CN219127983U - Multifunctional diabetic foot dressing change device - Google Patents

Abstract

The utility model discloses a multifunctional diabetic foot dressing change device, which belongs to the technical field of medical appliances and comprises: a drug injection module, a shoe-shaped shell and a flushing module; the medicine injection module comprises a plurality of medicine injection ports; the shoe-shaped shell is rotationally connected with the medicine injection module and comprises a first cavity and a second cavity, the first cavity is arranged at the upper part of the second cavity, and a partition plate is arranged between the second cavities and is used for separating the first cavity from the second cavity; the shoe-shaped shell further comprises a liquid outlet, the liquid outlet is arranged at the bottom of the second cavity, and a liquid outlet plug which is detachably connected is adapted to the liquid outlet; the shoe-shaped shell further comprises an extending port, the extending port is arranged at a position, close to the rear part, of the top end of the shoe-shaped shell and used for enabling a patient to extend feet into the shoe-shaped shell, and the front section of the extending port is a limiting section connected with the medicine injection module; the washing module is arranged in the shoe-shaped shell and is in sliding connection or rolling connection with the shoe-shaped shell, and after the feet of a patient are put into the shoe-shaped shell, the washing module washes out original liquid medicine and dirt of the feet of the patient.

Description

Multifunctional diabetic foot dressing change device

Technical Field

The utility model belongs to the technical field of medical appliances, and particularly relates to a multifunctional diabetic foot dressing change device.

Background

In the early treatment of diabetic foot, the foot of the patient has no wound surface, but still needs to be treated by a medicine smearing mode, and the traditional medicine changing mode is to manually clean the foot of the patient and manually smear medicine after cleaning, so that the problems are that:

the medical staff needs to be contacted when changing the dressing, and the cleaning by bare hands and changing the dressing are not suitable for the patient.

Therefore, an apparatus is needed to be designed, which can extend the feet of a patient into the apparatus and can inject medicines and flushing liquid into the apparatus from the outside, so that the patient can clean the feet and replace the medicine liquid, and the apparatus is particularly a multifunctional diabetic foot medicine changing apparatus.

Disclosure of Invention

In order to overcome the problems in the background art, the utility model adopts the following technical scheme:

a multi-functional diabetic foot changing device comprising: a medicine injection module, a shoe-shaped shell and a flushing module.

The medicine injection module sprays medicine liquid to the feet of a patient and comprises a plurality of medicine injection ports;

the shoe-shaped shell is used for providing a coating space for the foot of a patient, the shoe-shaped shell is rotationally connected with the drug injection module, the shoe-shaped shell comprises a first cavity and a second cavity, the first cavity is arranged at the upper part of the second cavity, and a partition plate is arranged between the first cavity and the second cavity and is separated by the partition plate; the shoe-shaped shell further comprises a liquid outlet, the liquid outlet is arranged at the bottom of the second cavity, a liquid outlet plug which is detachably connected is adapted to the liquid outlet, and liquid in the second cavity can be discharged by pulling out the liquid outlet plug; the shoe-shaped shell further comprises an extending port, the extending port is arranged at a position, close to the rear part, of the top end of the shoe-shaped shell and used for enabling a patient to extend feet into the shoe-shaped shell, and the front section of the extending port is a limiting section connected with the medicine injection module;

the washing module is arranged in the shoe-shaped shell and is in sliding connection or rolling connection with the shoe-shaped shell, and after the feet of a patient are put into the shoe-shaped shell, the washing module washes out original liquid medicine and dirt of the feet of the patient;

the rolling structure is arranged in the shoe-shaped shell, is in direct contact with the sole of the patient and enables the sole of the patient to be fully contacted with the medicine or the flushing fluid through rolling.

Further, the front end of the extending port of the medicine injection module is exposed or sealed through rotary connection, the medicine injection port is arranged from the top to the bottom of the medicine injection module in a penetrating way, and the area of the medicine injection port at the top end of the medicine injection module is larger than that of the medicine injection port at the bottom of the medicine injection module; the position of the injection port at the top end of the injection module further comprises a tubular wall extending upwards and an injection plug which can be sleeved in the tubular wall, and the injection plug slides up and down in the tubular wall. So as to obtain a larger initial speed when the liquid medicine is injected.

Further, the direction from the top end of the shoe-shaped shell to the bottom end of the shoe-shaped shell is set to be the first direction, an included angle exists between the direction from top to bottom of the medicine injection port and the first direction all the time, and the included angle reaches the minimum value when the medicine injection module is matched with the front section of the extending port. The arrangement is beneficial to the liquid medicine to surge backwards along the foot surface of the patient under pressure, so that the liquid medicine is more uniformly distributed on the foot of the patient.

Further, every edge that annotates medicine module and shoes form shell contact all is equipped with the sealing layer, when annotating the medicine module and rotate to coincide with spacing section along clockwise, annotate the medicine module unable continuous rotation downwards and in agreeing with the edge of spacing section to realize the sealing of the anterior segment of stretching into the mouth and the splashproof of annotating medicine module bottom liquid medicine through the sealing layer.

Further, when the drug injection module rotates on the shoe-shaped shell along the clockwise direction until the drug injection module is matched with the front section of the extending port, an annular port which is convenient for a patient to move the lower leg or the ankle is formed by the rear section of the extending port and one side of the drug injection module, which is close to the rear section of the extending port, the left side of the shoe-shaped shell horizontally points to the right side of the shoe-shaped shell to be taken as a second direction, the front end of the shoe-shaped shell horizontally points to the rear end of the shoe-shaped shell to be taken as a third direction, the maximum distance between any two points of the annular port in the second direction is not less than 120mm, and the maximum distance between any two points of the annular port in the third direction is not less than 180mm.

Further, the shoe-shaped shell further comprises a flushing port, the flushing port is arranged on the outer side of the rear section of the extending port, the extending port comprises a short pipe which is communicated with the inside and the outside of the shoe-shaped shell, one end of the short pipe is inserted into the shoe-shaped shell, and the other end of the short pipe is exposed out of the shoe-shaped shell.

Further, the flushing module comprises a flow guiding strip, the flow guiding strip is connected with the shoe-shaped shell in a U-shaped mode along the outline of the rear section of the extending-in opening on the upper portion of the first cavity, the opening of the U-shaped opening faces the front section of the extending-in opening, the bottom of the U-shaped opening faces the rear section of the extending-in opening, the bottom of the U-shaped opening is provided with a socket of the connecting short tube, and the flow guiding strip is connected with the short tube in an inserting mode through the socket.

Further, the inside of the guide strip comprises a third cavity, and the third cavity is communicated with the outside through a flushing port; the flow guide strip is also provided with a plurality of groups of water outlet points, each group of water outlet points comprises at least one nozzle, and the third cavity is communicated with the first cavity through the nozzle.

Further, the rolling structure is composed of a plurality of rolling units and a supporting rod structure for supporting the rolling units to rotate, the supporting rod structure is detachably connected with the shoe-shaped shell, the rolling units and the supporting rod structure are arranged above the partition plate in an array mode, and the axial directions of the rolling units are the same or different.

Further, the rolling unit further comprises a layer of liquid absorbing structure, and the liquid absorbing structure is wrapped on the outermost side of the rolling structure and is directly contacted with the foot of the patient.

The utility model has the beneficial effects that:

1. through setting up have sealing layer and the medicine injection module that can open and shut, realized the local seal and comparatively ingenious medicine of patient's foot after putting into the device smear the mode, namely: the medicine is sprayed on the instep and extends backwards along the ankle and flows downwards along the side and the toe end of the foot, and then the medicine is uniformly smeared through the rolling structure arranged on the sole of the foot, so that the medicine on most positions of the foot can be smeared quickly.

2. The washing opening on the shoe-shaped shell can be also abutted with an external medicine injection device so as to better paint medicines on the rear and two sides of the foot of a patient, and the washing liquid can be washed in the third cavity after being injected, so that the use characteristics of the washing module are fully utilized.

Drawings

FIG. 1 is a schematic view of the overall structure of the drug infusion module of the present utility model when closed with a shoe-like shell;

FIG. 2 is a schematic view of the overall structure of the drug infusion module and the shoe shell of the present utility model when opened;

FIG. 3 is an overall cross-sectional view of the drug delivery module and shoe shell of the present utility model with the shoe shell open;

FIG. 4 is a cross-sectional view of the interior of the shoe shell of the present utility model from a bottom view;

FIG. 5 is a cross-sectional view of the overall structure from a top view of the present utility model;

FIG. 6 is a cross-sectional view of the overall structure from the bottom view of the present utility model;

in the figure, 1, a medicine injection module; 11. a medicine injection port; 2. a shoe-shaped shell; 21. a first cavity; 22. a second cavity; 23. a partition plate; 24. a liquid outlet; 25. a drain plug; 26. an extending port; 261. a sealing layer; 262. a limiting section; 27. a flushing port; 3. a flushing module; 31. a flow guiding strip; 311. a third cavity; 312. a spout; 4. a rolling structure; 41. a scrolling unit; 42. a strut structure.

Detailed Description

The following detailed description of the embodiments of the present utility model will be made more apparent to those skilled in the art from the following detailed description, in which the utility model is embodied in several, but not all, embodiments of the utility model. The utility model may be embodied or applied in other specific forms and features of the following examples and examples may be combined with each other without conflict, all other examples being contemplated by those of ordinary skill in the art without undue burden from the present disclosure, based on the examples of the utility model.

A multi-functional diabetic foot changing device comprising: a medicine injection module 1, a shoe-shaped shell 2 and a flushing module 3; the medicine injection module 1 sprays medicine liquid to the feet of a patient and comprises a plurality of medicine injection ports 11; a shoe-shaped shell 2 for providing a cladding space for the foot of a patient, wherein the shoe-shaped shell 2 is rotatably connected with the drug injection module 1, the shoe-shaped shell 2 comprises a first cavity 21 and a second cavity 22, the first cavity 21 is arranged at the upper part of the second cavity 22, a partition 23 is arranged between the first cavity 21 and the second cavity 22, and the first cavity 21 and the second cavity 22 are separated by the partition 23; the shoe-shaped shell 2 further comprises a liquid outlet 24, the liquid outlet 24 is arranged at the bottom of the second cavity 22, a liquid outlet plug 25 which is detachably connected is adapted to the liquid outlet 24, and liquid in the second cavity 22 can be discharged by pulling out the liquid outlet plug 25; the shoe-shaped shell 2 further comprises an extending port 26, wherein the extending port 26 is arranged at a position close to the rear part of the top end of the shoe-shaped shell 2 and is used for enabling a patient to extend feet into the shoe-shaped shell 2, and the front section of the extending port 26 is a limiting section 262 connected with the medicine injection module 1; the flushing module 3 is arranged in the shoe-shaped shell 2 and is in sliding connection or rolling connection with the shoe-shaped shell 2, and after the feet of a patient are put into the shoe-shaped shell 2, the flushing module 3 flushes original liquid medicine and dirt of the feet of the patient; the rolling structure 4 is disposed in the shoe-shaped shell 2, in direct contact with the patient's sole and makes the patient's sole fully contact with the medicine or the rinse liquid by rolling, referring to fig. 1 to 6.

In some embodiments of the present application, as shown in fig. 1, the front end of the injection module 1 at the front end of the extension port 26 is exposed or sealed by rotating connection, the injection port 11 is arranged from top to bottom of the injection module 1, and the area of the injection port 11 at the top end of the injection module 1 is larger than the area of the injection port 11 at the bottom of the injection module 1; the injection port 11 further comprises a tubular wall extending upwards and an injection plug which can be sleeved in the tubular wall, and the injection plug slides up and down in the tubular wall at the top end of the injection module 1. So as to obtain a larger initial speed when the liquid medicine is injected.

In some embodiments of the present application, the direction from the top end of the shoe-shaped shell 2 to the bottom end of the shoe-shaped shell 2 is set as the first direction, and the direction from top to bottom of the drug injection port 11 always forms an included angle with the first direction, and the included angle reaches a minimum value when the drug injection module 1 is engaged with the front section of the extension port 26. This arrangement facilitates the liquid medicine to surge back along the patient's foot surface under pressure, facilitating a more uniform distribution of the liquid medicine on the patient's foot, see fig. 1, 2.

In some embodiments of the present application, each edge of the injection module 1 contacting the shoe-shaped shell 2 is provided with a sealing layer 261, when the injection module 1 rotates clockwise to be overlapped with the limiting section 262, the injection module 1 cannot continue to rotate downwards and is engaged with the edge of the limiting section 262, and sealing of the front section of the extending port 26 and splashing prevention of the liquid medicine at the bottom of the injection module 1 are achieved through the sealing layer 261, referring to fig. 2 and 4.

In some embodiments of the present application, when the drug injection module 1 rotates on the shoe-shaped shell 2 in the clockwise direction until the drug injection module 1 is engaged with the front section of the extension port 26, an annular opening for facilitating the patient to move the calf or ankle is formed between the rear section of the extension port 26 and the side of the drug injection module 1, which is close to the rear section of the extension port 26, the left side of the shoe-shaped shell 2 is horizontally directed to the right side of the shoe-shaped shell 2 in the second direction, the front end of the shoe-shaped shell 2 is horizontally directed to the rear end of the shoe-shaped shell 2 in the third direction, the maximum distance between any two points of the annular opening in the second direction is not less than 120mm, and the maximum distance between any two points of the annular opening in the third direction is not less than 180mm, refer to fig. 1 and 2.

In some embodiments of the present application, the shoe-shaped shell 2 further includes a flushing port 27, the flushing port 27 is disposed on the outer side of the rear section of the extending port 26, the extending port 26 includes a short tube that communicates with the inside and the outside of the shoe-shaped shell 2, one end of the short tube is inserted into the inside of the shoe-shaped shell 2, and the other end of the short tube is exposed to the outside of the shoe-shaped shell 2, referring to fig. 1, 2 and 4.

In some embodiments of the present application, the flushing module 3 includes a guide bar 31, the guide bar 31 is connected with the shoe-shaped shell 2 in a U shape along the contour of the rear section of the inlet 26 at the upper portion of the first cavity 21, the opening of the U shape faces the front section of the inlet 26, the bottom of the U shape faces the rear section of the inlet 26 and the bottom of the U shape is provided with a socket of the junction pipe, and the guide bar 31 is connected with the junction pipe in an inserting manner through the socket, referring to fig. 1-4.

In some embodiments of the present application, the inside of the guide strip 31 includes a third cavity 311, and the third cavity 311 communicates with the outside through the flushing port 27; the guide strip 31 is further provided with a plurality of groups of water outlet points, each group of water outlet points comprises at least one nozzle 312, and the third cavity 311 is communicated with the first cavity 21 through the nozzle 312, as shown in fig. 4 and 5.

In some embodiments of the present application, the rolling structure 4 is composed of a plurality of rolling units 41 and a supporting rod structure 42 for supporting the rolling units 41 to rotate, the supporting rod structure 42 is detachably connected with the shoe-shaped shell 2, the rolling units 41 and the supporting rod structure 42 are arranged above the partition 23 in an array manner, and the axial directions of each rolling unit 41 are the same or different, and refer to fig. 1, 5 and 6.

In some embodiments of the present application, the rolling unit 41 further includes a layer of liquid absorbing structure, the liquid absorbing structure is wrapped on the outermost side of the rolling structure 4 and is directly contacted with the foot of the patient, the liquid absorbing structure is foam sponge or wood pulp sponge which can be used repeatedly and is convenient to replace, and the sole of the patient steps on different positions of the liquid absorbing structure when sliding on the liquid absorbing structure, referring to fig. 1 and 5.

The combined use method of the utility model comprises the following steps:

1. the injection module 1 is rotated upwardly from a closed connection with the shoe-like shell 2 such that the front section of the access opening 26 is exposed, the patient sits on a bed, chair or other flat surface, the foot is extended into the shoe-like shell 2 from the access opening 26, the sole of the foot is lightly stepped on the rolling structure 4, the injection module 1 is rotated downwardly to close the front section of the shoe-like shell 2, and the rear section of the access opening 26 is of a length sufficient for the patient's foot to move back and forth by 1/3 of the length of the sole of the foot to provide sufficient rolling contact distance for the patient's sole and the rolling structure 4.

2. Part of the liquid medicine is poured into the medicine injection port 11, then the existing device for injecting the medicine under pressure (such as an injector or an infusion apparatus with a pressure supply function) is connected to the medicine injection port 11, a patient can also directly use a medicine injection plug of the medicine injection module 1 as a medicine injection power source in home use, the liquid medicine is sprayed to the instep through pressure, if the rear side of the foot of the patient cannot be uniformly smeared with the liquid medicine, other part of the liquid medicine can be injected from a flushing port 27 at the rear end of the shoe-shaped shell 2, the liquid medicine is injected into the first cavity through the flushing port 27, at the moment, the foot of the patient needs to be moved backwards to be in contact with the liquid medicine through a nozzle 312 on the guide strip 31, and finally the smearing of the liquid medicine is completed by matching with the rolling structure 4 of the sole of the foot.

3. When the feet of the patient need to be cleaned, the flushing liquid is connected to the medicine injection port 11 by the existing device for injecting the medicine under pressure, the patient can also connect the water pipe with the flushing port 27 at home, and the water guide strip 31 and the rolling structure 4 are matched for flushing the feet and cleaning the soles, so that the whole foot medicine is cleaned.

The embodiments described herein are only a few, but not all, of the embodiments of the present utility model and other advantages and effects of the present utility model will be readily apparent to those skilled in the art from the present disclosure. The utility model may be embodied or applied in other specific forms and features of the following examples and examples may be combined with each other without conflict, all other examples being contemplated by those of ordinary skill in the art without undue burden from the present disclosure, based on the examples of the utility model.

Claims (10)

1. A multi-functional diabetic foot changing device comprising: annotate medicine module, shoes form shell, wash module and rolling structure, its characterized in that:

the medicine injection module sprays medicine liquid to the feet of a patient and comprises a plurality of medicine injection ports;

the shoe-shaped shell is used for providing a coating space for the foot of a patient, the shoe-shaped shell is rotationally connected with the drug injection module, the shoe-shaped shell comprises a first cavity and a second cavity, the first cavity is arranged at the upper part of the second cavity, and a partition plate is arranged between the first cavity and the second cavity and is separated by the partition plate; the shoe-shaped shell further comprises a liquid outlet, the liquid outlet is arranged at the bottom of the second cavity, a liquid outlet plug which is detachably connected is adapted to the liquid outlet, and liquid in the second cavity can be discharged by pulling out the liquid outlet plug; the shoe-shaped shell further comprises an extending port, the extending port is arranged at a position, close to the rear part, of the top end of the shoe-shaped shell and used for enabling a patient to extend feet into the shoe-shaped shell, and the front section of the extending port is a limiting section connected with the medicine injection module;

the washing module is arranged in the shoe-shaped shell and is in sliding connection or rolling connection with the shoe-shaped shell, and after the feet of a patient are put into the shoe-shaped shell, the washing module washes out original liquid medicine and dirt of the feet of the patient;

the rolling structure is arranged in the shoe-shaped shell, is in direct contact with the sole of the patient and enables the sole of the patient to be fully contacted with the medicine or the flushing fluid through rolling.

2. The multifunctional diabetic foot dressing change device according to claim 1, wherein the front end of the drug injection module is exposed or sealed at the front end of the extending port through rotary connection, the drug injection port is arranged from the top to the bottom of the drug injection module in a penetrating way, and the area of the drug injection port at the top end of the drug injection module is larger than the area of the drug injection port at the bottom of the drug injection module; the position of the injection port at the top end of the injection module further comprises a tubular wall extending upwards and an injection plug which can be sleeved in the tubular wall, and the injection plug slides up and down in the tubular wall.

3. The device for changing the medicine on the multifunctional diabetic foot according to claim 2, wherein the direction which is vertically directed from the top end of the shoe-shaped shell to the bottom end of the shoe-shaped shell is set as a first direction, an included angle is always formed between the direction from top to bottom of the medicine injection port and the first direction, and the included angle reaches a minimum value when the medicine injection module is matched with the front section of the extending port.

4. A multi-functional diabetic foot changing device according to claim 3 wherein each edge of the injection module contacting the shoe-shaped shell is provided with a sealing layer, and when the injection module rotates clockwise to coincide with the limit section, the injection module cannot continue to rotate downwards and is engaged with the edge of the limit section, and sealing of the front section of the entry port and splash prevention of the liquid medicine at the bottom of the injection module are achieved by the sealing layers.

5. The multifunctional diabetic foot changing device according to claim 4, wherein when the drug injection module rotates on the shoe-shaped shell in a clockwise direction until the drug injection module is engaged with the front section of the extending port, the rear section of the extending port and one side of the drug injection module, which is close to the rear section of the extending port, form an annular port for facilitating the patient to move the lower leg or ankle, the left side of the shoe-shaped shell is horizontally directed to the right side of the shoe-shaped shell is used as a second direction, the front end of the shoe-shaped shell is horizontally directed to the rear end of the shoe-shaped shell is used as a third direction, the maximum distance between any two points of the annular port in the second direction is not less than 120mm, and the maximum distance between any two points of the annular port in the third direction is not less than 180mm.

6. The multifunctional diabetic foot changing device according to claim 1, wherein the shoe-shaped shell further comprises a flushing port, the flushing port is arranged on the outer side of the rear section of the extending port, the extending port comprises a short pipe which is communicated with the inside and the outside of the shoe-shaped shell, one end of the short pipe is inserted into the inside of the shoe-shaped shell, and the other end of the short pipe is exposed to the outside of the shoe-shaped shell.

7. The multifunctional diabetic foot changing device according to claim 6, wherein the flushing module comprises a guide bar, the guide bar is connected with the shoe-shaped shell in a U shape along the outline of the rear section of the extending port at the upper part of the first cavity, the opening of the U shape faces the front section of the extending port, the bottom of the U shape faces the rear section of the extending port, the bottom of the U shape is provided with a socket of a short connecting pipe, and the guide bar is connected with the short connecting pipe in an inserting mode through the socket.

8. The multifunctional diabetic foot changing device according to claim 7, wherein the inside of the guide bar comprises a third cavity, and the third cavity is communicated with the outside through a flushing port; the flow guide strip is also provided with a plurality of groups of water outlet points, each group of water outlet points comprises at least one nozzle, and the third cavity is communicated with the first cavity through the nozzle.

9. The multifunctional diabetic foot changing device according to claim 1, wherein the rolling structure is composed of a plurality of rolling units and a supporting rod structure for supporting the rolling units to rotate, the supporting rod structure is detachably connected with the shoe-shaped shell, the rolling units and the supporting rod structure are arranged above the partition plate, and the axial directions of the rolling units are the same or different.

10. The multi-purpose diabetic foot changing device of claim 9 wherein the rolling unit further comprises a layer of wicking structure wrapped around the outermost side of the rolling structure and in direct contact with the patient's foot.

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