided with a disposable electrode slice which is detachably connected.

Preferably, the method further comprises the following steps:

a pair of third joints;

a fourth splitter electrically connected to the third connectors through fourth connection lines, respectively;

the front end of the hand lead bus is electrically connected with the fourth deconcentrator, and the tail end of the hand lead bus is electrically connected with the electrocardio acquisition monitoring equipment;

and the lower end surfaces of the third joints are respectively provided with a disposable electrode slice which is detachably connected.

Preferably, the method further comprises the following steps:

a pair of fourth joints;

a fifth splitter electrically connected to the fourth connectors through fifth connection lines, respectively;

the front end of the foot lead bus is electrically connected with the fifth wire connector, and the tail end of the foot lead bus is electrically connected with the electrocardio acquisition monitoring equipment;

and the lower end surfaces of the fourth joints are respectively provided with a disposable electrode slice which can be detachably connected.

Preferably, the lower end face of the disposable electrode plate is provided with an adhesive layer for adhering the trunk and the limbs of the patient.

Preferably, the chest lead bus is 6 single-stranded shielded strands; the hand lead bus is 2 single-strand shielding stranded wires; the foot lead bus is 2 single-strand shielding stranded wires.

Preferably, the tail ends of the chest lead bus, the hand lead bus and the foot lead bus are combined into an electrocardiogram lead bus through a sixth deconcentrator, and the electrocardiogram lead bus is 10 strands of shielding stranded wires.

Preferably, a pressure switch is arranged at the front end of the ring finger of the right-hand glove or the left-hand glove, and the pressure switch is electrically connected with the electrocardio acquisition monitoring equipment and is used for controlling the on-off of the electrocardio acquisition monitoring equipment.

Preferably, the lower end faces of the first joint, the second joint, the third joint and the fourth joint and the upper end face of the disposable electrode sheet are respectively provided with a female electrode buckle and a male electrode buckle which are matched with each other.

Preferably, the first joint and the second joint are detachably connected with the right-hand glove and the left-hand glove.

The utility model has the advantages that: the electrocardiogram parameters of the chest can be rapidly measured; the disposable electrode plate is convenient to replace, and cross infection is prevented; the lower end face of the disposable electrode plate is provided with the bonding layer, so that the disposable electrode plate is suitable for field operations and emergency conditions, particularly for patients with chest injuries, and the situations that the lead ball is difficult to adsorb and the adsorption is unstable are avoided.

Drawings

FIG. 1 is a perspective view of an electrocardiographic lead device

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FIG. 2 is a perspective view of the electrocardiographic lead device of the utility model

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Fig. 3 is a cross-sectional view of the first tab and the disposable electrode sheet of the present invention.

Detailed Description

The present invention is further described in detail below with reference to the attached drawings so that those skilled in the art can implement the invention by referring to the description text.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1-3, an implementation form of the present invention, in order to achieve the above object, adopts the following technical solution, including:

the right glove 111 is made of soft materials, and the front ends of the thumb, the index finger and the middle finger of the right glove 111 are respectively provided with a first joint 111 a; the left-hand glove 112 is made of a soft material, and the front ends of the thumb, the index finger and the middle finger of the left-hand glove 112 are respectively provided with a second joint 112 a. Preferably, the right-hand glove 111 and the left-hand glove 112 are made of silicone material. The right-hand glove 111 and the left-hand glove 112 are detachably connected to the first joint 111a and the second joint 112 a. More preferably, the right-hand glove 111 and the left-hand glove 112 are connected to the first joint 111a and the second joint 112a by snap fasteners.

The first wire splitter 113 is electrically connected to the first connector 111a through a first connection wire 113 a; and a second wire divider 114 electrically connected to the second connector 112a through a second connection wire 114 a. The third splitter 115 is electrically connected to the first splitter 113 and the second splitter 114 through a third connection line 115 a; the front end of the chest lead bus 116 is electrically connected with the third deconcentrator 115, and the tail end of the chest lead bus 116 is electrically connected with an electrocardiogram acquisition monitoring device; the lower end surfaces of the first connector 111a and the second connector 112a are respectively provided with a disposable electrode sheet 120 detachably connected.

In the using process, the left hand glove 112 and the right hand glove 111 are directly worn on the left hand and the right hand, the thumb, the index finger and the middle finger of the left hand and the right hand are respectively placed on the chest detection points, the disposable electrode sheet 120 arranged on the lower end faces of the first connector 111a and the second connector 112a collects biological information of the points, and the biological information is collected by the first connector 111a and the second connector 112a and is respectively transmitted to the electrocardio collection monitoring equipment through the first connecting line 113a, the second connecting line 114a, the third connecting line 115a and the chest lead bus 116. The disposable electrode pad 120 can be directly replaced when the next patient is detected, avoiding cross-contamination.

In another embodiment, the method further comprises: a pair of third joints 131; the fourth splitters 132 are electrically connected to the third connectors 131 through fourth connection wires 132a, respectively; the front end of the hand lead bus 133 is electrically connected with the fourth deconcentrator 132, and the tail end of the hand lead bus is electrically connected with the electrocardiogram acquisition monitoring equipment; wherein, the lower end surfaces of the third joints are respectively provided with a disposable electrode slice 120 which can be detachably connected.

In another embodiment, the method further comprises: a pair of fourth joints 141; fifth line splitters 142 electrically connected to the fourth connectors 141 through fifth connection lines 142a, respectively; the front end of the foot lead bus 143 is electrically connected with the fifth wire connector 142, and the tail end of the foot lead bus is electrically connected with the electrocardiogram acquisition and monitoring equipment; wherein, the lower end surfaces of the fourth joints are respectively provided with a disposable electrode slice 120 which can be detachably connected.

In another embodiment, an adhesive layer 121 is disposed on the lower end surface of the disposable electrode sheet 120 for adhering the trunk and the limbs of the patient.

In another embodiment, the chest lead bus 116 is 6 single shielded twisted wires; the hand lead bus 133 is 2 single-strand shielded twisted wires; the foot lead bus 143 is 2 single shielded twisted wires.

In another embodiment, the ends of the chest lead bus 116, hand lead bus 133, and foot lead bus 143 are combined into an ECG lead bus 151 by a sixth wire splitter 150, the ECG lead bus 151 being a 10 strand shielded wire.

In another embodiment, a pressure switch 160 is arranged at the front end of the ring finger of the right-hand glove 111 or the left-hand glove 112, and the pressure switch 160 is electrically connected with the electrocardiograph acquisition monitoring device and is used for controlling the on-off of the electrocardiograph acquisition monitoring device. Preferably, the pressure switch 160 is provided with a signal transmitter, and the electrocardiograph monitoring device is provided with a signal receiver.

In another embodiment, the lower end surfaces of the first connector 111a, the second connector 112a, the third connector 131 and the fourth connector 141 and the upper end surface of the disposable electrode sheet 120 are respectively provided with a matched electrode female button and a matched electrode male button.

In another embodiment, the first joint 111a and the second joint 112a are detachably connected to the right-hand glove 111 and the left-hand glove 112. Preferably, the right-hand glove 111 and the left-hand glove 112 are connected to the first joint 111a and the second joint 112a by snap fasteners.

To sum up, the utility model relates to an electrocardiogram lead device 1, which can rapidly measure the electrocardiogram parameters of the chest; the disposable electrode plate is convenient to replace, and cross infection is prevented; the lower end face of the disposable electrode plate is provided with the bonding layer, so that the disposable electrode plate is suitable for field operations and emergency conditions, particularly for patients with chest injuries, and the situations that the lead ball is difficult to adsorb and the adsorption is unstable are avoided.

While the embodiments of the invention have been described above, it is not intended to be limited to the details shown, or described, but rather to cover all modifications, which would come within the scope of the appended claims, and all changes which come within the meaning and range of equivalency of the art are therefore intended to be embraced therein.

Claims (9)

1. An electrocardiographic lead device, comprising:

the front ends of a thumb, an index finger and a middle finger of the right glove are respectively provided with a first joint;

the front ends of the thumb, the index finger and the middle finger of the left-hand glove are respectively provided with a second joint;

a first wire splitter electrically connected to the first connector through a first connection wire;

a second splitter electrically connected to the second connector by a second connection line; and

the third splitter is electrically connected with the first splitter and the second splitter through third connecting wires respectively;

the front end of the chest lead bus is electrically connected with the third deconcentrator, and the tail end of the chest lead bus is electrically connected with the electrocardio acquisition monitoring equipment;

the lower end faces of the first joint and the second joint are respectively provided with a disposable electrode slice which is detachably connected.

2. The electrocardiographic lead device of claim 1 further comprising:

a pair of third joints;

a fourth splitter electrically connected to the third connectors through fourth connection lines, respectively;

the front end of the hand lead bus is electrically connected with the fourth deconcentrator, and the tail end of the hand lead bus is electrically connected with the electrocardio acquisition monitoring equipment;

and the lower end surfaces of the third joints are respectively provided with a disposable electrode slice which is detachably connected.

3. The electrocardiographic lead device of claim 2 further comprising:

a pair of fourth joints;

a fifth splitter electrically connected to the fourth connectors through fifth connection lines, respectively;

the front end of the foot lead bus is electrically connected with the fifth wire connector, and the tail end of the foot lead bus is electrically connected with the electrocardio acquisition monitoring equipment;

and the lower end surfaces of the fourth joints are respectively provided with a disposable electrode slice which can be detachably connected.

4. The electrocardiographic lead device according to claim 3, wherein: the lower end face of the disposable electrode slice is provided with a bonding layer for bonding the trunk and the limbs of the patient.

5. The electrocardiographic lead device according to claim 3, wherein: the chest lead bus is 6 single-strand shielding stranded wires; the hand lead bus is 2 single-strand shielding stranded wires; the foot lead bus is 2 single-strand shielding stranded wires.

6. The electrocardiographic lead device according to claim 5, wherein: the tail ends of the chest lead bus, the hand lead bus and the foot lead bus are combined into an electrocardio lead bus through a sixth deconcentrator, and the electrocardio lead bus is a 10-strand shielding stranded wire.

7. The electrocardiographic lead device according to claim 6, wherein: the pressure switch is arranged at the front end of the ring finger of the right-hand glove or the left-hand glove, and the pressure switch is electrically connected with the electrocardio acquisition monitoring equipment and used for controlling the on-off of the electrocardio acquisition monitoring equipment.

8. The electrocardiographic lead device according to claim 3, wherein: and the lower end faces of the first joint, the second joint, the third joint and the fourth joint and the upper end face of the disposable electrode slice are respectively provided with an electrode female buckle and an electrode male buckle which are matched with each other.

9. The electrocardiographic lead device according to claim 1, wherein: the first joint and the second joint are detachably connected with the right-hand glove and the left-hand glove.

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