CN214073312U - Wearing type electrocardio monitoring probe - Google Patents

Abstract

The utility model discloses a dress formula electrocardio monitoring probe next to shin, including the adsorption cover body (1), it has gas pocket (2) to open on this adsorption cover body (1), this gas pocket (2) internalization is equipped with electrocardio monitoring assembly (K), this electrocardio monitoring assembly (K) is including monitoring paster (3) and spliced pole (4), monitoring paster (3) set up in the adsorption cover body (1), be provided with Agcl3 thin layer (6) on the attached face of monitoring paster (3), spliced pole (4) and monitoring paster (3) back connection pass gas pocket (2), be provided with wire (5) in spliced pole (4), this wire (5) and Agcl3 thin layer (6) intercommunication. The design is ingenious, and the structure is simple. Good adsorption effect and is not easy to fall off. Adopt the silica gel material, the travelling comfort is good, does not influence the sleep.

Description

Wearing type electrocardio monitoring probe

Technical Field

The utility model belongs to the technical field of sleep electrocardio monitoring technique and specifically relates to a dress formula electrocardio monitor probe next to shin.

Background

Sleep disorder has become a significant problem for people in contemporary society, and seriously affects the health of people. Based on this phenomenon, facilities for devices to help or monitor the quality of sleep of people have gradually appeared. Such as an air flow breathing monitor. However, since the device needs to be fixed and worn to the mouth and nose to accurately detect, the following problems exist in the using process:

1. after wearing, the mask is placed at the mouth and the nose, so that the respiratory airflow is blocked. The airflow type breathing monitor needs to be fixed on the head by wearing a rope, so that tightening marks and the like are easily caused.

2. In the monitoring process, people are difficult to fall asleep due to uncomfortable feeling, and the sleeping pillow has a reaction to sleep after being worn.

3. After falling asleep, the monitoring device is easy to take down due to unconsciousness of sleep, or the equipment is easy to fall off in the process of rolling over to and fro, so that the data in the monitoring process has larger deviation.

In view of the above technical drawbacks, it is necessary to provide a monitoring device that can be conveniently fixed without affecting sleep, so as to solve the problems that the monitoring process affects people's sleep and the monitoring data is inaccurate.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a dress formula electrocardio monitoring probe next to shin for install on human thorax surface skin, under the sleep state, carry out electrocardio monitoring.

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

the utility model provides a dress formula electrocardio monitor probe next to shin which the key technology lies in: including the absorption cover body, it has the gas pocket to open on this absorption cover body, and this gas pocket internalization is equipped with electrocardio monitoring subassembly, and this electrocardio monitoring subassembly includes monitoring paster and spliced pole, the monitoring paster sets up it is internal to adsorb the cover, be provided with Agcl3 thin layer on the attached face of monitoring paster, the spliced pole with monitoring paster back connection passes the gas pocket, be provided with the wire in the spliced pole, this wire with Agcl3 thin layer intercommunication.

Through the design, the adsorption cover body covers the skin of the chest cavity of a human body, after the adsorption cover body is pressed, gas is discharged from the air holes, and the inner surface of the adsorption cover body gradually covers the skin of the human body. And along with pressing, the monitoring paster blocks up the gas pocket, makes the inside near vacuum environment that forms of the absorption cover body. At this time, the film layer of Agcl3 on the side of the patch to be attached was in contact with the skin, and electrocardiographic monitoring was carried out. The structure is placed on the skin of a human body, and the sleep is not influenced. The adsorption force is large, and the falling is not easy. The structure is small and exquisite, and the design is simple.

In actual production, the size of the probe can be customized according to the size of a patient.

According to a further technical scheme, the air hole is formed in the top of the adsorption cover body.

By adopting the scheme, the exhaust can be uniformly performed during the exhaust, so that the air pressure inside and outside the cover body is increased, and the adsorption force is larger.

The further technical scheme is as follows: the spliced pole is provided with the stopper, this stopper with the monitoring paster is arranged respectively the absorption cover body outside and inboard.

By adopting the scheme, the limiting block can block the air hole firstly, and can limit the connecting column to prevent the connecting column from moving greatly.

The further technical scheme is as follows: the stopper is followed spliced pole circumference is arranged, just the stopper edge to the body side arc of adsorbing cover extends.

Adopt the arc to extend the setting, more be favorable to pressing the exhaust back, stopper edge pastes at the external surface of the absorption cover, makes the internal portion of absorption cover form enclosure space. Good adsorption effect and is not easy to leak gas and fall off.

The further technical scheme is as follows: and a silica gel cap is arranged at one end part of the connecting column, which is far away from the monitoring patch.

By adopting the scheme, the silica gel cap is convenient to take. And the silica gel material is adopted, so that the touch effect on human skin is good, and the comfort is improved.

The further technical scheme is as follows: the side, close to the monitoring patch, of the connecting column is provided with a wire guide hole, the wire guide hole penetrates out of the side wall of the connecting column, and the wires are arranged along the wire guide hole.

The wiring holes are arranged to facilitate wiring and signal acquisition, and the signal acquisition accuracy is improved.

According to a further technical scheme, the adsorption cover body and the monitoring patch are made of silica gel.

The silica gel material has certain adhesive property, is similar to skin, contacts the skin and has good comfort. Does not affect sleep.

In order to make the patch closer to the skin, the monitoring patch is entirely arc-shaped and is bent toward the side of the patch to which the monitoring patch is attached.

The utility model has the advantages that: the design is ingenious, and the structure is simple. Good adsorption effect and is not easy to fall off. Adopt the silica gel material, the travelling comfort is good, does not influence the sleep.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a diagram illustrating the effect of the installation of the present invention;

fig. 3 is a top view of the probe of the present invention;

FIG. 4 is a schematic cross-sectional view taken at A-A of FIG. 3;

FIG. 5 is an enlarged schematic view of B in FIG. 4;

FIG. 6 is a schematic cross-sectional view of an adsorbent shield.

Detailed Description

The following provides a more detailed description of the embodiments and the operation of the present invention with reference to the accompanying drawings.

As can be seen from figures 1, 3, 4 and 5, a dress formula electrocardio monitoring probe next to shin, including the absorption cover body 1, it has gas pocket 2 to open on this absorption cover body 1, this gas pocket 2 internalization is equipped with electrocardio monitoring component K, this electrocardio monitoring component K is including monitoring paster 3 and spliced pole 4, monitoring paster 3 sets up in the absorption cover body 1, be provided with Agcl3 thin layer 6 on the attached face of monitoring paster 3, spliced pole 4 is connected and is passed gas pocket 2 with the 3 back of monitoring paster, be provided with wire 5 in the spliced pole 4, this wire 5 and Agcl3 thin layer 6 intercommunication.

In this embodiment, the adsorption cover body 1 and the monitoring patch 3 are made of pp silica gel.

In this embodiment, the diameter of the edge of the suction cover body 1 is 20 mm. The height of the adsorption cover body 1 is 15 mm. The length of the connecting column 4 is 5 mm. The film layer of Agcl3 was 3mm in diameter. The distance between the monitoring patch 3 and the limiting block is larger than the length of the air hole and is not more than 1 mm.

As can be seen from fig. 1 and 6, the air holes 2 are opened at the top of the adsorption cover body 1.

Referring to fig. 4 and 5, the connecting column 4 is provided with a limiting block 7, and the limiting block 7 and the monitoring patch 3 are respectively arranged on the outer side and the inner side of the adsorbing cover body 1.

Referring to fig. 5, the limiting block 7 is circumferentially arranged along the connecting column 4, and the edge of the limiting block 7 extends towards the side arc of the adsorption cover body 1.

Referring to fig. 1 and 2, a silicone cap 8 is disposed at an end of the connecting column 4 away from the monitoring patch 3.

Referring to fig. 4 and 5, a wire guide hole is opened in the connecting column 4 near the side of the monitoring patch 3 and penetrates out of the side wall of the connecting column 4, and the wire 5 is arranged along the wire guide hole.

As can be seen from fig. 4, the entire monitoring patch 3 has a curved surface shape and is bent toward the side to which the monitoring patch 3 is attached.

In the use process:

as can be seen from the combination of fig. 1 and fig. 2, the adsorption cover body 1 is covered on the skin of the thoracic cavity of the human body, after the silica gel cap 8 and the adsorption cover body are pressed, the gas is discharged from the gas hole, and the inner surface of the adsorption cover body is gradually covered on the skin of the human body. Along with pressing, the monitoring patch 3 blocks up the air hole, so that a vacuum environment is formed inside the adsorption cover body 1. At this time, the film layer of Agcl3 on the side of the patch to be monitored was in contact with the skin, and after signals were output via the lead, electrocardiographic monitoring was carried out. When taking down, the absorption cover body 1 can be taken down by gently kneading.

Claims (8)

1. The utility model provides a dress formula electrocardio monitor probe next to shin which characterized in that: including the absorption cover body (1), it has gas pocket (2) to open on this absorption cover body (1), and this gas pocket (2) internalization is equipped with electrocardio monitoring subassembly (K), and this electrocardio monitoring subassembly (K) is including monitoring paster (3) and spliced pole (4), monitoring paster (3) set up in the absorption cover body (1), be provided with Agcl3 thin layer (6) on the attached face of monitoring paster (3), spliced pole (4) with monitoring paster (3) back connection and pass gas pocket (2), be provided with wire (5) in spliced pole (4), this wire (5) with Agcl3 thin layer (6) intercommunication.

2. The wearable electrocardiographic monitoring probe of claim 1 wherein: the air hole (2) is formed in the top of the adsorption cover body (1).

3. The wearable electrocardiographic monitoring probe of claim 1 wherein: the connecting column (4) is provided with a limiting block (7), and the limiting block (7) and the monitoring patch (3) are respectively arranged on the outer side and the inner side of the adsorption cover body (1).

4. The wearable electrocardiographic monitoring probe of claim 3 wherein: the limiting block (7) is arranged along the circumferential direction of the connecting column (4), and the edge of the limiting block (7) extends towards the side arc of the adsorption cover body (1).

5. The wearable electrocardiographic monitoring probe of claim 1 wherein: and a silica gel cap (8) is arranged at one end part of the connecting column (4) far away from the monitoring patch (3).

6. The wearable electrocardiographic monitoring probe of claim 1 wherein: the side, close to the monitoring patch (3), of the connecting column (4) is provided with a wire guide hole, the wire guide hole penetrates out of the side wall of the connecting column (4), and the wires (5) are arranged along the wire guide hole.

7. The wearable electrocardiographic monitoring probe of claim 1 wherein: the adsorption cover body (1) and the monitoring patch (3) are made of silica gel.

8. The wearable electrocardiographic monitoring probe of claim 1 wherein: the monitoring patch (3) is arc-surface-shaped as a whole and is bent towards the attaching surface side of the monitoring patch (3).

Images