CN117324925B - Electrocardiogram electrode dotter and use method thereof - Google Patents

Abstract

The invention relates to the technical field of electrocardio electrodes, in particular to an electrocardio electrode dotter and a use method thereof; according to the invention, through the matching design of the body, the pressing rod, the first rail, the first vibration material tray, the second rail electric telescopic rod and the auxiliary device, the clamping process of the electrode buckle can be completed without manually installing the male buckle by a worker, and compared with the traditional semiautomatic electrode buckle machine, the production efficiency can be effectively improved, the working intensity of the worker is reduced, meanwhile, the probability of safety accidents of the worker in the working process can be effectively reduced, and the safety performance of equipment is synchronously improved.

Description

Electrocardiogram electrode dotter and use method thereof

Technical Field

The invention relates to the technical field of electrocardio electrodes, in particular to an electrocardio electrode dotter and a use method thereof.

Background

The electrocardio electrode is suitable for clinical electrocardio examination of heart and electrocardio/static monitoring of heart in hospital, can be used as a medical sensor and matched with various monitoring instruments, and has the advantages of clear electrocardiograph wave opening, firm adhesion, convenient use, no toxicity and no stimulation to skin, and the like.

The semi-automatic electrode button sewing machine has the advantages of small size, no occupied space, low purchase cost and the like, but the semi-automatic electrode button sewing machine all needs staff to manually move the electrode male buckle and the female buckle to the designated positions in the use process, the production efficiency is greatly reduced in the process, the workload of the staff is synchronously increased, the fingers of the staff are required to be far away from the button sewing machine in the process of pressing the male buckle and the female buckle of the semi-automatic electrode button sewing machine, and potential safety hazards exist in the process.

In view of the above, the present invention provides an electrocardiograph and a method for using the same, which solve the above technical problems.

Disclosure of Invention

In order to make up the defects of the prior art, the invention provides an electrocardio electrode button machine and a using method thereof.

The technical scheme adopted for solving the technical problems is as follows: the invention relates to an electrocardio electrode dotter and a use method thereof, comprising a body of the dotter, wherein a pressing rod is arranged at the top of the body, a first vibration material tray is arranged at the left side of the body, the first vibration material tray is connected with the body through a first track, the first vibration material tray is used for conveying a female buckle of an electrode in the direction of the body, a second vibration material tray is fixedly arranged at the rear of the body, a second track is connected between the second vibration material tray and the body, the second track is in an inverted L-shaped structure design, and the second track is used for conveying a male buckle of the electrode, and the electrocardio electrode dotter is characterized in that: the body further includes:

The support rod is fixedly arranged on the right side of the body, an electric telescopic rod is arranged at the top of the support rod, and the electric telescopic rod is used for driving the male buckle in the second track to move towards the direction of the body;

the auxiliary device is fixedly arranged above the working table surface of the body through a fixing rod and is used for righting the positions of the male buckle and the female buckle and assisting the pressing rod to accurately press the male buckle above the female buckle.

Preferably, the auxiliary device further comprises: the protective cover is in a circular structure design, the inner diameter of the protective cover is correspondingly matched with the bottom diameter of the male buckle, and the protective cover is used for matching the positions of the male buckle and the female buckle;

The first baffle is fixedly arranged above the working table surface of the body, a first arc-shaped groove which is correspondingly matched with the first baffle is formed in the bottom of the protective cover, and the first baffle is used for blocking deviation of the female buckle;

The buffering mechanism is located inside the protective cover and used for being matched with the pressing rod to drive the male buckle to be accurately clamped above the female buckle.

Preferably, the buffer mechanism includes: the second arc-shaped groove is uniformly formed in the inner wall of the protective cover;

the inside of each second arc-shaped groove is slidably connected with a third baffle;

The springs are fixedly connected between the side walls of the second arc-shaped grooves and the third baffle plate respectively, each side wall of the second arc-shaped groove is fixedly connected with a plurality of springs, and the third baffle plate moves towards the middle of the protective cover by utilizing the elasticity of the springs in an initial state.

Preferably, the cross section of the third baffle is in a triangular structure design, and the diameter of a circle formed by the third baffle in the protective cover in the initial state is smaller than the diameter of the male buckle.

Preferably, the upper surface of the protective cover is fixedly connected with a second baffle, and the second baffle is in an arc-shaped structural design and is positioned on the left side of the protective cover.

Preferably, the protective cover is made of transparent plastic, the second arc-shaped groove is positioned at the middle lower part of the protective cover, and the male buckle can accurately slide to the upper part of the female buckle after penetrating through the third baffle.

Preferably, the inner surface of the protective cover, the first track and the second track are coated with PTFE coatings.

Preferably, the application method of the electrocardiograph electrode dotter comprises the following operation steps:

The utility model discloses a protection casing, including protection casing, vibration charging tray, protection casing, electric telescopic handle, the vibration charging tray, the protection casing bottom carry to No. one the box, no. two vibration charging tray pass through electric telescopic handle cooperation one by one to the pin thread is carried to the pin thread is waited the pin thread landing reaches behind No. three baffle upper surfaces staff starts the pressing lever of body, pressing lever downwardly moving, works as pressing lever downwardly moving's power is greater than the spring support when No. three baffle's elasticity, the spring with No. three baffle to No. two arc grooves are inside to be removed, until the pin thread can pass No. three baffles smoothly, accurate landing is in on the box, cooperate pressing lever accomplishes the joint action.

The beneficial effects of the invention are as follows:

1. The invention is provided with a body, a pressing rod, a first rail, a first vibration material tray, a second rail electric telescopic rod and an auxiliary device, when in operation, a worker firstly puts the female buttons of the electrodes in the first vibration material tray in batches, then puts the male buttons of the electrodes in the second vibration material tray in batches, then starts the first vibration material tray and the second vibration material tray, enables the female buttons and the male buttons of the electrodes in the first vibration material tray and the second vibration material tray to sequentially enter the first rail and the second rail along the spiral rail in an ascending manner, after the male buttons and the female buttons move to the designated positions, the worker triggers the pressing rod at the top of the body, the worker can accurately slide to the position right above the female buttons through the auxiliary device, the pressing rod continuously moves downwards to force the male buttons to be clamped above the female buttons, the clamping procedure of the male buttons and the female buttons is completed, the clamping procedure of the electrode buttons can be completed without manually installing the male buttons by the worker, thus the invention can effectively improve the production efficiency, and simultaneously can effectively reduce the production efficiency and the safety of the workers and can effectively reduce the safety accidents.

2. The invention is respectively provided with a second arc-shaped groove, a third baffle and a spring in the protective cover, the third baffle moves towards the middle of the protective cover under the action of the spring force, at the moment, a plurality of arc-shaped plates form a circle, the inner diameter of the circle is smaller than the bottom diameter of the male buckle, so that the male buckle slides on the third baffle in the protective cover, at the moment, the male buckle slides on the third baffle, the surface of the third baffle is effectively inclined due to the influence factor of sliding from the upper part of the protective cover, when a pressing rod contacts with the upper surface of the male buckle, pressure is applied to the male buckle, at the moment, the influence of the male buckle stress can be corrected on the surface of the third baffle, so that the male buckle is in a relatively flat state and vertical to the interior of the protective cover, when the force applied to the male buckle by the pressing rod is larger than the spring force of the spring, the baffle No. three starts to shrink to the inside of No. two arc grooves, until No. three baffle forms the diameter of circle and is greater than the pin thread diameter, the pin thread can be accurate the landing in female knot top, along with pressing the pole and continuously exert pressure to female knot top and force pin thread and female knot joint together, accomplish the joint process of electrode knot, wait that the staff will accomplish the electrode after the joint and take out, be located the automatic female knot of the inside female knot of track and carry female knot to protection casing bottom, so the work of repetition cycle can effectively improve staff's production efficiency, reduce staff's working strength in step, can effectively reduce staff's hidden danger of being pressed the finger in the course of working through the design of protection casing.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a partial cross-sectional view of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

In the figure: 1. a body; 11. a first vibration material tray; 12. a second vibration material tray; 13. pressing a pressing rod; 14. a support rod; 15. an electric telescopic rod; 16. a fixed rod; 17. a first baffle; 18. a first track; 19. a second track; 2. a protective cover; 21. a second baffle; 22. a female buckle; 23. a male buckle; 24. a second arc-shaped groove; 25. a spring; 26. a third baffle; 27. arc-shaped groove I.

Detailed Description

The invention is further described below in connection with specific embodiments.

As shown in fig. 1 to 3, the electrocardiograph electrode button machine and the use method thereof according to the present invention, including a body 1 of the button machine, a pressing rod 13 is mounted at the top of the body 1, a first vibration material tray 11 is mounted at the left side of the body 1, the first vibration material tray 11 is connected with the body 1 through the first rail 18, the first vibration material tray 11 is used for conveying a female button 22 of an electrode in a direction of the body 1, a second vibration material tray 12 is fixedly mounted at the rear of the body, a second rail 19 is connected between the second vibration material tray 12 and the body 1, the second rail 19 is in an inverted L-shaped structure design, and the second rail 19 is used for conveying a male button 23 of the electrode, and is characterized in that: the body 1 further comprises:

The supporting rod 14 is fixedly arranged on the right side of the body 1, an electric telescopic rod 15 is arranged at the top of the supporting rod 14, and the electric telescopic rod 15 is used for driving the male buckle 23 in the second track 19 to move towards the body 1;

the auxiliary device is fixedly arranged above the working table surface of the body 1 through a fixing rod 16 and is used for correcting the positions of the male buckle 23 and the female buckle 22 and assisting the pressing rod 13 to accurately press the male buckle 23 above the female buckle 22;

When in work, a worker firstly puts the female buckles 22 of the electrodes in the first vibration material tray 11 in batches, then puts the male buckles 23 of the electrodes in the second vibration material tray 12 in batches, then starts the first vibration material tray 11 and the second vibration material tray 12, as pulse electromagnets are arranged at the bottoms of the first vibration material tray 11 and the second vibration material tray 12, the first vibration material tray 11 and the second vibration material tray 12 vibrate in the vertical direction, the inclined spring 25 sheets drive the hopper to do torsional vibration around the vertical axis, the force of vibration is utilized to lead the female buckles 22 and the male buckles 23 of the electrodes in the first vibration material tray 11 and the second vibration material tray 12 to rise along spiral tracks, the shape and the position of the male buckles 23 and the female buckles 22 of the electrodes are corrected in the rising process, the male buckles 23 and the female buckles 22 automatically enter the first track 18 and the second track 19 in order according to the preset gesture, the female buckle 22 moves to the working table surface of the body 1 along the first track 18, due to the matching design of the auxiliary device, the female buckle 22 cannot move continuously when moving to the position right below the auxiliary device, meanwhile, the male buckle 23 cannot move forwards after moving to the right angle position of the second track 19 along the second track 19, at the moment, due to the limitation of the second track 19, only one male buckle 23 is positioned in the transverse second track 19, an inductor is arranged at the right angle position of the second track 19, after the inductor senses that the male buckle 23 moves to a designated position, the electric telescopic rod 15 at the top of the supporting rod 14 is triggered, the electric telescopic rod 15 starts to move forwards, the male buckle 23 positioned in the transverse second track 19 is pushed to drive the male buckle 23 to move upwards to the working table surface of the body 1 in the forward moving process of the electric telescopic rod 15, the vertical outlet of the second track 19 is blocked synchronously, so that the male buckle 23 cannot continue to move, the electric telescopic rod 15 is completely extended, then the male buckle 23 slides to the inside of an auxiliary device, at the moment, a worker triggers the switch to start the pressing rod 13 at the top of the body 1, the pressing rod 13 moves downwards to the inside of the auxiliary device and then contacts with the upper surface of the male buckle 23, the male buckle 23 can accurately slide to the position right above the female buckle 22 through assistance of the auxiliary device, the pressing rod 13 continues to move downwards, the male buckle 23 is forced to be clamped above the female buckle 22, the clamping process of the male buckle 23 and the female buckle 22 is completed, after the pressing rod 13 completes the clamping action of the male buckle 23 and the female buckle 22, the electric telescopic rod 15 automatically moves upwards, until the pressing rod 13 moves to the outside of the auxiliary device, the male buckle 23 is conveyed to the auxiliary device again, and thus repeated cyclic work can be completed.

As an embodiment of the present invention, the auxiliary device further includes: the protection cover 2 is in a circular ring-shaped structural design, the inner diameter of the protection cover 2 is correspondingly matched with the bottom diameter of the male buckle 23, and the protection cover 2 is used for matching the positions of the male buckle 23 and the female buckle 22;

The first baffle 17 is fixedly arranged above the working table surface of the body 1, a first arc-shaped groove 27 which is correspondingly matched with the first baffle 17 is formed in the bottom of the protective cover 2, and the first baffle 17 is used for blocking deviation of the female buckle 22;

the buffer mechanism is positioned in the protective cover 2 and is used for being matched with the pressing rod 13 to drive the male buckle 23 to be accurately clamped above the female buckle 22;

during operation, through having linked firmly baffle 17 No. one on the table surface of body 1, arc groove 27 that corresponds with baffle 17 No. one has been seted up to protection casing 2 bottom, the box 22 moves to the dead ahead of protection casing 2 along track 18 time with baffle 17 contact No. one, stop box 22 through No. one and make box 22 unable the continuous forward movement fix under protection casing 2, through protection casing 2 internal diameter and the corresponding matched design of pin 23 bottom diameter, make pin 23 landing to protection casing 2 inside when electric telescopic handle 15 drives to protection casing 2, through protection casing 2 internally mounted buffer gear, make pin 23 landing in the top of box 22 under the assistance of buffer gear, the staff starts the push rod 13 of body 1 this moment, push rod 13 downwardly moving contacts with the inside pin 23 upper surface of protection casing 2, through push rod 13 and pin 23 contact and downward application pressure, further correct the position angle of pin 23, treat that push rod 13 drives pin 23 and pass buffer gear, when the pin 23 is in electric telescopic handle 15 drives to protection casing 2, can the positive and negative pressure rod 23 takes place in the stable equipment of the top of the safety and stability of the safety, thereby can improve the safety and stability of the safety and performance of the safety and the safety personnel.

As an embodiment of the present invention, the buffer mechanism includes: the second arc-shaped groove 24 is uniformly formed in the inner wall of the protective cover 2;

a third baffle 26 is slidably connected to the inside of each second arc-shaped groove 24, and the third baffle 26 is slidably connected to the inside of each second arc-shaped groove 24;

The springs 25 are respectively and fixedly connected between the side walls of the second arc-shaped grooves 24 and the third baffle 26, the side walls of each second arc-shaped groove 24 are fixedly connected with a plurality of springs 25, and the third baffle 26 moves towards the middle of the protective cover 2 by the aid of the elasticity of the springs 25 in an initial state;

During operation, the second arc-shaped grooves 24 which are uniformly designed are formed in the protective cover 2, the third baffle plates 26 are slidably connected in each second arc-shaped groove 24, the springs 25 are fixedly connected between the side walls of the second arc-shaped grooves 24 and the third baffle plates 26, the third baffle plates 26 move towards the middle of the protective cover 2 under the action of the elastic force of the springs 25, at the moment, the arc-shaped plates form a circle, the inner diameter of the circle is smaller than the diameter of the bottom of the pin 23, the pin 23 slides on the third baffle plates 26 in the protective cover 2, the pin 23 is on the third baffle plates 26 at the moment, the pin 23 is effectively inclined on the surface of the third baffle plates 26 due to the influence factor of sliding from the upper side of the protective cover 2, when the pressing rod 13 contacts with the upper surface of the pin 23, and pressure is applied to the pin 23, the influence of the stress of the pin 23 at the moment can be corrected on the surface of the third baffle plates 26, when the force applied to the male buckle 23 by the pressing rod 13 is larger than the elastic force of the spring 25, the third baffle 26 starts to shrink towards the inside of the second arc-shaped groove 24 until the diameter of a circle formed by the third baffle 26 is larger than the diameter of the male buckle 23, the male buckle 23 can accurately slide above the female buckle 22, the male buckle 23 and the female buckle 22 are clamped together by continuously applying pressure to the upper part of the female buckle 22 along with the pressing rod 13, the clamping process of the electrode buckle is completed, when a worker takes out the electrode after the clamping, the female buckle 22 positioned in the first track 18 automatically conveys the female buckle 22 to the bottom of the protective cover 2, thus the production efficiency of the worker can be effectively improved by repeated circulation work, the working strength of the worker is synchronously reduced, the hidden danger that staff is pressed to the finger in the working process can be effectively reduced through the design of the protective cover 2.

As an embodiment of the present invention, the cross section of the third baffle 26 is designed in a triangular structure, and in an initial state, the diameter of a circle formed by the third baffle 26 located inside the protection cover 2 is smaller than the diameter of the male buckle 23;

During operation, the cross section through No. three baffle 26 is triangle-shaped structural design, no. three baffle 26 middle part is thick, upper and lower both ends are thin, and No. three baffle 26 surface is smooth surface design, when No. three baffle 26 is smooth surface design on No. three baffle 26 surface, make No. three baffle 26 surface that the pin 23 can be relatively smooth stop, in cooperation with pressing rod 13 apply pressure to No. three baffle 26, make No. three baffle 23 can smooth perpendicular to protection casing 2 middle part, further revise pin 23 and lie in the inside position angle of protection casing 2, pin 23 is located the just top of box 22 at this moment, wait pressing rod 13 to apply force to pin 23 when being greater than spring 25's elasticity, no. three baffle 26 begins to shrink to No. two arc grooves 24 inside, when No. three baffle 26 forms the diameter of circle and is greater than pin 23 diameter, pin 23 can be accurate landing in box 22 top, with pressing rod 13 continuously apply pressure to box 22 top and force pin 23 and box 22 joint together, accomplish the joint process of electrode.

As an implementation mode of the invention, the upper surface of the protective cover 2 is fixedly connected with a second baffle 21, and the second baffle 21 is arranged at the left side of the protective cover 2 in an arc-shaped structure design;

During operation, through the baffle 21 of No. two fixedly connected with in protection casing 2 upper surface left side to can prevent effectively that pin thread 23 from removing to protection casing 2 outside, lead to pin thread 23 to scatter on ground, influence production environment and production efficiency.

As an embodiment of the present invention, the protection cover 2 is made of transparent plastic, the second arc-shaped groove 24 is located at the middle lower part of the protection cover 2, and the male buckle 23 can accurately slide down above the female buckle 22 after passing through the third baffle 26;

During operation, the protective cover 2 is made of transparent plastic materials, so that workers can clearly observe the state inside the protective cover 2 in the operation process, the state inside the protective cover 2 is timely adjusted on site, the second arc-shaped groove 24 is formed in the middle lower part of the protective cover 2, the male buckle 23 can slide above the female buckle 22 after passing through the third baffle 26, the sliding distance of the male buckle 23 is reduced, and the clamping process of the electrode buckle is completed by matching with the pressing rod 13.

As one embodiment of the present invention, PTFE coatings are applied to the inner surface of the protective cover 2, and the surfaces of the first rail 18 and the second rail 19;

During operation, through all scribble PTFE coating at protection casing 2 internal surface and track No. 18, no. two track 19 surfaces, utilize the high lubrication of PTFE coating and the characteristic of being stained with for the pin 23 can be smooth and easy at track No. 18 and No. two track 19 inside removal of box 22, synchronous improvement pin 23 and box 22's conveying speed, indirect improvement production efficiency.

As an embodiment of the present invention, the electrocardiograph and the use method thereof are applicable to any one of the above claims 1 to 7, and specifically include the following operation steps:

The first vibration charging tray 11 conveys the box 22 to the bottom of the protection cover 2, the second vibration charging tray 12 conveys the male buckles 23 to the upper side of the protection cover 2 one by one through the cooperation of the electric telescopic rods 15, after the male buckles 23 slide down to the upper surface of the third baffle 26, a worker starts the pressing rod 13 of the body 1, the pressing rod 13 moves downwards, when the pressing force of the pressing rod 13 is larger than the elastic force of the spring 25 for supporting the third baffle 26, the spring 25 and the third baffle 26 move towards the inner part of the second arc-shaped groove 24 until the male buckles 23 can smoothly pass through the third baffle 26, accurately slide on the box 22, and the pressing rod 13 is matched to complete the clamping action.

The specific operation flow is as follows

The staff firstly puts the female buckles 22 of the electrodes in the first vibration material tray 11 in batches, then puts the male buckles 23 of the electrodes in the second vibration material tray 12 in batches, then starts the first vibration material tray 11 and the second vibration material tray 12, as pulse electromagnets are arranged at the bottoms of the first vibration material tray 11 and the second vibration material tray 12, the first vibration material tray 11 and the second vibration material tray 12 vibrate in the vertical direction, the inclined spring 25 drives the hopper to do torsional vibration around the vertical axis of the hopper, the force of vibration is utilized to lead the female buckles 22 and the male buckles 23 of the electrodes in the first vibration material tray 11 and the second vibration material tray 12 to vibrate and rise along the spiral track, the form and the position of the male buckles 23 and the female buckles 22 of the electrodes are corrected in the rising process, the male buckles 23 and the female buckles 22 of the electrodes automatically enter the first track 18 and the second track 19 in order according to the preset gesture, the female buckle 22 moves to the working table surface of the body 1 along the first track 18, due to the matching design of the auxiliary device, the female buckle 22 cannot move continuously when moving to the position right below the auxiliary device, meanwhile, the male buckle 23 cannot move forwards after moving to the right angle position of the second track 19 along the second track 19, at the moment, due to the limitation of the second track 19, only one male buckle 23 is positioned in the transverse second track 19, the right angle position of the second track 19 is provided with an inductor, after the inductor senses that the male buckle 23 moves to a designated position, the electric telescopic rod 15 at the top of the supporting rod 14 is triggered, the electric telescopic rod 15 starts to start to move forwards, the male buckle 23 positioned in the transverse second track 19 is pushed to move upwards to the working table surface of the body 1 in the forward moving process of the electric telescopic rod 15, the position of the second track 19 is blocked by the vertical outlet, so that the male buckle 23 cannot move continuously, after the electric telescopic rod 15 is completely extended, the male buckle 23 slides into the auxiliary device, at the moment, a worker triggers the switch to start the pressing rod 13 at the top of the body 1, the pressing rod 13 moves downwards into the auxiliary device and then contacts with the upper surface of the male buckle 23, the male buckle 23 can accurately slide to the position right above the female buckle 22 through assistance of the auxiliary device, the pressing rod 13 continues to move downwards, the male buckle 23 is forced to be clamped above the female buckle 22, the clamping process of the male buckle 23 and the female buckle 22 is completed, in the downward movement process of the pressing rod 13, the electric telescopic rod 15 synchronously contracts to an initial state, and after the pressing rod 13 completes the clamping action of the male buckle 23 and the female buckle 22, the electric telescopic rod 15 automatically moves upwards until the pressing rod 13 moves outside the auxiliary device, and then the electric telescopic rod 15 starts to convey the male buckle 23 to the auxiliary device again.

Through having linked firmly baffle 17 No. one on the table surface of body 1, the arc groove 27 that corresponds with baffle 17 No. one has been seted up to protection casing 2 bottom, the box 22 moves to the dead under of protection casing 2 along a track 18, contact with baffle 17 No. one, stop box 22 through baffle 17 and make box 22 unable continuously move forward and fix under protection casing 2, through protection casing 2 internal diameter and the corresponding matching design of pin 23 bottom diameter, make pin 23 drive to protection casing 2 top at electric telescopic handle 15, pin 23 landing to protection casing 2 inside, through protection casing 2 internally mounted buffer gear, make pin 23 can be accurate landing in the top of box 22 under buffer gear's assistance, the staff starts the push rod 13 of body 1 this moment, push rod 13 moves down and contacts with the inside pin 23 upper surface of protection casing 2, through push rod 13 and pin 23 contact and exert pressure downwards, further correct the box 23's position angle, wait to push rod 13 drive pin 23 and pass buffer gear, pin 23 can stabilize pin 23 landing in the top of pin 22 under the assistance of buffer gear, the push rod 23 is convenient for press rod 13 to drive pin 22.

Through set up the arc wall 24 No. two of even design in protection casing 2 inside, every arc wall 24 inside equal sliding connection has No. three baffles 26, the spring 25 has been linked firmly between No. two arc wall 24 lateral walls and No. three baffles 26, no. three baffles 26 are in the protection casing 2 middle part removal under the effect of spring 25 elasticity, a plurality of arc forms a circular shape this moment, the internal diameter of this circle is less than the diameter of pin 23 bottom, make pin 23 landing on No. three baffles 26 in protection casing 2 inside, pin 23 at this moment is on No. three baffles 26, because the influence factor of landing from protection casing 2 top leads to pin 23 to effectively crooked on No. three baffles 26 surface, when waiting to press the pole 13 to contact with pin 23 upper surface, and apply pressure to pin 23, the influence of pin 23 atress at this moment can be in No. three baffles 26 surface correction, make pin 23 be in inside the relatively level state perpendicular to protection casing 2, wait to press the pole 13 to apply to pin 23 when the elastic force of spring 25, no. three baffles 26 begin to shrink to No. two arc wall 24 inside, at this time, pin 23 shrink until No. 26 forms pin 23 and press the diameter and press the pin 22 to form pin 22 and press the diameter to be located in the female button 22 on the bottom of the female button 22 when the female button 22 is located in the direction of the same time of the automatic round 23, can finish the electrode is repeated, the step is in order to finish the step when the bottom 22 is pressed to be in the female button 22, if the female button 22 is located on the bottom of the female button 22, and is in the face on the bottom of the face of the button 22, if the face and is pressed to the face up to the button 22.

Through No. three baffle 26's cross-section is triangle-shaped structural design, no. three baffle 26 middle part is thick, upper and lower both ends are thin, and No. three baffle 26 surface is smooth surface design, when No. three baffle 26 is smooth surface design on No. three baffle 26 surface of pin 23 landing, because No. three baffle 26 is smooth surface design for No. three baffle 26 surface that the pin 23 can be relatively smooth, in cooperation with pressing rod 13 to No. three baffle 26 application pressure, make pin 23 can be smooth perpendicular to protection casing 2 middle part, further revise pin 23 and lie in the inside position angle of protection casing 2, pin 23 is located directly over the box 22 this moment, wait pressing rod 13 to be greater than spring 25's elasticity to pin 23 the force, no. three baffle 26 begins to shrink to No. two arc grooves 24 inside, when No. three baffle 26 forms the diameter of circle and is greater than pin 23 diameter, pin 23 can be accurate landing is in box 22 top, with pressing rod 13 continuously exert pressure to box 22 top forcing pin 23 to be in the joint with box 22, accomplish the joint process of electrode.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in fig. 1, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the scope of the present invention, and furthermore, the terms "first", "second", "third", etc. are merely used for distinguishing the description, and should not be construed as indicating or implying relative importance.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. The utility model provides an electrocardio electrode dotter, includes body (1) of dotter, press pole (13) are installed at body (1) top, vibration charging tray (11) are installed in the left side of body (1), vibration charging tray (11) with connect through a track (18) between body (1), vibration charging tray (11) be used for to box (22) of electrode are carried to body (1) place direction, the rear fixed mounting of body has No. two vibration charging tray (12), no. two vibration charging tray (12) with be connected with No. two track (19) between body (1), no. two track (19) are the structural design of falling "L", no. two track (19) are used for carrying pin (23) of electrode, its characterized in that: the body (1) further comprises:

the support rod (14), the support rod (14) is fixedly arranged on the right side of the body (1), an electric telescopic rod (15) is arranged at the top of the support rod (14), and the electric telescopic rod (15) is used for driving the male buckle (23) in the second track (19) to move towards the direction of the body (1);

The auxiliary device is fixedly arranged above the working table surface of the body (1) through a fixing rod (16) and is used for correcting the positions of the male buckle (23) and the female buckle (22) and assisting the pressing rod (13) to accurately press the male buckle (23) above the female buckle (22);

the auxiliary device further includes:

The protective cover (2) is in a circular structural design, the inner diameter of the protective cover (2) is correspondingly matched with the bottom diameter of the male buckle (23), and the protective cover (2) is used for matching the positions of the male buckle (23) and the female buckle (22);

The first baffle (17), the first baffle (17) is fixedly arranged above the working table surface of the body (1), a first arc-shaped groove (27) which is correspondingly matched with the first baffle (17) is formed in the bottom of the protective cover (2), and the first baffle (17) is used for blocking deviation of the female buckle (22);

The buffer mechanism is positioned in the protective cover (2) and is used for being matched with the pressing rod (13) to drive the male buckle (23) to be accurately clamped above the female buckle (22);

The buffer mechanism includes:

The second arc-shaped groove (24) is uniformly formed in the inner wall of the protective cover (2);

the inside of each second arc-shaped groove (24) is slidably connected with a third baffle (26);

The springs (25) are respectively and fixedly connected between the side walls of the second arc-shaped grooves (24) and the third baffle (26), the side walls of the second arc-shaped grooves (24) are fixedly connected with a plurality of springs (25), and the third baffle (26) moves towards the middle of the protective cover (2) by utilizing the elasticity of the springs (25) in an initial state;

The section of the third baffle (26) is designed in a triangular structure, and the diameter of a circle formed by the third baffle (26) positioned in the protective cover (2) in an initial state is smaller than the diameter of the male buckle (23);

The upper surface of the protective cover (2) is fixedly connected with a second baffle (21), and the second baffle (21) is arranged on the left side of the protective cover (2) in an arc-shaped structural design.

2. An electrocardiograph according to claim 1, wherein: the protective cover (2) is made of transparent plastic, the second arc-shaped groove (24) is positioned at the middle lower part of the protective cover (2), and the male buckle (23) can accurately slide to the upper part of the female buckle (22) after penetrating through the third baffle (26).

3. An electrocardiograph according to claim 1, wherein: PTFE coating is coated on the inner surface of the protective cover (2), the surfaces of the first track (18) and the second track (19).

4. A method of using an electrocardiograph according to any one of claims 1-3, characterized in that: the method comprises the following operation steps:

The utility model discloses a vibration charging tray (11) to carry in protection casing (2) bottom box (22), no. two vibration charging tray (12) pass through electric telescopic handle (15) cooperation one by one to protection casing (2) top is carried pin thread (23), treat pin thread (23) landing extremely behind No. three baffle (26) upper surface staff starts press lever (13) of body (1), press lever (13) move down, work as press lever (13) push down the power of pressing down be greater than spring (25) support when No. three baffle (26) elasticity, spring (25) with No. three baffle (26) to No. two arc grooves (24) are inside to be removed, until pin thread (23) can pass smoothly No. three baffle (26), accurate landing is in on box (22), cooperate press lever (13) to accomplish the joint action.