JP5145873B2 - helmet - Google Patents

Description

  The present invention relates to a relatively lightweight helmet that is used by school children, cyclists, and the like to protect their heads.

Conventionally, this type of helmet includes, for example, a cap made of a synthetic resin shell and a dome-shaped shock absorbing liner fitted in the shell, as in Patent Document 1, and a user's chin. The chin belt that fixes the helmet is attached to the body. The chin belt is composed of a pair of left and right front belts and a single rear belt that is provided on the rear head side of the helmet and folded at the center.
The front belt and the rear belt of the chin belt are respectively supported by support portions formed on the inner surface of the shell through the belt holes from the inside of the shock absorbing liner. And the buckle is provided in one lower end part of a pair of front belt which protrudes below a helmet, and the tongue is provided in the other lower end part. Further, an adjustment plate for adjusting the length in the vertical direction is provided at the middle portion of each front belt, and the rear belt on the same side is connected to the adjustment plate so that the length can be adjusted. And in the state which the user put on the helmet, it will be fixed to a jaw by engaging the buckle and tongue of a pair of front belts.

In addition to the shell, the shock absorbing liner, and the chin belt described above, the conventional helmet includes an undersheet that is attached to the opening edge of the lower end of the shock absorbing liner and protects the opening edge. is there. This undersheet is made of a soft resin such as polyvinyl chloride formed into a sheet or cloth.
Japanese Utility Model Publication No. 6-13216

  An object of this invention is to provide the helmet which can aim at the improvement of manufacturing efficiency, protecting the opening edge part of the liner for shock absorption.

The helmet according to the present invention is provided with an impact absorbing liner formed in a substantially dome shape inside the upper shell, an undershell formed in a substantially annular shape at the opening edge of the impact absorbing liner, and a chin strap In the helmet to which is attached , the shock absorbing liner is provided with a groove portion for accommodating the chin strap on the surface on the upper shell side, a locking recess is formed in the vicinity of the upper end of the groove portion, and an opening edge of the groove portion On the part side, a step part that is one step lower than the upper part is formed, and the undershell is manufactured by injection molding, and penetrates a through hole formed in the chin strap to a locking recess of the shock absorbing liner. A locking projection for locking the chin strap is formed, a shell body formed in an annular shape so as to cover the opening edge of the shock absorbing liner is formed, and the shock absorbing la Frame portion to be fitted into the stepped portion of the burner is provided on the bottom of the frame portion, characterized in that the holes extend to the outside by inserting the chin strap from the groove is formed.
Further, the helmet according to the present invention is mounted with a shock absorbing liner formed in a substantially dome shape inside the upper shell, and an undershell formed in a substantially annular shape is mounted on the opening edge of the shock absorbing liner, In the helmet to which the chin strap is attached, the shock absorbing liner is provided with a groove portion for accommodating the chin strap on the surface on the upper shell side, and a locking recess is formed in the vicinity of the upper end of the groove portion. On the opening edge side, a step part is formed which is one step lower than the upper part thereof, and the upper shell passes through a through hole formed in the chin strap and the chin strap is inserted into the locking recess of the shock absorbing liner. locking protrusions for locking is formed, the under shell have been produced by injection molding, the shell body formed into an annular shape so as to cover the opening edge portion of the impact absorbing liner shape While being, in that the frame portion to be fitted into the stepped portion of the impact absorbing liner is provided on the bottom of the frame portion hole extending to the outside by inserting the chin strap from the groove is formed Features.

According to the helmet of the present invention, the outer side of the shock absorbing liner can be protected by the upper shell, and the opening edge portion of the shock absorbing liner can be protected by the undershell. In particular, the strength of the opening edge can be improved by manufacturing the undershell by injection molding.
And in this configuration, since the hole for inserting the chin strap can be formed at the same time that the undershell is manufactured, the degree of freedom in designing the helmet such as the chin strap attachment method and the attachment position can be improved. The number of helmet manufacturing processes can be reduced.

  According to the helmet of the present invention, it is possible to improve the helmet manufacturing efficiency while protecting the opening edge of the shock absorbing liner.

In the helmet according to the present invention , the undershell is provided with a protruding plate portion formed at a position facing the groove portion, and a locking convex portion formed on the protruding plate portion, and the chin strap is a groove portion of the shock absorbing liner. And the projecting plate portion of the undershell may be inserted through the hole portion to extend to the outside.
Further, in the helmet according to the present invention , the undershell is formed with a protruding plate portion at a position facing the groove portion, and the chin strap is a hole portion between the groove portion of the shock absorbing liner and the protruding plate portion of the undershell. May be extended to the outside.
The helmet according to the present invention includes a belt-like headband that surrounds the outer circumference of the head of the helmet wearer together with the undershell. The headband includes an adjustment mechanism that adjusts the length of the headband. The fitting structure which fixes the both ends of each may be integrally formed.
In this configuration, by adjusting the length of the headband by operating the adjustment mechanism to match the size of the wearer's head, the helmet is placed so that the headband surrounds the outer circumference of the wearer's head along with the undershell. Can be worn on the head.
Then, by integrally forming the fitting structure for attaching the headband to the undershell, the fitting structure can be easily formed as compared with the case where the fitting structure is formed on the shock absorbing liner.

Further, the fitting structure sandwiches the first rib along the circumferential direction of the undershell, and the first rib protruding radially outward from the outer peripheral surface of the inner wall portion of the undershell disposed inside the opening edge. And a pair of second ribs protruding radially inward from the inner peripheral surface of the outer wall portion of the undershell,
The end of the headband is formed in a substantially plate shape, and one end surface in the thickness direction of this end is in contact with the tip of the first rib, and the other end is in contact with each tip of the pair of second ribs. It is preferable to arrange between the inner wall portion and the outer wall portion.
By configuring the fitting structure in this manner, the end of the headband is simply inserted between the inner wall and the outer wall of the undershell, so that the end of the headband becomes the first rib and the second rib. Therefore, the headband can be fixed to the undershell easily and reliably.

Further, a locking recess is formed on the surface of the shock absorbing liner on the undershell side, and the undershell engages with the locking recess of the shock absorbing liner through the locking hole formed in the chin strap. The stop convex part may be integrally formed.
Also, a locking recess is formed on the upper shell side surface of the shock absorbing liner, and the jaw string and the undershell are placed in the locking recess of the shock absorbing liner through the locking holes formed in the upper shell and the chin strap and the undershell. A locking projection for locking may be formed.

In these configurations, when assembling the helmet, the chin strap can be easily attached only by placing the chin strap only on one of the outer surface or the inner surface of the shock absorbing liner.
That is, when a locking projection is provided on the undershell, the locking string is inserted into the locking hole of the chin strap, and then the chin strap is placed on either the outer surface or the inner surface of the shock absorbing liner. It is easy to prevent the jaw strap from being twisted during installation because it can be locked to the formed locking recess and extended from the hole of the undershell through the shock absorbing liner and the undershell. This makes it easy to assemble the helmet.
Further, even when the upper shell is provided with a locking projection, the locking projection is inserted into the locking holes of the chin strap and the undershell, and the chin strap is formed on the outer surface of the shock absorbing liner. It is easy to prevent the jaw strap from being twisted during the installation work because it can be locked to the recess and extended between the shock absorbing liner and the undershell and extended from the hole of the undershell. Can be assembled easily.

Further, by inserting the locking convex portions of the undershell and the upper shell into the locking concave portions of the shock absorbing liner, the under shell and the upper shell can be fixed to the shock absorbing liner simultaneously with the chin strap.
Furthermore, since the locking projections and locking holes for fixing the chin strap to the shock absorbing liner can be integrally formed in the undershell, the number of components of the helmet can be reduced.

Embodiments of the present invention will be described below with reference to the accompanying drawings.
1 is an exploded perspective view of a helmet according to the embodiment, FIG. 2 is a perspective view of an undershell and a headband, FIG. 3 is a cross-sectional view of a main part showing a locking structure of a chin strap to the helmet, and FIG. 4 is an exploded view of FIG. FIG. 5 is a cross-sectional view showing a fitting structure of the headband to the undershell.
As shown in FIG. 1, a helmet 1 according to the present embodiment is used by, for example, school children and cyclists. The helmet 1 includes a substantially hemispherical or concave curved upper shell 2, a shock absorbing liner 3 formed in a substantially dome shape and attached to the inner surface of the upper shell 2, and lower ends of the upper shell 2 and the shock absorbing liner 3. (Opening edge part) It is roughly comprised with the substantially cyclic | annular undershell 4 with which 3c is mounted | worn. Further, the helmet 1 has a belt-like shape that forms a substantially ring shape that surrounds the outer circumference of the head of the wearer together with the chin strap 5 for locking to the chin and the like and the undershell 4 in a state where the wearer wears the helmet 1. A headband 6 is provided. The headband 6 includes an adjustment mechanism 7 that adjusts the length of the headband 6 in the middle of the longitudinal direction. Note that the headband 6 is not necessarily provided.

The upper shell 2 is made of, for example, an ABS resin such as acrylonitrile butadiene styrene copolymer, and is manufactured by injection molding and configured as a single member. A plurality of air holes 8 are perforated at appropriate intervals in the upper shell 2. The upper shell 2 may be manufactured as a thin layer sheet by, for example, vacuum forming or sheet forming.
As shown in FIGS. 1, 3, and 4, the shock absorbing liner 3 is made of foamed polystyrene or the like so that the outer surface 3 a and the inner surface 3 b have a predetermined thickness, and has the same shape as the upper shell 2. Yes. The shock absorbing liner 3 has a vent hole 9 formed at the same position as the vent hole 8 of the upper shell 2. The upper shell 2 and the shock absorbing liner 3 do not necessarily need to be provided with the vent holes 8 and 9.

  On the outer surface 3a of the shock absorbing liner 3, a pair of grooves 11 and 12 for mounting the chin strap 5 are formed on the left and right sides thereof, respectively. Each of the groove portions 11 and 12 extends upward from the lower end portion 3c of the shock absorbing liner 3 toward the top portion, and is formed, for example, to a midway position that does not reach the top portion. Locking recesses 13 and 14 that are deeper than the grooves 11 and 12 are formed in the vicinity of the upper ends of the grooves 11 and 12, respectively. The locking recesses 13 and 14 do not penetrate the inner surface of the shock absorbing liner 3, but they may penetrate. In the vicinity of the lower ends of the groove portions 11 and 12, step portions 11a and 12a that are further lowered from the upper portion thereof are formed, which facilitates bending of the chin strap 5 attached to the groove portions 11 and 12 to the inside.

The chin strap 5 mounted in each of the grooves 11 and 12 is composed of a front chin strap 5a and a rear chin strap 5b. A locking hole 16 is formed in one end of the front jaw string 5a on the side where the groove 11 is attached, and the other end protrudes outward (downward in FIG. 1) from the lower end of the groove 11. Also, an engaging portion such as a buckle or tongue (not shown) is attached to the other end of the front jaw string 5a, and the pair of left and right front jaw strings 5a, 5a can engage a buckle and tongue provided at the other end. Yes.
A locking hole 17 is formed in one end of the rear jaw string 5b on the side where the groove 12 is mounted, and the other end protrudes outward (downward in FIG. 1) from the lower end of the groove 11. An adjustment plate (not shown) for adjusting the length in the vertical direction is provided in the middle part of each front jaw string 5a, 5a, and the rear jaw string 5b on the same side is connected to the adjustment plate so that the length can be adjusted. ing.

As shown in FIGS. 1 to 4, the undershell 4 is formed of an ABS resin like the upper shell 2, and is manufactured by injection molding, and has a frame portion 21, a hole portion 22, The protruding plate portion 23 is integrally formed by integral molding.
The shell body 19 is formed in a substantially U-shaped cross section so as to cover the lower end portion 3 c of the shock absorbing liner 3. On the inner peripheral surface of the outer wall portion 25 of the shell main body 19 arranged outside the lower end portion 3c of the shock absorbing liner 3, a substantially box-shaped frame portion 21 is inserted into a portion into which one end side of the chin straps 5a, 5b is inserted. 21 is formed. Moreover, the hole 22 for inserting the one end side of the jaw strings 5a and 5b is perforated in the bottom part of each frame part 21. As shown in FIG. The frame portion 21 is fitted into the step portions 11a and 12a of the groove portions 11 and 12 when the lower end portion 3c of the shock absorbing liner 3 is inserted into the shell body. The frame portion 21 and the hole portion 22 are integrally formed with the shell body 19.

At the upper end of the outer wall portion 25 of the shell body 19 located above the frame portion 21, a substantially plate-like protruding plate portion 27 extends in the insertion direction of the chin strap 5 at a portion where one end side of the chin strap 5 is inserted. Is formed. The protruding plate portion 27 is arranged on the groove portions 11 and 12 of the shock absorbing liner 3 in a state where the undershell 4 is mounted on the shock absorbing liner 3, and is curved so as to follow the shape of the outer surface 3a. It is formed into a shape.
Further, the protruding plate portion 27 is formed thinner than the outer wall portion 25 so as to fall one step from the outer peripheral surface side of the outer wall portion 25, and the upper shell 2 and the undershell 4 are attached to the shock absorbing liner 3 ( 2), the lower shell 2a of the upper shell 2 is covered. In this state, the lower end of the upper shell 2 contacts the upper end of the outer wall portion 25 of the shell body 19.
Although not shown, the upper shell 2 and the undershell 4 are fitted to each other at the upper end of the outer wall portion 25 where the protruding plate portion 27 is not formed and the lower end of the upper shell 2 that abuts on the outer wall portion 25. The fitting part to fix together is formed, respectively.

Further, a locking projection 29 protruding from the inner surface is integrally formed on the inner surface of the protruding plate portion 27 facing the groove portions 11 and 12 of the shock absorbing liner 3. The engaging projections 29 coincide with the engaging recesses 13 and 14 of the grooves 11 and 12 in a state where one end side of the chin strap 5 is attached to the grooves 11 and 12 of the shock absorbing liner 3. Thus, the chin strap 5 is engaged with the shock absorbing liner 3.
That is, as shown in FIGS. 3 and 4, the locking convex portion 29 is formed in a substantially trapezoidal shape when viewed from the side, and the distal end portion 29 b is set wider than the base portion 29 a. Further, the base 29 a of the locking projection 29 is formed to have the same size or narrower than the locking holes 16, 17 of the chin strap 5, and the tip 29 b is formed wider than the locking holes 16, 17. Therefore, when inserting the locking projection 29 into the locking holes 16, 17 of the chin strap 5, the locking projections 17 are expanded against the locking holes 16, 17, or against the locking holes 16, 17. 29 has to be tilted and inserted from one corner.

  Here, the locking recesses 13, 14 provided in the grooves 11, 12 of the shock absorbing liner 3 have the bottom 30 set to be substantially the same width as the tip 29 b of the locking projection 29, and the lower side wall 31 a is the bottom. The upper side wall 31b is gradually inclined upward from the bottom 30 toward the opening, and is gradually inclined upward from the bottom 30 toward the opening. Therefore, when the locking projection 29 is fitted into the locking recesses 13 and 14 through the locking holes 16 and 17 of the jaw string 5, it is guided by the upper side wall 31b and guided to the bottom 30 and pulled out. The load is locked by the side wall 31a on the lower side.

Further, as shown in FIGS. 2 and 5, the shell body 19 is integrally formed with fitting structures 33 and 33 for fixing the end portions 61 in the longitudinal direction of the headband 6 to the left and right sides thereof. Each fitting structure 33 includes a first rib 35 projecting radially outward from the outer peripheral surface of the inner wall portion 26 of the shell main body 19 disposed inside the lower end 3 c of the shock absorbing liner 3, and the outer side of the shell main body 19. The second rib 36 protrudes radially inward from the inner peripheral surface of the wall portion 25. Here, the first rib 35 extends to an intermediate position where it does not reach the outer wall portion 25, and the second rib 36 extends to an intermediate position where it does not reach the inner wall portion 26. A pair of second ribs 36 is formed so as to sandwich the first rib 35 along the circumferential direction of the shell body 19.
In the illustrated example, two first ribs 35 are formed side by side along the circumferential direction of the shell main body 19. However, for example, only one or three or more may be formed.

  The end portions 61 and 61 of the headband 6 fixed to the fitting structure 33 configured as described above are formed in a substantially plate shape, and one end surface in the thickness direction is at the tip of the first rib 35. It arrange | positions between the outer side wall part 25 and the inner wall part 26 so that it may contact | abut and an other end surface may contact | abut each front-end | tip of a pair of 2nd rib 36. FIG. That is, the end portions 61 and 61 of the headband 6 are fixed to the shell body 19 by being sandwiched between the first rib 35 and the second rib 36. Note that the protruding lengths of the first rib 35 and the second rib 36 need to be set to such an extent that the end portion 61 of the headband 6 can be sandwiched between the first rib 35 and the second rib 36.

  In addition, projections 62 and 62 projecting from the other end surface are formed at both ends of the end portion 61 along the circumferential direction of the shell main body 19, and a pair of second portions are fixed with the headband 6 fixed to the shell main body 19. The ribs 36 and 36 are in contact with the outside. That is, the pair of protrusions 62 and 62 serve to guide the insertion direction of the end 61 when the end 61 is inserted between the first rib 35 and the second rib 36, and the end 61 is inserted. In this state, the movement of the headband 6 in the circumferential direction with respect to the shell body 19 is restricted.

A pair of reinforcing ribs 37 are formed on both sides of the fitting structure 33 along the circumferential direction of the shell main body 19 so as to extend from the inner wall portion 26 to the outer wall portion 25. The reinforcing rib 37 plays a role of reinforcing the rigidity of the fitting structure 33. Therefore, even if an external force is applied to the fitting structure 33 via the headband 6, it is possible to prevent the headband 6 from being unexpectedly detached from the undershell 4 by suppressing deformation of the fitting structure 33.
The pair of reinforcing ribs 37, 37 may contact both ends of each end 61 of the headband 6 as shown in FIG. 5, but may be separated from both ends of each end 61, for example.

Next, a method for assembling the helmet 1 configured as described above will be described.
First, the chin straps 5a and 5b are inserted into the pair of left and right frame portions 21 and 21 of the undershell 4 from the hole portions 22 and 22, respectively. In this state, the locking projections 29 of the undershell 4 are inserted into the chin straps 5a. , 5b are inserted into the locking holes 16 and 17 from one corner. Further, both end portions 61, 61 of the headband 6 are inserted between the first rib 35 and the second rib 36 formed on the left and right side portions of the shell body 19 from above the undershell 4, respectively. Fit.
Thereafter, the lower end 3c of the shock absorbing liner 3 is fitted or attached to the shell body 19 having a substantially U-shaped cross section, and the chin strings 5a and 5b are mounted in the grooves 11 and 12 of the shock absorbing liner 3. In addition, each locking projection 29 is inserted into a locking recess 13, 14 provided in each groove 11, 12 of the shock absorbing liner 3.

At this time, the frame portions 21, 21 through which the chin strings 5 a, 5 b of the undershell 4 are inserted are attached so as to contact the step portions 11 a, 12 a of the grooves 11, 12 of the shock absorbing liner 3. As a result, the chin strings 5 a and 5 b are locked to the shock absorbing liner 3 via the locking projections 29.
Next, the upper shell 2 is fitted on the shock absorbing liner 3 via a double-sided tape or an adhesive, and the shock absorbing liner 3 and the upper shell 2 are joined to each other with a double-sided tape or an adhesive. At the same time, the upper shell 2 and the undershell 4 are fitted and fixed by a fitting portion (not shown) formed at the lower end of the upper shell 2 and the upper end of the outer wall portion 25.
In this way, the assembly of the helmet 1 is completed.

When the helmet 1 according to the present embodiment is used, for example, when a schoolchild wears the helmet 1 and fastens the chin strap 5, the chin strap 5 is locked by the locking projection 29 of the undershell 4. In the state attached to 13 and 14, it is clamped between the shock absorbing liner 3 and the protruding plate portion 27 of the undershell 4 and is firmly held.
Further, by adjusting the length of the headband 6 by operating the adjusting mechanism 7 so as to match the head size of the schoolchildren, etc., the headband 6 surrounds the outer periphery of the head of the schoolchildren etc. together with the undershell 4 The helmet 1 can be worn on the head.

As described above, according to the helmet 1 according to the present embodiment, the upper shell 2 can protect the outer side of the shock absorbing liner 3, and the shell body 19 of the undershell 4 can protect the lower end 3 c of the shock absorbing liner 3. . In particular, the strength of the lower end 3c of the shock absorbing liner 3 can be improved by manufacturing the undershell 4 by injection molding.
Since the shell body 19 is manufactured by injection molding and the hole 22 through which the chin strap 5 is inserted can be integrally formed, the number of manufacturing steps of the helmet 1 is smaller than that of a conventional undersheet made of soft resin or cloth. The production efficiency can be improved.

Further, in addition to the hole 22, the shell body 19, the frame part 21, the protruding plate part 27, the locking convex part 29, the fitting structure 33, and the reinforcing rib 37 can be integrally formed simultaneously with the injection molding. The efficiency can be further improved, and the number of components of the helmet 1 can be reduced. Furthermore, the design freedom of the helmet 1 such as the attachment position and attachment method of the chin strap 5 and the headband 6 can be improved.
Further, when the helmet 1 is assembled, the chin strap 5 can be easily attached only by placing the chin strap 5 on the outer surface 3 a side of the shock absorbing liner 3. That is, after the locking convex portion 29 of the undershell 4 is inserted into the locking holes 16 and 17 of the chin strap 5, the chin strap 5 is locked to the locking concave portion 13 formed on the outer surface 3 a side of the shock absorbing liner 3. 14, and it is only necessary to extend between the shock absorbing liner 3 and the undershell 4 and extend to the outside from the hole 22 of the undershell 4. This can be easily prevented, and the helmet 1 can be easily assembled.

Further, by inserting the locking projection 29 of the undershell 4 into the locking recesses 13 and 14 of the shock absorbing liner 3, the undershell 4 can be fixed to the shock absorbing liner 3 simultaneously with the chin strap 5, and the helmet 1 production efficiency can be further improved.
Further, the under-shell 4 fitting structure for fixing the end portion 61 of the headband 6 has a first rib 35 protruding from the inner wall portion 26 and a second rib 36 protruding from the outer wall portion 25 of the shell body 19. With this configuration, the end 61 is sandwiched between the first rib 35 and the second rib 36 only by inserting the end 61 of the headband 6 between the inner wall 26 and the outer wall 25. Therefore, the headband 6 can be fixed to the undershell 4 easily and reliably.

In addition, the helmet 1 by this invention is not limited to the above-mentioned Example, It can change suitably in the range which does not deviate from the meaning.
Next, a second embodiment of the present invention will be described with reference to FIG.
A helmet 1 </ b> A according to the second embodiment has a locking projection 29 formed on the inner surface of the upper shell 2. Therefore, it is preferable that the upper shell 2 is integrally formed by injection molding, or after the upper shell 2 is manufactured, the locking projection 29 is fixed to the inner surface of the upper shell 2 by welding or an adhesive. In this embodiment, as shown in FIG. 6, a locking projection 29 is integrally formed on the inner surface of the upper shell 2.
Further, in the helmet 1A, a locking hole 28 penetrating in the thickness direction is formed in the protruding plate portion 27, and the locking hole of the protruding plate portion 27 in a state where the shell main body 19 is attached to the shock absorbing liner 3. 28 coincides with the locking holes 16 and 17 of the jaw string 5 disposed in the grooves 11 and 12 and the locking recesses 13 and 14 of the shock absorbing liner 3.
The rest of the configuration is the same as that of the helmet 1 according to the first embodiment described above.

Therefore, in this configuration, the locking projection 29 of the upper shell 2 is fitted into the locking recesses 13 and 14 through the locking holes 16 and 17 of the chin strap 5, so that the chin strap 5 and the protruding plate portion 27 are fitted. Is locked to the shock absorbing liner 3.
Therefore, when assembling the helmet 1A, the chin straps 5a and 5b are respectively inserted into the holes 22 and 22 of the frame portions 21 and 21 of the undershell 4 so that the locking holes 16 and 17 are used as the locking holes of the undershell 4. Align. In this state, the undershell 4 is attached to the shock absorbing liner 3 and the frame portions 21 and 21 are fitted into the step portions 11 a and 12 a of the groove portions 11 and 12 of the shock absorbing liner 3.
Then, while the upper shell 2 is fitted to the impact absorbing liner 3 via a double-sided tape or an adhesive, the locking projections 29 provided on the inner surface of the upper shell 2 are sequentially formed into the locking holes 28 and the chin straps of the undershell 4. 5 is inserted into the locking recesses 13 and 14 of the shock absorbing liner 3 through the locking holes 16 and 17. In this way, the helmet 1A can be manufactured.

As described above, the helmet 1A according to the second embodiment has the same effects as the helmet 1 according to the first embodiment. For example, the chin strap 5 can be easily attached simply by arranging the chin strap 5 on the outer surface 3 a of the shock absorbing liner 3. Specifically, the chin strap 5 is formed on the outer surface 3 a of the shock absorbing liner 3 after the locking projections of the upper shell 2 are inserted into the locking holes 28 of the undershell 4 and the locking holes 16 and 17 of the chin strap 5. Since it is only necessary to extend to the outside from the hole 22 of the undershell 4 through the impact absorbing liner 3 and the undershell 4, the chin strap 5 is attached to the chin strap 5 during the mounting operation. It is possible to easily prevent twisting, and it is possible to easily assemble the helmet 1A.
Further, the upper shell 2 and the undershell 4 are fixed to the shock absorbing liner 3 simultaneously with the chin strap 5 by inserting the locking convex portions 29 of the upper shell 2 into the locking concave portions 13 and 14 of the shock absorbing liner 3. You can also.

In each of the above-described embodiments, the chin strap 5 is attached to the locking recesses 13 and 14 of the shock absorbing liner 3 with the locking projection 29 and the chin strap 5 is disposed in the groove portions 11 and 12. 11 and 12 are not necessarily provided, and the chin strap 5 may be simply sandwiched between the shock absorbing liner 3 and the undershell 4.
The engaging projection 29 is not limited to the shape described above, and may be a pin or the like. In short, the jaw string 5 is attached to the outer surface 3 a of the impact absorbing liner 3 in cooperation with the engaging recess of the impact absorbing liner 3. Any shape that can be locked and held is acceptable.

Further, when the locking projection 29 is formed on the undershell 4 as in the helmet 1 of the first embodiment, for example, the grooves 11 and 12 and the locking recesses 13 and 14 are formed on the inner surface side of the shock absorbing liner 3. Then, one end side of the chin strap 5 may be disposed on the inner surface side of the shock absorbing liner 3. In this case, the protruding plate portion 27 may be formed at the upper end of the inner wall portion 26 of the shell main body 19 and disposed inside the shock absorbing liner 3, and the locking convex portion 29 is integrated with the outer surface of the protruding plate portion 27. What is necessary is just to shape | mold. In this case, the protruding plate part 27 may be formed to have the same thickness as the inner wall part 26.
Even when configured in this manner, the same effects as those of the first embodiment can be obtained. That is, after the locking projection 29 of the undershell 4 is inserted into the locking holes 16 and 17 of the chin strap 5, the locking recesses 13 and 14 formed on the inner surface 3 b of the shock absorbing liner 3 are inserted into the chin strap 5. And the chin strap 5 can be prevented from being twisted during the mounting operation because it is only necessary to extend between the shock absorbing liner 3 and the undershell 4 and extend from the hole 22 of the undershell 4 to the outside. The helmet can be assembled easily.

1 is an exploded perspective view of a helmet according to a first embodiment of the present invention. It is a perspective view which shows an undershell and a headband in the helmet of FIG. It is principal part sectional drawing which shows the latching structure of the chin strap to a helmet. FIG. 4 is an exploded cross-sectional view of FIG. 3. It is sectional drawing which shows the fitting structure of the headband to an undershell. FIG. 4 is a cross-sectional view similar to FIG.

Explanation of symbols

1,1A Helmet 2 Upper shell 3 Shock absorbing liner 3a Outer surface 3b Inner surface 3c Lower end (opening edge)
4 Undershell 5 Jaw Cord 5a Front Jaw Cord 5b Rear Jaw Cord 6 Headband 7 Adjustment Mechanism 13, 14 Locking Recesses 16, 17 Locking Hole 22 Hole 25 Outer Side Wall 26 Inner Wall 28 Locking Hole 29 Stop projection 33 Fitting structure 35 First rib 36 Second rib

Claims (4)

A helmet in which an impact absorbing liner formed in a substantially dome shape is mounted inside the upper shell, an undershell formed in a substantially annular shape is mounted on the opening edge of the impact absorbing liner, and a chin strap is attached In
The shock absorbing liner is provided with a groove portion for accommodating a chin strap on the surface on the upper shell side, a locking recess is formed in the vicinity of the upper end of the groove portion, and the opening edge side of the groove portion is higher than the upper portion thereof. A stepped part is formed,
The undershell is manufactured by injection molding, and a locking projection for locking the chin strap is formed in a locking recess of the shock absorbing liner through a through hole formed in the chin strap. A shell body formed in an annular shape so as to cover the opening edge of the shock absorbing liner is formed, and a frame portion is provided to be fitted to the step portion of the shock absorbing liner, and is provided at the bottom of the frame portion. Has a hole that extends through the chin strap through the groove . A helmet in which an impact absorbing liner formed in a substantially dome shape is mounted inside the upper shell, an undershell formed in a substantially annular shape is mounted on the opening edge of the impact absorbing liner, and a chin strap is attached In
The shock absorbing liner is provided with a groove portion for accommodating a chin strap on the surface on the upper shell side, a locking recess is formed in the vicinity of the upper end of the groove portion, and the opening edge side of the groove portion is higher than the upper portion thereof. A stepped part is formed,
The upper shell is formed with a locking projection for locking the chin strap to the locking recess of the shock absorbing liner through a through hole formed in the chin strap,
The undershell is manufactured by injection molding, and a shell body formed in an annular shape so as to cover an opening edge of the shock absorbing liner is formed, and a frame that fits into the step portion of the shock absorbing liner The helmet is characterized in that a hole is formed in the bottom portion of the frame portion and the jaw string is inserted through the groove portion and extends to the outside . The undershell is a protruding plate portion formed at a position facing the groove portion,
The locking projection formed on the protruding plate portion is provided,
The helmet according to claim 1, wherein the chin strap extends outside through the hole portion between a groove portion of the shock absorbing liner and a protruding plate portion of the undershell. In the undershell, a protruding plate portion is formed at a position facing the groove portion, and
The helmet according to claim 2, wherein the chin strap extends outside through the hole portion between a groove portion of the shock absorbing liner and a protruding plate portion of the undershell.

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