JP3195770U - Crimp for nail deformation orthosis - Google Patents

Abstract

To provide a crimper for a nail deformation correction device that can prevent slipperiness of the crimper and does not increase the cost. A crimper for a nail deformation correction device has a flat shape at a tip portion for pressing the nail deformation correction device, at least a surface portion of which has a hardness higher than that of a stainless material, and holds the pressing portion 2 It consists of a gripping part 4 for doing this. The pressing portion 2 is formed of a ceramic material, a glass material, an oxide single crystal material, a metal material having a hardness higher than that of a stainless steel material, or an oxide thin film, a carbide thin film or a metal thin film having a hardness higher than that of the stainless steel material on the surface of the metal material. It is good also as a structure. [Selection] Figure 1

Description

    The present invention relates to a crimper for a nail deformation correction device required for bonding and fixing a correction device for correcting nail deformation such as a wound nail and an ingrown nail.

Conventional orthodontic appliances and methods for correcting wound nails and ingrown nails include the following. One is a method called a VHO method. What is VHO method?
Virtuose (human), human (human), Orthonyxie (straight) stands for 1979, but this method itself is a traditional method that has been performed in Germany for more than half a century. In this method, a metal hook is hooked on both side edges of the nail and a wire is twisted to generate a pulling force toward the center of the nail, thereby correcting the nail curvature.
As another correction tool, there is a correction tool and method disclosed in Patent Document 1. The structure of this correction tool is a U-shape, a pair of terminals inserted into both outer edges of the nail, extending between the pair of terminals, both ends are fixed to the pair of terminals, and the pair of terminals is elastic There is a superelastic wire that pulls up both outer edges of the nail by pulling up with, and further provided on this superelastic wire and arranged on the nail, there is a gap between the middle part of the superelastic wire and the nail Both ends of the superelastic wire are configured to be provided with brackets that improve the elastic force acting on the pair of terminals. As a specific configuration, a metal hook with a width of several millimeters and a U-shaped hook is hooked on both side edges of the nail, and it is pulled to the center of the nail with a wire, and the screw provided on the bracket is used. This is a method of correcting the bending of the nail by adjusting the pulling force in the direction of the nail center (see Patent Document 1).
However, both of the above require hooks or hooks to be applied to the side edges of the nails on both sides (hereinafter referred to as nail edges). For this reason, the position of the claw edge to which the hook is applied must be almost the same position. For this reason, even if hooking each nail edge, there was no pain and it was not possible to freely select a place where correction was most effective. Also, in the ingrown nail, the nail edges that can be effectively corrected are often covered with granulation, so it is often painful and requires anesthesia when hooked, and treatment by a doctor is essential .
Patent Document 2 also discloses a correction tool and method for correcting the nail after softening (see Patent Document 2). This orthosis is a correction tool including a needle-like member used for correcting a deformed nail softened by at least one nail softener selected from the group consisting of cysteine, thioglycolic acid and thioglycolate. The needle-like member is a β-type titanium alloy having a Young's modulus of 30 to 75 GPa and made of titanium, molybdenum, zirconium and tin, and at least one end of the needle-like member is rolled and flattened, and is rolled and flattened. The part which is turned into a substantially U-shaped or substantially U-shaped saddle shape. In this configuration, β-type titanium alloy or titanium-based amorphous alloy is used for the needle-like member, and desired elasticity and rollability can be given. As a result, when a deformed nail is treated by applying a nail softener having a reducing action, the nail can be treated more easily and in a shorter time and with less damage to the nail.

Utility model registration No. 3188130 JP 2012-170510 A

When one wire-like nail deformation correction device is used, it is necessary to hook on the nail at one end, and to fix to the nail by hanging from the other end to a certain length. In this case, after hooking the hook part to the wound nail, in order to bond and fix the fixed length part from the other end to the nail, the nail deformation correction device to be repelled is forcibly pressed against the nail. It is necessary to hold the nail deformation correction device until the adhesive is hardened. A crimper is used for this holding, but the crimper is required to have a structure that is difficult to adhere an adhesive, has high strength, and can perform delicate work. For this reason, stainless steel is generally used. Many nail deformity orthodontic appliances use stainless steel or titanium alloy wires. Therefore, since both of them are hard materials, the operation of pressing until they are bonded and fixed with a crimper is a troublesome task that even the skilled person may fail because the crimper is slippery.
In order to solve this problem, in Patent Document 1, anti-slip processing is performed on the surface of the wire. As a result, it is possible to prevent slipping, but there is a problem that the cost increases because of such slipping processing.

In order to solve the above problems, the crimping device for nail deformation correction device of the present invention has a flat shape at the tip portion for pressing the nail deformation correction device, and at least the surface portion thereof has a pressing portion having a hardness higher than that of the stainless material, It consists of a gripping part for gripping the pressing part.
In this case, the pressing portion includes a ceramic material, a glass material, an oxide single crystal material, a metal material having a hardness higher than that of the stainless steel material, or an oxide thin film, a carbide thin film, or a metal material having a hardness higher than that of the stainless steel material on the surface of the metal material. May have a structure in which a metal thin film is formed.
Furthermore, the surface of the pressing portion may be formed of a ground glass shape or a file shape.

With such a structure, when fixing a nail deformation correction device made of stainless steel to the surface of the nail with an adhesive, the nail deformation correction device is pressed stably and surely until the adhesive is solidified. I can leave. Moreover, since it has a holding part, a hand etc. are not damaged when pressing.
Since the pressing part is harder than the stainless steel material, when the nail deformation correction device made of stainless steel is pressed by the pressing part with the pressing part, the stainless steel material is partly crushed and can be pressed stably. it can. As a result, since the nail deformation correction device can be adhered and solidified in close contact with the surface of the nail as compared with the conventional case, it is possible to apply a force in the direction of spreading the nail for a long time, and to ensure the correction of the nail. it can.
Moreover, since it can crush more reliably when the surface is made into a frosted glass shape or a file shape, it can press more stably.

FIG. 1 is a perspective view of a crimper for a nail deformation correction device according to an embodiment of the present invention. FIG. 2 is an enlarged perspective view of a distal end portion of the crimper according to the same embodiment. FIG. 3 is a photograph of a state in which the orthodontic appliance is pressed against a model wound nail using the crimper according to the embodiment.

Hereinafter, the crimping device for nail deformation correction device of the present invention will be described in detail with reference to the drawings. FIG. 1 is a perspective view of a crimper for a nail deformation correction device according to an embodiment of the present invention. FIG. 2 is an enlarged perspective view of a distal end portion of the crimper according to the same embodiment. FIG. 3 is a photograph of a state in which the nail deformation correction device 5 is pressed against the model nail of the wound nail by the nail deformation correction device length crimper 1 using the pressure bonding device according to the embodiment.
As shown in FIG. 1, the crimping tool 1 for nail deformation correction device of the present invention has a flat shape at the tip portion for pressing the nail deformation correction device 5, and at least the surface portion has a pressing portion 2 having a hardness higher than that of stainless steel. The holding portion 4 for holding the pressing portion. The pressing portion 2 is made of a ceramic material, a glass material, an oxide single crystal material, a metal material having a hardness higher than that of the stainless steel material, or an oxide thin film, a carbide thin film or a metal thin film having a hardness higher than that of the stainless steel on the surface of the metal material. The structure in which is formed may be sufficient. Furthermore, it is preferable that the surface of the pressing part 2 has a ground glass shape or a file shape. For example, a precision file can be cut into a predetermined length and used.
In the present embodiment, the pressing portion 2 and the pressing portion reinforcing portion 3 for firmly fixing the pressing portion 2 to the grip portion 4 are provided on both sides with the grip portion 4 as a center. If the pressing performance deteriorates, the other can be used.
The pressing portion 2 preferably has a width of about 2 mm, a thickness of about 1 mm, and a length of about 4 mm, and has a concavo-convex structure that is harder and finer than stainless steel. However, it is not always necessary to have a fine concavo-convex structure, and if the hardness is higher than stainless steel material, the surface of the stainless steel material is scratched when pressed, thereby stably pressing the wire-shaped nail deformation correction device. be able to. The shape is not limited to the above dimensions, and the width and thickness may be arbitrarily set as long as the nail deformation correcting device 5 made of a stainless material can be pressed and fixed. Further, the length can be arbitrarily set according to the length of the pressing portion reinforcing portion 3.
Next, a method for bonding and fixing the nail deformation correcting device 5 to the surface of the nail using the nail deformation correcting device crimping tool 1 according to the present embodiment will be described with reference to FIG. FIG. 3 shows a nail deformation correction device 5 made of a stainless material on the surface of a plastic model nail 6 which is not implemented with an actual nail but is regarded as a wound nail. It is a photograph which shows the state fixed along with the crimper 1 for an orthosis. As can be seen from the photograph, a hook 7 which is formed by hooking one of the nail deformation correction devices 5 into a hole formed on the surface of the model nail 6 which is assumed to be a wound nail shape is inserted, and then the nail deformation correction device is inserted. It is possible to treat wound nails with a simple operation by keeping the nail deformation correction device 5 along with pressing with the crimper 2 and pressing while the adhesive is solidified. it can.
In conventional stainless steel nail deformation correction device crimpers, the nail deformation correction device is also made of stainless steel and is made of the same material. It remained. For this reason, it was not possible to stably press the adhesive during the solidifying time (about 20 seconds). However, in the present invention, a material higher in level than the stainless steel material is used as the pressing portion 2 of the nail deformation correction device crimper 1, so that fine scratches are generated on the surface of the nail deformation correction device 5, thereby stabilizing the nail deformation correction device 5. Can be pressed.
In addition, it is conceivable to use a material that generates a large frictional force, such as rubber, for the stainless steel material, but in order to attach the nail deformation correction device 5, the pressing portion 2 of the nail deformation correction device crimper 1 is used. It is not preferable to make the tip width too large because workability deteriorates. If workability is taken into consideration, it is preferably about 2 mm or less. Even if such a narrow pressing portion 2 is made of rubber or the like, the pressing force does not sufficiently act, and the nail deformation correcting device cannot be fixed along the surface of the nail. Therefore, even if the frictional force is large, it is difficult to use a material such as rubber for the pressing portion.
The material of the pressing portion of the present invention is not limited to a file as long as the material is harder than a stainless material, and may be a material such as ceramic, glass, oxide single crystal material, or a metal having a high hardness.

The nail deformation correction device crimper of the present invention can be used in the field of correcting ingrown nails such as a wound nail without causing pain to a patient who has become a wound nail.

DESCRIPTION OF SYMBOLS 1 Crimp for nail deformation correction equipment 2 Press part 3 Press part reinforcement part 4 Gripping part 5 Nail deformation correction equipment 6 Model nail 7 Hook

Claims (3)

  Nail deformation characterized in that the tip portion for pressing the nail deformation correction device has a flat shape, and at least its surface portion is composed of a pressing portion whose hardness is higher than that of stainless steel and a gripping portion for gripping the pressing portion. Crimp for orthotics. The pressing portion is formed of a ceramic material, a glass material, an oxide single crystal material, a metal material having a hardness higher than that of a stainless steel material, or an oxide thin film, a carbide thin film or a metal thin film having a hardness higher than that of a stainless steel material on the surface of the metal material. The crimper for a nail deformation correction device according to claim 1, wherein 3. The crimper for a nail deformation correction device according to claim 1, wherein a surface of the pressing portion has a ground glass shape or a file shape.