CN209574684U - A kind of wireless electrocardiograph monitoring device - Google Patents

Abstract

The utility model discloses a kind of wireless electrocardiograph monitoring devices, including back element, conductance harness, electrode and electrode deck, the upper end of the back element outer surface, the left side of lower end and the right side of lower end are clamped with conductance harness, there are two electrode decks for the middle part clamping of the front surface of the left side conductance harness, and electrode deck is connected in the middle part of the front surface of right side conductance harness, the inside of the electrode deck is embedded with electrode, by the way that originally external electrode connecting line road is adapted as built-in route in the data conductor that is internally embedded of backboard and conductance harness, the extended line of electrode is wound by using the elastic data line winding wheel with pull lock function, electrode can take in the inside of electrode deck when not in use, it is not in the problem of connecting wire staggeredly knots, extract pull data conductor out when device uses, it will Electrode paste can rearward prevent arm extension from touching in front, by electrocardioscanner assembly, and not influence the daily routines of patient.

Description

A kind of wireless electrocardiograph monitoring device

Technical field

The utility model relates to medical treatment and nursing technical field, specifically a kind of wireless electrocardiograph monitoring device.

Background technique

Electrocardioscanner is portable, can be guarded whenever and wherever possible to a human heart, testing principle and hospital The electrocardiograph testing principle used is the same, but it is adjusted with detection easy to carry, easy to operate, timely and adaptively ECG shows the advantages that amplitude, carries out preventing to provide effective detection hand for the early detection and sub-health population of heart disease Section, provides the relevant effective information of patient for doctor, but existing electrocardioscanner electrode is all that separate conductors are plugged on electrocardio On monitor, this is easy to appear the problem of wire crossbar confusion, and external route is easy to hang and touch, and influences whether that patient's is daily Life.

Utility model content

In view of the deficiencies of the prior art, the purpose of the utility model is to provide a kind of wireless electrocardiograph monitoring devices, to meet Have special population uses plate demand.

The technical scheme adopted by the utility model to solve the technical problem is as follows: a kind of wireless electrocardiograph monitoring device, including Back element, conductance harness, electrode and electrode deck, the upper end of the back element outer surface, the left side of lower end and lower end Right side is clamped with conductance harness, and the middle part clamping of the front surface of the left side conductance harness is there are two electrode deck, and right side Electrode deck is connected in the middle part of the front surface of conductance harness, the inside of the electrode deck is embedded with electrode；

Further, the back element includes backboard, positioning plate and penetrating cable clamp, a left side for the top and bottom of the backboard Side and right side, which rivet, penetrating cable clamp, and there are four positioning plates for the middle part uniform welding of the front surface of backboard, and four described fixed It is connected with electrocardioscanner between the plate of position, the upper end of the electrocardioscanner is plugged with data flat cable, the front surface of the backboard Top be plugged with data line interface, the data flat cable is plugged in the inside of data line interface, and the electrocardioscanner passes through Data line interface and data flat cable are electrically connected with backboard；

Further, the conductance harness includes harness crust, insulating gels and data conductor, the inner cavity of the harness crust Filled with insulating gels, the insulating gels have been internally embedded data conductor, the penetrating cable clamp run through harness crust and Insulating gels are fitted closely with data conductor, and penetrating cable clamp is electrically connected with data conductor；

Further, the electrode deck includes deck shell, winding chamber, data line winding wheel, pull data conductor and pumping Kerve, the outer surface of the rear wall of the deck shell are pasted on the outer surface of harness crust, and the rear wall of deck shell Inside offers winding chamber, and the inner rotation of the winding chamber is connected with data line winding wheel, the data line winding wheel it is outer Surface wrap has pull data conductor, and the left end of the front side wall of the deck shell offers pull slot, and the pull data are led Line extends to outside through the side wall of pull slot, and the outer end of pull data conductor is plugged in the left end of the lateral wall of electrode, institute The inner surface for stating the front side wall of deck shell is connected with electrode, and the rear end of the pull data conductor is through harness crust, insulation Gel and deck shell are electrically connected with data conductor, and electrode passes through pull data conductor, data conductor and penetrating cable clamp and back Parts electrical connection；

Further, the periphery of the front surface of the deck shell is pasted with flexible glue circle；

Further, resistance is pasted between the outer surface of the rear wall of the inner surface and electrode of the front side wall of the deck shell Buddhist nun's layer.

The beneficial effects of the utility model are:

By the way that originally external electrode connecting line road is reequiped in the data conductor that is internally embedded of backboard and conductance harness For built-in route, the extended line of electrode is wound by using the elastic data line winding wheel with pull lock function, not Electrode can take in the inside of electrode deck when use, be not in the problem of connecting wire staggeredly knots, take out in device use Electrocardioscanner assembly can rearward be prevented arm extension from touching, and not by pull data conductor out by electrode paste in front Influence the daily routines of patient.

Detailed description of the invention

Fig. 1 is the rearview of the utility model；

Fig. 2 is that the electrode deck left view of the utility model cuts open figure；

Fig. 3 is the electrode deck main view of the utility model.

Description of symbols: 1 back element, 2 backboards, 3 positioning plates, 4 penetrating cable clamps, 5 conductance harnesses, 6 harness crusts, 7 Insulating gels, 8 data conductors, 9 electrodes, 10 electrode decks, 11 deck shells, 12 winding chambers, 13 data line winding wheels, 14 pulls Data conductor, 15 pull slots, 16 electrocardioscanners, 17 data line interfaces, eighteen data winding displacement, 19 damping layers, 20 flexible glue circles.

Specific embodiment

The present invention will be further illustrated below in conjunction with specific embodiments, it should be appreciated that these embodiments are merely to illustrate this Utility model rather than limitation the scope of the utility model.In addition, it should also be understood that, in the content for having read the utility model instruction Later, those skilled in the art can make various changes or modifications the utility model, and such equivalent forms also fall within application The appended claims limited range.

It is the utility model structure diagram referring to Fig. 1-3, a kind of wireless electrocardiograph monitoring device, including back element 1, electricity Harness 5, electrode 9 and electrode deck 10 are led, upper end, the left side of lower end and the right side of lower end of 1 outer surface of back element clamp There is a conductance harness 5, the middle part clamping of the front surface of left side conductance harness 5 is there are two electrode deck 10, and right side conductance harness 5 Electrode deck 10 is connected in the middle part of front surface, the inside of electrode deck 10 is embedded with electrode 9, by backboard 2 and conductance Originally external 9 connection line of electrode is adapted as built-in route by the data conductor 8 that is internally embedded of harness 5, by using band There is the elastic data line winding wheel 13 of pull lock function to wind the extended line of electrode 9, electrode 9 can take in electricity when not in use The inside of pole deck 10 is not in the problem of connecting wire staggeredly knots, extracts pull data conductor 14 out when device uses, Electrode 9 is attached to front, can rearward prevent arm extension from touching the assembly of electrocardioscanner 16, and do not influence the day of patient Often activity；

Back element 1 includes backboard 2, positioning plate 3 and penetrating cable clamp 4, and the left side and right side of the top and bottom of backboard 2 are equal Riveting has penetrating cable clamp 4, and positioning plate 3 there are four the middle part uniform weldings of the front surface of backboard 2, blocks between four positioning plates 3 It is connected to electrocardioscanner 16, the upper end of electrocardioscanner 16 is plugged with data flat cable 18, and the top of the front surface of backboard 2 is plugged with Data line interface 17, data flat cable 18 are plugged in the inside of data line interface 17, and electrocardioscanner 16 passes through data line interface 17 It is electrically connected with data flat cable 18 with backboard 2, backboard 2 has been internally embedded conducting wire, and conducting wire will connect data line interface 17 and puncture Wire clamp 4 links together；

Conductance harness 5 includes harness crust 6, insulating gels 7 and data conductor 8, and the lumen loading of harness crust 6 has insulation Gel 7, insulating gels 7 have been internally embedded data conductor 8, and penetrating cable clamp 4 is through harness crust 6 and insulating gels 7 and number It is fitted closely according to conducting wire 8, and penetrating cable clamp 4 is electrically connected with data conductor 8, the lower end of two conductance harnesses 5 is clipped in lower-left respectively In the penetrating cable clamp 4 of side and lower right side, the upper end of two conductance harnesses 5 is all clipped in the penetrating cable clamp 4 of upper end, insulating gels 7 be solid gel；

Electrode deck 10 includes deck shell 11, winding chamber 12, data line winding wheel 13, pull data conductor 14 and pull Slot 15, the outer surface of the rear wall of deck shell 11 are pasted on the outer surface of harness crust 6, and the rear wall of deck shell 11 Inside offers winding chamber 12, and the inner rotation of winding chamber 12 is connected with data line winding wheel 13, data line winding wheel 13 it is outer Surface wrap has pull data conductor 14, and the left end of the front side wall of deck shell 11 offers pull slot 15, pull data conductor 14 side walls for running through pull slot 15 extend to outside, and the outer end of pull data conductor 14 is plugged in a left side for the lateral wall of electrode 9 End, the inner surface of the front side wall of deck shell 11 are connected with electrode 9, the rear end of pull data conductor 14 through harness crust 6, absolutely Edge gel 7 and deck shell 11 are electrically connected with data conductor 8, and electrode 9 by pull data conductor 14, data conductor 8 and is worn Thorn wire clamp 4 is electrically connected with back element 1；

The periphery of the front surface of deck shell 11 is pasted with flexible glue circle 20, can anti-locking apparatus when using deck shell 11 it is straight Sense of discomfort is brought to patient when contacting patient skin；

It is pasted with damping layer 19 between the outer surface of the rear wall of the inner surface and electrode 9 of the front side wall of deck shell 11, Prevent when not in use electrode 9 because its frictional force deficiency between deck shell 11 falls off.

It, will be outside script by the data conductor 8 that is internally embedded in backboard 2 and conductance harness 5 when utility model works 9 connection line of electrode set is adapted as built-in route, by using the elastic data line winding wheel 13 for having pull lock function The extended line of electrode 9 is wound, when not in use electrode 9 can take in the inside of electrode deck 10, be not in that connecting wire is handed over The problem of mistake knots extracts pull data conductor 14 out when device uses, electrode 9 is attached to front, by electrocardioscanner 16 assembly can rearward prevent arm extension from touching, and not influence the daily routines of patient.

Claims (6)

1. a kind of wireless electrocardiograph monitoring device, it is characterised in that: including back element (1), conductance harness (5), electrode (9) and electricity Pole deck (10), upper end, the left side of lower end and the right side of lower end of back element (1) outer surface are clamped with conductance harness (5), there are two the middle part clampings of the front surface of the left side conductance harness (5) electrode deck (10), and right side conductance harness (5) Front surface in the middle part of be connected with electrode deck (10), the inside of the electrode deck (10) is embedded with electrode (9).

2. a kind of wireless electrocardiograph monitoring device according to claim 1, it is characterised in that: the back element (1) includes Backboard (2), positioning plate (3) and penetrating cable clamp (4), the left side of the top and bottom of the backboard (2) is riveted with right side wears Pierce wire clamp (4), and the middle part uniform welding of the front surface of backboard (2) is there are four positioning plate (3), four positioning plates (3) it Between be connected with electrocardioscanner (16), the upper end of the electrocardioscanner (16) is plugged with data flat cable (18), the backboard (2) The top of front surface be plugged with data line interface (17), the data flat cable (18) is plugged in the interior of data line interface (17) Portion, the electrocardioscanner (16) are electrically connected by data line interface (17) and data flat cable (18) with backboard (2).

3. a kind of wireless electrocardiograph monitoring device according to claim 2, it is characterised in that: the conductance harness (5) includes The lumen loading of harness crust (6), insulating gels (7) and data conductor (8), the harness crust (6) has insulating gels (7), The insulating gels (7) have been internally embedded data conductor (8), and the penetrating cable clamp (4) through harness crust (6) and is insulated Gel (7) is fitted closely with data conductor (8), and penetrating cable clamp (4) is electrically connected with data conductor (8).

4. a kind of wireless electrocardiograph monitoring device according to claim 3, it is characterised in that: the electrode deck (10) includes Deck shell (11), winding chamber (12), data line winding wheel (13), pull data conductor (14) and pull slot (15), the card The outer surface of the rear wall of seat shell (11) is pasted on the outer surfaces of harness crust (6), and the rear wall of deck shell (11) Inside offers winding chamber (12), and the inner rotation of winding chamber (12) is connected with data line winding wheel (13), the data The outer surface of line winding wheel (13) is wound with pull data conductor (14), and the left end of the front side wall of the deck shell (11) opens up Have pull slot (15), side wall of the pull data conductor (14) through pull slot (15) extends to outside, and pull data are led The outer end of line (14) is plugged in the left end of the lateral wall of electrode (9), the inner surface clamping of the front side wall of the deck shell (11) Have electrode (9), the rear end of the pull data conductor (14) is through harness crust (6), insulating gels (7) and deck shell (11) Be electrically connected with data conductor (8), and electrode (9) by pull data conductor (14), data conductor (8) and penetrating cable clamp (4) and Back element (1) electrical connection.

5. a kind of wireless electrocardiograph monitoring device according to claim 4, it is characterised in that: before the deck shell (11) The periphery on surface is pasted with flexible glue circle (20).

6. a kind of wireless electrocardiograph monitoring device according to claim 4, it is characterised in that: before the deck shell (11) Damping layer (19) are pasted between the outer surface of the rear wall of the inner surface and electrode (9) of side wall.