JP6214211B2 - Container cap - Google Patents

Description

  The present invention relates to a container cap represented by a milk bottle cap.

  A cap used for a wide-mouthed bottle such as a milk bottle is formed of a synthetic resin or the like, and is required to have both of a high sealing property at the time of sealing and an ease of opening at the time of opening. In order to meet such a demand, for example, Patent Document 1 has, as this type of cap, a top wall and a skirt wall suspended from the periphery of the top wall, and an opening of a bottle is provided on the inner periphery of the skirt wall. There are protrusions on the outer peripheral edge of the rim, the outer surface of the skirt wall has a brim for applying an opening force with fingers, and the skirt wall has a narrow and thinned weakened part Things are listed.

  With such a cap, when sealing, the projection can be firmly engaged with the step portion of the bottle to ensure high sealing performance. If there is no weakened part at the time of opening, the opening strength is high and it is difficult to open. However, because the weakened part is formed, the weakening part breaks when the opening force is applied, and the cap expands in the radial direction, thereby reducing the opening strength, and the protrusion and the bottle step part. Engagement can be easily released and can be easily opened. Further, since the weakened portion is broken, the load applied to the finger at the time of opening is rapidly reduced, so that a reduction in the opening strength can be perceived.

JP 2011-201558 A

  In this type of cap, when the cap is pressed against the opening edge of the bottle, the projection needs to pass over the step and then hook on the step, and when passing through the step, the skirt wall The passage is possible by elastically expanding the diameter in the radial direction. After the passage, the skirt wall is reduced in diameter and returned to the original state, so that the protrusion is hooked on the stepped portion.

  However, in the cap described in Patent Document 1, when the diameter of the skirt wall of the cap is increased in the step of covering the bottle, stress tends to concentrate on the weakened portion of the thin wall. When the cap temperature is low, such as when the cap is put on in a low temperature environment, and therefore the resin of the cap is hard, the weakened portion may be torn, although very rarely. As a result, the skirt wall spreads in the radial direction, and the hook of the protrusion may be loosened, which may hinder the sealing of the bottle. Further, if the weakened portion is supplied in a state where it has been torn, the consumer may misidentify it as an opened product. Therefore, the cap described in Patent Document 1 has room for further improvement.

  Accordingly, the present invention solves such problems and is a cap that is put on a container such as a bottle, and has both high sealing performance at the time of sealing and ease of opening at the time of opening, and a cap on the container. It is an object of the present invention to obtain a cap that can surely prevent the occurrence of inconvenience such as breakage when covered.

To achieve this object, the container cap of the present invention comprises:
A circular top wall and a skirt wall depending from the periphery of the top wall;
The skirt wall is elastically deformed in the expanding direction by the container when the cap is put on the container,
It has a collar part for opening and closing in a part of the circumferential direction in the lower part of the outer surface of the skirt wall,
Having a weakened portion formed thinner than other portions along the axial direction of the skirt wall from the lower end of the skirt wall;
The lower end of the weakened portion, have a reinforcing portion having a thickness thicker than other portions in weakened portions,
On the inner surface of the skirt wall, there is a protrusion that engages with a step formed on the container when the cap is put on the container,
The skirt wall is elastically deformed in the diameter-expanding direction by pressing the protrusion against the container when the cap is put on the container.
The protrusion is formed by being divided into a plurality along the circumferential direction of the skirt wall,
The weakened part is provided in the part where the protrusion along the circumferential direction of the skirt wall is not formed,
The projection in the vicinity of the portion where the weakened portion is formed has a shape having a smaller cross section than the projection of the other portion,
Portion weakened portion of the skirt wall is formed, it is shall be formed thinner than other portions of the skirt wall.

  With such a configuration, the configuration having the thick-walled reinforcing portion can reliably prevent inconveniences such as breakage in the weakened portion when the cap is put on the container. In order to have both the prevention of breakage and the ease of opening, the cap is made of a synthetic resin with a predetermined elasticity and the dimensions of the weakened part and the thick-walled reinforcing part are set appropriately. do it.

According to the cap of the container of the present invention, the inner surface of the skirt wall has a protrusion that engages with the step formed on the container when the cap is put on the container, and the skirt wall covers the container with the cap. by protrusion is pushed into the container when it is, because it is intended to be elastically deformed in the diameter direction, weakening the skirt wall is elastically expanded when mounting the cap is easily extended in the circumferential direction of the skirt wall structure Nevertheless, the reinforcing effect by the thick reinforcing portion can be preferably exhibited.

  According to the cap of the container of the present invention, the weakened portion is constituted by a groove formed in the skirt wall, and the thick-walled reinforcing portion is formed such that the bottom wall of the groove is thicker than other portions in the weakened portion. It is preferable that With such a configuration, both the weakening property of the weakened portion and the reinforcing property of the thick reinforcing portion can be exhibited well.

  According to the cap of the container of the present invention, it is preferable that the thick-walled reinforcing portion has a constant-thickness portion and an inclined portion that gradually decreases in thickness toward the upper side in order from the lower end side of the skirt wall. . With such a configuration, the reinforcing effect when the cap is attached can be satisfactorily exhibited, and the weakened portion can be smoothly broken along its length when opened.

According to the cap of the container of the present invention, the protrusion is formed by being divided into a plurality along the circumferential direction of the skirt wall, and the weakened portion is formed in a portion where the protrusion along the circumferential direction of the skirt wall is not formed. because provided, at the time of unsealing, the projections do not interfere with the breaking of the weakened portion, thus it is possible to smoothly break.

According to the container cap of the present invention, the projections in the vicinity of the portion weakened portion is formed, because cross-section than the projection of the other portions is small shape, when mounting the cap by the projections is present The fact that stress concentrates on the weakened portion and breakage or cracks can be suitably mitigated, and the weakened portion can be easily broken at the time of opening.

  According to the cap of the container of the present invention, it is possible to reliably prevent the occurrence of inconvenience such as breakage when the cap is put on the container, while ensuring the same high sealing performance as the conventional cap at the time of sealing, In addition, it is possible to combine without opening the ease of opening at the time of opening.

It is a three-dimensional view of the cap of the container of the embodiment of the present invention. It is a top view of the cap. It is a bottom view of the cap. It is a three-dimensional cross-sectional view of the weakened part and its vicinity in the cap. It is sectional drawing which shows the state in which the same cap was covered on the bottle. It is an expansion three-dimensional figure of a weakening part and its vicinity. It is an expanded sectional view of a weakening part. It is an enlarged bottom view of a weakening part. It is a figure which shows a mode when a cap is put on a bottle. It is a figure which shows a mode when opening a bottle.

  The cap of the container according to the embodiment of the present invention is formed of a synthetic resin such as polyethylene. As shown in FIGS. A skirt wall 12 that hangs down and has a predetermined thickness is integrally formed. The connecting portion 13 between the top wall 11 and the skirt wall 12 is formed so that the cross section thereof has an arc shape, that is, a rounded shape.

  FIG. 5 shows a state where the cap is put on a wide-mouthed bottle 1 such as a milk bottle. As shown in the figure, an inner ring 14 inserted into the upper end opening 2 of the bottle 1 and a protrusion 15 that engages with a step 3 formed on the outer periphery of the upper end of the bottle 1 are integrated on the inner surface of the cap. Is formed.

  On the outer periphery of the inner ring 14, a pressure contact protrusion 16 is formed that elastically presses against the inner periphery of the upper end opening 2 of the bottle 1. As shown in FIGS. 5 and 3, the protrusion 15 is formed in a form divided into a plurality along the circumferential direction of the cap. The protrusion 15 has a large protrusion 15a that is long in the direction of the axis of the cap, that is, in the direction of the central axis of the skirt wall 12 and that is large in the radial direction of the cap. Small projection 15b formed in a cross section smaller than the large projection 15a by being formed short in the direction of the cap and in the radial direction of the cap, and corresponding to the portion 15d and the small projection 15b having a size corresponding to the large projection 15a. A portion 15e of a size to be formed has a deformed projection 15c formed continuously in the circumferential direction of the cap.

  An annular protrusion 17 is integrally formed on the inner surface of the top wall 11 between the inner ring 14 and the skirt wall 12. The annular protrusion 17 is elastically pressed against the upper end surface 4 around the opening 2 of the bottle 1 when the protrusion 15 (15a, 15b, 15c) is engaged with the step 3 of the bottle 1. It is configured.

  That is, as shown in FIG. 5, when the cap is put on the bottle 1, the pressure contact protrusion 16 of the inner ring 14 is elastically pressed to the inner periphery of the upper end opening 2 of the bottle 1, and the protrusion 15 (15 a, When the annular protrusion 17 is elastically pressed against the upper end surface 4 of the bottle 1 when 15b, 15c) is engaged with the step 3 of the bottle 1, the opening 2 of the bottle 1 is reliably sealed. .

  An opening collar 18 is integrally formed at the lower end of a part of the outer periphery of the skirt wall 12. A plurality of ribs 19 are integrally formed in the circumferential direction between the upper surface of the opening flange portion 18 and the outer surface of the skirt wall 12.

  As shown in FIG. 2 and FIG. 3, at a position 90 degrees clockwise and counterclockwise along the circumferential direction of the cap from the central portion 20 of the opening flange portion 18 in the skirt wall 12, respectively. The weakening parts 21 and 21 are formed along the axial center direction of the cap. That is, the pair of weakening portions 21 and 21 are formed at positions 180 degrees apart from each other along the circumferential direction of the cap.

  On the other hand, the above-described protrusions 15 (15a, 15b, 15c) are formed in detail as follows. That is, a pair of deformed protrusions 15c are formed as shown in detail in FIG. 3, and a portion 15e having a size corresponding to the small protrusion 15b overlaps with an end portion of the opening collar portion 18 along the circumferential direction of the cap. In addition, a portion 15d having a size corresponding to the large protrusion 15a is formed at a position that does not overlap with the opening flange portion 18 along the circumferential direction of the cap. A pair of small protrusions 15 b is formed corresponding to each weakened portion 21. That is, the weakened portion 21 is formed on the outer surface of the portion 22 of the skirt wall 12 where the small protrusions 15b, 15b are not formed between the pair of small protrusions 15b, 15b along the circumferential direction of the cap. . The large protrusion 15a is formed on a portion of the skirt wall 12 opposite to the portion where the collar portion 18 is formed along the circumferential direction of the cap. That is, the large protrusion 15a is formed on the skirt wall 12 at a position away from the flange 18 along the circumferential direction of the cap from the small protrusion 15b. In the illustrated example, large protrusions 15a are formed at four positions along the circumferential direction of the cap.

  As shown in detail in FIGS. 1, 4, and 5, at the lower end of the outer periphery of the skirt wall 12, a portion protruding outward along the radial direction of the cap is provided at a portion other than the portion where the flange portion 18 is formed. A meat part 23 is formed.

  Thin portions 25 having concave outer surfaces are formed at a plurality of positions along the circumferential direction of the skirt wall 12. Specifically, as shown in detail in FIG. 1, a thin portion 25 a is formed at a position corresponding to the collar portion 18. The thin-walled portion 25a is wide along the circumferential direction of the skirt wall 12 from a portion 15d having a size corresponding to the large protrusion of one deformed protrusion 15c to a portion 15d having a size corresponding to the large protrusion of the other deforming protrusion 15c. Formed in the range. That is, the thin-walled portion 25a includes the entire range in which the collar portion 18 is formed along the circumferential direction of the skirt wall 12, and the range from the collar portion 18 to a portion 15d having a size corresponding to the large projection of each deformed projection 15c. And is formed over.

  A thin portion 25b is also formed in the portion of the skirt wall 12 where the weakened portion 21 is formed along the circumferential direction. That is, the thin portion 25b is formed in a range extending from one small protrusion 15b with the weakened portion 21 interposed therebetween to the other small protrusion 15b.

  Further, thin portions 25c are also formed in the portions where the large protrusions 15a along the circumferential direction of the skirt wall 12 are formed. The thin portion 25c is formed in a narrower range along the circumferential direction of the skirt wall 12 than the formation range of each large protrusion 15a. That is, one end and the other end of the large protrusion 15a along the circumferential direction of the skirt wall 12 both protrude in the circumferential direction of the skirt wall 12 from the thin wall portion 25c.

  As shown in detail in FIGS. 1 and 4, the thin portion 25 (25a, 25b, 25c) reaches the connecting portion 13 from the position of the upper end of the thick portion 23 along the axial direction of the cap. Is formed over. The boundary between the thin portion 25 (25a, 25b, 25c) and the thick portion 23 is inclined so that the thickness gradually increases from the thin portion 25 (25a, 25b, 25c) toward the thick portion 23. A surface 26 is formed.

  The end 27 of the thin portion 25 (25a, 25b, 25c) along the circumferential direction of the skirt wall 12 is formed in a straight line shape along the axial direction of the cap. A portion where the thin portion 25 (25a, 25b, 25c) along the circumferential direction of the skirt wall 12 is not formed is formed as a standard thick portion.

Note that the thick portion 23 is not essential, and in some cases, the thick portion 23 may not be formed.

  The weakening unit 21 will be described in detail. As shown in FIGS. 1 to 8, the weakened portion 21 is formed by a groove having a V-shaped cross section, and as shown in detail in FIG. 7, in the bottom wall 31 constituting the bottom of the groove, that is, the skirt wall 12. The portion of the bottom wall 31 is formed so as to be thinner than the thin portion 25b, so that the bottom wall 31 is easily torn in the axial direction of the cap. The weakened portion 21 of this groove structure is formed over a range from the lower end of the skirt wall 12 to the connecting portion 13 along the axial direction of the cap.

  For example, when the diameter of the cap is about 45 mm and the thickness of the standard thick portion 28 of the skirt wall 12 is about 0.85 mm, the thickness of the thin portion 25 (25b) is preferably about 0.65 mm. 7, the thickness of the bottom wall 31 represented by “A” is preferably about 0.25 mm. The protruding amount of the outer peripheral surface 24 of the thick portion 23 from the thin portion 25 is about 0.3 mm, and the protruding amount of the outer peripheral surface 24 of the thick portion 23 from the outer surface of the bottom wall 31 is about 0.5 mm. The dimension from the lower end of the skirt wall 12 to the upper end of the outer peripheral surface 24 of the thick wall portion 23, that is, the dimension from the lower end of the skirt wall 12 to the boundary portion between the outer peripheral surface 24 and the inclined surface 26 of the thick wall portion 23 is It is about 1.0 mm. The inclination angle of the inclined surface 26 with respect to the axis of the cap can be set to 30 degrees, for example. The opening angle of the V-shaped groove is preferably about 80 degrees. As shown in detail in FIG. 7, the inner peripheral surface 32 of the skirt wall 12 is the direction of the axial center of the cap, that is, a surface formed straight, but the outer peripheral surface 33 of the skirt wall 12 includes the standard thick portion 28 and the thin wall. Both portions 25 are formed in a tapered shape that gradually decreases in diameter from the lower end of the skirt wall 12 toward the top wall 11. On the other hand, the thickness of the bottom wall 31 is formed constant over the length direction of the groove of the weakened portion 21. That is, the outer surface of the bottom wall 31 is formed straight like the inner peripheral surface 32.

  For this reason, as shown in detail in FIGS. 1 and 6, the groove width of the weakened portion 21 of the groove structure is gradually narrowed on the surface of the thin portion 25b from the lower portion to the upper portion when viewed from the outside of the cap. It is formed in the shape. The groove width on the surface of the bottom wall 31 at the groove bottom is constant from the lower part to the upper part of the cap. Further, as shown in detail in FIG. 7, the weakened portion 21 of the groove structure is formed in a shape in which the groove depth gradually decreases from the lower portion toward the upper portion. In the figure, 30 indicates the groove side surface of the weakened portion 21 of the groove structure.

  A tapered surface 37 is formed on the inner periphery of the lower end portion of the skirt wall 12. The tapered surface 37 is formed as a result of imparting a positioning function to the cap molding die member. By this, when the cap is put on the bottle 1, the cap and the bottle 1 It is also possible to exert the effect of guiding the concentricity. At the location where the tapered surface 37 is formed, the thickness of the weakened portion 21 is reduced by that amount, and is particularly thin at the lower end surface portion of the skirt wall 12.

  At the lower end of the weakened portion 21, a thick reinforcing portion 34 that is integrally formed so as to fill a groove constituting the weakened portion 21 to some extent is provided. That is, the thick reinforcing portion 34 is configured such that the thickness of the bottom portion of the groove is larger than the thickness of the bottom wall 31 of other portions in the weakened portion. Reference numeral 35 denotes an outer surface of the thick reinforcing portion 34. In the portion where the outer surface 35 is formed, the thick reinforcing portion 34 is formed with a constant thickness. Reference numeral 36 denotes an inclined surface, which is formed in a shape that connects the upper end of the outer surface 35 and the portion of the bottom wall 31 above the upper end. That is, in the part in which the inclined surface 36 in the thick reinforcement part 34 is formed, it is comprised so that the thickness may become small gradually toward the upper side. At the location where the tapered surface 37 is formed, the thickness of the thick reinforcing portion 34 represented by “B” in FIG. 7 is the same as that of the other portion where the thick reinforcing portion 34 is formed. It is thinner than that.

  In the drawing, the thick reinforcing portion 34 is illustrated in which the longitudinal section has a shape that follows the longitudinal section of the thick portion 23. However, as described above, the thick portion 23 is not necessarily provided, and the shape of the longitudinal section of the thick reinforcing portion 34 does not need to correspond to the sectional shape of the thick portion 23 and is arbitrarily determined. be able to. Moreover, the dimension of each part of the thick reinforcement part 34 can be suitably changed within the scope of the technical idea of the present invention.

  As shown in detail in FIG. 7 and FIG. 4, the thick reinforcing portion 34 configured so that the vertical cross-sectional shape becomes a shape that follows the vertical cross-sectional shape of the thick wall portion 23 is smaller than the thick wall portion 23. It is formed to become. Specifically, in the cap of the above-described dimension example, the dimension from the surface of the thin portion 25b of the skirt wall 12 to the outer peripheral surface 24 of the thick portion 23, that is, the protruding height of the thick portion 23 is about 0.3 mm. is there. In addition, the dimension from the surface 35 of the thick reinforcing portion 34 to the lower end portion of the tapered surface 37, represented by “B” in FIG. 7, is such that the thick reinforcing portion 34 is larger in diameter than the thick portion 23. It is preferable that the thickness is not less than twice the thickness “A” of the bottom wall 31 as long as it does not protrude outward along the direction. Specifically, in the above example, about 0.5 to 0.75 mm is preferable. Furthermore, when the dimension from the lower end of the skirt wall 12 to the upper end of the outer peripheral surface 24 of the thick wall portion 23 is about 1.0 mm as described above, the thick wall portion represented by “C” in FIG. The dimension from the lower end surface of the skirt wall 12 to the start end portion of the inclined surface 36 in the reinforcing portion 34, that is, the outer surface 35 of the thick reinforcing portion 34 along the axial direction of the cap is preferably about 1.0 mm. . In FIG. 7, the dimension represented by “D”, that is, the dimension from the lower end surface of the skirt wall 12 to the upper end portion of the inclined surface 36 in the thick reinforcing portion 34 depends on the inclination angle of the inclined surface 36 with respect to the axial direction of the cap. Change. This inclination angle can be set equal to the inclination angle of the inclined surface 26 of the thick portion 23, for example, 30 degrees.

  In such a configuration, as shown in FIG. 9, when the cap is put on the bottle 1, the cap is centered on the bottle 1 by the action of the tapered surface 37. In this state, when a pressing force in the direction toward the bottle 1 is applied to the cap, the protrusion 15 (15a, 15b, 15c) comes into contact with the peripheral edge of the upper end of the bottle 1. When further pressing force is applied in this state, the lower portion of the skirt wall 12, that is, the portion where the projections 15 (15a, 15b, 15c) are formed elastically expands in diameter. At this time, the protrusion 15 (15a, 15b, 15c) and the thick part 23 are formed on the lower part of the skirt wall 12, but the thin part 25 (25a, 25b, 25c) is formed correspondingly. Necessary elastic deformation is allowed.

  When the skirt portion of the skirt wall 12 is elastically deformed in the diameter-expanding direction as described above, a corresponding stress acts on the weakened portion 21, but a thick reinforcing portion 34 is formed in the weakened portion 21. Therefore, the extension of the weakened portion 34 along the circumferential direction of the skirt wall 12 is suppressed to a small extent. For this reason, it can prevent reliably that the weakening part 21 fractures | ruptures or a crack arises in the weakening part 21. FIG. That is, the cap can be attached to the bottle 1 in a healthy state in which the bottom wall 31 and the thick reinforcing portion 34 of the weakened portion 21 are not broken or cracked. Since the weakened part 21 is formed thinner than the other part in the skirt wall 12, stress tends to concentrate. However, since the pair of small protrusions 15b sandwiching the weakened portion 21 in the circumferential direction of the skirt wall 12 is formed in a shape having a smaller cross section than the large protrusion 15a and the portion 15d of the deformed protrusion 15c. Compared with a protrusion having a larger cross section than that, it is more easily elastically deformed, and therefore stress concentration on the weakened portion 21 can be reduced. When the mounting of the cap is completed, the state shown in FIG. 5 is obtained.

  In the mounting completion state shown in FIG. 5, since the weakened portion 21 is not broken or cracked as described above, the required sealed state can be maintained. In addition, since the thick part 23 and the protrusions 15 (15a, 15b, 15c) are formed at the skirt of the skirt wall 12, it is ensured that unnecessary deformation occurs in the skirt and the sealed state is hindered. Can be prevented.

  When opening the cap, as shown in FIG. 10, a large upward force is applied to the collar portion 18 with fingers or the like. As a result, stress concentrates on the weakened portion 21 formed in the thin wall at the portion of the skirt wall 12 where the protrusions 15 (15a, 15b, 15c) are not provided, and the thick reinforcing portion 34 is greatly increased in the circumferential direction of the skirt wall 12. As it spreads, the other portions of the weakened portion 21 also spread, so that the weakened portion 21 breaks. That is, since the projection 15a is engaged with the step portion 3 of the bottle 1 on the side opposite to the collar portion 18, the cap bends with the upper end of the weakened portion 21 as the center as shown by the phantom line in FIG. As a result, the weakened portion 21 including the thick reinforcing portion 34 is broken, and the cap can be easily opened. As described above, the pair of weakening portions 21 and 21 is provided at a position spaced 90 degrees clockwise and counterclockwise along the circumferential direction of the cap from the center portion 20 of the opening collar portion 18. This position is the best, but it can be provided within the range of 90 degrees or less except the part where the opening collar 18 is formed.

  That is, according to the above-mentioned cap, it is possible to reliably prevent breakage and the like when the cap is put on the bottle, and maintain high sealing performance that is the same as the conventional cap when sealed, and further when opened. The ease of opening equivalent to that of a conventional cap can be ensured.

  In the case where the cap is formed of polyethylene as described above and the dimensions of the respective parts are set as described above, in order to break the weakened portion 21 with a small force at the time of opening, the thickness of the bottom wall 31, that is, FIG. The dimension of “A” shown was preferably in the range of 0.2 to 0.3 mm. In order to reduce the elongation of the thick reinforcing portion 34 of the weakened portion 21 when attached to the bottle 1 and to surely prevent the occurrence of breakage and cracks during attachment, the thickness of the thick reinforcing portion 34, ie, the figure The dimension of “B” shown in FIG. 7 was preferably 0.5 mm or more.

  Even if a crack occurs in the bottom wall 31 of the weakened portion 21, it will be weakened if the thick reinforcing portion 34 is not broken and the circumferential extension of the cap generated in the thick reinforcing portion 34 can be reduced. It is possible to prevent breakage of the portion 21 and maintain a normal sealed state when the cap is attached. For this purpose, the thickness of the thick reinforcing portion 34 along the axial direction of the cap, that is, the dimensions of “C” and “D” shown in FIG. In any case, it was preferable that the thickness was 1 mm or more.

  As the cap material having the above-mentioned size, a material in which low density polyethylene and high density polyethylene were mixed at a mass ratio of 9: 1 was used. Then, “A” shown in FIG. 7 was 0.20 mm, “B” was 0.20 mm, “C” was 0.20 mm, and “D” was 0.95 mm. That is, the thick reinforcing part 34 was not formed. That is, the thickness of the portion where the thick reinforcing portion 34 is to be formed is the same as the thickness of the bottom wall 31. In this case, the bottle 1 was covered with a cap at normal temperature and at 5 degrees Celsius. As a result, the weakened portion 21 was broken at both normal temperature and 5 degrees Celsius. That is, in this case, the weakened portion 21 is insufficient in strength, and the required performance cannot be exhibited. Specifically, when the cap is put on the bottle 1, the bottom wall 31 at the lower end of the weakened portion 21 is extended in the circumferential direction of the skirt wall 12 and widened, and then the bottom wall 31 in the upper portion is also enlarged. It spread and cracked. And the crack which generate | occur | produced on this upper side propagated to the lower end side, and the weakened part 21 fractured | ruptured.

  On the other hand, when “A” is changed to 0.25 mm and “B” is changed to 0.30 mm with the same material, that is, when the thick reinforcing portion 34 is slightly formed, no breakage occurs at room temperature. Breakage occurred only at 5 degrees Celsius. Therefore, in this case as well, the strength of the thick reinforcing portion 34 has not been sufficient.

  Furthermore, when “A” is changed to 0.25 mm, “B” to 0.58 mm, “C” to 1.00 mm, and “D” to 1.90 mm with the same material, When formed in a preferred size, no breakage occurred at either room temperature or 5 degrees Celsius.

  From this experiment, by setting the thickness of the bottom wall 31 in the weakened part and the dimensions of each part of the thick reinforcing part 34 appropriately, even if the cap is put on the bottle 1 under the low temperature condition of 5 degrees Celsius, the weakened part It was confirmed that the occurrence of breakage in can be effectively prevented.

DESCRIPTION OF SYMBOLS 11 Top wall 12 Skirt wall 15 Projection 18 Brim part 21 Weak part 31 Bottom wall 34 Thick reinforcement part 35 Outer surface 36 Inclined surface

Claims (4)

A cap that covers a container such as a bottle, having a circular top wall and a skirt wall depending from the periphery of the top wall,
The skirt wall is elastically deformed in the expanding direction by the container when the cap is put on the container,
It has a collar part for opening and closing in a part of the circumferential direction in the lower part of the outer surface of the skirt wall,
Having a weakened portion formed thinner than other portions along the axial direction of the skirt wall from the lower end of the skirt wall;
The lower end of the weakened portion, have a reinforcing portion having a thickness thicker than other portions in weakened portions,
On the inner surface of the skirt wall, there is a protrusion that engages with a step formed on the container when the cap is put on the container,
The skirt wall is elastically deformed in the diameter-expanding direction by pressing the protrusion against the container when the cap is put on the container.
The protrusion is formed by being divided into a plurality along the circumferential direction of the skirt wall,
The weakened part is provided in the part where the protrusion along the circumferential direction of the skirt wall is not formed,
The projection in the vicinity of the portion where the weakened portion is formed has a shape having a smaller cross section than the projection of the other portion,
Portion weakened portion of the skirt wall is formed, a cap of a container which is characterized that you have formed thinner than other portions of the skirt wall.   The weakened portion is constituted by a groove formed in the skirt wall, and the thick reinforcing portion is formed by making the bottom wall of the groove thicker than other portions in the weakened portion. Cap of the container as described.   3. The container cap according to claim 2, wherein the thick-walled reinforcing portion has, in order from the lower end side of the skirt wall, a constant-thickness portion and an inclined portion whose thickness gradually decreases toward the upper side. . The weakened portion is formed in a portion of the skirt wall where these small protrusions are not formed between the pair of small protrusions along the circumferential direction of the cap.
The container cap according to any one of claims 1 to 3, wherein the thin portion is formed in a range from one small protrusion to the other small protrusion with the weakened portion interposed therebetween .

Images