CN112845206A - Cleaning head and defibrillator electrode plate cleaning device with same - Google Patents

Abstract

The utility model provides a cleaning head and have defibrillator plate electrode cleaning device of this cleaning head, cleaning head includes the first body of cleaning, and the first body of cleaning comprises two end plates and cylinder. The electrode plate cleaning device comprises a cleaning groove, a control mechanism, a negative pressure suction assembly, a blowing assembly and the cleaning head; the cleaning device can clean the used defibrillator electrode plate, clean the residual conductive paste on the electrode plate, divide the whole cleaning process into three stages, namely suction, wiping and blowing, suck the conductive paste away through the suction operation for centralized storage, further treat the electrode plate through wiping, dry the surface of the electrode plate through blowing, and after triple treatment, the electrode plate can reach a deep clean state for the next direct use, thereby greatly reducing the working strength of medical staff.

Description

Cleaning head and defibrillator electrode plate cleaning device with same

Technical Field

The invention relates to the technical field of medical auxiliary instruments, in particular to a cleaning head and a defibrillator electrode plate cleaning device with the same.

Background

Ventricular fibrillation is the most common fatal arrhythmia that causes cardiac arrest, and is responsible for about 80% of patients with cardiac arrest; the most effective treatment for ventricular fibrillation is electrical defibrillation; the probability of defibrillation success is reduced along with the lapse of time, or the success rate is reduced by 7-10% every 1 minute after defibrillation is delayed; ventricular fibrillation can turn into cardiac arrest within minutes. Therefore, rapid defibrillation is the most critical loop in the survival chain.

A method of eliminating arrhythmias with a relatively strong pulse of current through the heart to restore sinus rhythm is known as defibrillation or cardioversion. Pacing and defibrillation are both methods of treating cardiac arrhythmias with exogenous electrical current, both of which are contemporary treatments for cardiac arrhythmias. Cardiac pacing differs from cardioversion by: the latter acts on the heart during electric cardioversion by one instantaneous high-energy pulse, the general duration is 4-10 ms, and the electric energy is within 40-400J (joule). Devices for cardiac shock defibrillation are known as defibrillators, which are capable of performing shock cardioversion, i.e., defibrillation. When a patient suffers from severe tachyarrhythmia, such as atrial flutter, atrial fibrillation, supraventricular or ventricular tachycardia, and the like, different degrees of hemodynamic disturbance are often caused. Especially when the patient has ventricular fibrillation, the cardiac ejection and blood circulation are stopped due to the non-integral ventricular contractility, and if the patient is not rescued in time, the patient often dies due to the long time of cerebral hypoxia. If the defibrillator is adopted, the current with certain energy is controlled to pass through the heart, certain rhythm disorder can be eliminated, and the heart rhythm can be recovered to be normal, so that the patient with the heart disease can be rescued and treated.

When the defibrillator is used, in order to improve the conductivity of a human body and avoid high voltage and large current from burning the skin of a patient, the defibrillator generally needs to paint conductive paste on an electrode plate of the defibrillator to play a good protection role, but the electrode plate is not easy to clean because a large amount of conductive paste is remained on the rear plate after the defibrillator is used.

Disclosure of Invention

The invention aims to solve the defects of the technical problems and provides a cleaning head and a defibrillator electrode plate cleaning device with the same.

In order to solve the technical problems, the invention adopts the technical scheme that: a cleaning head comprising:

cleaning the head body;

the cleaning head body consists of two end plates and a cylinder body;

the circumference of the cylinder is divided into three areas, namely a suction area, a wiping area and a blowing area;

the wall of the cylinder body in the suction area is provided with a plurality of suction holes;

a groove is arranged on the wall of the cylinder body in the wiping area, and a wiping block is movably connected in the groove;

the wall of the cylinder body in the blowing area is provided with a plurality of blowing holes;

the axis of rotation is fixed wearing to be equipped with between two end plates, and the axis of rotation is hollow axis body, and the cylinder is inside to be separated for two cavitys through the baffle, the one end and the cylinder inner wall connection of baffle, the other end and the rotation axis connection of baffle, the suction district of cylinder and the district of blowing correspond two cavitys respectively.

As a further optimization of the cleaning head of the present invention: the cleaning block is a sponge and is fixed in the groove through a magic tape.

As a further optimization of the cleaning head of the present invention: suction district department is provided with the shovel board, and the shovel board comprises vertical portion and straight shovel portion, is 100 between vertical portion and the straight shovel portion and gives other words 120 contained angles, and the shovel board passes through vertical portion to be fixed at the outer wall of cylinder.

As a further optimization of the cleaning head of the present invention: the shovel plate is made of hard rubber, and the outer end face of the straight shovel part is provided with an inclined plane.

As a further optimization of the cleaning head of the present invention: side baffles are further arranged on two sides of the vertical portion.

As a further optimization of the cleaning head of the present invention: and a rubber suction head is arranged at the suction hole.

A defibrillator electrode plate cleaning device comprises a cleaning groove, a control mechanism, a negative pressure suction assembly, a blowing assembly and the cleaning head;

the bottom of the cleaning groove is provided with a through hole, and the cleaning head is arranged below the through hole through a control mechanism;

the control mechanism comprises a shell, and a controller, a first motor, a second motor, a sliding rail assembly and a power supply which are arranged in the shell;

the first motor is used for driving the cleaning head to reciprocate along the length direction of the cleaning groove;

the second motor is used for driving the cleaning head to rotate in a reciprocating manner;

the power supply is used for supplying power to the controller, the first motor and the second motor;

the controller is electrically connected with the negative pressure suction assembly, the blowing assembly, the first motor and the second motor;

the slide rail assembly comprises two parallel rails, and each rail is clamped with a slide block capable of sliding along the rail;

the position of the slide block above the track is provided with a through hole, and two ends of the rotating shaft of the cleaning head are respectively penetrated in the through holes of the two slide blocks;

one of the sliding blocks is provided with a bracket, the second motor is arranged on the bracket, and an output shaft of the second motor is in transmission connection with a rotating shaft of the cleaning head;

the lower parts of the two sliding blocks are connected together through a connecting rod, a screw rod is arranged below the connecting rod and is in transmission connection with an output shaft of the first motor, and a nut is sleeved on the screw rod and fixed with the connecting rod;

the negative pressure suction assembly is communicated with the suction hole of the cleaning head through a suction pipe, and the blowing assembly is communicated with the blowing hole of the cleaning head through a blowing pipe.

The defibrillator electrode plate cleaning device is further optimized as follows: the suction tube includes that suction manifold and many suction divide the pipe, and suction manifold one end is connected with negative pressure suction assembly, and suction manifold's the other end passes the axis of rotation and stretches into the suction area to the cavity in, and suction divides pipe one end to be connected with suction manifold, and the other end is connected with the suction hole.

The defibrillator electrode plate cleaning device is further optimized as follows: and a trigger switch is arranged at the position, on one side of the through hole, of the bottom of the cleaning groove and is electrically connected with the controller.

Advantageous effects

The cleaning device can clean the used defibrillator electrode plate, clean the conductive paste left on the electrode plate, divide the whole cleaning process into three stages, namely suction, wiping and blowing, suck away the conductive paste through the suction operation and intensively store the conductive paste, then further treat the electrode plate through wiping, and finally dry the surface of the electrode plate through blowing, and after triple treatment, the electrode plate can reach a deep clean state for the next direct use, thereby greatly reducing the working strength of medical staff;

the cleaning head is in a cylindrical shape, the circumferential surface of the cleaning head is divided into three areas which are used for different treatments respectively, when different treatments are carried out, the corresponding areas are in contact with the surface of the electrode plate to be cleaned by rotating the cleaning head, and the triple treatments of the cleaning head are completed by three times of reciprocating along the length direction of the electrode plate, so that the intelligent degree is high.

Drawings

FIG. 1 is a schematic view of a cleaning head (view angle I) in accordance with example 1;

FIG. 2 is a schematic view showing the structure of a cleaning head (view angle II) according to embodiment 1;

FIG. 3 is a schematic view showing the construction of a blade in the cleaning head according to embodiment 1;

FIG. 4 is a schematic view showing the structure of a cleaning apparatus (without an electrode plate inserted) according to example 2;

FIG. 5 is a schematic view showing the structure of a cleaning apparatus (electrode plate just inserted) according to example 2;

FIG. 6 is a schematic view showing the structure of a cleaning apparatus (suction treatment state) according to example 2;

FIG. 7 is a schematic view showing the structure of a cleaning apparatus (wiping treatment state) according to example 2;

FIG. 8 is a schematic view showing the structure of a cleaning apparatus (blowing processing state) according to embodiment 2;

FIG. 9 is an enlarged view of a portion of FIG. 5 at A;

FIG. 10 is a schematic view of the connection of the control mechanism;

the labels in the figure are: 1. the cleaning head comprises a cleaning head body, 2, a cleaning groove, 3, a control mechanism, 4, a negative pressure suction assembly, 5, a blowing assembly, 6, an electrode plate, 1-1, an end plate, 1-2, a cylinder, 1-3, a suction hole, 1-4, a groove, 1-5, a wiping block, 1-6, a blowing hole, 1-7, a rotating shaft, 1-8, a shovel plate, 1-9, a vertical part, 1-10, a straight shovel part, 3-1, a shell, 3-2, a controller, 3-3, a first motor, 3-4, a second motor, 3-5, a power supply, 3-6, a track, 3-7, a sliding block, 3-8, a support, 3-9, a connecting rod, 3-10, a screw rod, 3-11 and a nut.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Example 1

As shown in fig. 1-3: a cleaning head comprises a cleaning head body 1, wherein the cleaning head body 1 is composed of two end plates 1-1 and a cylinder 1-2.

The circumferential surface of the cylinder 1-2 is divided into three areas, a suction area, a wiping area and a blowing area, which have different characteristics respectively and can be used for three different treatments.

The wall of the cylinder 1-2 in the suction area is provided with a plurality of suction holes 1-3, and the conductive paste attached to the surface of the electrode plate can be sucked and stored through the suction holes 1-3.

In order to improve the suction efficiency, a shovel plate 1-8 is arranged at the suction area, the shovel plate 1-8 is composed of a vertical part 1-9 and a straight shovel part 1-10, an included angle of 120 degrees is formed between the vertical part 1-9 and the straight shovel part 1-10, and the shovel plate 1-8 is fixed on the outer wall of the cylinder body 1-2 through the vertical part 1-9. The shovel plates 1 to 8 function to assist peeling between the conductive paste and the electrode plate. The shovel plate 1-8 is made of hard rubber, the outer end face of the straight shovel part 1-10 is provided with an inclined surface, and when the shovel plate 1-8 is in an extruded state during treatment, the inclined surface of the straight shovel part 1-10 can be tightly attached to the surface of the electrode plate. Side baffles are arranged on two sides of the vertical part 1-9, the conductive paste can be prevented from overflowing from two sides through the side baffles, and rubber suction heads are arranged at the suction holes 1-3.

The wall of the cylinder 1-2 in the wiping area is provided with a groove 1-4, and a wiping block 1-5 is movably connected in the groove 1-4. The surfaces of the electrode plates after being sucked can be further cleaned through the wiping blocks 1-5, and electrode paste remained on the surfaces of the electrode plates after being sucked is wiped off. The wiping blocks 1-5 are sponges, and the wiping blocks 1-5 are fixed in the grooves 1-4 through magic tapes. The design is such that the wiping pieces 1-5 can be replaced by new wiping pieces 1-5 after a period of use.

The wall of the cylinder body 1-2 in the blowing area is provided with a plurality of blowing holes 1-6, and the blowing holes 1-6 can blow air to the surface of the electrode plate, so that the surface of the cleaned electrode plate is in a dry state.

The rotating shaft 1-7 is fixedly arranged between the two end plates 1-1 in a penetrating mode, the rotating shaft 1-7 is a hollow shaft body, the interior of the cylinder 1-2 is divided into two cavities through a partition plate, one end of the partition plate is connected with the inner wall of the cylinder 1-2, the other end of the partition plate is connected with the rotating shaft 1-7, and the suction area and the blowing area of the cylinder 1-2 correspond to the two cavities respectively. The above-described structure is for facilitating the mounting of the cleaning head in the cleaning apparatus of the present invention.

Example 2

As shown in fig. 4-10: a defibrillator electrode plate cleaning device comprises a cleaning groove 2, a control mechanism 3, a negative pressure suction assembly 4, a blowing assembly 5 and a cleaning head in embodiment 1.

The bottom of cleaning tank 2 is provided with the through-hole, and the clearance head passes through control mechanism 3 and sets up the below at this through-hole. The inner space of the cleaning groove 2 is used for placing the electrode plate to be cleaned. After the electrode plate is placed in the cleaning groove 2, the surface with the conductive paste extends downwards from the through hole.

The control mechanism 3 comprises a shell 3-1, a controller 3-2 arranged in the shell 3-1, a first motor 3-3, a second motor 3-4, a sliding rail assembly and a power supply 3-5. The first motor 3-3 is used for driving the cleaning head to reciprocate along the length direction of the cleaning groove 2. The second motor 3-4 is used for driving the cleaning head to rotate in a reciprocating manner.

The power supply 3-5 is used for supplying power to the controller 3-2, the first motor 3-3 and the second motor 3-4, and the controller 3-2 is electrically connected with the first motor 3-3 and the second motor 3-4.

The slide rail component comprises two parallel rails 3-6, and each rail 3-6 is clamped with a slide block 3-7 capable of sliding along the rail 3-6. The sliding blocks 3-7 are arranged on the tracks 3-6 in a penetrating mode, through holes are formed in the positions, located above the tracks 3-6, of the sliding blocks 3-7, two ends of a rotating shaft 1-7 of the cleaning head are arranged in the through holes of the two sliding blocks 3-7 in a penetrating mode respectively, and the rotating shaft 1-7 can rotate in the through holes. One of the sliding blocks 3-7 is provided with a bracket 3-8, a second motor 3-4 is arranged on the bracket 3-8, an output shaft of the second motor 3-4 is in transmission connection with a rotating shaft 1-7 of the cleaning head, a gear transmission mode can be specifically adopted, transmission gears are arranged on the second motor 3-4 (or a speed reducer) and the rotating shaft 1-7, and the two transmission gears are meshed together to realize transmission.

The lower parts of the two sliding blocks 3-7 are connected together through connecting rods 3-9, screw rods 3-10 are arranged below the connecting rods 3-9, the screw rods 3-10 are in transmission connection with output shafts of the first motors 3-3, nuts 3-11 are sleeved on the screw rods 3-10, and the nuts 3-11 are fixed together with the connecting rods 3-9. The first motor 3-3 can drive the screw rods 3-10 to rotate, and the nuts 3-11 are fixedly connected with the connecting rods 3-9, so that the screw rods 3-10 can drive the nuts 3-11 to displace along the screw rods 3-10 while rotating, and finally the two sliding blocks 3-7 to displace.

The negative pressure suction component 4 is communicated with the suction holes 1-3 of the cleaning head through a suction pipe, and the blowing component 5 is communicated with the blowing holes 1-6 of the cleaning head through a blowing pipe. The negative pressure suction assembly 4 and the blowing assembly 5 can be any device capable of achieving the function in the prior art, and the applicant does not need to describe the function in detail here. Wherein the negative pressure suction assembly 4 should further include a case for storing the conductive paste, and the blowing assembly 5 should further have a function of blowing hot air.

In order to increase the efficiency of suction and blowing, the suction tube comprises a suction main tube and a plurality of suction branch tubes, one end of the suction main tube is connected with the negative pressure suction assembly 4, the other end of the suction main tube passes through the rotating shaft 1-7 and extends into the suction area and the cavity, one end of the suction branch tube is connected with the suction main tube, and the other end of the suction branch tube is connected with the suction holes 1-3. The structure of the blowing pipe is similar to that of the suction pipe and consists of a main pipe and branch pipes. The conveying distance between the suction process and the blowing process can be reduced through the structure, and the suction efficiency and the blowing efficiency are improved.

The suction manifold extends into the interior of the rotary shaft 1-7 from one end thereof and finally extends through the shaft wall into the corresponding cavity.

In order to facilitate the operation, a trigger switch is arranged at the bottom of the cleaning groove 2 and positioned on one side of the through hole, and the trigger switch is electrically connected with the controller 3-2. The trigger switch is a press type switch, after the plate electrode is placed in the cleaning groove 2, the frame around the plate electrode presses the trigger switch, the controller 3-2 triggers a cleaning instruction after receiving a switch signal, and corresponding instructions are sent to the first motor 3-3 and the second motor 3-4 to complete a whole set of cleaning actions.

The controller 3-2 can set a required action instruction, and the set of action instruction in the embodiment comprises three stages:

the first stage is as follows: the first motor 3-3 and the negative pressure suction assembly 4 are started, when the cleaning head moves to the other end of the electrode plate (can be controlled by moving speed and time), the first motor 3-3 and the negative pressure suction assembly 4 are closed, and simultaneously, the second motor 3-4 is started, so that the cleaning head rotates for a certain angle, and the wiping block of the cleaning head is aligned to the surface of the electrode plate;

and a second stage: the first motor 3-3 is started, when the cleaning head moves back to the initial position, the first motor 3-3 is started and closed, and meanwhile, the second motor 3-4 is started, so that the cleaning head rotates for a certain angle, and the air blowing holes of the cleaning head are aligned to the surface of the electrode plate;

and a third stage: the first motor 3-3 and the blowing assembly 5 are started, when the cleaning head moves to the other end of the electrode plate (which can be controlled by moving speed and time), the blowing assembly 5 is closed, and simultaneously the first motor 3-3 changes the direction of rotation, so that the cleaning head moves back to the initial position.

The use method of the defibrillator electrode plate cleaning device comprises the following steps: the cleaning device can be arranged on one side of the defibrillator, so that cleaning operation is facilitated. Medical staff puts into the clearance inslot with the plate electrode that uses, and then triggers the clearance instruction through pressing the plate electrode, and the cleaning head carries out first heavy processing at first, utilizes the scraper blade to scrape the conductive paste on the plate electrode surface and siphons away through the mode of negative pressure suction, then carries out the second heavy processing, utilizes to wipe the piece and wipes the remaining conductive paste in plate electrode surface, carries out the third heavy processing at last, utilizes hot-blast drying process to the plate electrode surface. After triple treatment, the electrode plate is moved out of the cleaning groove.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes and modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention.

Claims (9)

1. A cleaning head, characterized in that: the method comprises the following steps:

a cleaning head body (1);

the cleaning head body (1) consists of two end plates (1-1) and a cylinder body (1-2);

the circumferential surface of the cylinder body (1-2) is divided into three areas, namely a suction area, a wiping area and a blowing area;

the wall of the cylinder (1-2) in the suction area is provided with a plurality of suction holes (1-3);

a groove (1-4) is arranged on the wall of the cylinder (1-2) in the wiping area, and a wiping block (1-5) is movably connected in the groove (1-4);

a plurality of air blowing holes (1-6) are formed in the wall of the cylinder (1-2) in the air blowing area;

a rotating shaft (1-7) is fixedly arranged between the two end plates (1-1) in a penetrating mode, the rotating shaft (1-7) is a hollow shaft body, the interior of the cylinder body (1-2) is divided into two cavities through a partition plate, one end of the partition plate is connected with the inner wall of the cylinder body (1-2), the other end of the partition plate is connected with the rotating shaft (1-7), and a suction area and a blowing area of the cylinder body (1-2) correspond to the two cavities respectively.

2. The cleaning head of claim 1 wherein: the wiping blocks (1-5) are sponges, and the wiping blocks (1-5) are fixed in the grooves (1-4) through magic tapes.

3. The cleaning head of claim 1 wherein: the suction area is provided with a shovel plate (1-8), the shovel plate (1-8) consists of a vertical part (1-9) and a straight shovel part (1-10), an included angle of 120 degrees is formed between the vertical part (1-9) and the straight shovel part (1-10), and the shovel plate (1-8) is fixed on the outer wall of the cylinder body (1-2) through the vertical part (1-9).

4. A cleaning head as claimed in claim 3, characterized in that: the shovel plates (1-8) are made of hard rubber, and the outer end faces of the straight shovel parts (1-10) are provided with inclined planes.

5. A cleaning head as claimed in claim 3, characterized in that: side baffles are arranged on two sides of the vertical parts (1-9).

6. The cleaning head of claim 1 wherein: a rubber suction head is arranged at the suction hole (1-3).

7. The utility model provides a defibrillator electrode board cleaning device which characterized in that: comprises a cleaning tank (2), a control mechanism (3), a negative pressure suction assembly (4), a blowing assembly (5) and the cleaning head of claim 1;

a through hole is formed in the bottom of the cleaning groove (2), and the cleaning head is arranged below the through hole through a control mechanism (3); the control mechanism (3) comprises a shell (3-1), a controller (3-2), a first motor (3-3), a second motor (3-4), a sliding rail assembly and a power supply (3-5), wherein the controller (3-2), the first motor (3-3), the second motor (3-4), the sliding rail assembly and the power supply (3-5) are arranged in the shell (3-1);

the first motor (3-3) is used for driving the cleaning head to reciprocate along the length direction of the cleaning groove (2);

the second motor (3-4) is used for driving the cleaning head to rotate in a reciprocating manner;

the power supply (3-5) is used for supplying power to the controller (3-2), the first motor (3-3), the second motor (3-4), the negative pressure suction assembly (4) and the blowing assembly (5);

the controller (3-2) is electrically connected with the negative pressure suction assembly (4), the blowing assembly (5), the first motor (3-3) and the second motor (3-4);

the slide rail assembly comprises two parallel rails (3-6), and a slide block (3-7) capable of sliding along the rails (3-6) is clamped on each rail (3-6);

through holes are formed in the positions, located above the tracks (3-6), of the sliding blocks (3-7), and two ends of a rotating shaft (1-7) of the cleaning head are respectively arranged in the through holes of the two sliding blocks (3-7) in a penetrating mode;

a bracket (3-8) is arranged on one sliding block (3-7), a second motor (3-4) is arranged on the bracket (3-8), and an output shaft of the second motor (3-4) is in transmission connection with a rotating shaft (1-7) of the cleaning head;

the lower parts of the two sliding blocks (3-7) are connected together through connecting rods (3-9), screw rods (3-10) are arranged below the connecting rods (3-9), the screw rods (3-10) are in transmission connection with output shafts of the first motors (3-3), screw caps (3-11) are sleeved on the screw rods (3-10), and the screw caps (3-11) are fixed together with the connecting rods (3-9);

the negative pressure suction component (4) is communicated with the suction holes (1-3) of the cleaning head through a suction pipe, and the blowing component (5) is communicated with the blowing holes (1-6) of the cleaning head through a blowing pipe.

8. The defibrillator electrode pad cleaning apparatus of claim 1, wherein: the suction pipe comprises a suction main pipe and a plurality of suction branch pipes, one end of the suction main pipe is connected with the negative pressure suction assembly (4), the other end of the suction main pipe penetrates through the rotating shaft (1-7) and extends into the suction area to the cavity, one end of each suction branch pipe is connected with the suction main pipe, and the other end of each suction branch pipe is connected with the suction hole (1-3).

9. The defibrillator electrode pad cleaning apparatus of claim 1, wherein: and a trigger switch is arranged at the bottom of the cleaning groove (2) and positioned on one side of the through hole, and the trigger switch is electrically connected with the controller (3-2).

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