WO2021049754A2

WO2021049754A2 - Insertion member induction device having needle-insertion induction portion

Info

Publication number: WO2021049754A2
Application number: PCT/KR2020/009781
Authority: WO
Inventors: 김재수; 김근식
Original assignee: 대구한의대학교산학협력단
Priority date: 2019-09-11
Filing date: 2020-07-24
Publication date: 2021-03-18
Also published as: WO2021049754A3

Abstract

An insertion member induction device having a needle-insertion induction portion according to the present invention comprises: an insertion member (100) having an insertion member end portion (110) configured in a round shape; a needle-insertion induction portion (200) having a hollow structure, the needle-insertion induction portion (200) having an inner passage portion (210) into which the insertion member (100) is inserted to be able to move forwards and backwards, the needle-insertion induction portion (200) having an incision portion (230) formed in a needle-inserted end portion (220) in the longitudinal direction, thereby exposing the insertion member (100); an inner guide portion (300) having a body portion (310) penetrated by an inner passage portion (320), to which the needle-insertion induction portion (200) is coupled, the inner guide portion (300) having, on the front side of the body portion (310), a bending portion (330) protruding so as to be able to make a bending operation and a support portion (340) disposed to bend from an end portion of the bending portion (330); and a cover portion (400) having an inner space (410), in which the inner guide portion (300) is seated, the cover portion (400) having a through-hole (420) disposed such that the insertion member (100) and the needle-insertion induction portion (200) are discharged outwards, and the cover portion (400) having a movement space (430) disposed such that the support portion (340) can move outwards.

Description

Insertion member guiding device equipped with self-induction guiding part

The present invention relates to a guide device for self-inserting an insertion member. Specifically, it relates to an insertion member guiding device provided with a magnetic insertion guide portion and an insertion member guiding device provided with a spring portion and a magnetic insertion guide portion.

Since generally used insertion members such as acupuncture or needle are sharp, they can be inserted into the human body such as skin if they are just stabbed. However, the insertion member that is actually inserted into the human body may be in various forms, such as an embedding thread in addition to a needle and a needle, and may also be provided in a shape that is not sharp enough to insert the end, which is the end of the insertion member, for example, a round shape. It might be possible. That is, needles such as acupuncture (round acupuncture, half round acupuncture, etc.) or cannula have a problem in that they cannot penetrate the epidermis by themselves because their ends are rounded.

In addition, there may be cases where it is provided in a pointed shape and inserted into the human body, but in reality, it may not be easy to insert depending on the degree of sharpness.

In this case, a hole is firstly drilled using another needle or an insertion member, and the desired insertion member is self-inserted using the hole again.

However, in the case of inducing self-induction, various problems may occur. First, there may be a case where it is difficult to find a hole that has been drilled, and a problem of drilling the hole again may occur. Second, the hassle of dividing the treatment into two occurs. Third, there may be a problem of infection concern.

The present invention is a technique for solving the above-described problem, so an insertion member guiding device was made to compensate for the above-described disadvantage. The insertion member guiding device is a device for inserting into the skin by attaching to the end of a round insertion member or needle. When the needle of the insertion member guiding device penetrates the skin, then a round insertion member or needle comes out.

The present invention was derived as the result of the multi-functional guideline and acupuncture development research project (task number 1465027640) of the Korea Health Industry Promotion Agency's research project for the development of oriental medicine-based convergence technology.

The insertion member guiding device according to the present invention has the following solutions.

First, it is intended to easily insert the insert member in a form that is difficult to insert.

Second, the insertion of the insertion guide portion and the insertion member is sequentially performed together.

Third, it is intended to move the first self-inserted self-induction part backward.

Fourth, the insertion member inserted into the human body is automatically discharged.

The problem of the present invention is not limited to those mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

The present invention is an insertion member guiding device provided with a magnetic insertion guide, the insertion member inserted into the human body; A hollow structure, wherein the insertion member is inserted into an inner passage portion so as to move forward and backward, and a cut-out portion is formed in a longitudinal direction at an end side to be inserted into an inner passage portion, so that the insertion member is exposed; An inner guide portion having a bending portion protruding so as to enable a bending operation and a support portion bent at an end of the bending portion, and the magnetic insertion guide portion is coupled to an inner passage portion penetrating the inside of the body portion; And a cover part provided with a through hole provided to allow the insertion member and the self-induction part to be discharged to the outside, and a moving space capable of moving outward of the support part, in which the inner guide part is seated in the inner space.

In the present invention, when the insertion member is moved forward in the inner passage portion of the insertion guide portion, the end portion of the insertion member may contact the support portion of the inner guide portion.

In the present invention, when the insertion member in contact with the support is continuously moved forward and pushes the support, the body part and the self-induction part of the inner guide part integrally coupled with the support part are also moved forward, and the self-induction end of the self-induction part Can be inserted into the indentation site.

In the present invention, when one side of the body portion and the stopper formed inside the cover portion are in contact with each other, the insertion member, the insertion guide portion, and the forward movement of the body portion are stopped, and the insertion guide portion may be maintained in a self-inserted state.

In the present invention, when the stationary insertion member is continuously moved forward, the tip of the insertion member advances while pushing up the support, and can be inserted into the insertion portion created by the insertion induction portion.

In the present invention, while the bending part is bent, the support part may be bent outward in a moving space inside the cover part.

In the present invention, a stopper protruding from a portion of the body portion of the insertion member that is not inserted into the inner passage portion of the insertion guide portion is provided, and when the stopper contacts the insertion guide portion, the forward movement of the insertion member is stopped. I can.

In the present invention, the insertion member may be further provided with a handle at the other end.

In the present invention, the handle may be provided with an elastic material.

In the present invention, a plurality of projections may be provided on the surface of the handle.

In the present invention, the bending portion may be formed of an elastic material capable of bending.

In the present invention, the bending portion may be a bent structure or a corrugated structure.

In the present invention, the support portion may be bent so as to be in contact with the end of the insertion member.

In the present invention, the support portion may be disposed to be inclined so that the lower end faces in the advancing direction of the end of the insertion member.

The present invention is an insertion member guiding device provided with a spring portion and a magnetic insertion induction portion, the insertion member inserted into the human body; A hollow structure, wherein the insertion member is inserted into an inner passage portion so as to move forward and backward, and a cut-out portion is formed in a longitudinal direction at an end side to be inserted into an inner passage portion, so that the insertion member is exposed; An inner guide portion having a bending portion protruding so as to enable a bending operation and a support portion bent at an end of the bending portion, and the magnetic insertion guide portion is coupled to an inner passage portion penetrating the inside of the body portion; And a cover part having the inner guide part seated in the inner space, a through hole provided to discharge the insertion member and the magnetic insertion guide part to the outside, and a moving space capable of moving the support part outward. And a spring part coupled to one side of the inner guide part to the inner space, fastened to the cover part, and contracted and deformed when the insertion member is moved forward, and then elastically restored again.

In the present invention, a seating groove is provided on one side of the spring portion and a stopper is provided on the other side that is spaced apart, and when the spring portion is not pressed, one side of the inner guide portion is seated in the seating groove, and the spring by pressing During negative contraction deformation, one side of the inner guide part is moved to contact the stopper, and when elasticity is restored, one side of the inner guide part may be seated in the seating groove again.

In the present invention, one side of the inner guide part is fixedly coupled to the inner side of the spring part, and the fixed state may be maintained even when the spring part is contracted and deformed and elastically restored.

In the present invention, the spring portion may be provided with an elastic material or an elastic structure.

In the present invention, it is possible that the elastic material is silicone.

In the present invention, when the retracted and deformed spring portion is restored by an elastic force, the self-inducing portion and the inner guide portion integrally coupled may be moved backward together.

In the present invention, when the insertion member in contact with the support is continuously moved forward and the support is pushed, the body part and the self-induction part of the inner guide part integrally coupled with the support part are also moved forward, and the self-induction end of the self-induction part The spring portion is inserted into the self-insertion portion, and the spring portion integrally coupled to the body portion may also be contracted and deformed.

In the present invention, when one side of the body portion and a stopper formed inside the cover portion are in contact with each other, the insertion member, the insertion guide portion, and the forward movement of the body portion are stopped, and the insertion guide portion is maintained in a self-retracted state, and the spring The state of negative shrinkage deformation can also be maintained.

In the present invention, the cover portion may be provided with a see-through portion capable of seeing the rotation space.

In the present invention, the insert member may further include a handle at the other end, and the handle may be made of an elastic material.

In the present invention, the insertion induction part may be provided with a magnetic insertion end sharply formed at the end.

The insertion member guiding device according to the present invention has the following effects.

First, there is an effect of easily inserting an insertion member in a form that is difficult to insert by using the insert guide part.

Second, when the insertion guide portion is guided by the inner guide portion, and the user performs an operation of inserting the insertion member, the insertion guide and the actual insertion member are sequentially performed together.

Third, by the spring portion, there is an effect that the self-induction portion and the inner guide portion move backward.

Fourth, there is an effect that the insertion member inserted into the human body is automatically discharged.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1A is a schematic diagram of an insertion member guiding device provided with a magnetic insertion guide according to the present invention, and FIG. 1B is a schematic diagram of an insertion member guiding device provided with a spring portion and a magnetic insertion guide according to the present invention.

Figure 2a is an embodiment showing that the insertion member 100 according to the present invention, the self-induction part 200, the inner guide part 300 and the cover part 400 are combined, and Figure 2b is an insertion member according to the present invention (100), the self-induction part 200, the inner guide part 300, the cover part 400 and the spring part 500 is an embodiment showing that the whole is combined.

3 shows an inner guide part 300 according to the present invention.

4 shows the insertion member 100 and the self-induction part 200 according to the present invention.

5 shows a state in which the insertion member 100 and the insertion guide portion 200 are coupled to the inner guide portion 300 according to the present invention.

FIG. 6 is a cross-sectional view illustrating a state in which the insertion member 100 and the magnetic insertion induction part 200 are coupled to the inner guide part 300 in FIG. 5.

7A and 7B show that the end portion 110 of the insertion member moves upward by pushing the support portion 340 of the inner guide portion.

8 to 11 are cross-sectional views sequentially explaining the operation of the insertion member guiding device according to the present invention.

12 to 16 are cross-sectional views sequentially explaining the operation of the insertion member guiding device according to the present invention.

17 and 18 show another embodiment of a spring part according to the present invention.

An insertion member guiding device provided with a magnetic insertion induction unit according to the present invention includes: an insertion member 100 having an insertion member end 110 in a round shape; As a hollow structure, the insertion member 100 is inserted into the inner passage part 210 so as to move forward and backward, and a cutout 230 is formed in the longitudinal direction on the side of the end 220 into which it is inserted, and the insertion A self-induction part 200 to which the member 100 is exposed; The self-induction part 200 is coupled to the inner passage part 320 penetrating the inside of the body part 310, and the bending part 330 and the banding part protruding so as to enable a bending operation at the front side of the body part 310 An inner guide part 300 having a support part 340 bent at the end of 330; And the inner guide part 300 is seated in the inner space 410, the through hole 420 provided so that the insertion member 100 and the insertion guide part 200 are discharged to the outside, and the outer side of the support part 340 It characterized in that it comprises a cover unit 400 provided with a moving space 430 capable of moving.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings so that those of ordinary skill in the art can easily implement the present invention. As those of ordinary skill in the art to which the present invention pertains can be easily understood, the following embodiments may be modified in various forms without departing from the concept and scope of the present invention. As far as possible, the same or similar parts are indicated using the same reference numerals in the drawings.

The terminology used in this specification is for referring only to specific embodiments and is not intended to limit the present invention. Singular forms as used herein also include plural forms unless the phrases clearly indicate the opposite.

As used herein, the meaning of "comprising" specifies a particular characteristic, region, integer, step, action, element and/or component, and other specific characteristic, region, integer, step, action, element, component and/or It does not exclude the presence or addition of the military.

All terms including technical and scientific terms used in the present specification have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. The terms defined in the dictionary are further interpreted as having a meaning consistent with the related technical literature and the presently disclosed content, and are not interpreted in an ideal or very formal meaning unless defined.

Hereinafter, the present invention will be described with reference to the drawings. The drawings represent some of the various possible embodiments of the present invention. For reference, the drawings may be partially exaggerated to describe the features of the present invention. In this case, it is preferable to be interpreted in light of the entire purpose of the present specification.

The present invention relates to a Round Needle Insertion Guidance device (RIGD). Specifically, it relates to an insertion member guiding device (see FIG. 2A) provided with a magnetic insertion guide portion and an insertion member guiding device (FIG. 2B) including a spring portion and a magnetic insertion guide portion.

First, it will be described in detail with respect to the insertion member guiding device (see Fig. 2a) provided with a magnetic induction guide.

1A is a schematic diagram of an insertion member guiding device provided with a magnetic insertion guiding portion according to the present invention. 2A is an embodiment showing that the insertion member 100, the self-induction part 200, the inner guide part 300, and the cover part 400 are combined according to the present invention.

An insertion member guiding device provided with a magnetic insertion induction part according to the present invention includes an insertion member 100, a magnetic insertion induction part 200, an inner guide part 300, and a cover part 400.

The insertion member 100 according to the present invention includes various types of insertion members inserted into the human body. For example, acupuncture, needle, canula. It includes various inserting members such as embedding threads. And the end portion of the inserted portion is not sharp, for example, includes a round shape or a polygonal shape, for example, an insertion member that is difficult to insert. Further, it includes an insertion member in which the end of the part to be inserted is a pointed shape, but is difficult to insert, so that the inserting member is intended to be inserted more easily.

However, in the present specification, in order to facilitate the description, an embodiment in which the end of the insertion member is formed in a round shape will be described with reference to the drawings.

The insertion induction part 200 according to the present invention has a hollow structure, and the insertion member 100 is inserted into the inner passage part 210 to enable forward and backward movement (see FIG. 6), and at the side of the insertion end 220 The cutout 230 is formed in the longitudinal direction, so that the insertion member 100 may be exposed.

The self-induction part 200 has a hollow structure and is provided in various shapes such as a cylindrical shape and a polygonal shape, and can accommodate and move the insertion member 100 of various shapes. However, since the insertion member 100 is moved inside the insertion guide portion 200, a shape corresponding to each other will be more preferable.

The end portion 220 to be inserted according to the present invention may be an embodiment in which a pointed inclined portion is formed below the insertion guide portion 200 as shown in FIG. 4. In addition, the inclination of the inserted end 220 may be formed on several sides, such as the left side and the right side of the self-induction part 200, so as to be applied even when the self-insertion is applied at various angles, such as when the self-insertion is inserted from the side obliquely. That is, as will be described later, as long as the support part 340 of the inner guide part 300 can prevent the movement of the end portion 110 of the insertion member, it may be provided at various positions and angles.

In addition, the cutting part 230 according to the present invention may be an embodiment in which a part of the front part of the entire length of the insertion induction part is cut, as shown in FIG. 4D, and an embodiment in which the entire length of the induction induction part is cut is also possible. The self-induction part 200 accommodates the insertion member 100 and functions to move forward and backward, and it will be possible if the shape is capable of such an operation. Furthermore, the cut height of the cutout 230 may also be applied in various ways.

3 shows an inner guide part 300 according to the present invention.

In the inner guide part 300 according to the present invention, the self-induction part 200 is coupled to the inner passage part 320 penetrating the inside of the body part 310, and the front side of the body part 310 protrudes to enable a bending operation. The bent part 330 and the support part 340 bent at the end of the bent part 330 may be provided.

In the cover part 400 according to the present invention, the inner guide part 300 is seated in the inner space 410, and the through hole 420 and the support part provided so that the insertion member 100 and the self-induction part 200 are discharged to the outside. A moving space 430 capable of moving the outside of the 340 may be provided.

Hereinafter, referring to the drawings, the operation of the insertion member guiding device according to the present invention will be described. 8 to 11 are cross-sectional views sequentially explaining the operation of the insertion member guiding device according to the present invention.

When the insertion member 100 according to the present invention moves forward in the inner passage part 210 of the self-induction part 200, the insertion member end 110 first contacts the support part 340 of the inner guide part 300 Will be (see Fig. 8). For reference, the state of FIG. 8 may be provided and prepared as a basic state.

In the state of FIG. 8, when the insertion member 100 in contact with the support part 340 continues to move forward and pushes the support part 340 (A direction), the body part of the inner guide part integrally coupled with the support part 340 310 and the self-induction part 200 are also moved forward together. In addition, the insertion end 220 of the insertion induction part 200 protruding according to the forward movement distance may be inserted into the insertion portion. Here, the user may pinch the insertion member 100 with a finger or the like and move it forward (see FIG. 9). In addition, the self-induction part 200 and the inner guide part 300 are integrally moved forward and backward.

In the present invention, when one side of the body part 310 and the stopper 440 formed inside the cover part 400 are in contact with each other, the insertion member 100, the self-induction part 200, and the body part 310 advance The movement is stopped, and the self-induction unit 200 may be maintained in a self-initiated state (see FIG. 9).

It is preferable that the stopper 440 on one side of the body 310 and the inner side of the cover 400 be provided in consideration of the insertion depth of the insertion induction part 200. That is, the insertion induction part 200 inserted by the depth set in the epidermis or the like may not be inserted any more. In addition, the contact between the two parts is generally easy to implement, but it will be possible to combine in various forms such as male and female insertion coupling.

In the present invention, if the insertion member 100, which is stopped in the state of FIG. 9, is continuously moved forward (refer to the arrow A in FIG. 9), the tip of the insertion member 110 is advanced while pushing up the support part 340. (See reference numeral 430 in FIG. 10).

This is because the bending part 330 supporting the support part 340 has a structure capable of bending outward. Specifically, while the bending part 330 is bent, that is, bent, the support part 340 is bent outward in the moving space 430 inside the cover part.

In the present invention, the meaning that the support part 340 moves outward means that the support part 340 that has prevented the forward movement of the end portion 110 of the insertion member is pushed outward, and several outward directions such as upward, leftward, rightward Banding is possible. In FIG. 10, as an example, it is shown that the support part 340 is bent upward and outward.

Since the support portion 340 that was in contact with the end portion 110 of the insertion member 100 has been removed from the movement path by bending, the insertion member 100 can move forward (see FIG. 11), and the self-induction portion 200 It is moved forward to the indentation site created and is inscribed inside the epidermis.

Similar to the control of the insertion depth of the insertion induction part 200 by the stopper 440 described above, the insertion depth of the insertion member 100 can be controlled.

In the present invention, a protruding stopper 140 may be provided at a portion of the body portion 120 of the insertion member 100 that is not inserted into the inner passage portion 210 of the self-induction portion 200 (see FIG. 11 ). ). As the insertion member 100 moves forward, when the stopper 140 comes into contact with the self-induction part 200, the forward movement of the insertion member 100 is stopped. For example, as shown in FIG. 11, if a stopper 140 protruding from one side of the body portion 120 of the insertion member that is not inserted into the insertion induction portion 200 is provided, the insertion member 100 is provided with a stopper 140. ) Will be inserted only up to the point where it is in contact with the magnetic insertion induction part 200.

As described above, the present invention is a structure in which the insertion induction part 200 is primarily inserted into the epidermis and the like to secure a passage, and then the insertion member 100 is secondarily inserted into the primary insertion site as it is. As described above, the present invention structurally solves a problem in which it is difficult to find the first insertion site when the first insertion induction and the second insertion are separated.

The insertion member 100 according to the present invention may further include a handle 130 at the other end (see FIG. 1A). It is preferable that the handle 130 is made of an elastic material. A plurality of protrusions (refer to FIG. 1A) may be provided on the surface of the handle 130 to prevent slipping during gripping and forward movement.

The bending part 330 according to the present invention may be made of an elastic material capable of bending. Various elastic materials to which elasticity is imparted, such as silicone or spring, may be applied to the present invention.

The bending unit 330 according to the present invention may be subjected to a bending (bending) operation with the elasticity of the elastic material itself. Furthermore, it is also possible to implement the bending operation more easily by being provided with a bending structure (see FIGS. 5 and 7) or a corrugated structure (not shown).

The support part 340 according to the present invention is provided to be in contact with the insertion member end 110. For example, it is also possible to be provided in a vertical direction on the movement path of the insertion member 100 to contact the end portion 100 of the insertion member.

On the other hand, the support part 340 is in contact with the insertion member end portion 110 to support the insertion induction part 200 and the inner guide part 300 to move together when the insertion member 100 moves forward. However, when moving to a preset position, the support part 340 should be bent outwardly by the end of the insertion member.

In order to easily exhibit this function, the support part 340 according to the present invention is bent so as to be in contact with the insertion member end 110, and the support part 340 has a lower end directed toward the advance direction of the insertion member end 110. It is more preferable to be arranged in an inclined manner.

Next, it will be described in detail in the insertion member guiding device (FIG. 2B) provided with a spring portion and a magnetic insertion induction portion. Since the configuration of the insertion member guiding device of FIG. 2A can be used as it is in the present invention, a portion that does not overlap with it will be described mainly.

1B is a schematic diagram of an insertion member guiding device provided with a spring portion and a magnetic insertion guiding portion according to the present invention. 2B is an embodiment showing that the insertion member 100, the self-induction part 200, the inner guide part 300, the cover part 400, and the spring part 500 are combined as a whole according to the present invention.

The insertion member guiding device provided with a magnetic insertion induction part according to the present invention includes an insertion member 100, a magnetic insertion induction part 200, an inner guide part 300, a cover part 400, and a spring part 500.

The present invention includes an insertion member 100 having an insertion member end 110 in a round shape; As a hollow structure, the insertion member 100 is inserted into the inner passage part 210 so as to move forward and backward, and a cutout 230 is formed in the longitudinal direction on the side of the end 220 into which it is inserted, and the insertion A self-induction part 200 to which the member 100 is exposed; The self-induction part 200 is coupled to the inner passage part 320 penetrating the inside of the body part 310, and the bending part 330 and the banding part protruding so as to enable a bending operation at the front side of the body part 310 An inner guide part 300 having a support part 340 bent at the end of 330; And the inner guide part 300 is seated in the inner space 410, the through hole 420 provided so that the insertion member 100 and the insertion guide part 200 are discharged to the outside, and the outer side of the support part 340 A cover part 400 provided with a movable moving space 430; And one side of the inner guide part 300 is coupled to the inner space, is fastened to the cover part 400, and when the insertion member 100 is moved forward, it is contracted and deformed, and then a spring part 500 that is elastically restored again. ) May be included.

The present invention is characterized by a configuration for implementing an elastic restoration operation by a spring unit. That is, in the spring part 500 according to the present invention, one side of the inner guide part 300 is coupled to the inner space, is fastened to the cover part 400, and when the insertion member 100 is moved forward, it is contracted and deformed. It is characterized in that the elasticity is restored again.

In addition, when the retracted and deformed spring part 500 is restored by an elastic force, the self-inducing part 200 and the inner guide part 300 integrally coupled to each other are moved backward together.

The spring part 500 according to the present invention can be largely divided into two embodiments according to the form coupled to the inner guide part 300.

The first embodiment is an embodiment in which the coupling position of the spring part 500 and the inner guide part 300 is changed according to the contraction deformation and elastic restoration operation of the spring part 500.

The second embodiment is an embodiment in which contraction deformation and elastic restoration operations of the spring part 500 are implemented while maintaining the combined position of the spring part 500 and the inner guide part 300.

First, a first embodiment of the configuration and operation of the spring unit will be described.

In this embodiment, a seating groove 510 may be provided on one side of the spring part 500, and a stopper 520 may be provided on the other side spaced apart from each other. As shown in FIG. 12, in the unpressed state of the spring portion, one side 311 of the inner guide portion 300 is seated in the seating groove 510.

When the insertion member 100 is moved forward, the inner guide part 300 is also moved forward. At this time, the spring portion 500 coupled to the inner guide portion 300 will also be pressed. However, the cover part 400 fastened with the spring part 500 does not move integrally. Therefore, the spring part 500 may be contracted and deformed by such pressure.

When the spring part 500 is contracted and deformed, one side 311 of the inner guide part 300 seated in the seating groove 510 is moved to contact the stopper 520. Thereafter, when the elasticity is restored, one side 311 of the inner guide part 300 is moved to be seated in the seating groove 510 again.

In the case of one side 311 of the inner guide part 300 that is seated on the stopper 520 of the spring part 500, it is expressed as an end in FIG. 12, but is not limited thereto.

Next, a second embodiment relating to the configuration and operation of the spring unit will be described.

In this embodiment, one side 311 of the inner guide part 300 is fixedly coupled to an inner side of the spring part 500, and the fixed state may be maintained even when the spring part is contracted and deformed and elastically restored (FIG. 17 Reference). In this embodiment, it can be seen that the elasticity of the spring portion is further required.

The spring part 500 according to the present invention may be provided with an elastic material or an elastic structure. The elastic material may include various materials such as silicone. The elastic structure may be a structure using an elastic material such as a spring or an inelastic material, and various embodiments of imparting elasticity may be possible (see FIGS. 17 and 18 ). For reference, a spring portion such as a spring may also serve to support the needle so that it does not shake.

Hereinafter, referring to the drawings, the operation of the insertion member guiding device according to the present invention according to the first embodiment will be described. 12 to 16 are cross-sectional views sequentially explaining the operation of the insertion member guiding device according to the first embodiment. In particular, it is characterized in that the coupling position of the spring portion and the inner guide portion is changed.

When the insertion member 100 according to the present invention moves forward in the inner passage part 210 of the self-induction part 200, the insertion member end 110 first contacts the support part 340 of the inner guide part 300 Will be (see Fig. 12). For reference, the state of FIG. 12 may be provided and prepared as a basic state. The spring part 500 is fastened to the cover part 400, and in the inner space, one side 311 of the inner guide part 300 is seated in the seating groove 510.

In the state of FIG. 12, when the insertion member 100 in contact with the support part 340 continues to move forward and pushes the support part 340 (refer to the arrow A in FIG. 13), the support part 340 is integrally combined with the support part 340. The body part 310 of the inner guide part and the self-induction part 200 are also moved forward. In addition, the insertion end 220 of the insertion induction part 200 protruding according to the forward movement distance may be inserted into the insertion portion. Here, the user may pinch the insertion member 100 with a finger or the like and move it forward (see FIG. 13). In addition, the self-induction part 200 and the inner guide part 300 are integrally moved forward and backward.

And when the inner guide part 300 moves forward, the contraction and deformation of the spring part 500 will begin (refer to the arrow in the direction B in FIG. 13).

In the present invention, when one side of the body part 310 and the stopper 440 formed inside the cover part 400 are in contact with each other, the insertion member 100, the self-induction part 200, and the body part 310 advance The movement is stopped, and the self-induction unit 200 may be maintained in a self-initiated state (see FIG. 13 ). At this time, the contraction and deformation state of the spring part 500 will also be maintained. The meaning that the contraction and deformation state of the spring part 500 is maintained means that it has an elastic force.

In the present invention, if the insertion member 100 once stopped in the state of FIG. 13 is continuously moved forward (refer to the arrow in the direction A in FIG. 13), the tip of the insertion member 110 moves forward while pushing the support part 340 (Refer to reference numeral 430 in FIG. 14).

In the present invention, the meaning that the support part 340 moves outward means that the support part 340 that has prevented the forward movement of the end portion 110 of the insertion member is pushed outward, and several outward directions such as upward, leftward, rightward Banding is possible. In FIG. 14, as an example, it is shown that the support part 340 is bent upward and outward.

Meanwhile, a see-through part 450 capable of seeing the inner moving space 440 may be further provided in the cover part 400 so that the outer bending operation of the support part 340 can be observed (see FIG. 12). . Further, the perspective part 450 is cut to secure not only the perspective space but also the moving space 440, so that the bending operation of the support part 340 may be more smoothly performed.

Since the support portion 340 that was in contact with the end portion 110 of the insertion member 100 has been removed from the movement path by bending, the insertion member 100 can move forward (see FIG. 15), and the self-induction portion 200 It is moved forward to the indentation site created and is inscribed inside the epidermis.

In the present invention, a protruding stopper 140 may be provided at a portion of the body portion 120 of the insertion member 100 that is not inserted into the inner passage portion 210 of the self-induction portion 200 (see FIG. 15 ). ). As the insertion member 100 moves forward, when the stopper 140 comes into contact with the self-induction part 200, the forward movement of the insertion member 100 is stopped. For example, as shown in FIG. 15, if a stopper 140 protruding from one side of the body 120 of the insertion member that is not inserted into the insertion induction part 200 is provided, the insertion member 100 is provided with a stopper 140. ) Will be inserted only up to the point where it is in contact with the magnetic insertion induction part 200.

The insertion member 100 according to the present invention may further include a handle 130 at the other end (see FIG. 1B). It is preferable that the handle 130 is made of an elastic material. A plurality of protrusions (see FIG. 1B) may be provided on the surface of the handle 130 to prevent slipping during gripping and forward movement.

The embodiments described in the present specification and the accompanying drawings are merely illustrative of some of the technical ideas included in the present invention. Accordingly, it is obvious that the embodiments disclosed in the present specification are not intended to limit the technical idea of the present disclosure, but to explain the technical idea, and thus the scope of the technical idea of the present disclosure is not limited by these embodiments. Modification examples and specific embodiments that can be easily inferred by those skilled in the art within the scope of the technical idea included in the specification and drawings of the present invention should be interpreted as being included in the scope of the present invention.

Claims

An insertion member inserted into the human body;

A hollow structure, wherein the insertion member is inserted into an inner passage portion so as to move forward and backward, and a cut-out portion is formed in a longitudinal direction at an end side to be inserted into an inner passage portion, so that the insertion member is exposed;

An inner guide portion having a bending portion protruding so as to enable a bending operation and a support portion bent at an end of the bending portion, and the magnetic insertion guide portion is coupled to an inner passage portion penetrating the inside of the body portion; And

The inner guide portion is seated in the inner space, the insertion member and the insertion guide portion is provided with a through hole provided to be discharged to the outside, and a cover portion provided with a moving space capable of moving outward of the support portion. Insertion member guiding device.
The method according to claim 1,

When the insertion member is moved forward from the inner passage portion of the insertion member, an end portion of the insertion member comes into contact with the support portion of the inner guide portion.
The method according to claim 2,

When the insertion member in contact with the support unit continues to move forward and pushes the support unit, the body unit and the self-induction unit of the inner guide unit integrally coupled with the support unit are also moved forward together,

Insertion member guiding device provided with a magnetic insertion guide, characterized in that the insertion end of the insertion guide portion is inserted into the insertion portion.
The method of claim 3,

When one side of the body part and the stopper formed inside the cover part are in contact with each other, the insertion member, the insertion guide part, and the forward movement of the body part are stopped, and the insertion guide part is provided with a self-induction part, characterized in that the self-induction part is maintained in a self-inserted state. Insertion member guiding device.
The method of claim 4,

If the stopped insertion member continues to move forward,

The front end of the insertion member advances while pushing up the support,

Insertion member guiding device provided with a magnetic insertion induction part, characterized in that the insertion into the magnetic insertion portion created by the insertion induction part.
The method of claim 5,

While the bending part is bent, the support part is bent outward in a moving space inside the cover part.
The method according to claim 1,

A stopper protruding from a portion of the body portion of the insertion member that is not inserted into the inner passage portion of the insertion guide portion is provided,

When the stopper is in contact with the magnetic insertion guide portion, the insertion member guiding device provided with a magnetic insertion guide portion, characterized in that the forward movement of the insertion member is stopped.
The method according to claim 1,

The insertion member guiding device provided with a self-induction guide, characterized in that the insertion member further includes a handle at the other end.
The method of claim 8,

Insertion member guiding device provided with a self-inducing portion, characterized in that the handle is provided with an elastic material.
The method of claim 8,

Insertion member guide device provided with a self-induction guide, characterized in that a plurality of projections are provided on the surface of the handle.
The method according to claim 1,

Insertion member guiding device provided with a self-induction portion, characterized in that the bending portion is provided with an elastic material capable of a bending operation.
The method according to claim 1,

Insertion member guiding device provided with a self-inducing portion, characterized in that the bending portion is a bent structure or a corrugated structure.
The method according to claim 1,

The insertion member guiding device provided with a magnetic insertion guide portion, characterized in that the support portion is bent so as to be in contact with the end of the insertion member.
The method of claim 13,

The insertion member guiding device provided with a self-induction guide portion, characterized in that the support portion is disposed inclined so that the lower end faces in the forward direction of the insertion member end.
An insertion member inserted into the human body;

A hollow structure, wherein the insertion member is inserted into an inner passage portion so as to move forward and backward, and a cut-out portion is formed in a longitudinal direction at an end side to be inserted into an inner passage portion, so that the insertion member is exposed;

An inner guide portion having a bending portion protruding so as to enable a bending operation and a support portion bent at an end of the bending portion, and the magnetic insertion guide portion is coupled to an inner passage portion penetrating the inside of the body portion; And

A cover part provided with a through hole provided to allow the insertion member and the self-induction part to be discharged to the outside, and a moving space capable of external movement of the support part, the inner guide part being seated in the inner space; And

One side of the inner guide part is coupled to the inner space, and a spring part and a self-induction guide part, characterized in that it includes a spring part that is elastically restored after being contracted and deformed when the insertion member is moved forward. The provided insertion member guiding device.
The method of claim 15,

A seating groove is provided on the inner side of the spring part, and a stopper is provided on the other side spaced apart,

In the unpressed state of the spring portion, one side of the inner guide portion is seated in the seating groove,

When the spring portion is contracted and deformed by pressure, one side of the inner guide portion is moved to contact the stopper,

When restoring the elasticity, one side of the inner guide portion is again seated in the seating groove, the insertion member guiding device provided with a spring portion and a self-induction portion, characterized in that.
The method of claim 15,

One side of the inner guide part is fixedly coupled to the inner side of the spring part, and the insertion member guiding device provided with a spring part and a self-induction part, characterized in that the fixed state is maintained even when the spring part is contracted and deformed and elastically restored.
The method of claim 15,

The insertion member guiding device provided with a spring portion and a self-induction portion, characterized in that the spring portion is provided with an elastic material or an elastic structure.
The method of claim 18,

The insertion member guiding device provided with a spring portion and a self-induction portion, characterized in that the elastic material is silicon.
The method of claim 15,

Insertion member guiding device provided with a spring portion and a magnetic insertion guide portion, characterized in that when the contraction-deformed spring portion is restored by an elastic force, the integrally coupled self-induction guide portion and the inner guide portion are moved backward together.
The method of claim 15,

When the insertion member is moved forward from the inner passage portion of the insertion member, an end portion of the insertion member comes into contact with the support portion of the inner guide portion.
The method of claim 21,

When the inserting member in contact with the support continues to move forward and pushes the support, the body part and the self-induction guide part of the inner guide part integrally coupled with the support part are also moved forward, so that the self-induction end of the self-induction part is inserted into the self-induction part. And

An insertion member guiding device provided with a spring portion and a self-induction portion, characterized in that the spring portion integrally coupled to the body portion is also contracted and deformed.
The method of claim 22,

When one side of the body portion and the stopper formed inside the cover portion are in contact with each other, the insertion member, the insertion induction portion and the forward movement of the body portion are stopped, and the insertion induction portion is maintained in a magnetically inserted state,

Insertion member guiding device provided with a spring portion and a self-induction portion, characterized in that the contraction and deformation state of the spring portion is also maintained.
The method of claim 23,

If the stopped insertion member continues to move forward,

The front end of the insertion member advances while pushing up the support,

Insertion member guiding device provided with a spring portion and a magnetic insertion guide portion, characterized in that the insertion into the magnetic insertion portion created by the insertion guide portion.
The method of claim 23,

While the bending part is bent, the support part is provided with a spring part and a self-induction part, characterized in that the support part is bent outward in the moving space inside the cover part.
The method of claim 15,

A stopper protruding from a portion of the body portion of the insertion member that is not inserted into the inner passage portion of the insertion guide portion is provided,

When the stopper is in contact with the insertion guide portion, the insertion member guide device provided with a spring portion and the insertion guide portion, characterized in that the forward movement of the insertion member is stopped.
The method of claim 15,

An insertion member guiding device provided with a spring portion and a self-induction portion, characterized in that the cover portion is provided with a see-through portion capable of seeing the rotation space.
The method of claim 15,

The insertion member is further provided with a handle at the other end,

Insertion member guiding device provided with a spring portion and a self-induction portion, characterized in that the handle is provided with an elastic material.
The method of claim 15,

The insertion member guiding device provided with a spring portion and a magnetic insertion induction portion, characterized in that the insertion induction portion is provided with a magnetic insertion end sharply formed at the end.
The method of claim 15,

An insertion member guiding device provided with a spring portion and a self-induction portion, wherein the bending portion is made of an elastic material capable of bending.
The method of claim 15,

Insertion member guiding device provided with a spring portion and a self-induction portion, characterized in that the bending portion bent structure or corrugated structure.
The method of claim 15,

The insertion member guiding device provided with a spring portion and a magnetic insertion guide portion, characterized in that the support portion is bent so as to be in contact with the end of the insertion member.
The method of claim 32,

The insertion member guiding device provided with a spring portion and a magnetic insertion guide portion, characterized in that the support portion is disposed inclined so that the lower end faces in the forward direction of the insertion member end.