CN215079026U - Line carving vitality support - Google Patents

Abstract

The utility model provides a thread carving vitality support, which comprises an arc implantation needle, a cylindrical guide needle and an implantation thread, wherein one end of the implantation thread is fixed at the tail part of the implantation needle, and the other end of the implantation thread passes through the guide needle; the guide needle can also be used in combination with a guide device, the guide needle is arranged in the guide device, and the guide needle is implanted into the skin by the push of the push rod; when the implanting needle is used, the implanting needle is inserted into a preset implanting position downwards in a radian mode and penetrates out, the arc design enables the front half part to be bent upwards and extend out of the skin when the rear half part of the implanting needle is inserted into the skin, so that the implanting needle is convenient to draw out, an implanting line is fixed at the implanting position, the guiding needle is inserted from the implanting position, the head part penetrates out of the preset penetrating position, and the implanting needle and the guiding needle are removed to enable the implanting line to be buried in a preset route. Through the design, two times of puncture can be completed through only one tool, multiple instruments do not need to be prepared, and the puncture outfit is convenient to use and learn.

Description

Line carving vitality support

Technical Field

The utility model belongs to the facial lifting means field of formula of burying, in particular to line carving vigor support.

Background

Line carving promotion is a new face promotion technology in recent years, and is a method for implanting absorbable protein lines into the superficial layer and the deep layer of subcutaneous fat and lifting and pulling the skin to achieve youthful appearance. The duration of the surgical effect is related to the surgical design, the number of wires, the materials, the post-operative skin care, etc. The existing thread embedding mode is that a protein thread is firstly penetrated through an arc needle and fixed at a temple (temporal fascia) through another needle, then a thread conduit is embedded along a needle hole on the temporal fascia according to a preset thread embedding path through another thread embedding needle, then the previously fixed protein thread is plugged into a thread carrying pipe through a tool such as tweezers, and the like, and the thread conduit is finally taken out, so that the embedding and the lifting of the protein thread can be completed. In the process, various instruments need to be replaced, the preparation work is more, the operation is complex, and a great deal of inconvenience exists in learning and practice.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a line carving vigor support.

The utility model discloses specific technical scheme as follows:

the utility model provides a line carving vigor support, including implanting needle, guide needle and implanting the line, it is the arc to implant the needle, the guide needle is hollow cylindric, it fixes to implant line one end implant the afterbody, the other end is followed the guide needle afterbody penetrates and wears out from the head.

The needle guide device is hollow and cylindrical, a needle outlet is formed in the top of the needle guide device, the guide needle is arranged in the needle guide device, and the head of the guide needle is opposite to the needle outlet; the guide device also comprises a push rod, one end of the push rod extends into the guide device and can move along the inner wall of the guide device, the other end of the push rod extends out of the guide device, and the tail part of the guide needle is detachably connected to the end part of the push rod; the length of the push rod is not less than that of the guide needle.

Furthermore, a sleeve communicated with the needle outlet is arranged on the inner wall of the guider, the inner diameter of the sleeve is smaller than or equal to that of the needle outlet, and the guiding needle is arranged in the sleeve; the end part of the push rod is provided with an elastic extrusion head which is embedded in the sleeve, and the sharp part at the end part of the elastic extrusion head is embedded into the tail part of the guide needle.

Furthermore, a baffle is arranged at the tail part of the push rod, and the diameter of the baffle is larger than the inner diameter of the guider.

Further, the inner wall of the guide needle head is provided with a first caulking groove, and the end part of the implantation wire passing through the guide needle is embedded into the first caulking groove.

Furthermore, a second caulking groove is formed in the inner side wall of the needle outlet, and the implantation line extending out of the tail of the guide needle is embedded into the second caulking groove and extends out of the needle outlet.

The utility model has the advantages as follows: the utility model provides a thread carving vitality support, which comprises an arc implantation needle, a cylindrical guide needle and an implantation thread, wherein one end of the implantation thread is fixed at the tail part of the implantation needle, and the other end of the implantation thread passes through the guide needle; the guide needle can also be used in combination with a guide device, the guide needle is arranged in the guide device, and the guide needle is implanted into the skin by the push of the push rod; when the implanting needle is used, the implanting needle is inserted into a preset implanting position downwards in a radian mode and penetrates out, the arc design enables the front half part to be bent upwards and extend out of the skin when the rear half part of the implanting needle is inserted into the skin, so that the implanting needle is convenient to draw out, an implanting line is fixed at the implanting position, the guiding needle is inserted from the implanting position, the head part penetrates out of the preset penetrating position, and the implanting needle and the guiding needle are removed to enable the implanting line to be buried in a preset route. Through the design, two times of puncture can be completed through only one tool, multiple instruments do not need to be prepared, and the puncture outfit is convenient to use and learn.

Drawings

FIG. 1 is a schematic structural diagram of a wire carving vitality support according to an embodiment;

FIG. 2 is a cross-sectional view of a guide in a wire carving vitality stand according to an embodiment;

FIG. 3 is a top view of a guide pin in the wire carving vitality stand according to the embodiment;

fig. 4 is a top view of a needle outlet in the wire carving vitality support according to the embodiment.

Wherein: 1. implanting a needle; 2. a guide pin; 21. a first caulking groove; 3. implanting a wire; 4. a guide; 41. a needle outlet; 42. a push rod; 43. a sleeve; 44. an elastic extrusion head; 45. a sharp portion; 46. a baffle plate; 47. a second caulking groove.

Detailed Description

The present invention will be described in further detail with reference to the following examples and drawings.

Examples

As shown in fig. 1-2, embodiment 1 of the present invention provides a thread carving vitality support, including implanting needle 1, guide needle 2 and implanting line 3 (adopting barbed protein thread), implanting needle 1 is arc, and the afterbody is equipped with the through wires hole, and guide needle 2 is hollow cylindricly, and 3 one ends of implanting line are fixed in the through wires hole, and the other end penetrates from 2 afterbody of guide needle, and wears out from the head.

When in use, firstly, an implantation scheme is designed, and the implantation position at the temporal fascia and the exit position below the face are determined; firstly, the implantation needle 1 is inserted into an implantation position downwards in a radian and penetrates out, due to the influence of the arc shape, when the back half part of the implantation needle 1 is inserted into facial tissues, the front half part of the implantation needle is bent upwards and extends out of the facial tissues, so that the implantation needle 1 is convenient to draw out, the implantation wire 3 is fixed at the implantation position, at the moment, the guide needle 2 is inserted from the implantation position, the head part of the guide needle penetrates out of the penetration position, at the moment, after the implantation needle 1 and the guide needle 2 are removed, the implantation wire 3 is embedded into the facial tissues between the implantation position and the penetration position, and two times of puncture can be completed only by one tool; the above-mentioned process is repeated for a plurality of times (the implantation method of the line carving generally needs to implant a plurality of protein lines in the operation area, each protein line uses one bracket), and the embedding of the implant line and the lifting of the face tissues can be completed only by one tool (namely the bracket) without preparing and learning to use a plurality of tools. To accommodate different patients and different surgical needs, the introducer needle 2 and the implant wire 3 can be manufactured and assembled in different lengths.

In some specific embodiments, the bracket further comprises a guide 4, the guide 4 is hollow and cylindrical, the top of the guide 4 is provided with a needle outlet 41, the guide needle 2 is arranged in the guide 4, and the head of the guide needle faces the needle outlet 41; the guider 4 also comprises a push rod 42, one end of the push rod 42 extends into the guider 4 and can move along the inner wall of the guider 4, the other end of the push rod 42 extends out of the guider 4, and the tail part of the guide needle 2 is detachably connected with the end part of the push rod 42; the length of the push rod 42 is not less than the length of the guide needle 2.

The inner wall of the guider 4 is provided with a sleeve 43 communicated with the needle outlet 41, the inner diameter of the sleeve 43 is smaller than or equal to that of the needle outlet 41, and the guiding needle 2 is arranged in the sleeve 43; the end of the push rod 42 is provided with an elastic extrusion head 44 (made of elastic material such as rubber), the elastic extrusion head 44 is embedded in the sleeve 43, and a sharp part 45 at the end of the elastic extrusion head 44 is embedded in the tail part of the guide needle 2.

Before use, the guide needle 2 is hidden in the guider 4, so that the overlong guide needle 2 can be prevented from stabbing therapists or medical care personnel, and the pollution caused by exposure outside can be prevented; when in use, the needle outlet 41 is arranged at the implantation position of the face, and the elastic extrusion head 44 is in a contraction state in the sleeve 43; the push rod 42 is pushed to push the guide needle 2 out of the needle outlet 41 and inject the guide needle into the implantation position, and when the needle head of the guide needle 2 extends out of the implantation position, the elastic extrusion head 44 is also pushed out of the needle outlet 41, the elastic extrusion head 44 expands rapidly at the moment, the sharp part 45 also expands and is separated from the tail part of the guide needle 2, so that the guide needle 2 and the guider 4 are automatically separated, and the implantation of the guide needle 2 can be completed.

In specific implementation, a stop piece 46 can be further arranged at the tail part of the push rod 42, and the diameter of the stop piece 46 is larger than the inner diameter of the guide device 4, so that a limiting effect can be achieved, and the push rod 42 can be prevented from being completely pushed into the sleeve when the guide needle 2 is implanted.

In some specific embodiments, the inner wall of the head of the introducer needle 2 is provided with a first caulking groove 21, and the end of the implant wire 3 passing through the introducer needle 2 is inserted into the first caulking groove 21.

The implantation wire 3 is fixed at the head of the guide needle 2 through the first caulking groove 21, the implantation wire 3 is prevented from falling off when the guide needle 2 is implanted, and the implantation wire 3 can be conveniently separated from the guide needle 2 when the guide needle 2 is removed.

In some specific embodiments, the inner side wall of the needle outlet 41 is provided with a second caulking groove 47, and the implantation wire 3 protruding from the tail part of the guide needle 2 is embedded in the second caulking groove 47 and protrudes from the needle outlet 41.

The free implantation line 3 outside is fixed on the needle outlet 41 through the second caulking groove 47, so that the implantation line 3 can be prevented from knotting or winding at other parts before use, and the implantation line 3 can be prevented from being exposed outside and causing pollution.

The present invention is not limited to the above-mentioned preferred embodiments, and any other products in various forms can be obtained by the teaching of the present invention, but any changes in the shape or structure thereof, which have the same or similar technical solutions as the present invention, fall within the protection scope of the present invention.

Claims (6)

1. The utility model provides a line carving vigor support, its characterized in that includes implants needle (1), guide needle (2) and implants line (3), implants needle (1) and is the arc, guide needle (2) are hollow cylindric, implant line (3) one end and fix implant needle (1) afterbody, the other end is followed guide needle (2) afterbody penetrates and is worn out from the head.

2. The thread carving vitality support according to claim 1, characterized in that the vitality support further comprises a guide (4), the guide (4) is hollow and cylindrical, the top of the guide is provided with a needle outlet (41), the guide needle (2) is arranged in the guide (4), and the head of the guide needle faces the needle outlet (41); the guider (4) further comprises a push rod (42), one end of the push rod (42) extends into the guider (4) and can move along the inner wall of the guider (4), the other end of the push rod (42) extends out of the guider (4), and the tail part of the guide needle (2) is detachably connected to the end part of the push rod (42); the length of the push rod (42) is not less than that of the guide needle (2).

3. The thread carving vitality support according to claim 2, characterized in that the inner wall of the guide (4) is provided with a sleeve (43) which is communicated with the needle outlet (41), the inner diameter of the sleeve (43) is smaller than or equal to the inner diameter of the needle outlet (41), and the guide needle (2) is arranged in the sleeve (43); an elastic extrusion head (44) is arranged at the end part of the push rod (42), the elastic extrusion head (44) is embedded in the sleeve (43), and a sharp part (45) at the end part of the elastic extrusion head (44) is embedded in the tail part of the guide needle (2).

4. The wire carving vitality support according to claim 3, characterized in that the tail of the push rod (42) is provided with a baffle (46), and the diameter of the baffle (46) is larger than the inner diameter of the guider (4).

5. The thread carving vitality support according to any one of claims 1 to 4, characterized in that the inner wall of the head of the guide needle (2) is provided with a first caulking groove (21), and the end of the implantation thread (3) passing through the guide needle (2) is embedded into the first caulking groove (21).

6. The thread carving vitality support according to any one of claims 2 to 4, characterized in that the inside wall of the needle outlet (41) is provided with a second caulking groove (47), and the implanted thread (3) extending from the tail of the guide needle (2) is embedded in the second caulking groove (47) and extends from the needle outlet (41).

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