COMB

Abstract

A comb (1) according to the present invention comprises: a comb body (2) that has a through hole (4) for a plating treatment; a plurality of comb teeth (5) and a proximal end part (6) located at a proximal end from which the comb teeth (5) extend; and a cover (3) made of metal for covering front and reverse surfaces and side surfaces of the proximal end part (6) inclusive of the through hole (4) from a direction perpendicular to the longitudinal direction of the proximal end part (6), wherein the cover (3) comprises a front surface part (3a) and a reverse surface part (3b) for covering front and reverse surfaces of the proximal end part (6), as well as a side surface part (3c), the distance between the front surface part (3a) and the reverse surface part (3b) is gradually decreased toward the distal end, and, in a state where the cover (3) is separated from the comb body (2), the distance between the front surface part (3a) and the reverse surface part (3b) at the distal end is less than the thickness of the side surface of the proximal end part (6).

Claims

1. A comb comprising a comb body applied with a plating treatment on its surface and having a through hole for the plating treatment, a plurality of comb teeth forming the comb body and a proximal end part located at the proximal end from which the plurality of comb teeth extends, and a cover made of metal for covering front and reverse surfaces and a side surface of the proximal end part inclusive of the through hole from a direction perpendicular to the longitudinal direction of the proximal end part, wherein the cover comprises a front surface part and a reverse surface part for covering the front and reverse surfaces of the proximal end part, as well as a side surface part for covering a side surface of the proximal end part, the distance between the front surface part and the reverse surface part is gradually decreased toward their distal end, and in a state where the cover is separated from the comb body, the distance between the front surface part and the reverse surface part at their distal end is less than the thickness of the side surface of the proximal end part.

2. The comb according to claim 1, wherein the front surface part and the reverse surface part have both end side regions on both end sides along their longitudinal direction and a center region located between these two both end side regions, the center region covers the proximal end part inclusive of the through hole, and the distance between the front surface part and the reverse surface part in the both end side regions is the same as the thickness of the proximal end part.

3. The comb according to claim 2, wherein a through hole vicinity region located in the vicinity of the through hole at the proximal end part covered by the central region is gradually reduced in thickness from the side surface of the proximal end part in the comb teeth direction.

4. The comb according to claim 3, wherein the side surface part of the cover corresponding to the central region is formed narrower than the side surface part of the cover corresponding to the both end side regions, and the side surface of the proximal end part corresponding to the through hole vicinity region is formed narrower than the other side surfaces.

5. The comb according to claim 1, wherein protrusions to be inserted into the through hole are formed inside the front surface part and the reverse surface part.

6. The comb according to claim 1, wherein a raised ridge protruding from the surface of the comb body is formed at the boundary between the cover and the proximal end part.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0018] FIG. 1 is a diagram of a comb according to the present invention.

[0019] FIG. 2 is a diagram of a comb body.

[0020] FIG. 3 is a diagram of the comb body viewed from a side surface side (the side to which a cover is attached).

[0021] FIG. 4 is a diagram of the cover.

[0022] FIG. 5 is a diagram of the cover viewed from the side surface side (opposite side to the side where the cover is attached to the comb body).

[0023] FIG. 6 is a diagram of the cover viewed from the side where the cover is attached to the comb body.

[0024] FIG. 7 is a diagrammatic cross-sectional view of the cover at the central region.

[0025] FIG. 8 is a diagrammatic cross-sectional view of the comb body.

[0026] FIG. 9 is a diagrammatic cross-sectional view of the comb according to the present invention.

DESCRIPTION OF EMBODIMENTS

[0027] As shown in FIG. 1, a comb 1 according to the present invention is formed of a comb body 2 and a cover 3 attached to the comb body 2. The comb body 2 has a surface applied with a plating treatment. Specifically, the comb body 2 is a resin molded product (for example, an ABS resin molded product) that has been applied with the plating treatment, which makes the surface smooth and reduces contact friction with hair. The plating treatment has also been found to have an effect of discharging static electricity accumulated in the hair using a human body as a ground. During applying this plating treatment, an electrode and the comb body 2 are in contact with each other, and in order to hold the comb body 2 by the electrode, a through hole 4 for the plating treatment is formed in the comb body 2 (see FIGS. 2 and 3).

[0028] The comb body 2 has a plurality of comb teeth 5 for combing hair, and the plurality of comb teeth 5 are formed extending from a proximal end part 6. That is, the proximal end part 6 is located at the proximal end from which the comb teeth 5 extend. The cover 3 is made of metal and covers both surfaces (front and reverse) and the side surface (the side opposite to the side from which the comb teeth 5 extend) of the proximal end part 6. The cover 3 is attached to the comb body 2 by being inserted perpendicularly to the longitudinal direction of the proximal end part 6. In this case, the cover 3 covers the proximal end part 6 inclusive of the through hole 4. Since the cover 3 is made of metal it has high conductivity. Thus, the effect of the plating treatment, such as maintaining the static electricity diffusion function of the comb body 2 applied with the plating treatment, is maintained. In the example shown in the figure, the cover 3 is attached substantially at the center in the longitudinal direction of the comb body 2, but may be attached at a position slightly off the center.

[0029] As is apparent by referring to FIGS. 4 to 6, the cover 3 covers the front and reverse surfaces and the side surface of the proximal end part 6 as described above, and the part covering the front surface of the proximal end part 6 is a front surface part 3a and the part covering the reverse surface of the proximal end part 6 is a reverse surface part 3b. The part covering the side surface of the proximal end part 6 is a side surface part 3c. As shown in FIG. 7, the distance between the front surface part 3a and the reverse surface part 3b is gradually decreased toward their distal ends. In other words, the thickness of the end part on the comb body 2 side in the cover 3 is reduced. In addition, in a state where the cover 3 is separated from the comb body 2, the distance between the front surface part 3a and the reverse surface part 3b at their distal end is less than the thickness of the side surface of the proximal end part 6. In other words, even if the cover 3 is attempted to slid as it is from the side surface side of the comb body 2, the distal end of the cover 3 bumps into the side surface of the comb body 2. Therefore, the cover 3 cannot be attached to the comb body 2 unless the distal end of the cover 3 is opened to some extent and inserted with the comb body 2 from the side surface of the comb body 2.

[0030] Thus, since the distance between the front surface part 3a and the reverse surface part 3b, which constitute the cover 3, is gradually decreased toward their distal end, and in the state where the cover 3 is separated from the comb body 2, the distance between the front surface part 3a and the reverse surface part 3b at their distal end is less than the thickness of the side surface of the proximal end part 6. This causes the distal end side of the cover 3 to have the strongest force to pinch the proximal end part 6 in a state where the cover 3 is attached to the comb body 2. Therefore, when the hair is combed with the comb 1, the gap between the cover 3 and the comb body 2 is brought into close contact as much as possible, so that the hair is prevented from being caught in the gap. Furthermore, as described above, since the cover 3 is made of metal, even if the cover 3 is attached to the comb body 2, the effect of static electricity diffusion by the plating treatment applied to the comb body 2 is not impaired. Since the cover 3 is made of metal, even if the distance between the front surface part 3a and the reverse surface part 3b is gradually decreased toward their distal end, the ductility of the cover 3 allows the front surface part 3a and the reverse surface part 3b to be easily opened and attached to the comb body 2.

[0031] Here, the cover 3, i.e., the front surface part 3a and the reverse surface part 3b, has both end side regions S and a central region C located between these two both end side regions S along their longitudinal direction. The central region C covers the proximal end part 6 inclusive of the through hole 4. In addition, the distance between the front surface part 3a and the reverse surface part 3b in the both end side regions S is the same as the thickness of the proximal end part 6. Considering only the pinching strength described above, the both end side regions S are unnecessary. However, by intentionally providing the both end side regions S to shorten the length of the central region C, which is thinner than the proximal end part 6, it is possible to reduce the area where the cover 3 is attached by sliding while pressing the surface of the comb body 2 as much as possible when the cover 3 is attached to the comb body 2. This allows the area where the plating applied to the comb body 2 is peeled off to be reduced. Since the distance at the distal end side of the front surface part 3a and the reverse surface part 3b in the both end side region S (the distance between the front surface part 3a and the reverse surface part 3b at the distal end side in the both end side regions S) is the same as the thickness of the proximal end part 6, the cover 3 is attached along the proximal end part 6, and the plating does not peel off. Therefore, as shown in FIG. 6, in the central region C, the thickness of its distal end side is thinner than that of the both end regions S.

[0032] On the other hand, as shown in FIG. 8, a through hole vicinity region T located in the vicinity of the through hole 4 at the proximal end part 6 covered by the central region C is gradually reduced in thickness (thinned) from the side surface of the proximal end part 6 toward the comb teeth 5. That is, the proximal end part 6 has the thickest side surface. In this way, the through hole vicinity region T at the proximal end part 6, which is the area covered by the central region C, is also gradually reduced in thickness (thinned), thereby further preventing the distal ends of the front surface part 3a and the reverse surface part 3b in the central region C from sliding while pressing the proximal end part 6. Therefore, the plating on the comb body 2 is further prevented from being peeled off. Thus, the widths (lengths in the longitudinal direction of the comb body 2) of the central region C and the through hole vicinity region T are the same.

[0033] In addition, the side surface part 3c of the cover 3 corresponding to the central region C is formed narrower than the side surface part 3c of the cover 3 corresponding to the both end side regions S. In other words, the side surface part 3c of the central region C is thinner than the side surface part 3c of the both end side regions S. Accordingly, the side surface of the proximal end part 6 corresponding to the through hole vicinity region T is formed narrower than the other side surfaces. In other words, also in the proximal end part 6, the side surface of the through hole vicinity region T is thinner than that of both its sides. Specifically, as shown in FIGS. 3 and 5, both the side surface part 3c of the central region C and the side surface of the through hole vicinity region T are formed by being rounded and concave. Thus, since the side surface part 3c of the cover 3 corresponding to the central region C and the side surface of the proximal end part 6 corresponding to the through hole vicinity part T are narrow, the user can easily grip them, thereby increasing convenience. Furthermore, since the opening distance of the cover 3 can be minimized when the cover 3 is attached and detached, the cover 3 can be reused as many times as possible. This is intended to allow for repeated use of the cover 3, because the comb body 2 is made of resin and thus the comb teeth 5 sometimes break off, but even in such a case, the cover 3 can be applied to other comb body 2. For that purpose, even if the cover 3 is used repeatedly, the pinching strength of the cover 3 must be maintained, and therefore the cover 3 should be able to be attached to the comb body 2 without being opened too much. This is because if the cover 3 is made to be attached to open too widely, the pinching strength will be reduced due to plastic deformation.

[0034] As shown in FIGS. 7 and 9, protrusions 7 to be inserted into the through hole 4 are formed inside the front surface part 3a and the reverse surface part 3b. Thus, the protrusions 7 are formed inside the front surface part 3a and the reverse surface part 3b, and the protrusions 7 are inserted into the through hole 4 to allow for secure fixation of the cover 3 to the comb body 2. Furthermore, in combination with the fact that the distance between the front surface part 3a and the reverse surface part 3b decreases toward their distal end, the protrusions 7 exert a force in the direction of pressing in the side surface direction of the proximal end part 6 (in the direction of an arrow A in FIG. 9), so that the cover 3 is attached while being pressed in the comb teeth 5 direction (in the direction of an arrow B in FIG. 9). This allows the gap between the cover 3 and the comb body 2 to be kept in close contact as much as possible, thereby preventing the hair from being caught.

[0035] In addition, a raised ridge 8 protruding from the surface of the comb body 2 may be formed at the boundary between the cover 3 and the proximal end part 6. That is, the raised ridge 8 is formed on the proximal end part 6 along the edge of the cover 3. Thus, by providing the raised ridge 8 at the boundary between the cover 3 and the proximal end part 6, the hair can be prevented from entering through the gap between the cover 3 and the comb body 2, thereby preventing the hair from being caught during use. Furthermore, the position of the cover 3 is securely fixed, preventing rattling of the cover 3. It is preferred that the distal ends of the protrusions 7 are spherical in shape in order to prevent the plating from peeling off during attaching the cover 3 to the comb body 2.

[0036] The through hole 4 is formed in the center of the comb body 2, and the comb teeth 5 are formed in the whole area in the longitudinal direction of the comb body 2. As a result, the central region C is located near the center of the comb body 2. It has been found that the hair is likely to be caught in the area where the user grips the comb 1, and that the hair is most likely to be caught in the area near the center of the comb body 2. Such a structure is preferable because the user grips the central region C and thus the pinching strength is generated only in the area where the hair is likely to be caught.

REFERENCE SIGNS LIST

[0037] 1: comb, 2: comb body, 3: cover, 3a: front surface part, 3b: reverse surface part, 3c: side surface part, 4: through hole, 5: comb teeth, 6: proximal end part, 7: protrusion, 8: raised ridge

[0038] C: central region, S: both end side region, T: through hole vicinity region