CN214595986U

CN214595986U - Anti-tightening finger stall for surgical suture knotting

Info

Publication number: CN214595986U
Application number: CN202023146886.0U
Authority: CN
Inventors: 张耀南; 石磊; 王林; 闵楠; 王飞; 赵懋宇
Original assignee: Beijing Hospital
Current assignee: Beijing Hospital
Priority date: 2020-12-24
Filing date: 2020-12-24
Publication date: 2021-11-05
Anticipated expiration: 2030-12-24

Abstract

The utility model discloses an anti-tightening finger cot for suture and knot tying in operation, which comprises a cot body and is characterized in that the cot body is in a plane structure when not in use, and connecting structures for splicing the cot body into a tubular structure conforming to the shape of a finger are arranged on two sides of the cot body; the finger stall body is provided with an anti-thread-off structure for preventing the suture thread from slipping. Through with the concatenation of dactylotheca body for tubular structure cover on the doctor points, can adjust the elasticity of dactylotheca body through connection structure, guarantee the comfort level that the doctor pointed, anticreep line structure helps the doctor to drag the stylolite, avoids the stylolite to follow the hand slippage, guarantees going on smoothly of sewing up the art.

Description

Anti-tightening finger stall for surgical suture knotting

Technical Field

The utility model belongs to the technical field of medical instrument, concretely relates to prevent tying finger stall for operation is sewed up and is knotted.

Background

Suturing is the process of coaptation or reconstruction of the passage of tissues and organs which have been cut or traumatized and broken to restore their function. Is a basic condition for ensuring good healing and is also one of the important basic operation techniques of the surgical operation. Different methods are adopted to suture tissues and organs at different parts. The suturing can be carried out by needle forceps or by directly holding a straight needle by bare hands.

In the bare-handed suture operation, need the doctor to drag the stylolite with the hand and tie a knot, because of the stylolite is thinner in this kind of operation process, can produce great pressure and lead to the doctor hand to be irritated or reined wound to the hand, consequently set up a instrument and be used for avoiding the doctor to be irritated or reined wound in suture in-process hand, can protect doctor's both hands, can guarantee good sewing effect again.

The utility model discloses in suturing the operation to bare-handed among the prior art, doctor's hand can be tightened the problem of pain or hurting by the stylolite, provides a finger stall is prevented tightening in knotting is sewed up in operation.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problems in the background art, the utility model provides a knotting finger stall is prevented tightening in the operation is sewed up.

The anti-tightening finger stall for surgical suture and knot tying comprises a finger stall body and is characterized in that the finger stall body is of a planar structure when not in use, and connecting structures used for splicing the finger stall body into a tubular structure conforming to the shape of a finger are arranged on two sides of the finger stall body; the finger stall body is provided with an anti-thread-off structure for preventing the suture thread from slipping. Through with the concatenation of dactylotheca body for tubular structure cover on the doctor points, can adjust the elasticity of dactylotheca body through connection structure, guarantee the comfort level that the doctor pointed, anticreep line structure helps the doctor to drag the stylolite, avoids the stylolite to follow the hand slippage, guarantees going on smoothly of sewing up the art.

Further, the finger stall body is made of a soft medical silica gel material; the fingerstall with the arrangement has softness, skid resistance and comfort.

Furthermore, an anti-slip layer is arranged on one surface of the finger sleeve body, which is in contact with the fingers of the doctor. The arrangement can increase the friction force between the fingers and the finger sleeves and avoid the finger sleeves from slipping.

Further, the skid resistant course is the skid resistant course that comprises soft silica gel granule, the skid resistant course with dactylotheca body is connected.

Further, the anti-thread-off structure is a thread groove which is coated on the outer wall of the finger sleeve body; when the finger sleeve is used, the suture line is wound in the line slot, so that a doctor can be assisted to fix the suture line on the finger sleeve and then knot.

Further, at least one wire slot is arranged; this arrangement allows the suture to be wound more easily and quickly within the linear slot.

Or the anti-off line structure is provided with a line hook which is arranged on the outer wall of the fingerstall body and is integrally connected with the fingerstall body; when in use, the suture is wound on the wire hanging hook, and then the doctor pulls the other parts of the suture with fingers to tie a knot.

Furthermore, the connecting structure is arranged to be a sticky buckle, the sticky buckle comprises an adhesive surface arranged on the inner surface of one side of the finger cot body and an adhesive surface matched with the adhesive surface arranged on the outer surface of the other side of the finger cot body, and the two sides of the finger cot structure are adhered through the adhesive surfaces so as to be spliced into a tubular structure; when in use, the finger sleeve is placed on the finger of a doctor.

Further, the thread gluing is arranged to be a magic tape, and the sticking surfaces are a magic tape hair surface and a magic tape hook surface respectively.

Or the sticking surface is a sticking surface formed by easily tearing glue, and two sides of the finger sleeve body are stuck through the sticking surface.

Or the connecting structure is a snap ring steel sheet arranged inside the fingerstall body, and the snap ring steel sheet is fixedly connected with the inside of the fingerstall body; during the use, with the dactylotheca body gently clap at the finger, the dactylotheca body can curl on the finger according to the size of finger, convenient to use.

Further, the width of the snap ring steel sheet is set to be 0.1-0.5mm, the thickness of the snap ring steel sheet is smaller than that of the finger stall body, and the length of the snap ring steel sheet is smaller than the transverse length of the finger stall body when the finger stall body is of a planar structure; the papa ring steel sheet width and the thickness of this kind of setting are little, avoid the hardness of too much increase dactylotheca body, guarantee the comfort level and the good perception degree of doctor's finger.

And furthermore, 2-5 snap ring steel sheets are arranged.

Or the finger stall body is made of soft solid hydrogel or silicone gel material; the fingerstall can firmly adhere to fingers of a doctor to prevent the fingerstall from falling off, and can help the doctor to firmly drag the suture line due to the certain adhesion effect of the material property of the fingerstall on the other hand.

Further, the thickness of the finger sleeve body is set to be 0.5-1.0 mm; the finger stall with the thickness can protect the fingers of a doctor and ensure the perception of the fingers of the doctor on the suture line.

When the finger stall is used, the finger stall body which is unfolded in the plane is spliced into a tubular structure and sleeved on a finger of a doctor, and the doctor can adjust the tightness of the finger stall through the thread gluing; the fingerstall with the papa ring steel sheet arranged inside can be curled on the finger only by lightly beating the finger; when knotting, a doctor winds the suture line on the line slot or the line hanging hook for a plurality of weeks, and then pulls the suture line to both sides by pulling the rest part of the suture line with hands to knot.

Compared with the finger stall in the prior art, the technical scheme of the utility model has the following advantages:

1. the fingerstall of this technical scheme is the fingerstall that can splice, can adjust according to the thickness that the doctor pointed, guarantees that the fingerstall is fit for the doctor and points the use.

2. The fingerstall of the technical scheme has the function of assisting a doctor to firmly pull a suture line, and can effectively avoid the finger of the doctor from being reined or painful.

3. The fingerstall of the technical scheme is convenient to use and moderate in thickness, and ensures a good sewing effect.

Drawings

FIG. 1 is a schematic view of the overall structure of the anti-tightening finger cot with 1 wire slot for suturing and knotting;

FIG. 2 is a schematic view of an elevation structure of the anti-tightening finger cot for suturing and knotting in surgery, which is provided with 1 wire casing;

FIG. 3 is a schematic view of the overall structure of the anti-tightening finger cot with 3 wire slots for suturing and knotting;

FIG. 4 is a schematic view of the overall structure of the anti-tightening finger cot with a thread hook for suturing and knotting;

FIG. 5 is a schematic view of the outer surface structure of the planar structure of the anti-strangulation finger cot for suturing and knotting of the present invention, which is provided with the adhesive surface and the wire casing;

FIG. 6 is a schematic view of the inner surface structure of the planar structure of the anti-strangulation finger cot for suturing and knotting of the present invention, which is provided with the adhesive surface and the wire casing;

FIG. 7 is a schematic view of the outer surface structure of the planar structure of the anti-strangulation finger cot for suturing and knotting of the present invention, which is provided with the adhesive surface and the thread hanging hook;

fig. 8 is a schematic view of the outer surface structure of the planar structure of the wire casing and the papa ring steel plate for arranging the anti-strangulation finger sleeve for suture and knot tying of the utility model;

fig. 9 is a schematic view of the inner surface structure of the planar structure of the wire casing and the papa ring steel plate for arranging the anti-strangulation finger sleeve for suture and knot tying of the utility model;

FIG. 10 is a perspective structural diagram of a planar structure of a thread groove and an papa ring steel plate of the surgical suture knotting finger cot of the present invention;

fig. 11 is a schematic cross-sectional structure view of a planar structure of a wire casing and a papa ring steel plate for arranging the anti-strangler finger sleeve for suture and knot tying of the utility model;

fig. 12 is a schematic view of the outer surface structure of the planar structure of the surgical suture knotting finger cot with the thread hanging hook and the papa ring steel plate;

in the figure, 1, a finger sleeve body; 11. a sticking surface; 12. an anti-slip layer; 13. a wire slot; 14. a wire hanging hook; 15. papa ring steel sheet.

Detailed Description

The technical solutions in the embodiments of the present invention will be described in detail below with reference to specific embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, rather than all embodiments, and those skilled in the art can easily understand other advantages and effects of the present invention from the disclosure in the specification. The utility model discloses can also implement or use through other different concrete implementation manners, under the condition of conflict-free, the characteristics in following embodiment and the embodiment can make up each other, based on the embodiment in the utility model, all other embodiments that the ordinary skilled in the art obtained under the prerequisite of not making creative work all belong to the scope of protection of the utility model.

Example 1

The anti-tightening finger stall for surgical suture and knot tying comprises a finger stall body 1 and is characterized in that the finger stall body 1 is of a planar structure when not in use, and connecting structures used for splicing the finger stall body 1 into a tubular structure conforming to the shape of a finger are arranged on two sides of the finger stall body 1; the anti-thread-off structure for preventing the thread line from slipping is arranged on the finger stall body 1. Through with 1 concatenation of dactylotheca body for tubular structure cover on the doctor points, can adjust the elasticity of dactylotheca body 1 through connection structure, guarantee the comfort level that the doctor pointed, anticreep line structure helps the doctor to drag the stylolite, avoids the stylolite to follow the hand slippage, guarantees going on smoothly of sewing up the art.

The fingerstall body 1 is made of soft medical silica gel material; the fingerstall with the arrangement has softness, skid resistance and comfort.

The anti-drop line structure is a line slot 13, and the line slot 13 is covered on the outer wall of the finger cot body 1; when the finger sleeve is used, the suture line is wound in the line groove 13, so that a doctor can be assisted to fix the suture line on the finger sleeve and then knot.

A wire groove 13 is arranged; this arrangement makes it easier and quicker to wind the suture in the linear slot 13.

The connection structure sets up to the thread gluing, and the thread gluing is including setting up the face 11 of pasting of one of them one side inner face of dactylotheca body and setting up the face 11 of pasting in 1 opposite side outside assorted of dactylotheca body, thereby the concatenation is tubular structure through pasting face 11 in dactylotheca structure both sides, then overlaps on the doctor indicates.

The thread gluing is arranged as a magic tape, and the sticking surface 11 is a magic tape hair surface and a magic tape hook surface respectively.

The thickness of the finger sleeve body 1 is set to be 0.8 mm; the finger stall with the thickness can protect the fingers of a doctor and ensure the perception of the fingers of the doctor on the suture line.

Example 2

An anti-skid layer 12 is arranged on one surface of the finger sleeve body 1, which is contacted with the fingers of a doctor; the arrangement can increase the friction force between the fingers and the finger sleeves and avoid the finger sleeves from slipping.

The anti-skid layer 12 is made of soft silica gel particles, and the anti-skid layer 12 is integrally connected with the finger cot body 1.

2 wire grooves 13 are arranged; this arrangement makes it easier and quicker to wind the suture in the linear slot 13.

The sticking surface 11 is a sticking surface formed by easy-tearing glue, and two sides of the finger stall body 1 are stuck by the sticking surface.

The thickness of the finger sleeve body 1 is set to be 0.6 mm; the finger stall with the thickness can protect the fingers of a doctor and ensure the perception of the fingers of the doctor on the suture line.

Example 3

The anti-falling line structure is a line hook 14, and the line hook 14 is arranged on the outer wall of the finger cot body 1 and is integrally connected with the finger cot body 1; in use, the suture is wound around the hook 14 and the surgeon then pulls the rest of the suture with his or her fingers to tie the knot.

The thickness of the finger sleeve body 1 is set to be 0.5 mm; the finger stall with the thickness can protect the fingers of a doctor and ensure the perception of the fingers of the doctor on the suture line.

Example 4

3 wire grooves 13 are arranged; this arrangement makes it easier and quicker to wind the suture in the linear slot 13.

The connecting structure is a snap ring steel sheet 15 arranged inside the fingerstall body 1, and the snap ring steel sheet 15 is fixedly connected with the inside of the fingerstall body 1; during the use, with dactylotheca body 1 gently clap at the finger, dactylotheca body 1 can curl on the finger according to the size of finger, convenient to use.

The width of the papa ring steel sheet 15 is set to be 0.1-0.5mm, the thickness is smaller than that of the finger cot body 1, and the length is smaller than the transverse length of the finger cot body 1 in a planar structure; the snap ring steel sheet 15 of this kind of setting is little with thickness, avoids the hardness of too much increase dactylotheca body 1, guarantees the comfort level and the good perception degree of doctor's finger.

2-5 snap ring steel sheets 15 are arranged.

The thickness of the finger sleeve body 1 is set to be 1.0 mm; the finger stall with the thickness can protect the fingers of a doctor and ensure the perception of the fingers of the doctor on the suture line.

Example 5

The finger stall body 1 is made of soft solid hydrogel or silicone gel material; the fingerstall can firmly adhere to fingers of a doctor to prevent the fingerstall from falling off, and can help the doctor to firmly drag the suture line due to the certain adhesion effect of the material property of the fingerstall on the other hand.

The above description of the embodiments is only intended to illustrate the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, several modifications can be made to the present invention, and these modifications will fall within the protection scope of the claims of the present invention.

Claims

1. The anti-tightening finger stall for surgical suture and knot tying comprises a finger stall body and is characterized in that the finger stall body is of a planar structure when not in use, and connecting structures used for splicing the finger stall body into a tubular structure conforming to the shape of a finger are arranged on two sides of the finger stall body; the finger stall body is provided with an anti-thread-off structure for preventing the suture thread from slipping.

2. The surgical suture knotting finger stall according to claim 1, wherein the finger stall body is made of soft medical silica gel material.

3. The surgical suture knotting anti-tightening finger cot as claimed in claim 2, wherein an anti-slip layer is disposed on a surface of the cot body contacting with the finger of the doctor.

4. The surgical suture knotting anti-tightening finger cot as claimed in claim 3, wherein the anti-loosening wire structure is configured as a wire groove, and the wire groove is coated on the outer wall of the finger cot body.

5. The surgical suture knotting anti-tying finger cot as claimed in claim 3, wherein the anti-tying thread structure is configured as a thread hook, and the thread hook is disposed on the outer wall of the finger cot body and integrally connected with the finger cot body.

6. The surgical suture knotting finger cot as claimed in claim 3, wherein the connecting structure is configured as a hook and loop fastener, the hook and loop fastener comprises an adhesive surface disposed on an inner surface of one side of the finger cot body and a matching adhesive surface disposed on an outer surface of the other side of the finger cot body, and two sides of the finger cot structure are adhered by the adhesive surfaces to form a tubular structure.

7. The surgical suture knotting anti-strangulation finger cot as claimed in claim 3, wherein the connecting structure is an snap ring steel sheet arranged inside the cot body, and the snap ring steel sheet is fixedly connected with the cot body.

8. The surgical suture knotting finger stall as claimed in claim 7, wherein the width of the snap ring steel sheet is set to be 0.1-0.5mm, the thickness of the snap ring steel sheet is smaller than that of the finger stall body, and the length of the snap ring steel sheet is smaller than the transverse length of the finger stall body when the finger stall body is in a planar structure.

9. The surgical sutured knotted anti-strangler finger cot as claimed in claim 1, wherein the cot body is made of soft solid hydrogel material.

10. The surgically sewn and knotted anti-strangulation finger cot as claimed in any one of claims 1 to 9, wherein the thickness of the cot body is set to 0.5 to 1.0 mm.