CN209770367U - Electrocardio electrode buckle - Google Patents

Electrocardio electrode buckle Download PDF

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Publication number
CN209770367U
CN209770367U CN201821710757.XU CN201821710757U CN209770367U CN 209770367 U CN209770367 U CN 209770367U CN 201821710757 U CN201821710757 U CN 201821710757U CN 209770367 U CN209770367 U CN 209770367U
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electrocardio
electrode
shell
socket
buckle
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CN201821710757.XU
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Chinese (zh)
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赵盛荣
陈绩
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SHENZHEN UNIMED MEDICAL SUPPLIES Inc
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SHENZHEN UNIMED MEDICAL SUPPLIES Inc
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Abstract

The application discloses electrocardio electrode is detained, including the epitheca and the inferior valve that adopt the mutual lock of ultrasonic bonding technology, the inferior valve bottom surface is equipped with the socket that is used for inserting the public electrode of electrocardio, still including the female electrode of electrocardio that is located socket one side, and the female electrode of electrocardio passes through the cable and is connected with the external equipment electricity, still includes the elastomer that is used for chucking the public electrode of electrocardio, and the elastomer afterbody is equipped with the elasticity bending section, and the interlude is located the opposite side of socket, the top of elastomer is walked around the socket, extend to the casing outside by the female electrode top. The utility model provides an electrocardio electrode is detained, and the elastomer passes through the elastic bending section energy storage of bottom, can realize electrocardio public electrode and electrocardio female electrode chucking and the operation of dropout alone through reciprocating of control elastomer interlude, need not the casing and provides extra back shaft, its simple structure, low in manufacturing cost, and the fault rate is low.

Description

Electrocardio electrode buckle
Technical Field
The application relates to the field of medical equipment, in particular to an electrocardio-electrode buckle.
Background
In the electrocardiograph detection, an electrocardiograph male electrode is fixed on the surface of a human body and is usually a columnar conductor, and then an electrocardiograph electrode buckle connected with detection equipment is electrically connected with the electrocardiograph male electrode, so that the electrocardiograph detection equipment can acquire required data. Wherein, the electrocardio-electrode buckle is internally provided with an electrocardio-bus electrode connected with an external cable.
Along with the improvement of living standard and the development of medical treatment and health, the sanitary requirements of people on medical consumables are improved, the traditional electrocardio electrode buckle cannot meet the requirements of patients on prevention of cross infection and the psychological requirements on cleanness and sanitation, and therefore the disposable electrocardio electrode buckle is produced.
The existing electrocardio electrode buckle controls the clamping and the releasing of an electrocardio male electrode and a electrocardio female electrode through an elastic body with a rotating shaft arranged inside. The structure is complex, the production cost is high, the rotating shaft is usually formed by injection molding, and the inner surface of the rotating shaft is difficult to be smooth, so that the rotating shaft is easy to break when bearing a certain torque in the using process, and the efficiency and the quality of the electrocardio detection are influenced.
Disclosure of Invention
the invention provides an electrocardio-electrode buckle, aiming at solving the problems of high cost and easy damage of the traditional electrocardio-electrode buckle.
The application discloses electrocardio electrode detains includes:
The electrocardiogram electrode comprises a shell, wherein the shell comprises an upper shell and a lower shell which are buckled with each other, and the bottom of the lower shell is provided with a socket for inserting an electrocardiogram male electrode;
The electrocardio female electrode is positioned on one side of the socket and is used for being in contact with the electrocardio male electrode to form a loop;
The tail part of the elastic body is provided with an elastic bending section and is attached to the inner wall of the lower shell, and the middle section of the elastic body is positioned on the other side of the socket and used for pressing the electrocardio male electrode to the electrocardio female electrode; the top end of the elastic body bypasses the socket and extends to the outer side of the shell from the upper part of the electrocardio-bus electrode, and the top end of the elastic body is also provided with a key used for pressing downwards.
The electrocardio-electrode buckle is characterized in that the electrocardio female electrode is fixed on the surface of the lower shell, one end of the electrocardio female electrode is provided with a groove matched with the electrocardio male electrode, and the inner surface of the groove is in an arc shape matched with the electrocardio male electrode.
The electrocardio-electrode buckle is characterized in that the elastic bending section is a U-shaped folded edge arranged at the tail part of the elastic body.
the electrocardio-electrode buckle is characterized in that the shape of one side of the U-shaped folded edge, which is attached to the lower shell, is matched with the inner wall of the lower shell.
The electrocardio-electrode buckle is characterized in that a groove for fixing the tail part of the elastic body is formed in the inner wall of the lower shell.
The electrocardio-electrode buckle is characterized in that an opening for the key to pass through is formed in the side face of the shell, a positioning protrusion is arranged on the inner surface of the shell close to the opening, and a section of positioning groove matched with the positioning protrusion is formed in the side face of the key.
the electrocardio-electrode buckle is characterized in that a certain distance is reserved between one end of the positioning groove facing the inside of the shell and the edge of the key and is used for limiting when the key bounces.
The electrocardio electrode buckle, wherein, the bottom surface of inferior valve is equipped with the draw-in groove, electrocardio female electrode bottom is equipped with and is used for imbedding the card of draw-in groove is protruding.
The electrocardio-electrode buckle is characterized in that a positioning column is arranged on the inner surface of the upper shell, and a positioning hole matched with the positioning column is formed in the top of the electrocardio-female electrode.
The electrocardio-electrode buckle is characterized in that a first anti-slip area is arranged on the surface of the key, and a second anti-slip area is arranged on the side face of the shell.
According to the electrocardio-electrode buckle provided by the invention, the elastic body stores energy through the elastic bending section at the bottom end, the operations of clamping and releasing the electrocardio male electrode and the electrocardio female electrode can be independently realized by controlling the up-and-down movement of the middle section of the elastic body, no additional support shaft is required to be provided by the shell, and the electrocardio-electrode buckle has the advantages of simple structure, low manufacturing cost and low failure rate.
Drawings
FIG. 1 is a schematic view of an overall structure of an ECG electrode buckle according to a first embodiment of the present invention;
FIG. 2 is an exploded view of the electrocardio-electrode buckle according to the first embodiment of the present invention;
FIG. 3 is an exploded view of the electrocardio-electrode buckle according to the second embodiment of the present invention;
Fig. 4 is another schematic structural diagram of a wiring duct according to a second embodiment of the present invention.
Detailed Description
The present application will be described in further detail below with reference to the accompanying drawings by way of specific embodiments.
Example one
The electrocardio-electrode buckle provided by the present embodiment, as shown in fig. 1 and 2, includes a casing 1, an electrocardio-bus electrode 2 located in the casing 1, an elastic body 3, and a button 4 protruding outside the casing 1. The shell 1 comprises an upper shell 11 and a lower shell 12, and the bottom surface of the lower shell 12 is provided with a socket 120 for inserting a male electrocardioelectrode. The electrocardio female electrode 2 is fixed on the bottom surface of the lower shell 12 and is positioned above the socket 120, the electrocardio female electrode 2 is made of non-metal materials, one end of the electrocardio female electrode is provided with a groove 20 matched with the electrocardio male electrode, the inner surface of the groove 20 is arc-shaped, and the inner surface of the groove slightly protrudes out of the edge of the socket 120 towards the circle center of the socket 120. The other end of the electrocardio-bus electrode 2 is electrically connected with the conductive core of the cable 5 by adopting a hot melting technology. The conductive core of the cable 5 is also made of a non-metallic conductive material, in this embodiment, the electrocardiograph bus electrode 2 and the conductive core of the cable 5 are both made of a conductive plastic material, the conductive plastic material is a functional polymer material which is processed by mixing resin and a conductive substance in a plastic processing manner, and the material is an existing material. The other end of the cable 5 is electrically connected with external equipment.
As shown in fig. 1 and 2, an arc-shaped clamping groove 121 is further disposed on the surface of the lower shell 12 above the socket 120, a clamping protrusion 21 engaged with the arc-shaped clamping groove 121 is disposed at the bottom of the electrocardiograph electrode 2, and the clamping protrusion 21 is clamped into the clamping groove 121 to perform a positioning function. In addition, an upper positioning hole 22 and a lower positioning hole (not shown) are respectively formed above and below the electrocardiograph electrode 2, an upper positioning post 110 engaged with the upper positioning hole 22 is formed on the inner surface of the upper case 11, and a lower positioning post (not shown) engaged with the lower positioning hole is formed on the inner surface of the lower case 12. After the upper shell 11 and the lower shell 12 are fixed by ultrasonic welding, the clamping protrusion 21 of the electrocardiograph mother electrode 2 is embedded into the clamping groove 121, the upper positioning column 110 is inserted into the upper positioning hole 22, and the lower positioning column is inserted into the lower positioning hole, so that the electrocardiograph mother electrode 2 is fixedly connected with the shell 1, and cannot shift or shake.
An elastic part used for tripping the existing electrocardio-electrode buckle usually needs a rotating shaft, and the rotating shaft is easy to wear and cause looseness or breakage after long-term use, so that faults are frequent when the electrocardio-electrode buckle is used. In order to solve the problem, in the elastic body 3 disclosed in this embodiment, as shown in fig. 2, the bottom end of the elastic body 3 is provided with an elastic bending section 30, and the elastic bending section 30 may be in a spring shape, a wave shape, or the like, and can generate elastic deformation to store energy. The middle section 31 of the elastic body 3 is positioned below the socket 120 and is opposite to the groove 20 of the electrocardio female electrode 2, the middle section 31 is provided with a clamping plate 310, and one side of the clamping plate 310 facing the socket 120 is in a circular arc shape matched with the electrocardio male electrode. The distal end of the elastic body 3 extends above the electrocardiograph main electrode 2 by passing over the socket 120 and extends in the direction outside the housing 1, and a push button 4 is provided at the distal end. An opening 122 for the key 4 to pass through is formed in the side wall of the lower shell 12, and the top edge of the key 4 cannot pass through the opening 122, so that the limiting function of pressing down is achieved. The inner surfaces of the upper shell 11 and the lower shell 12 are provided with positioning protrusions 13 at the positions of the openings 122, the side surfaces of the middle parts of the keys 4 in the openings 122 are provided with positioning grooves 40, and the positioning grooves 40 are matched with the positioning protrusions 13 to play a role in guiding the keys 4 in the pressing and bouncing processes. The bottom end (towards the inside one end of casing) of constant head tank 40 leaves certain distance apart from the root of button 4 (button 4 and elastomer link up department), and when button 4 bounced under the effect of elastic bending section 30, location protruding 13 slided in constant head tank 40, and when location protruding 13 slided to constant head tank 40 bottom, button 4 arrived the extreme position that bounces, played the limiting displacement that button 4 bounced.
When the electrocardio electrode buckle is not in butt joint with the electrocardio male electrode, the elastic bending section 30 does not generate elastic deformation, the clamping plate 310 stays on the surface of the socket 120, and the electrocardio male electrode is blocked by the clamping plate 310 and cannot be inserted into the socket 120. When the key 4 is pressed, the elastic bending section 30 is compressed, the middle section 31 moves downwards until the edge of the clamping plate 310 is flush with the edge of the socket 120, the electrocardio male electrode is inserted at the moment, the key 4 is released again, the middle section 31 rebounds and rises under the action of the elastic bending section 30, and the electrocardio male electrode is pressed into the groove 20 of the electrocardio female electrode 2 by the clamping plate 310, so that the electrocardio male electrode is communicated with the electrocardio female electrode 2. The end part of the electrocardio male electrode is provided with a self-locking groove with the width matched with that of the middle section 31, and after the electrocardio male electrode is inserted into the socket 120, the middle section 31 is clamped into the self-locking groove, so that the electrocardio male electrode can be prevented from being accidentally taken off. When the device needs to be disassembled, the key 4 is pressed, the middle section 31 moves downwards until the middle section is separated from the electrocardio male electrode, and then the electrocardio electrode buckle is moved to be separated from the electrocardio male electrode.
in order to prevent the elastic body 3 from being displaced inside the casing 1, the inner surface of the side wall of the lower casing 12 is further provided with a groove 123, the tail end of the elastic body 3 is inserted into the groove 123, and when the elastic body 3 is compressed, the groove 123 can prevent the elastic body 3 from sliding along the inner wall of the lower casing 12, thereby achieving the positioning effect.
By adopting the structural design, the operation of clamping and releasing the electrocardio male electrode and the electrocardio female electrode can be realized independently, an additional supporting shaft is not required to be provided by the shell, the structure is simple, the manufacturing cost is low, and the failure rate is low.
The existing electrocardio electrode buckle and the electrocardio male electrode are connected on the surface often when being butted, but actually, the electrocardio female electrode 2 and the electrocardio male electrode are not in contact in place, so that the electrode is tripped or partially tripped, and the detection result is seriously influenced. In order to solve this problem, in the present embodiment, the observation window 6 is opened on the surface of the upper case 11. The observation window 6 is arranged right opposite to the socket 120, the transparent sealing cover 61 covering the observation window 6 is fixed on the surface of the upper shell 11, and whether the contact between the electrocardio female electrode 2 and the electrocardio male electrode is good or not can be visually observed through the transparent sealing cover 61, so that the electrocardio detection quality is improved. The upper case 11 has a recess 111 on its surface, which is matched with the transparent cover 61 in shape, and the transparent cover 61 is fitted into the recess 111 and fixed by adhesive.
example two
the embodiment is an improvement of the previous embodiment, the existing electrocardio-electrode buckle cable 5 directly extends out from the interior of the shell 1, so that tiny relative movement between the cable 5 and the shell 1 is inevitable in the using process, the pulling force is conducted to the connection position of the electrocardio-bus electrode 2, and poor contact or disconnection between the cable 5 and the electrocardio-bus electrode 2 is easily caused. To solve this problem, in the embodiment, as shown in fig. 3, the tail of the housing 1 is provided with a wiring groove 124, and the wiring groove 124 extends to the tail of the housing in a curve like a wave.
Specifically, in the embodiment of the present application, as shown in fig. 3, the wiring groove 124 is disposed on the inner surface of the rear portion of the housing 1, and has one end near the terminal of the electrocardiograph bus electrode 2 and the other end extending along a wave-shaped track in a horizontal plane toward the rear portion of the housing 1. The wiring groove 124 comprises two wavy guard plates arranged on the inner surface of the tail part of the upper shell 11 and two corresponding wavy guard plates arranged on the inner surface of the tail part of the lower shell 12, the guard plates protrude out of the inner surface of the shell 1 by a certain height, the two guard plates positioned on the upper shell 11 are opposite to the two guard plates positioned on the lower shell 12, therefore, when the upper shell 11 is buckled with the lower shell 12, the wiring groove 124 formed by splicing the guard plates is formed, and the space between the two guard plates is used for wiring.
By adopting the structural design, when the cable 5 is subjected to external tension, the positive pressure of the cable on the surface of the protection plate can be increased, so that the tension is converted into the friction force between the cable 5 and the protection plate, the tension cannot be further transmitted through the wiring groove 124, and the condition that the external tension damages the electric connection between the cable 5 and the electrocardio bus electrode 2 is avoided.
In another embodiment of the present application, as shown in fig. 4, the cabling channel 124 may also extend towards the rear of the housing 1 in a wave shape in a vertical plane. Specifically, a plurality of annular first ribs 112 are formed downward on the inner surface of the upper shell 11, the first ribs 112 are arranged at intervals toward the tail of the housing 1, and second ribs 125 corresponding to the first ribs 112 one to one are formed on the inner surface of the lower shell 12. The heights of two adjacent first convex edges 112 are different, and the end surfaces of the first convex edges 112 are in an inwards concave arc shape, so that the end parts of the first convex edges 112 are integrally connected to form a wave shape with an undulate height in a vertical plane; correspondingly, the heights of two adjacent second protruding ribs 125 are different, and the end surfaces of the second protruding ribs 125 are concave circular arcs. The opposing first ribs 112 and second ribs 125 are complementary in height such that the gap between the ends of each opposing first rib 112 and second rib 125 is of uniform size, such that a raceway 124 is formed between the ends of the first ribs 112 and second ribs 125.
By adopting the structural design, when the cable 5 is subjected to external tension, the positive pressure applied by the end surfaces of the first rib 112 and the second rib 125 is increased, so that the friction force between the wiring groove 124 and the cable 5 is increased, the tension is applied to the wiring groove 124 and stops, and the connection between the cable 5 and the electrocardiogram bus electrode 2 cannot be further influenced.
Further, in order to avoid slipping from the hand during the operation of the electrocardio-electrode buckle, the surface of the key 4 is provided with a first anti-slip area 41, the side surface of the shell 1 is provided with a second anti-slip area 14, the surfaces of the first anti-slip area 41 and the second anti-slip area 14 are respectively provided with raised transverse stripes, and the first anti-slip area 41 and the second anti-slip area 14 are respectively positioned at two opposite sides of the electrocardio-electrode buckle and are just two acting points of fingers when the user operates the electrocardio-electrode buckle. Thus, when the key 4 is pressed, the hidden trouble that the electrode buckle slips can not occur.
According to the electrocardio-electrode buckle, the shell and the internal elements are assembled and fixed by adopting the ultrasonic welding technology, so that the problem that a circuit is broken due to injection molding is avoided, the production efficiency is high, and the cost is low; the elastic key is adopted to control the tripping and butt joint of the electrocardio male electrode and the electrocardio female electrode, the structure is simple, and the failure rate is low; the surface of the upper shell is provided with an observation window, so that whether the contact between the electrocardio male electrode and the electrocardio female electrode is good or not can be conveniently observed, and the quality can be detected; the wavy wiring groove is formed in the shell, so that poor line contact caused by cable movement is avoided.
The foregoing is a more detailed description of the present application in connection with specific embodiments thereof, and it is not intended that the present application be limited to the specific embodiments thereof. It will be apparent to those skilled in the art from this disclosure that many more simple derivations or substitutions can be made without departing from the inventive concepts herein.

Claims (10)

1. An electrocardio-electrode buckle, comprising:
The electrocardiogram electrode comprises a shell, wherein the shell comprises an upper shell and a lower shell which are buckled with each other, and the bottom of the lower shell is provided with a socket for inserting an electrocardiogram male electrode;
The electrocardio female electrode is positioned on one side of the socket and is used for being in contact with the electrocardio male electrode to form a loop;
The tail part of the elastic body is provided with an elastic bending section, the elastic bending section is attached to the inner wall of the lower shell, and the middle section is positioned on the other side of the socket and used for pressing the electrocardio male electrode to the electrocardio female electrode; the top end of the elastic body bypasses the socket and extends to the outer side of the shell from the upper part of the electrocardio-bus electrode, and the top end of the elastic body is also provided with a key used for pressing downwards.
2. The electrocardio-electrode buckle as claimed in claim 1, wherein the electrocardio-female electrode is fixed on the surface of the lower shell, one end of the electrocardio-female electrode is provided with a groove matched with the electrocardio-male electrode, and the inner surface of the groove is in a circular arc shape matched with the electrocardio-male electrode.
3. the electrocardio-electrode clasp of claim 1, wherein the elastic bending section is a U-shaped folded edge disposed at the tail of the elastic body.
4. The electrocardio-electrode clasp of claim 3, wherein the side of the U-shaped folded edge that is attached to the lower shell is shaped to fit the inner wall of the lower shell.
5. The electrocardio-electrode clasp of claim 4, wherein the inner wall of the lower shell is provided with a groove for fixing the tail of the elastic body.
6. The ECG electrode buckle as claimed in claim 1, wherein the housing has an opening for the button to pass through, a positioning protrusion is provided on the inner surface of the housing adjacent to the opening, and a positioning groove is provided on the side of the button for engaging with the positioning protrusion.
7. the electrocardio-electrode buckle of claim 6, wherein the end of the positioning groove facing the inside of the shell is kept at a certain distance away from the edge of the key for limiting when the key is bounced.
8. The electrocardio-electrode buckle as claimed in claim 1, wherein the bottom surface of the lower shell is provided with a clamping groove, and the bottom of the electrocardio-mother electrode is provided with a clamping protrusion for being embedded into the clamping groove.
9. The electrocardio-electrode buckle as claimed in claim 8, wherein the inner surface of the upper shell is provided with a positioning column, and the top of the electrocardio-female electrode is provided with a positioning hole matched with the positioning column.
10. The electrocardio-electrode buckle as claimed in claim 1, wherein the key surface is provided with a first anti-slip region and the side surface of the shell is provided with a second anti-slip region.
CN201821710757.XU 2018-10-22 2018-10-22 Electrocardio electrode buckle Active CN209770367U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201821710757.XU CN209770367U (en) 2018-10-22 2018-10-22 Electrocardio electrode buckle

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201821710757.XU CN209770367U (en) 2018-10-22 2018-10-22 Electrocardio electrode buckle

Publications (1)

Publication Number Publication Date
CN209770367U true CN209770367U (en) 2019-12-13

Family

ID=68786889

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201821710757.XU Active CN209770367U (en) 2018-10-22 2018-10-22 Electrocardio electrode buckle

Country Status (1)

Country Link
CN (1) CN209770367U (en)

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