CN220090253U - Skin cleaning suit for positioning electrocardio electrode - Google Patents

Abstract

The utility model discloses a skin cleaning set for positioning an electrocardio electrode, belongs to the field of medical appliances, and aims to solve the problem of how to improve the efficiency of cleaning the skin at the position where the electrocardio electrode is positioned. This skin cleaning suit for electrocardio electrode arrangement is through setting up the suit main part as including the structure of connecting clean bottle, clear water bottle and wiping cloth bag as an organic whole to be equipped with the cleaning solution in the clean bottle, be equipped with the pure water in the clear water bottle, be equipped with many wipes in the wiping cloth bag, when the skin at electrocardio electrode position is settled to the cleaning, medical personnel gets a suit, the cleaning solution can be taken to the first bottle lid of cleaning solution of opening, the cleaning solution can be taken to the second bottle lid of cleaning solution of opening can be taken the pure water and smear the cleaning, tear the tearing area of wiping cloth bag can take many wipes clean cleaning solution and pure water of leaving on the skin respectively, various article take convenient, swiftly, the efficiency of cleaning and settling electrocardio electrode position skin has been improved greatly.

Description

Skin cleaning suit for positioning electrocardio electrode

Technical Field

The utility model belongs to the field of medical appliances, and particularly relates to a skin cleaning set for positioning an electrocardio electrode.

Background

The electrocardiograph is used in hospitals to monitor the electrocardio, or before the electrocardiograph is made for the patient, the skin of the position where the electrocardio electrode is arranged on the patient needs to be cleaned. The relevant basis is that, in the practice standard of the national heart institute of Care, the national institute of Care, published on 2017, 11, 07, the national standard of practice for Cardioelectric monitoring: proper skin preparation may reduce the number of alarms for a multi-parameter monitor; the paper published in the journal of Chinese Care 2021, 3 rd month 3 "best evidence summary of alarm management of bedside electrocardiograph" indicates that: cleaning local skin with soapy water, and wiping with towel or gauze to keep skin clean and dry, which is grade A evidence; the "multi-parameter monitor clinical alarm management practice guidelines" disclosed in chinese care management, 2020, phase 5, indicate that: skin preparation is carried out before the electrode slice is attached, the electrode slice attaching area is cleaned by soapy water or clean water, the electrode slice attaching area is wiped by towel or gauze, and chest hair and skin cuticle are removed if necessary.

Considering that the skin where the electrocardio electrode is arranged is cleaned by alcohol, the skin is dried, and the current is reduced, so that hospitals do not prepare the skin by alcohol, but clean the skin where the electrocardio electrode is arranged by soap liquid and clear water. At present, the cleaning process of the skin at the position where the electrocardio electrode is arranged is as follows: before an electrode plate of an electrocardiograph monitor or an electrocardiograph electrode is arranged, medical staff firstly smears the electrode plate or the electrocardiograph electrode on the skin of the electrocardiograph electrode arrangement position with soap liquid, and then rubs the electrode plate or the electrocardiograph electrode with gauze to clean the electrode plate or the electrocardiograph electrode; and then, the skin at the position where the electrocardio electrode is arranged is smeared with clear water, and the skin is wiped and cleaned again by another piece of gauze after the clean water is smeared.

Because various articles such as soap liquid, clear water, a plurality of gauzes, a plurality of cotton swabs and the like are needed in the process of cleaning the skin at the electrocardio electrode position, the medical staff is inconvenient to take, wastes time and labor, and the efficiency of cleaning the skin at the electrocardio electrode position is reduced.

Disclosure of Invention

The utility model provides a skin cleaning set for positioning an electrocardio electrode, which aims at solving the problem of how to improve the efficiency of cleaning the skin at the position where the electrocardio electrode is positioned.

The technical scheme adopted for solving the technical problems is as follows: the skin cleaning suit for positioning the electrocardio electrode comprises a wiping cloth and a suit main body, wherein the suit main body comprises a cleaning bottle, a cleaning water bottle and a wiping cloth bag which are connected into a whole;

the cleaning bottle comprises a first bottle body filled with cleaning liquid, a first bottle neck arranged at the upper part of the first bottle body, and a first bottle cap arranged on the first bottle neck;

the clean water bottle comprises a second bottle body filled with purified water, a second bottle neck arranged at the upper part of the second bottle body and a second bottle cap arranged on the second bottle neck;

the wiping cloth bag comprises a bag body and a tearing belt for sealing the bag opening of the bag body, at least two pieces of wiping cloth are arranged in the bag body, and a first tearing structure is arranged at the joint of the tearing belt and the bag body.

Further, the wipe is gauze, and the cleaning solution is soap solution with the concentration of 2 percent.

Further, the first bottle cap and the second bottle cap are of twisted piece type structures, a first twisting structure is arranged at the joint of the first bottle cap and the first bottle neck, and a second twisting structure is arranged at the joint of the second bottle cap and the second bottle neck.

Further, the first twisting-off structure and the second twisting-off structure are thinning grooves or saw-tooth structures.

Further, the cleaning bottle further comprises a first liquid coating rod arranged in the first bottle body, the upper end of the first liquid coating rod is connected with the first bottle cap, the lower end of the first liquid coating rod is provided with a first liquid drawing part, and at least part of the first liquid drawing part is immersed in cleaning liquid;

the clear water bottle still includes the second coating liquid pole that sets up in the second bottle, and the upper end of second coating liquid pole is connected with the second bottle lid, and the lower extreme of second coating liquid pole is equipped with the second and draws liquid portion, and the second draws liquid portion to at least partly submerge in the pure water.

Further, the positions where the cleaning bottle, the clear water bottle and the wiping cloth bag are connected with each other are all provided with a second tearing structure.

Further, the first tearing structure and the second tearing structure are easy-to-tear lines.

Further, be provided with the first honeycomb duct that is linked together with the inner chamber of first bottle on the first bottle lid, be provided with the second honeycomb duct that is linked together with the inner chamber of second bottle on the second bottle lid, be provided with switch structure on first honeycomb duct and the second honeycomb duct, the play liquid end of first honeycomb duct and the play liquid end of second honeycomb duct all communicate with clean pipe.

Further, the switch structure comprises a first switch arranged on the first guide pipe and a second switch arranged on the second guide pipe, and the first switch and the second switch are both a flow clamp or a flow speed regulator.

Further, the switch structure comprises a switch main body, wherein a sliding groove is formed in the switch main body, a sliding block capable of sliding left and right is arranged in the sliding groove, a slotted hole is formed in the sliding block along the vertical direction, an eccentric wheel is arranged in the slotted hole, a driving rod is connected to an eccentric shaft of the eccentric wheel, and the driving rod penetrates out from the front side or the rear side of the switch main body;

the switch main body is internally provided with a first channel and a second channel which are communicated with the sliding groove and are respectively positioned at the left side and the right side of the sliding block, and the first guide pipe and the second guide pipe are respectively arranged through the first channel and the second channel;

the driving rod can drive the eccentric wheel to rotate in the oblong hole so as to drive the sliding block to slide left and right in the sliding groove; when the distal end of the eccentric wheel faces the first guide pipe, the sliding block is driven by the eccentric wheel to slide leftwards and squeeze the first guide pipe, so that the first guide pipe is in a non-communicated state; when the far end of the eccentric wheel faces the second guide pipe, the sliding block is driven by the eccentric wheel to slide rightwards and squeeze the second guide pipe, so that the second guide pipe is in a non-communicated state.

The beneficial effects of the utility model are as follows: the main body of the suit is provided with a structure comprising a cleaning bottle, a cleaning bottle and a wiping cloth bag which are connected into a whole, cleaning liquid is filled in the cleaning bottle, purified water is filled in the cleaning bottle, a plurality of wiping cloths are filled in the wiping cloth bag, when the skin of the electrocardio electrode part is required to be cleaned, a medical staff takes one piece of skin cleaning suit for the electrocardio electrode arrangement, a first bottle cap of the cleaning bottle can be used for smearing and cleaning the cleaning liquid, a second bottle cap of the cleaning bottle can be used for smearing and cleaning the purified water, and a tearing belt of the wiping cloth bag is torn off to respectively wipe the cleaning liquid and the purified water which are remained on the skin; therefore, in the process of cleaning the skin at the position where the electrocardio electrode is arranged, various articles can be taken conveniently and rapidly by using the skin cleaning set for arranging the electrocardio electrode, and the efficiency of cleaning the skin at the position where the electrocardio electrode is arranged is greatly improved.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is a schematic diagram of an embodiment of another embodiment of the present utility model;

FIG. 3 is a schematic diagram of an embodiment of a further embodiment of the present utility model;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 3;

FIG. 5 is a schematic view of the embodiment of FIG. 3 with the first draft tube in a closed position;

marked in the figure as: the cleaning device comprises a cleaning cloth 100, a cleaning bottle 200, a first bottle body 210, a first bottle neck 220, a first bottle cap 230, a first flow guide pipe 231, a first twisting-off structure 240, a first coating rod 250, a first liquid drawing part 251, a cleaning bottle 300, a second bottle body 310, a second bottle neck 320, a second bottle cap 330, a second flow guide pipe 331, a second twisting-off structure 340, a second coating rod 350, a second liquid drawing part 351, a switch main body 361, a sliding groove 362, a sliding block 363, an oblong hole 364, an eccentric wheel 365, a driving rod 366, a first channel 367, a second channel 368, a handle 369, a first switch 371, a second switch 372, a cleaning pipe 380, a cleaning cloth bag 400, a bag body 410, a tearing belt 420, a first tearing structure 430 and a second tearing structure 440.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

In the description of the present utility model, it should be noted that, directions or positional relationships indicated by terms such as "front", "rear", "left", "right", "upper", "lower", "top", "bottom", "inner", "outer", etc., are based on directions or positional relationships shown in the drawings, are merely for convenience of description, and do not indicate or imply that the apparatus or components referred to must have a specific direction, be configured and operated in a specific direction, and thus should not be construed as limiting the present utility model; "plurality" generally refers to two or more. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1, 2 or 3, the skin cleansing kit for electrocardiograph electrode placement comprises a wipe 100 and a kit body including a cleansing bottle 200, a cleansing bottle 300 and a wipe bag 400 connected as one body;

the cleaning bottle 200 includes a first bottle body 210 containing a cleaning liquid, a first bottle neck 220 provided at an upper portion of the first bottle body 210, and a first bottle cap 230 provided on the first bottle neck 220; the cleaning liquid is mainly used for smearing and cleaning the skin at the position where the electrocardio electrode is arranged, and can be a plurality of types of soap liquid, preferably 2 percent;

the bottle 300 includes a second body 310 containing purified water, a second bottle neck 320 provided at an upper portion of the second body 310, and a second bottle cap 330 provided on the second bottle neck 320; purified water refers to pure and clean water without impurities or bacteria, and is commonly called clear water;

the wiping cloth bag 400 comprises a bag body 410 and a tearing belt 420 for sealing the bag opening of the bag body 410, wherein at least two wiping cloths 100 are arranged in the bag body 410, the wiping cloths 100 are mainly used for wiping cleaning liquid or purified water remained on the skin due to cleaning, and the wiping cloths 100 can be various types such as gauze, towels and the like; the tear tape 420 may be provided at various locations of the pouch 410, preferably in a structure of being horizontally opened and sealing the pouch 410 longitudinally; the first tearing structure 430 is disposed at the connection between the tearing strip 420 and the bag 410, and the first tearing structure 430 is mainly used for facilitating the separation of the tearing strip 420 and the bag 410 by tearing so as to open the mouth of the bag 410; the first tearing structure 430 may be a plurality of easy tear lines, saw tooth lines, etc.

The using method comprises the following steps: before an electrode slice of an electrocardiograph monitor or an electrocardiograph electrode is arranged, medical staff firstly opens a first bottle cap 230 of a cleaning bottle 200, and uses cleaning liquid to be smeared on skin at the position where the electrocardiograph electrode is arranged; after the cleaning solution is smeared, tearing off the tearing belt 420 of the wiping cloth bag 400 to take a piece of wiping cloth 100, and wiping off the cleaning solution remained on the skin; then, the second bottle cap 330 of the clear water bottle 300 is opened, purified water is taken and smeared on the skin at the position where the electrocardio electrode is arranged; after the purified water is applied, another Zhang Cabu is taken, and the purified water left on the skin is wiped off. In the whole process, the articles are very convenient to take, and the efficiency of cleaning and arranging the skin at the electrocardio electrode part can be effectively improved.

As a preferred embodiment of the present utility model, as shown in fig. 1, the first bottle cap 230 and the second bottle cap 330 are both twisted-sheet structures, a first twisting-off structure 240 is disposed at the connection between the first bottle cap 230 and the first bottle neck 220, and a second twisting-off structure 340 is disposed at the connection between the second bottle cap 330 and the second bottle neck 320. The first bottle cap 230 and the second bottle cap 330 of twisting sheet type structure can facilitate the medical staff to pinch and twist the same with fingers, and simultaneously the first bottle cap 230 and the second bottle cap 330 are convenient for the medical staff to twist down through the first twisting structure 240 and the second twisting structure 340 which are arranged so as to open the cleaning bottle 200 and the cleaning bottle 300 to respectively take liquid, thereby further improving the convenience and efficiency of taking. The first twist-off structure 240 and the second twist-off structure 340 are both structures that are easily broken or detached after being twisted, and may be various types of thinning grooves, saw-tooth structures, etc.

On the basis of the above, in order to further facilitate liquid taking and coating, as shown in fig. 1, the cleaning bottle 200 further includes a first liquid coating rod 250 disposed in the first bottle body 210, the upper end of the first liquid coating rod 250 is connected with the first bottle cap 230, the lower end of the first liquid coating rod 250 is provided with a first liquid drawing part 251, and the first liquid drawing part 251 is at least partially immersed in the cleaning liquid; the cleaning bottle 300 further comprises a second liquid applying rod 350 arranged in the second bottle body 310, wherein the upper end of the second liquid applying rod 350 is connected with the second bottle cap 330, the lower end of the second liquid applying rod 350 is provided with a second liquid drawing part 351, and the second liquid drawing part 351 is at least partially immersed in purified water. The first liquid drawing portion 251 and the second liquid drawing portion 351 are generally made of materials having better liquid absorption performance, for example: cotton, sponge, and the like.

On the basis of the above, in order to facilitate the separation of the cleaning bottle 200, the cleaning bottle 300 and the wipe bag 400 from each other for independent use, it is preferable that, as further shown in fig. 1, a second tearing structure 440 is provided at each of the positions where the cleaning bottle 200, the cleaning bottle 300 and the wipe bag 400 are connected to each other, and the second tearing structure 440 may be a variety of easy tearing lines, saw tooth lines, etc.

Considering that the cleaning solution and the purified water can be selectively used in the cleaning process, for convenience of medical staff to select, it is preferable that, as shown in fig. 2 or fig. 3, the first bottle cap 230 is provided with a first flow guide 231 which is communicated with the inner cavity of the first bottle body 210, the second bottle cap 330 is provided with a second flow guide 331 which is communicated with the inner cavity of the second bottle body 310, the first flow guide 231 and the second flow guide 331 are provided with switch structures, and the liquid outlet end of the first flow guide 231 and the liquid outlet end of the second flow guide 331 are both communicated with the cleaning tube 380. When the cleaning liquid needs to be taken, the switch structure is controlled to keep the first guide pipe 231 unobstructed and the second guide pipe 331 in a non-communicated state, so that the first bottle 210 can be extruded to enable the cleaning liquid to flow out of the cleaning pipe 380 for taking; when the purified water needs to be taken, the switch structure is controlled to keep the second flow guide tube 331 unobstructed and the first flow guide tube 231 is in a non-communicated state, so that the second bottle 310 can be extruded to enable the purified water to flow out of the cleaning tube 380 for taking.

The switch structure may be various, in order to simplify the structure and save the cost, as shown in fig. 2, one implementation manner of the switch structure is as follows: comprises a first switch 371 arranged on the first flow guide pipe 231 and a second switch 372 arranged on the second flow guide pipe 331, wherein the first switch 371 and the second switch 372 are all flow clamps or flow regulators. The flow stopping clamp or the flow speed regulator is an existing medical part, the processing and manufacturing technology is mature, the use is convenient, and the cost is low.

In order to facilitate the operation of the medical staff, another implementation manner of the switch structure is as follows in conjunction with fig. 3, 4 and 5: the switch comprises a switch main body 361, wherein a sliding groove 362 is formed in the switch main body 361, a sliding block 363 capable of sliding left and right is arranged in the sliding groove 362, a slotted hole 364 is formed in the sliding block 363 along the vertical direction, an eccentric wheel 365 is arranged in the slotted hole 364, a driving rod 366 is connected to an eccentric shaft of the eccentric wheel 365, and the driving rod 366 penetrates out from the front side or the rear side of the switch main body 361; the fact that the oblong hole 364 is vertically formed means that the length direction of the oblong hole 364 is vertical, and the two semicircular ends of the oblong hole 364 face upwards and downwards respectively, so that the eccentric wheel 365 can be conveniently rotated, meanwhile, the slide block 363 can be effectively driven to slide left and right, and the compactness of the structure is improved;

the switch main body 361 is internally provided with a first channel 367 and a second channel 368 which penetrate through the sliding groove 362 and are respectively positioned at the left side and the right side of the sliding block 363, and the first guide pipe 231 and the second guide pipe 331 are respectively arranged through the first channel 367 and the second channel 368;

the driving rod 366 can drive the eccentric wheel 365 to rotate in the oblong hole 364 so as to drive the sliding block 363 to slide left and right in the sliding groove 362; when the distal end of the eccentric wheel 365 faces the first flow guide pipe 231, the sliding block 363 is driven by the eccentric wheel 365 to slide leftwards and press the first flow guide pipe 231, so that the first flow guide pipe 231 is in a non-communicated state; when the distal end of the eccentric 365 faces the second flow guide 331, the slider 363 is driven by the eccentric 365 to slide to the right and press the second flow guide 331, so that the second flow guide 331 is in a non-communicating state.

The above-mentioned switch structure can keep the first flow guide pipe 231 unobstructed and keep the second flow guide pipe 331 in a non-communicating state by screwing the driving rod 366, as shown in fig. 3 and 4; or, the second flow guide tube 331 is kept unobstructed, and the first flow guide tube 231 is in a non-communicated state, as shown in fig. 5, so that the operation is very convenient; a handle 369 may also be provided on the outer end of the drive rod 366 to facilitate threading by the healthcare worker. In the above switch structure, the sliding of the sliding block 363 is a linear motion, and the moving direction of the sliding block 363 and the arrangement direction of the first flow guiding pipe 231 in the first channel 367 and the arrangement direction of the second flow guiding pipe 331 in the second channel 368 are all perpendicular to each other, so that only radial extrusion is performed on the first flow guiding pipe 231 and the second flow guiding pipe 331 in the opening and closing process, friction forces in other directions on the pipes are avoided, and reliability and service life of the pipes are guaranteed.

Claims (10)

1. Skin cleaning suit for electrocardio electrode arrangement, including wipe (100) and suit main part, its characterized in that: the suit main body comprises a cleaning bottle (200), a clean water bottle (300) and a wiping cloth bag (400) which are connected into a whole;

the cleaning bottle (200) comprises a first bottle body (210) filled with cleaning liquid, a first bottle neck (220) arranged at the upper part of the first bottle body (210), and a first bottle cap (230) arranged on the first bottle neck (220);

the clear water bottle (300) comprises a second bottle body (310) filled with purified water, a second bottle neck (320) arranged at the upper part of the second bottle body (310), and a second bottle cap (330) arranged on the second bottle neck (320);

the wiping cloth bag (400) comprises a bag body (410) and a tearing belt (420) for sealing the bag opening of the bag body (410), at least two pieces of wiping cloth (100) are arranged in the bag body (410), and a first tearing structure (430) is arranged at the joint of the tearing belt (420) and the bag body (410).

2. The skin cleansing kit for electrocardiograph electrode placement according to claim 1, wherein: the wipe (100) is gauze, and the cleaning liquid is soap liquid with the concentration of 2 percent.

3. The skin cleansing kit for electrocardiograph electrode placement according to claim 1 or 2, characterized in that: the first bottle cap (230) and the second bottle cap (330) are of twisted sheet type structures, a first twisting structure (240) is arranged at the joint of the first bottle cap (230) and the first bottle neck (220), and a second twisting structure (340) is arranged at the joint of the second bottle cap (330) and the second bottle neck (320).

4. The skin cleansing kit for electrocardiograph electrode placement according to claim 3, wherein: the first twist-off structure (240) and the second twist-off structure (340) are both thinned grooves or saw-tooth structures.

5. The skin cleansing kit for electrocardiograph electrode placement according to claim 3, wherein: the cleaning bottle (200) further comprises a first liquid coating rod (250) arranged in the first bottle body (210), the upper end of the first liquid coating rod (250) is connected with the first bottle cap (230), the lower end of the first liquid coating rod (250) is provided with a first liquid drawing part (251), and the first liquid drawing part (251) at least partially dips into cleaning liquid;

the clear water bottle (300) further comprises a second liquid coating rod (350) arranged in the second bottle body (310), the upper end of the second liquid coating rod (350) is connected with the second bottle cap (330), the lower end of the second liquid coating rod (350) is provided with a second liquid drawing part (351), and the second liquid drawing part (351) is at least partially immersed in purified water.

6. The skin cleansing kit for electrocardiograph electrode placement according to claim 3, wherein: the cleaning bottle (200), the clean water bottle (300) and the wiping cloth bag (400) are provided with a second tearing structure (440) at the connecting position.

7. The skin cleansing kit for electrocardiograph electrode placement according to claim 6, wherein: the first tear structure (430) and the second tear structure (440) are frangible lines.

8. The skin cleansing kit for electrocardiograph electrode placement according to claim 1 or 2, characterized in that: be provided with first honeycomb duct (231) that are linked together with the inner chamber of first bottle (210) on first bottle lid (230), be provided with second honeycomb duct (331) that are linked together with the inner chamber of second bottle (310) on second bottle lid (330), be provided with switch structure on first honeycomb duct (231) and second honeycomb duct (331), the play liquid end of first honeycomb duct (231) and the play liquid end of second honeycomb duct (331) all communicate with clean pipe (380).

9. The skin cleansing kit for electrocardiograph electrode placement according to claim 8, wherein: the switch structure comprises a first switch (371) arranged on the first guide pipe (231) and a second switch (372) arranged on the second guide pipe (331), wherein the first switch (371) and the second switch (372) are both a flow clamp or a flow speed regulator.

10. The skin cleansing kit for electrocardiograph electrode placement according to claim 8, wherein: the switch structure comprises a switch main body (361), wherein a sliding groove (362) is formed in the switch main body (361), a sliding block (363) capable of sliding left and right is arranged in the sliding groove (362), a slotted hole (364) is formed in the sliding block (363) vertically, an eccentric wheel (365) is arranged in the slotted hole (364), a driving rod (366) is connected to an eccentric shaft of the eccentric wheel (365), and the driving rod (366) penetrates out from the front side or the rear side of the switch main body (361);

the switch main body (361) is internally provided with a first channel (367) and a second channel (368) which penetrate through the sliding groove (362) and are respectively positioned at the left side and the right side of the sliding block (363), and the first guide pipe (231) and the second guide pipe (331) are respectively arranged through the first channel (367) and the second channel (368);

the driving rod (366) can drive the eccentric wheel (365) to rotate in the oblong hole (364) so as to drive the sliding block (363) to slide left and right in the sliding groove (362); when the distal end of the eccentric wheel (365) faces the first flow guide pipe (231), the sliding block (363) is driven by the eccentric wheel (365) to slide leftwards and press the first flow guide pipe (231), so that the first flow guide pipe (231) is in a non-communicated state; when the distal end of the eccentric wheel (365) faces the second flow guide pipe (331), the sliding block (363) is driven by the eccentric wheel (365) to slide rightwards and press the second flow guide pipe (331), so that the second flow guide pipe (331) is in a non-communicated state.