CN213722690U - Finger protective sleeve for diabetic child - Google Patents

Abstract

The application discloses diabetes infant finger protective sheath includes: the finger protector comprises a protector body, a finger fixing part and a finger fixing part, wherein an accommodating cavity is defined in the protector body and is used for accommodating fingers; at least one side of the sheath body corresponding to the fingers is provided with an opening for inserting the fingers through the opening; the at least one rebound piece is arranged on one side of the sheath body corresponding to the opening, so that the needle eye is pressed by pressing the rebound piece after the finger is pricked; the adhesive piece is arranged on the periphery of the rebound piece and used for fixing the rebound piece on the sheath body. The utility model discloses diabetes infant finger protective sheath can guarantee to carry out timely effectual oppression to the pinhole, prevents that the pinhole from bleeding or causing the pinhole to infect, can prevent simultaneously again because of oppressing for a long time, and lead to the patient to point to lack blood, and the infant can be after the monitoring blood sugar or when feeling the pinhole awkwardness certainly cover at the finger, also can give puncture department suitable pressing when protecting the pinhole.

Description

Finger protective sleeve for diabetic child

Technical Field

The application relates to the technical field of medical supplies, and more particularly relates to a finger protective sleeve for a diabetic child.

Background

At present, with the continuous improvement of the living standard of people, the dietary structure of people is greatly improved. However, there are some diseases closely related to diet, and diabetes is one of them.

Blood glucose monitoring is the basis of comprehensive treatment of children with diabetes, and is the basis of insulin medication, exercise and diet. Especially for newly diagnosed children, frequent blood sugar monitoring leads to the finger position to be spread over the needle eye, which not only affects the beauty, but also has the possibility of infection if the needle eye is not pressed timely or carelessly protected after blood sugar monitoring.

SUMMERY OF THE UTILITY MODEL

An object of the present application is to provide a new technical solution for a finger protection cover for diabetic patients with resiliently compressible needle holes.

According to a first aspect of the present application, there is provided a finger protective sleeve for a diabetic infant, comprising:

a sheath body defining a receiving cavity therein for receiving a finger; at least one side of the sheath body corresponding to the fingers is provided with an opening for inserting the fingers through the opening;

the at least one rebound piece is arranged on one side of the sheath body corresponding to the opening, so that the needle eye is pressed by pressing the rebound piece after the finger is pricked;

the adhesive piece is arranged on the periphery of the rebound piece and used for fixing the rebound piece on the sheath body.

Furthermore, the opening is two, two the opening sets up relatively, and is located respectively the sheath body with the both sides that the finger corresponds, the piece that rebounds is two, and respectively with two the opening corresponds.

Further, the resilient member includes:

a base layer having an area larger than an area of the opening in an orthographic projection of the base layer on the opening;

the rebound layer is arranged on the substrate layer and corresponds to the position of the opening.

Further, the substrate layer is an epoxy resin material or a polyvinyl chloride resin material.

Further, the rebound layer is a polyurethane material piece.

Further, the resilient member further comprises: the holding tank, the holding tank is established on the resilience layer to be used for placing the medicine.

Further, the resilient member is an integrally formed member.

Further, the bonding piece is double-sided adhesive tape or solid adhesive tape.

Further, the finger protection sleeve for the diabetic patient further comprises: the tourniquet is arranged on the sheath body and used for wrapping the opening, and one side, adjacent to the end portion of the tourniquet, of the tourniquet is provided with a glue layer used for fixing the tourniquet.

Further, the finger protection sleeve for the diabetic patient further comprises: the decoration piece is arranged on the sheath body and seals one side of the accommodating cavity.

According to an embodiment of the disclosure, through set up the resilience piece on the sheath body, the resilience piece can give puncture department appropriate pressure, can guarantee to carry out timely effectual oppression to the pinhole, prevents that the pinhole from bleeding or causing the pinhole to infect, can prevent simultaneously again because of oppressing for a long time, and lead to the patient to point to be ischemic, and the infant can cover the finger after monitoring blood sugar or when feeling the pinhole awkwardness certainly, also can give puncture department appropriate pressure when protecting the pinhole. The finger protective sleeve for the diabetic child is simple in overall structure, convenient to use and suitable for large-scale popularization and application.

Further features of the present application and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which is to be read in connection with the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the application and together with the description, serve to explain the principles of the application.

Fig. 1 is a schematic structural view of a finger protection cover for a diabetic infant according to an embodiment of the present invention.

Fig. 2 is a sectional view of the resilient member of the finger protector for diabetic children according to the embodiment of the present invention.

Reference numerals:

a finger protection cover 100 for diabetic children;

a sheath body 10; a housing chamber 11; an opening 12;

a resilient member 20; a base layer 21; a resilient layer 22; an accommodating groove 23;

an adhesive member 30;

a tourniquet 40; a glue layer 41;

and a decorative piece 50.

Detailed Description

Various exemplary embodiments of the present application will now be described in detail with reference to the accompanying drawings. It should be noted that: the relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present application unless specifically stated otherwise.

The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the application, its application, or uses.

Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate.

In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

The finger protection cover 100 for diabetic infant according to the embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1, the finger protection cover 100 for diabetic children according to the embodiment of the present invention includes a cover body 10, at least one resilient member 20, and an adhesive member 30.

Specifically, the sheath body 10 defines therein a housing cavity 11 for housing a finger; at least one side of the sheath body 10 corresponding to the finger is provided with an opening 12 for inserting the needle to the finger through the opening 12. At least one resilient member 20 is provided at a side of the shield body 10 corresponding to the opening 12 to press the eye of the needle by pressing the resilient member 20 after the finger insertion. The adhesive member 30 is provided at the periphery of the resilient member 20 for fixing the resilient member 20 to the sheath body 10.

In other words, according to the utility model discloses diabetic infant's finger protective sheath 100 can protect the pinhole that diabetic patient appears in frequent blood sugar monitoring process. In the process of testing blood sugar, the finger protective sleeve 100 for the children with diabetes can be used for effectively pressing the tested needle eye in time, so that the bleeding of the needle eye or the infection of the needle eye can be prevented. Of course, those skilled in the art should understand that the finger protection cover 100 for a diabetic child may also be applied to other fields, such as finger blood collection or other treatment scenarios requiring finger pricking, and any technical solution that requires pressing protection for the hand pointer eye should fall within the scope of the present application.

The utility model discloses a diabetes patient's child finger protective sheath 100 mainly comprises sheath body 10, at least one resilience piece 20 and bonding piece 30. Wherein, processing has the chamber 11 of holding in the sheath body 10, and sheath body 10 can overlap and establish on the finger. At least one side of the sheath body 10 corresponding to the fingers is provided with an opening 12, and medical staff can perform needle insertion on the fingers through the opening 12 on the sheath body 10. At least one rebound member 20 can be processed on one side of the sheath body 10 corresponding to the opening 12, the rebound member 20 has good rebound performance, after the rebound member 20 is pressed, the rebound member 20 can be deformed and generates pressing force (or becomes elastic force), and as time goes on, the rebound member 20 can slowly restore to the shape, and after the original state is restored, the pressing force disappears. The patient can press the eye of the needle after finger insertion by pressing on resilient member 20. The adhesive member 30 may be disposed on the periphery of the resilient member 20, and the adhesive member 30 may be used to adhere the resilient member 20 to the jacket body 10, so that the overall structure is very simple.

The application takes blood sugar monitoring of a diabetic child as an example to illustrate the use of the finger protection sleeve 100 for the diabetic child. When the patient is monitoring blood sugar, firstly, the finger protection sleeve 100 for the diabetic can be worn on the finger needing to be pricked, and the opening 12 on the finger protection sleeve 100 for the diabetic is ensured to be aligned to the position of the finger needing to be pricked. During blood glucose monitoring, a medical professional performs a needle insertion procedure on a patient's finger through opening 12. Treat the acupuncture and withdraw, the patient (or patient's personal, family members etc. for example) can aim at the eye of the needle that the acupuncture was left behind with rebound spare 20 on diabetes patient's child finger protective sheath 100 through opening 12, and carry out simple fixed with rebound spare 20 and sheath body 10 through bonding piece 30, then press rebound spare 20, make rebound spare 20 warp and produce elasticity, oppress the eye of the needle with this, guarantee that it can in time effectively oppress the eye of the needle, the eye of the needle on the finger of the patient has carried out effective protection, prevent that the eye of the needle from bleeding or causing the eye of the needle to infect. After a period of time (the period of time is just in the period of time that the needle eye needs to be pressed), the rebound piece 20 completely recovers the shape, the elastic force disappears, the pressing force of the rebound piece 20 on the needle eye disappears, and the finger ischemia of the patient caused by long-time pressing of the finger is prevented. Finally, the finger protection sleeve 100 of the child with diabetes is taken out, and the use is very convenient.

Therefore, the utility model discloses diabetes patient's child finger protective sheath 100 through set up resilience piece 20 on sheath body 10, after the patient has surveyed the blood sugar, through pressing resilience piece 20, makes resilience piece 20 oppress the eye of the needle to after a period, resilience piece 20 slowly resumes, elasticity disappears, can guarantee in time effectively oppress the eye of the needle, prevent that the eye of the needle from bleeding or causing the eye of the needle to infect, can prevent simultaneously again because of oppressing for a long time, and lead to the patient to point to lack of blood. This diabetes patient's child finger protective sheath 100 overall structure is simple, and convenient to use is fit for popularizing and applying on a large scale.

According to the utility model discloses an embodiment, opening 12 is two, and two openings 12 set up relatively, and lie in the both sides corresponding with the finger of sheath body 10 respectively, and rebound 20 is two, and corresponds with two openings 12 respectively.

That is to say, referring to fig. 1, the utility model discloses a can seted up two openings 12 on the diabetes patient's child finger protective sheath 100, two openings 12 can set up relatively, two openings 12 can be located the both sides corresponding with the finger of sheath body 10 respectively, and the position of two openings 12 corresponds with the position that needs to prick the needle to the finger among the blood sugar monitoring process, guarantees to prick the needle through opening 12 to patient's finger and handles. The number of the rebound parts 20 can be two, the two rebound parts 20 correspond to the two openings 12 respectively, the two sides of the finger puncture needle of the patient can be guaranteed to press the needle eye through the rebound parts 20, the needle eye is prevented from bleeding or causing needle eye infection, and meanwhile, the finger ischemia of the patient caused by long-time compression can be prevented. Of course, those skilled in the art should understand that the number of the openings 12 and the resilient members 20 on the finger protection sleeve 100 for the diabetic child and the positions of the openings 12 and the resilient members 20 on the finger protection sleeve 100 for the diabetic child are not specifically limited, and as long as the arrangement form of the requirement of inserting the needle and pressing the needle eye can be satisfied, the arrangement form should fall into the protection range of the present application, and as for other arrangement forms of the openings 12 and the resilient members 20 on the finger protection sleeve 100 for the diabetic child, detailed description is omitted in the present application.

In some embodiments of the present application, referring to fig. 1 and 2, resilient member 20 comprises a base layer 21 and a resilient layer 22.

Specifically, the area of the orthographic projection of the base layer 21 on the opening 12 is larger than the area of the opening 12. The resilient layer 22 is provided on the base layer 21, and corresponds to the position of the opening 12.

In other words, resilient member 20 is composed primarily of a base layer 21 and a resilient layer 22. The orthographic projection area of the base layer 21 on the opening 12 is larger than that of the opening 12, so that the rebound piece 20 can at least cover the opening 12, and effective pressing on the needle eye is realized. Rebound layer 22 processing is on stratum basale 21, and rebound layer 22 and opening 12's position are corresponding, makes rebound layer 22 take place deformation through pressing rebound member 20, produces elasticity to this oppresses the eye of a needle, guarantees that it can in time effectively oppress the eye of a needle, has effectively protected the eye of a needle on the patient finger, prevents that the eye of a needle from bleeding or causing the eye of a needle to infect. Meanwhile, the resilient member 20 can be slowly deformed after being pressed, so that the elastic force is slowly lost, and the finger of the patient is prevented from being ischemic due to long-time pressing.

According to a preferred embodiment of the present invention, the base layer 21 is an epoxy resin material or a polyvinyl chloride resin material. The resilient layer 22 is a piece of polyurethane material.

Specifically, the base layer 21 may be formed by processing an epoxy resin material or a polyvinyl chloride resin material. The resilient layer 22 may be formed from a polyurethane material. The epoxy resin material or the polyvinyl chloride resin material has certain elasticity, and the polyurethane material has good rebound resilience, so that the requirement of the finger protection sleeve 100 for diabetes patients on the pressing of needle eyes is well met. Of course, it will be understood by those skilled in the art that the specific material of resilient member 20 may be specifically selected according to actual needs, and will not be described in detail herein.

In some preferred embodiments of the present invention, the resilient member 20 further comprises: and the accommodating groove 23 is arranged on the rebound layer 22 and used for accommodating medicines.

Specifically, as shown in fig. 1 and 2, a receiving groove 23 is further processed on resilient member 20, receiving groove 23 is processed on resilient layer 22, and receiving groove 23 can be used for placing a medicine, such as a medicine for promoting rapid healing of needle eyes. In this application, can place the cotton ball on holding tank 23, then drip low concentration's essential oil or other medicines that easily wound is healed fast on the cotton ball. After the patient carries out blood sugar monitoring, can aim at the eye of a needle with the medicine in holding tank 23 through resilient member 20, reach the effect that the eye of a needle heals fast, further reduce the possibility of infection of eye of a needle. This application is through processing holding tank 23 on resilience piece 20 to place the liquid medicine in holding tank 23, can guarantee to carry out timely effectual oppression to the eye of the needle, prevent that the eye of the needle from bleeding or causing the eye of the needle to infect, can prevent simultaneously again because of oppressing for a long time, and lead to the patient to point to lack blood, the infant can be after the monitoring blood sugar or cover the finger when feeling the eye of the needle awkwardness certainly, also can give the proper pressure of puncture department when protecting the eye of the needle.

According to the utility model discloses an embodiment, resilience piece 20 is integrated into one piece spare. The resilient member 20 can be formed by integral injection molding, which reduces the molding cost and difficulty of the resilient member 20.

In some preferred embodiments of the present invention, the bonding member 30 is a double-sided tape or a solid glue. That is, the adhesive member 30 may be a double-sided tape or a solid adhesive, and the rebound member 20 may be simply fixed on the sheath body 10 by adhering the double-sided tape or coating the solid adhesive on the periphery of the rebound member 20, so as to facilitate the use of the finger protection sheath 100 for the diabetic.

According to a preferred embodiment of the present invention, the finger protection cover 100 for diabetic infant further comprises: a tourniquet 40, the tourniquet 40 being provided on the sheath body 10 for surrounding the opening 12, a side of the tourniquet 40 adjacent to an end thereof being provided with a glue layer 41 for fixing the tourniquet 40.

That is, referring to fig. 1, the finger protection cover 100 for diabetic patients may further be provided with a tourniquet 40, the tourniquet 40 may be processed on the cover body 10, the tourniquet 40 may be used to surround the opening 12, and a side of the tourniquet 40 adjacent to the end thereof may be provided with a glue layer 41 for fixing the tourniquet 40. When a patient is in a blood sugar monitoring process, if the needle eye bleeds, the opening 12 can be wrapped by the tourniquet 40, so that the tourniquet 40 can wrap around the finger, and a good hemostasis effect is achieved. Meanwhile, if the bonding effect of the bonding piece 30 on the rebound piece 20 is poor, the rebound piece 20 can be simply fixed through the tourniquet 40, and various emergency situations can be conveniently solved.

According to an embodiment of the present invention, the finger protection cover 100 for diabetic infant further comprises: and the decoration piece 50, the decoration piece 50 is arranged on the jacket body 10 and closes one side of the accommodating cavity 11.

Specifically, as shown in fig. 1, the finger protecting cover 100 for the diabetic child may further be processed with a decoration 50, and the decoration 50 may be processed at the front end of the protecting cover body 10 and may close one side of the accommodating cavity 11. The decoration 50 may be formed in various shapes, and in the present application, there is no particular limitation on the specific shape of the decoration 50, and the decoration 50 may be a finger or a cartoon figure liked by a child, etc., to increase the motivation of a patient (particularly, a child patient) to wear the finger protection cover 100 for a diabetic patient.

All in a word, the utility model discloses diabetes patient's child finger protective sheath 100, through set up resilience piece 20 on sheath body 10, after the blood sugar has been surveyed to the patient, through pressing resilience piece 20, the resilience piece 20 of both sides can give the puncture department suitable pressing, also can place a small amount of liquid medicine (medicine) and promote wound healing, can guarantee to carry out timely effectual oppression to the pinhole, prevent that the pinhole from bleeding or causing the pinhole to infect, can prevent simultaneously again because of oppressing for a long time, and lead to patient's finger to lack blood, the infant can be after the monitoring blood sugar or from feeling pinhole awkward time cover at the finger, also can give the puncture department suitable pressing when protecting the pinhole, this diabetes patient's child finger protective sheath 100 overall structure is simple, high durability and convenient use, and is suitable for being popularized and applied on a large scale.

Although some specific embodiments of the present application have been described in detail by way of example, it should be understood by those skilled in the art that the above examples are for illustrative purposes only and are not intended to limit the scope of the present application. It will be appreciated by those skilled in the art that modifications may be made to the above embodiments without departing from the scope and spirit of the present application. The scope of the application is defined by the appended claims.

Claims (10)

1. A finger protective cover for a diabetic infant, comprising:

a sheath body defining a receiving cavity therein for receiving a finger; at least one side of the sheath body corresponding to the fingers is provided with an opening for inserting the fingers through the opening;

the at least one rebound piece is arranged on one side of the sheath body corresponding to the opening, so that the needle eye is pressed by pressing the rebound piece after the finger is pricked;

the adhesive piece is arranged on the periphery of the rebound piece and used for fixing the rebound piece on the sheath body.

2. The finger protective sheath for children with diabetes mellitus as claimed in claim 1, wherein there are two openings, two openings are disposed oppositely and located on two sides of the sheath body corresponding to the fingers, respectively, and two resilient members are disposed correspondingly to the two openings, respectively.

3. The child diabetic finger guard of claim 1, wherein the resilient member comprises:

a base layer having an area larger than an area of the opening in an orthographic projection of the base layer on the opening;

the rebound layer is arranged on the substrate layer and corresponds to the position of the opening.

4. The child diabetic finger guard of claim 3, wherein the substrate layer is an epoxy resin material or a polyvinyl chloride resin material.

5. The child diabetic finger guard of claim 3, wherein the resilient layer is a piece of polyurethane material.

6. The child diabetic finger guard of claim 3, wherein the resilient member further comprises: the holding tank, the holding tank is established on the resilience layer to be used for placing the medicine.

7. The child diabetic finger guard of claim 1, wherein the resilient member is an integrally formed piece.

8. The finger protective sheath for children with diabetes mellitus as claimed in claim 1, wherein said adhesive member is double-sided tape or solid glue.

9. The child diabetic finger guard of claim 1, further comprising: the tourniquet is arranged on the sheath body and used for wrapping the opening, and one side, adjacent to the end portion of the tourniquet, of the tourniquet is provided with a glue layer used for fixing the tourniquet.

10. The child diabetic finger guard of claim 1, further comprising: the decoration piece is arranged on the sheath body and seals one side of the accommodating cavity.

Images