CN209595744U - A kind of film structure and electrocardiograph monitoring device - Google Patents

Abstract

The utility model discloses a kind of film structure and electrocardiograph monitoring devices, wherein film structure includes: substrate layer, the first glue-line and the second glue-line；Substrate layer includes opposite first surface and second surface, setting runs through the through-hole of first surface and second surface on substrate layer, first surface is divided into first through hole area and annular encloses and sets first supporting region in first through hole area, second surface is divided into the second through hole area and annular encloses the second supporting region for setting the second through hole area；First supporting region adhesion has the first glue-line, and the first glue-line annular encloses and sets first through hole area, and the radius of the first supporting region is less than or equal to along the radius of first glue-line of radial direction in first through hole area；Adhesion has the second glue-line on second supporting region, and second glue-line annular enclose and set the second through hole area, it is equal to the radius of the second supporting region along the radius of the second glue-line of radial direction of the second through hole area, the utility model is by being bonded electrode directly with human skin, so that ecg measurement data are more accurate.

Description

A kind of film structure and electrocardiograph monitoring device

Technical field

The utility model embodiment is related to cardiac monitoring field more particularly to a kind of film structure and electrocardiograph monitoring device.

Background technique

With the improvement of people ' s living standards, the disease incidence of the accelerating rhythm of life, cardiovascular disease rises rapidly, and has become For one of the principal element for threatening human health.Electrocardiogram is the electrocardio-activity recorded by cardioelectric monitor equipment, by right The analysis of electrocardiogram may determine that the heart diseases such as arrhythmia cordis, myocardial ischemia, have reliable, method simplicity, lossless to patient Harmful advantage.

The electrode of cardioelectric monitor equipment and human body are bonded usually by using pad pasting by the electrode paste of cardioelectric monitor equipment It closes at chest.And existing pad pasting uses the medical dual-side glue of hollow and annular, hollow position fills Signa Gel, and electrode is by leading Coagulation glue and skin contact.It is easy expansion after Signa Gel water suction, declines electric conductivity, influences Electrocardiography.

Utility model content

The utility model provides a kind of film structure and electrocardiograph monitoring device, so that ecg measurement data are more accurate.

In a first aspect, the utility model embodiment provides a kind of film structure, for by the protrusion of cardioelectric monitor equipment Electrode assembly is mounted directly on human skin, comprising:

Substrate layer, the first glue-line and the second glue-line；

The substrate layer includes opposite first surface and second surface, be provided on substrate layer through first surface and The through-hole of second surface, the first surface is divided into first through hole area to the through-hole and annular encloses and sets the first through hole area The first supporting region, by the second surface be divided into the second through hole area and annular enclose set second through hole area second carrying Area；

Adhesion has first glue-line on first supporting region, and the first glue-line annular encloses and sets the first through hole The radius in area, the radial direction along the first through hole area, first glue-line is less than or equal to first supporting region Radius；

Adhesion has second glue-line on second supporting region, and the second glue-line annular encloses and sets second through-hole Area, along the radial direction of second through hole area, the radius of second glue-line is equal to the radius of second supporting region；

Optionally, the film structure further includes first annular release layer；

The first annular release layer fits on first supporting region, and the first annular release layer includes interior ring Shape release layer and outer ring annular release layer, and the inner ring annular release layer and the outer ring annular release layer annular enclose and set institute First through hole area is stated, the outer ring annular release layer is located at one of the inner ring annular release layer far from the first through hole area Side.

Optionally, along the radial direction in the first through hole area, the radius of first glue-line is less than first carrying The radius in area；

The inner ring annular release layer fits in the side of first glue-line far from the first surface, and the inner ring Annular release layer first glue-line upright projection in the plane cover first glue-line；The outer ring annular is release Layer fits on first supporting region.

Optionally, edge of first glue-line far from the first through hole area and first supporting region are far from described the The distance between edge of one through hole area is L1, wherein 2mm≤L1≤10mm.

Optionally, along the radial direction in the first through hole area, the radius of first glue-line is equal to first carrying The radius in area；

The inner ring annular release layer and the outer ring annular release layer fit in first glue-line far from described The side on one surface, the inner ring annular release layer is in the upright projection of plane where first glue-line and outer ring annular Release layer first glue-line upright projection in the plane collectively cover first glue-line.

Optionally, the diameter of the through-hole is d1, wherein 18mm≤d1≤24mm；

The outer annular diameter of the inner ring annular release layer is d2, wherein 30mm≤d2≤40mm；

The outer annular diameter of the outer ring annular release layer is d3, wherein 40mm≤d1≤50mm.

Optionally, the film structure further includes the second annular release layer, and the described second annular release layer fits in described Side of second glue-line far from the second surface, and the described second annular release layer annular encloses and sets second through hole area.

Optionally, the film structure further includes grip part, and the grip part is connect with the edge of the substrate layer.

Second aspect, the utility model embodiment additionally provide a kind of electrocardiograph monitoring device, including at least one is as above-mentioned The film structure and cardioelectric monitor equipment；

The cardioelectric monitor equipment includes the first projected electrode component and the second projected electrode component；

The film structure includes substrate layer, the first glue-line and the second glue-line；

The substrate layer includes opposite first surface and second surface, be provided on substrate layer through first surface and The through-hole of second surface, the first surface is divided into first through hole area to the through-hole and annular encloses and sets the first through hole area The first supporting region, by the second surface be divided into the second through hole area and annular enclose set second through hole area second carrying Area；

Adhesion has first glue-line on first supporting region, and the first glue-line annular encloses and sets the first through hole The radius in area, the radial direction along the first through hole area, first glue-line is less than or equal to first supporting region Radius；

Adhesion has second glue-line on second supporting region, and the second glue-line annular encloses and sets second through-hole Area, along the radial direction of second through hole area, the radius of second glue-line is equal to the radius of second supporting region；

When the film structure fits in the cardioelectric monitor equipment, the first projected electrode component and described second Projected electrode component is fitted and connected with a film structure, and the projected electrode of the first projected electrode component and described second The projected electrode of projected electrode component is respectively positioned in the through-hole of the film structure, is directly pasted by the through-hole with human skin It closes.

Preferably, when the film structure fits in the cardioelectric monitor equipment, the first projected electrode component The projected electrode of projected electrode and the second projected electrode component protrude from respectively the protrusion of the through-hole of the film structure away from From being L1, wherein 0.1mm≤L1≤1mm.

The utility model is held after solving Signa Gel water suction in the prior art by being bonded electrode directly with human skin The problem of easily expanding, declining electric conductivity, so that ecg measurement data are more accurate.

Detailed description of the invention

Fig. 1 is a kind of main view of film structure provided by the embodiment of the utility model；

Fig. 2 is a kind of top view of film structure provided by the embodiment of the utility model；

Fig. 3 is a kind of configuration schematic diagram of film structure provided by the embodiment of the utility model；

Fig. 4 is a kind of main view of film structure provided by the embodiment of the utility model；

Fig. 5 is a kind of configuration schematic diagram of film structure provided by the embodiment of the utility model；

Fig. 6 is a kind of main view of film structure provided by the embodiment of the utility model；

Fig. 7 is a kind of configuration schematic diagram of film structure provided by the embodiment of the utility model；

Fig. 8 is a kind of electrocardiograph monitoring device provided by the embodiment of the utility model；

Fig. 9 is a kind of broken section structural schematic diagram of electrocardiograph monitoring device provided by the embodiment of the utility model；

Figure 10 is enlarged structure schematic diagram of the Fig. 9 at A.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawings and examples.It is understood that herein Described specific embodiment is used only for explaining the utility model, rather than the restriction to the utility model.It further needs exist for It is bright, part relevant to the utility model is illustrated only for ease of description, in attached drawing rather than entire infrastructure.

Fig. 1 is a kind of main view of film structure provided by the embodiment of the utility model, and Fig. 2 is the utility model embodiment A kind of top view of the film structure provided, Fig. 3 are a kind of detonation configuration of film structure provided by the embodiment of the utility model Schematic diagram, with reference to shown in Fig. 1, Fig. 2 and Fig. 3, it includes: substrate layer 11, the first glue that the utility model embodiment, which provides film structure, Layer 12 and the second glue-line 13.

Substrate layer 11 includes opposite first surface 111 and second surface 112, is provided on substrate layer 11 through first The through-hole 113 on surface 111 and second surface 112, first surface 111 is divided into first through hole area to through-hole 113 and annular is enclosed and set Second surface 112 is divided into the second through hole area and annular encloses and sets the of the second through hole area by first supporting region in first through hole area Two supporting regions.

Adhesion has the first glue-line 12 on first supporting region, and 12 annular of the first glue-line encloses and sets first through hole area, logical along first The radial direction of porose area, the radius of the first glue-line 12 are less than or equal to the radius of the first supporting region.

Adhesion has the second glue-line 13 on second supporting region, and 13 annular of the second glue-line encloses and sets the second through hole area, logical along second The radial direction of porose area, the radius of the second glue-line 13 are equal to the radius of the second supporting region.

Film structure provided by the embodiment of the utility model, for directly pasting the projected electrode component of cardioelectric monitor equipment Together in human skin.When in use, cardioelectric monitor equipment is fitted in by the first glue-line 12, then passes through the second glue-line 13 and human body Skin contact fitting obtains the ecg information of heart so that the electrode stabilization of cardioelectric monitor equipment fits in human skin.Work as patch When membrane structure fits in cardioelectric monitor equipment, the projected electrode of projected electrode component is located in the through-hole 113 of film structure, passes through Through-hole 113 is directly fitted with human skin, is easy expansion after solving Signa Gel water suction in the prior art, is declined electric conductivity The problem of, so that ecg measurement data are more accurate.

It continues to refer to figure 1, shown in Fig. 2 and Fig. 3, optionally, film structure provided by the embodiment of the utility model further includes First annular release layer 14, first annular release layer 14 fit on the first supporting region, and first annular release layer 14 includes inner ring Annular release layer 141 and outer ring annular release layer 142, and inner ring annular release layer 141 and 142 annular of outer ring annular release layer are It encloses and sets first through hole area, outer ring annular release layer 142 is located at 141 side far from first through hole area of inner ring annular release layer.In In use, taking inner ring annular release layer 141 off, cardioelectric monitor equipment is fitted in by the first glue-line 12 of exposing, retains outer ring Annular release layer 142, in case the glue of the first glue-line 12 makes clothing dirty.

Fig. 4 is a kind of main view of film structure provided by the embodiment of the utility model, and Fig. 5 is the utility model embodiment A kind of configuration schematic diagram of the film structure provided, optionally, the radial direction with reference to shown in Fig. 4 and Fig. 5, along first through hole area Direction, the radius of the radius of the first glue-line 12 less than the first supporting region；It is remote that inner ring annular release layer 141 fits in the first glue-line 12 Side from first surface 111, and inner ring annular release layer 141 the first glue-line 12 upright projection covering the in the plane One glue-line 12；Outer ring annular release layer 142 fits on the first supporting region, by reducing the area of the first glue-line 12, saves Glue line material avoids the glue of the first glue-line 12 from making clothing dirty.

With continued reference to shown in Fig. 4, optionally, edge and first supporting region of first glue-line 12 far from first through hole area are separate The distance between the edge in first through hole area is L1, wherein 2mm≤L1≤10mm, so that the glue of the first glue-line 12 is not easy to be stained with Onto clothing.

Optionally, it continues to refer to figure 1, shown in Fig. 2 and Fig. 3, the radial direction along first through hole area, the half of the first glue-line 12 Diameter is equal to the radius of the first supporting region；Inner ring annular release layer 141 and outer ring annular release layer 142 fit in the first glue-line 12 Side far from first surface 111, upright projection and outer ring of the inner ring annular release layer 141 in 12 place plane of the first glue-line Shape release layer 142 the first glue-line 12 upright projection in the plane collectively cover the first glue-line 12, avoid the first glue-line 12 It is infected with dust, so that the viscosity of the first glue-line 12 obtains preferably protection.

With continued reference to shown in Fig. 2, optionally, the diameter of through-hole 113 is d1, wherein 18mm≤d1≤24mm, so that electrocardio The electrode of monitoring device fits in human skin by through-hole 113, to increase the contact area between electrode and human body；Interior ring The outer annular diameter of shape release layer 141 is d2, wherein 30mm≤d2≤40mm supervises the first glue-line 12 securely with electrocardio Measurement equipment bonding；The outer annular diameter of outer ring annular release layer 142 is d3, wherein 40mm≤d1≤50mm, so that film structure has There is biggish diameter, so that cardioelectric monitor equipment can be stable fits in human skin.

Fig. 6 is a kind of main view of film structure provided by the embodiment of the utility model, and Fig. 7 is the utility model embodiment A kind of configuration schematic diagram of the film structure provided, with reference to shown in Fig. 6 and Fig. 7, patch provided by the embodiment of the utility model Membrane structure further includes the second annular release layer 15, and the second annular release layer 15 fits in the second glue-line 13 far from the second surface 112 side, and the second annular 15 annular of release layer encloses and sets the second through hole area prevents sundries and the to protect the second glue-line 13 The contact of two glue-lines 13 influences the viscosity of the second glue-line 13.

Preferably, substrate layer 11 includes spunlace non-woven cloth, so that film structure intensity is high, good permeability.

Preferably, the first glue-line 12 and/or the second glue-line 13 include pressure-sensitive adhesive layer, and pressure-sensitive adhesive layer has glue holding power very It is good, cryogenic property might as well, fast viscosity preferably and with the preferable characteristic of bonding force.

It continues to refer to figure 1 with shown in Fig. 2, optionally, film structure provided by the embodiment of the utility model further includes holding Portion 16, grip part 16 are connect with the edge of substrate layer 11, for providing gripping for user, user are avoided to touch the first glue-line 12 Or second glue-line 13, influence the adhesion property of the first glue-line 12 or the second glue-line 13.Preferably, grip part 16 and substrate layer 11 1 It is body formed, to reduce processing step.

Fig. 8 is a kind of electrocardiograph monitoring device provided by the embodiment of the utility model, refering to what is shown in Fig. 8, the utility model is real The electrocardiograph monitoring device for applying example offer includes any of the above-described film structure 81 and cardioelectric monitor equipment 82, and cardioelectric monitor is set Standby 82 include the first projected electrode component 821, the second projected electrode component 822 and electrode connecting line 823, electrode connecting line electricity 823 are used for transmission the electrocardiosignal of the first projected electrode component 821 and the second projected electrode component 822 sensing.Film structure 81 For the first projected electrode component 821 of cardioelectric monitor equipment 82 and the second projected electrode component 822 to be fitted in human body skin Skin, so that the first projected electrode component 821 and the second projected electrode component 822 are electrically connected with human skin, to obtain the Sensing potential difference between one projected electrode component 821 and the second projected electrode component 822, to form electrocardiogram.

Film structure 81 includes substrate layer 11, the first glue-line 12, the second glue-line 13 and first annular release layer 14.

Substrate layer 11 includes opposite first surface 111 and second surface 112, is provided on substrate layer 11 through first The through-hole 113 on surface 111 and second surface 112, first surface 111 is divided into first through hole area to through-hole 113 and annular is enclosed and set Second surface 112 is divided into the second through hole area and annular encloses and sets the of the second through hole area by first supporting region in first through hole area Two supporting regions.

Adhesion has the first glue-line 12 on first supporting region, and 12 annular of the first glue-line encloses and sets first through hole area, logical along first The radial direction of porose area, the radius of the first glue-line 12 are less than or equal to the radius of the first supporting region.

Adhesion has the second glue-line 13 on second supporting region, and 13 annular of the second glue-line encloses and sets the second through hole area, logical along second The radial direction of porose area, the radius of the second glue-line 13 are equal to the radius of the second supporting region.

First annular release layer 14 fits on the first supporting region, and first annular release layer 14 includes inner ring annular release layer 141 and outer ring annular release layer 142, and inner ring annular release layer 141 and 142 annular of outer ring annular release layer enclose that set first logical Porose area, outer ring annular release layer 142 are located at 141 side far from first through hole area of inner ring annular release layer.In the present embodiment, the The inner ring annular release layer 141 and outer ring annular release layer 142 of one annular release layer 14 can also be an entirety, and user is by first Annular release layer 14 carried out after removing using.In alternate embodiment, in the present embodiment, first annular release layer 14 can also be saved Slightly.

Fig. 9 is a kind of broken section structural schematic diagram of electrocardiograph monitoring device provided by the embodiment of the utility model, reference Shown in Fig. 8 and Fig. 9, the first projected electrode component 821 includes first shell 8211, first detection module 8212 and the first protrusion Electrode 8213.First receiving space 8214 is formed in first shell 8211, first detection module 8212 is fixed on first shell 8211 first receiving space 8214, and be electrically connected with electrode connecting line 823 and the first projected electrode 8213.First protrusion electricity Pole 8213 is electrically connected with first detection module 8212, and part exposes to first receiving space 8214, first detection module 8212 It is electrically connected by the way that the first projected electrode 8213 is exposed with human skin to obtain electrocardiogram data information.When film structure 81 fits in When cardioelectric monitor equipment 82, the first projected electrode component 821 and a film structure 81 are cooperatively connected, the first glue of film structure 81 Layer 12 is bonded with first shell 8211, and the second glue-line 13 is bonded with human skin, and the first of the first projected electrode component 821 is convex It plays electrode 8212 to be located in the through-hole 113 of film structure 81, is directly fitted by through-hole 113 with human skin, solve existing skill The problem of being easy expansion after Signa Gel water suction in art, decline electric conductivity, so that ecg measurement data are more accurate.This reality It applies in example, the outer ring annular release layer 142 of film structure 81 can retain, and the glue of the first glue-line 12 is avoided to make clothing dirty.

Figure 10 is enlarged structure schematic diagram of the Fig. 9 at A, refering to what is shown in Fig. 10, the first projected electrode 8212 is far from first With the difference in height of L1 between the surface of surface and film structure 81 far from first shell 8211 of detection module 8212, wherein 0.1mm≤L1≤1mm, so that the first projected electrode 8212 is more bonded with skin.

With continued reference to shown in Fig. 9, it is preferred that the first projected electrode 8212 is taper type structure, and the first projected electrode 8212 close to first detection module 8212 diameter be greater than the first diameter of the projected electrode 8212 far from first detection module 8212, So that film structure 81 is easier to fit in cardioelectric monitor equipment 82.

With continued reference to shown in Fig. 9, it is preferred that 113 edge of through-hole of film structure 81 is according to the first projected electrode 8212 Structure carries out the change of adaptability, so that 113 edge of through-hole has certain slope, the diameter of the through-hole 113 of the first glue-line 12 is big In the diameter of the through-hole 113 of the second glue-line 12, substrate layer 11 is greater than base close to the edge diameter of the through-hole 113 of first shell 8211 The edge diameter of through-hole 113 of the material layer 11 far from first shell 8211, so that film structure 81 and cardioelectric monitor equipment 82 are more Fitting.

Likewise, the second projected electrode component 822 is convex including second shell 8221, the second detection module 8222 and second Play electrode 8223.The second accommodation space 8224 is formed in second shell 8221, the second detection module 8222 is fixed on second shell 8221 the second accommodation space 8224, and be electrically connected with electrode connecting line 823 and the second projected electrode 8223.Second protrusion electricity Pole 8223 is electrically connected with the second detection module 8222, and part exposes to the second accommodation space 8224, the second detection module 8222 It is electrically connected by the way that the second projected electrode 8223 is exposed with human skin to obtain electrocardiogram data information.When film structure 81 fits in When cardioelectric monitor equipment 82, the second projected electrode component 822 and a film structure 81 are cooperatively connected, and the second projected electrode component 822 projected electrode is located in the through-hole 113 of film structure 81, is directly fitted by through-hole 113 with human skin, solves existing The problem of being easy expansion after Signa Gel water suction in technology, decline electric conductivity, so that ecg measurement data are more accurate.

Surface of second projected electrode 8223 far from the second detection module 8222 and film structure 81 are far from second shell With the difference in height of L1 between 8221 surface, wherein 0.1mm≤L1≤1mm, so that the second projected electrode 8223 and skin are more Stick on conjunction.Preferably, the second projected electrode 8223 is taper type structure, and the second projected electrode 8223 is close to the second detection module 8222 diameter is greater than diameter of second projected electrode 8223 far from the second detection module 8222, so that the more easy sticker of film structure 81 Together in cardioelectric monitor equipment 82.

Preferably, 113 edge of through-hole of film structure 81 carries out adaptability according to the structure of the second projected electrode 8223 Change, so that 113 edge of through-hole has certain slope, the diameter of the through-hole 113 of the first glue-line 12 is greater than the logical of the second glue-line 12 The diameter in hole 113, substrate layer 11 are greater than substrate layer 11 far from second shell close to the edge diameter of the through-hole 113 of second shell 8221 The edge diameter of the through-hole 113 of body 8221, so that film structure 81 is more bonded with cardioelectric monitor equipment 82.

Note that above are only the preferred embodiment and institute's application technology principle of the utility model.Those skilled in the art's meeting Understand, the utility model is not limited to specific embodiment described here, is able to carry out for a person skilled in the art various bright Aobvious variation, readjustment and substitution is without departing from the protection scope of the utility model.Therefore, although passing through above embodiments The utility model is described in further detail, but the utility model is not limited only to above embodiments, is not departing from It can also include more other equivalent embodiments in the case that the utility model is conceived, and the scope of the utility model is by appended Scope of the claims determine.

Claims (10)

1. a kind of film structure, for the projected electrode component of cardioelectric monitor equipment to be mounted directly on human skin, feature It is, comprising:

Substrate layer, the first glue-line and the second glue-line；

The substrate layer includes opposite first surface and second surface, is provided on substrate layer through first surface and second The through-hole on surface, the first surface is divided into first through hole area to the through-hole and annular encloses and sets the of the first through hole area The second surface is divided into the second through hole area and annular encloses and sets the second supporting region of second through hole area by one supporting region；

Adhesion has first glue-line on first supporting region, and the first glue-line annular encloses and sets the first through hole area, Radial direction along the first through hole area, the radius of first glue-line are less than or equal to the half of first supporting region Diameter；

Adhesion has second glue-line on second supporting region, and the second glue-line annular encloses and sets second through hole area, Along the radial direction of second through hole area, the radius of second glue-line is equal to the radius of second supporting region.

2. film structure according to claim 1, which is characterized in that further include first annular release layer；

The first annular release layer fits on first supporting region, the first annular release layer include inner ring annular from Type layer and outer ring annular release layer, and the inner ring annular release layer and the outer ring annular release layer annular enclose and set described One through hole area, the outer ring annular release layer are located at side of the inner ring annular release layer far from the first through hole area.

3. film structure according to claim 2, which is characterized in that the radial direction along the first through hole area, it is described The radius of first glue-line is less than the radius of first supporting region；

The inner ring annular release layer fits in the side of first glue-line far from the first surface, and inner ring annular Release layer first glue-line upright projection in the plane cover first glue-line；The outer ring annular release layer patch Together on first supporting region.

4. film structure according to claim 3, which is characterized in that first glue-line is far from the first through hole area The distance between edge and edge of first supporting region far from the first through hole area are L1, wherein 2mm≤L1≤ 10mm。

5. film structure according to claim 2, which is characterized in that the radial direction along the first through hole area, it is described The radius of first glue-line is equal to the radius of first supporting region；

The inner ring annular release layer and the outer ring annular release layer fit in first glue-line far from first table The side in face, the inner ring annular release layer are release in the upright projection of plane where first glue-line and the outer ring annular Layer first glue-line upright projection in the plane collectively cover first glue-line.

6. according to the described in any item film structures of claim 2-5, which is characterized in that the diameter of the through-hole is d1, wherein 18mm≤d1≤24mm；

The outer annular diameter of the inner ring annular release layer is d2, wherein 30mm≤d2≤40mm；

The outer annular diameter of the outer ring annular release layer is d3, wherein 40mm≤d1≤50mm.

7. film structure according to claim 1, it is characterised in that: the film structure further includes that the second annular is release Layer, the described second annular release layer fit in the side of second glue-line far from the second surface, and second annular Release layer annular, which is enclosed, sets second through hole area.

8. film structure according to claim 1, which is characterized in that the film structure further includes grip part, described to hold Portion is held to connect with the edge of the substrate layer.

9. a kind of electrocardiograph monitoring device, which is characterized in that supervised including the described in any item film structures of claim 1-8 and electrocardio Measurement equipment；

The cardioelectric monitor equipment includes the first projected electrode component and the second projected electrode component；

The film structure includes substrate layer, the first glue-line and the second glue-line；

The substrate layer includes opposite first surface and second surface, is provided on substrate layer through first surface and second The through-hole on surface, the first surface is divided into first through hole area to the through-hole and annular encloses and sets the of the first through hole area The second surface is divided into the second through hole area and annular encloses and sets the second supporting region of second through hole area by one supporting region；

Adhesion has first glue-line on first supporting region, and the first glue-line annular encloses and sets the first through hole area, Radial direction along the first through hole area, the radius of first glue-line are less than or equal to the half of first supporting region Diameter；

Adhesion has second glue-line on second supporting region, and the second glue-line annular encloses and sets second through hole area, Along the radial direction of second through hole area, the radius of second glue-line is equal to the radius of second supporting region；

When the film structure fits in the cardioelectric monitor equipment, the first projected electrode component and second protrusion Electrode assembly is fitted and connected with a film structure, and the projected electrode of the first projected electrode component and second protrusion The projected electrode of electrode assembly is respectively positioned in the through-hole of the film structure, is directly fitted by the through-hole with human skin.

10. electrocardiograph monitoring device according to claim 9, which is characterized in that when the film structure fits in the heart When pyroelectric monitor equipment, the projected electrode point of the projected electrode of the first projected electrode component and the second projected electrode component The protrusion distance for not protruding from the through-hole of the film structure is L1, wherein 0.1mm≤L1≤1mm.