JP2020121805A - Bottle cap - Google Patents

Abstract

To provide a suitable bottle cap for a bottle used as a container that spouts a small amount of a content such as a toilet article, a detergent, a body care article, a food product, a medical product, a supplement or the like.SOLUTION: According to a bottle cap comprising a main cap 1 integrally provided with a raw material storage part 5 inserted in a bottle mouth 100a, a bottom seal cap 3 formed from an annular recess 13, and a ring holder 2 fixed inside the bottle mouth, a spouting hole 52 is provided and a projection 55 capable of penetrating through a top part 20c of an inner ring 20 through the following is provided in a top part 4a of the main cap 1, while a hinge cap 50 is connected to the main cap 1 in a freely opening/closing manner by a hinge part 51 and the spouting hole 52 is closed to this hinge cap 50.SELECTED DRAWING: Figure 2

Description

TECHNICAL FIELD The present invention relates to a bottle cap having a raw material storage portion for storing powdery or liquid raw material and opening the raw material storage portion to release the raw material into a bottle in accordance with an opening operation.

As such a bottle cap, there is one described in Patent Document 1.
The bottle cap of this prior art example comprises a main cap, a core, a ring holder and a bottom seal cap. The main cap is formed by integrally forming a cylindrical raw material accommodating portion to be inserted into the bottle mouth portion on a cap body that is a screw cap that seals the bottle mouth portion. A metal coating layer is formed on the outer surface of the core, and the core is inserted into the raw material storage portion to prevent deterioration of the raw material in the raw material storage portion and prevent bacteria. The bottom seal cap seals the raw material storage part by fitting the annular recess and the lower end portion of the raw material storage part. The ring holder is fixed in the bottle mouth, and when the main cap is lifted by opening and rotating, the bottom holder cap is restricted from rotating and rising to separate the bottom seal cap from the raw material container, that is, the bottom seal. Open the cap. As a result, the raw material in the raw material container is discharged.

(A) In the bottle cap of this prior example, after the bottom seal cap is opened by opening the main cap and the raw materials in the raw material storage section are discharged into the bottle, the contents in the bottle mixed with the raw materials are bottled. In order to pour from the bottle, the main cap must be turned to completely remove it from the bottle mouth. When the content in the bottle is large, such as a drink, and the volume of one-time dispensing is large, it is convenient to remove the main cap, but for cosmetics, detergents, personal care products, foods, pharmaceuticals, supplements, etc. , Generally, I want to pour out in small amounts, which is very inconvenient.
(B) Conventionally, in bottles for cosmetics, detergents, personal care products, foods, pharmaceuticals, supplements, etc., which need to be dispensed in small amounts, the spouting port itself of the bottle is made small. In addition, cosmetics, detergents, personal care products, foods, pharmaceuticals, supplements, etc. are stored in bottles that are easily affected by the external environment, so the expiration date of the main ingredients in the bottle is limited. In consideration of this, additives (for example, preservatives and deterioration preventing agents) and the like are often added in advance in order to deal with it, but this is not preferable from the viewpoint of hygiene.
(C) In the bottle cap of the preceding example, since the ring holder does not come out from the bottle mouth portion, when fixing the ring holder inside the bottle mouth portion, the outer peripheral surface of the ring holder and the inner peripheral surface of the bottle mouth portion are In order to avoid these thermal deformations, ultrasonic welding is performed at a plurality of points in a pinpoint manner.
However, in order to perform such welding, ultrasonic waves are emitted from the outside of the bottle mouth by a pinpoint type ultrasonic welding machine, and the focus is adjusted, so that the interface between the ring holder and the bottle mouth ( It is necessary to ultrasonically weld the contact surface locally (dotted) and at a plurality of points separated in the circumferential direction.
Therefore, not only the pinpoint type ultrasonic welding machine itself is expensive in the first place, but also the ultrasonic focus must be accurately adjusted at the interface between the ring holder and the bottle mouth, and it must be done for each of multiple points. Therefore, a high level of welding technology and labor are required, resulting in high manufacturing cost.

Japanese Unexamined Patent Application Publication No. 2018-62382

In view of the problems (A) and (B) as described above, a first object of the present invention is to pour out contents little by little such as cosmetics, detergents, personal care products, foods, medicines, supplements, and the like. An object is to provide a bottle cap suitable for a bottle used as a container.
In view of the above problem (C), the second problem is to fix the ring holder in the bottle mouth part with a very simple structure to achieve a large reduction in manufacturing cost. ..

The first invention, which is the main configuration as a bottle cap,
(1) A resin main cap in which a cylindrical main body accommodating portion to be inserted into the bottle mouth is integrally provided in a cap body that is a screw cap that seals the bottle mouth,
(2) A resin bottom seal cap formed with an annular recess into which the lower end of the raw material container is fitted,
(3) A resin core having a metal coating layer formed on the outer surface, the metal coating layer being in close contact with the inner surface of the raw material storage portion and inserted into the raw material storage portion,
(4) A resin ring holder which is fixed to the mouth of the bottle by inserting the raw material storage portion,
(5) By fitting the annular recess of the bottom seal cap and the lower end portion of the raw material storage portion and engaging the meshing portion of the bottom seal cap and the ring holder, the lower end opening of the raw material storage portion is bottomed. Sealed with a seal cap,
(6) When the main seal cap is lifted and rotated, the bottom holder cap restricts the rotation and lift of the bottom seal cap from the bottom holder cap and the bottom seal cap. In addition to the first problem described above, the bottle cap configuration is adopted in which the fitting and the engagement between the bottom seal cap and the ring holder are disengaged, the bottom seal cap is separated from the raw material container, and the lower end opening of the raw material container is opened. To achieve
(7) A pouring hole is provided in the top part of the cap body, and a hinge cap is connected to the cap body so as to be openable and closable by the hinge part. The hinge cap closes the pouring hole and through It is characterized in that a protrusion that can penetrate the top of the child is provided.
The second invention is a concrete example of the first invention,
(8) The protrusion is characterized in that a spout hole is formed in the core by breaking through the top of the core as the top of the hinge cap is deformed.
The third invention adopts the above-mentioned configurations (1) to (6) similarly to the first invention, and achieves the above-mentioned first problem with a configuration different from that of the first invention.
(9) A hinge cap is connected to the cap body by a hinge portion so as to be openable and closable, and a pouring hole is provided in the top portion of the hinge cap and the top portion of the cap body, and the cap is attached to the top portion of the hinge cap. It is characterized in that a protrusion for closing the pouring hole of the main body is provided.
The fourth invention solves the above-mentioned second problem,
(10) A retaining protrusion is formed on the outer peripheral surface of the ring holder, and the retaining protrusion engages with the lower edge of the bottle mouth after being pressed into the bottle mouth of the ring holder. The ring holder is configured to prevent the ring holder from coming off from the mouth of the bottle.

The first invention is by adopting the configurations of (1) to (6) above. The above problem (B) can be dealt with, and by adopting the above configuration (7), the above problem (A) can be dealt with.
In the second invention, by adopting the configuration of (8) above, the sealing property by the core for the raw material container, the deterioration prevention and the antibacterial action can be reliably maintained until the package is opened.
The third invention is by adopting the configurations of (1) to (6) above. The above problem (B) can be dealt with, and by adopting the above configuration (9), the above problem (A) can be dealt with.
According to a fourth aspect of the invention, by adopting the configuration of (10) above, as the main cap is screwed into the bottle mouth portion, the ring holder is simply press-fitted into the bottle mouth portion to form on the outer peripheral surface of the ring holder. Since the ring holder is prevented from coming off from the bottle mouth by engaging the retaining protrusion that is engaged with the lower edge of the bottle mouth, when fixing the ring holder, the welding as in the prior example is performed. Since no work is required at all, the manufacturing cost can be significantly reduced.

FIG. 3 is a cross-sectional view of the bottle cap according to the first embodiment of the present invention with the hinge cap closed. FIG. 6 is a cross-sectional view showing a state in which a hinge cap is pressed and deformed in the same embodiment, and a pouring hole is formed in a core by a protrusion thereof. It is sectional drawing of the state which returned the hinge cap. It is a sectional view of a state where a bottom seal cap separates and falls with opening operation of a main cap. It is sectional drawing in the state which opened the hinge cap. It is a front view of a ring holder. Similarly, it is a top view. Similarly, it is a bottom view. It is also a sectional view. It is a front view of a core. It is also a sectional view. It is a bottom view of the bottom seal cap in this example. Similarly, it is a cutaway perspective view of a bottom seal cap. It is a sectional view of the 2nd example of the present invention, and is in the state where the hinge cap was closed. FIG. 6 is a cross-sectional view showing a state in which a hinge cap is pressed and deformed in the same embodiment, and a pouring hole is formed in a core by a protrusion thereof. It is sectional drawing of the state which returned the hinge cap. It is sectional drawing of the state which the bottom seal cap isolate|separated with the opening operation of the main cap, and was suspended. It is sectional drawing in the state which opened the hinge cap. It is sectional drawing of 3rd Example of this invention, and is the state which closed the hinge cap. It is sectional drawing in the state which opened the hinge cap in the Example.

First embodiment

As shown in FIGS. 1 to 5, the bottle cap 100A according to the first embodiment of the present invention includes four main caps 1, a core 20, a ring holder 2, and a bottom seal cap 3, which are integrally molded of resin. It is configured by assembling parts and is used by being attached to the mouth portion 101a of the bottle 101 (for example, a plastic bottle). A hinge cap 50 is integrally connected and molded to the main cap 1 via a hinge portion 51, and the hinge cap 50 is an accessory part of the main cap 1.

In the main cap 1, a cap body 4 including a top portion 4a and a body portion 4b has a shape similar to a general screw cap, and a cylindrical shape having a lower end opening 5a (see FIG. 4) on the lower surface of the top portion 4a. The raw material storage portion 5 is integrally formed so as to extend downwardly below the body portion 4b. A threaded portion 6 that is screwed into the bottle mouth portion 101a is formed on the inner peripheral surface of the body portion 4b. The lower peripheral edge portion of the body portion 4b forms a lock ring portion 9 which is separable by forming thin notches at several places and forming cuts 8 on the entire circumference. A pouring hole 52 is formed in the center of the top portion 4a.
Further, on the lower surface of the top portion 4a, around the base of the raw material storage portion 5, a side sealing projection 10 is integrally formed on the entire circumference.
On the outer peripheral surface of the raw material storage portion 5, a plurality of vertically elongated ribs 12 extending straight from the upper end to an intermediate portion are integrally formed at intervals in the circumferential direction. The longitudinal ribs 12 reinforce the raw material storage portion 5 and also serve as engagement portions with the upper edge portion of the ring holder 2 as described later.
A thin annular groove 5b is formed all around the lower end of the outer peripheral surface of the raw material storage part 5, that is, near the lower end opening.

The hinge cap 50 has a circular top portion 50a and a short cylindrical body portion 50b and covers the top portion 4a of the main cap 1. When covered, the body portion 50b of the hinge cap 50 fits into the step portion 4c (see FIG. 5) formed at the upper edge of the body portion 4b of the main camp 1.
The hinge portion 51 forms a leaf spring shape by forming parallel slits (not shown) from the middle of the body portion 5b of the main camp 1 to the middle of the top portion 50a beyond the body portion 50b of the hinge cap 50. The spring connecting portion 53 is formed, and both side protrusions 51c and 51d are formed on the body portion 4b of the main camp 1 and the body portion 50b of the hinge cap 50 at both side edges of the slit.
The hinge cap 50 is openable and closable with respect to the main camp 1 by partially reducing the thickness of the boundary portion between the both side protrusions 50 and 50c, and the spring connecting portion 53 has the hinge cap. It is possible to maintain the open state and the closed state by setting the inverted L-shaped posture when the 50 is closed and the L-shaped posture when opened, as shown in FIG. Since a finger is used to open and close the finger, a knob 54 is formed on the side opposite to the hinge 51 so as to project.
The top portion 50a of the hinge cap 50 has such a thickness that when the center portion is pushed downward with a finger, the top portion 50a is bent and deformed downward as shown in FIG. 2, and the lower surface has a slightly thicker center portion. Further, a protrusion 55 protruding therefrom is integrally formed. The tip of this protrusion 55 is sharp.
A pouring hole 52 is formed in the center of the top portion 4a of the main camp 1 and is closed by the protrusion 55 entering the top portion 4a.

As shown in FIGS. 1, 10, and 11, the core 20 is composed of a top portion 20c and a cylindrical body portion 20d, and a thin metal coating layer 20a formed by aluminum vapor deposition is formed on the outer surface of the top portion 20c and the cylindrical body portion 20d. The metal coating layer is not formed on. In addition, a shallow depression 20b that also serves as an air reservoir is formed in the center of the top portion 20c, and a shallow air vent groove 20e extending over the entire length of the upper and lower ends is formed in a plurality of circumferential portions of the body portion 20d.
The core 20 thus coated with the metal coating layer 20a is sized to be in close contact with the inner top surface and the inner peripheral surface of the raw material storage portion 5 of the main cap 1, but the length of the body portion 20d is It is shorter than the length of the raw material storage unit 5. The length to be shortened is adapted to the length of the fitting because the part of the bottom seal cap 3 is fitted into the raw material storage part 5 as described later.

The ring holder 2 has a ring shape having an inner diameter and a length for inserting the raw material storage portion 5, and is transparent or translucent. As shown in FIGS. 6 to 9, the inner peripheral surface of the ring holder 2 has a curved concave surface. And the convex surface are alternately repeated in a wavy manner in the circumferential direction, and the ring holder 2 has a cross section in which the thickness is periodically changed inward. Further, the ring holder 2 has a plurality of rectangular cutouts 2a extending from the lower portion to the lower peripheral edge at a plurality of positions in the circumferential direction to form a plurality of meshing portions with the bottom seal cap 3 (three in this example). 2) is formed, and a thin slit 2c is formed between both side edges of each tooth 2b up to the middle of the upper side of the ring holder 2 so that each tooth 2b is continuously connected to the lower side. In the example, three slits 2e are formed. Further, a laterally long slip-out preventing projection 2g that is long in the circumferential direction of the ring holder 2 is formed obliquely upward at the middle of the outer peripheral surface of the slit portion 2e in the vertical direction. Each tooth portion 2b is an inclined surface whose wall thickness decreases toward the lower end.
Triangular claw portions 2d are formed at a plurality of circumferential positions on the upper peripheral edge of the ring holder 2. The claw portion 2d serves as an engaging portion with the longitudinal rib 12 of the raw material storage portion 5 of the main cap 1, and the side surface of the pawl portion 2d is vertical in order to engage the lateral side with the longitudinal rib 12.
The size of the ring holder 2 is an inner diameter through which the raw material container 5 is inserted, and when the bottle cap 100A is attached to the bottle mouth 101a, an outer diameter corresponding to the inner diameter of the bottle mouth 101a, and the length is The portion below the drop-out preventing projection 2g is dimensioned to enter the bottle 100 beyond the lower end of the bottle mouth 101a.

As shown in FIGS. 12 and 13, the bottom seal cap 3 has a disk shape larger than the lower end opening 5 a of the raw material storage portion 5, forms an annular recess 13 along the circular outer peripheral edge, and The outer peripheral wall 13a is formed with a meshing concave portion 13b which meshes with the tooth portion 2b of the ring holder 2. Further, in order to save resin raw material, a circular recess 14 that does not reach the annular recess 13 is formed on the upper surface of the bottom seal cap 3, and an annular recess 15 is also formed on the lower surface. A connecting projection 16 having an enormous number of ends is integrally projected. On the inner surface of the annular recessed portion 13, a slender annular bottom projection 13c is formed on the bottom surface, and the annular outer peripheral wall projection 13d and the inner peripheral wall 13e higher than the outer peripheral wall 13a are formed on the upper peripheral edge of the outer peripheral wall 13a. An annular inner peripheral wall projection 13f is formed in each of the intermediate portions. A thin metal coating layer 14a is formed by vapor deposition of aluminum on the surface of the bottom seal cap 3 on the raw material storage portion 5 side except the annular recess 15, that is, the inner surface of the circular recess 14 and the surface of the inner peripheral wall 13e.

Next, an assembly structure of the main cap 1, the core 20, the ring holder 2, and the bottom seal cap 3 molded in this way will be described.
The core 20 is inserted into the raw material storage portion 5 until reaching the inner end of the raw material storage portion 5 of the main cap 1. Thereby, the metal coating layer 20a of the top portion 20c of the core 20 is on the top surface in the raw material storage portion 5, and the metal coating layer 20a of the body portion 20d of the core 20 is on the inner peripheral surface of the raw material storage portion 5. The core 20 is closely contacted except for the lower end, and the core 20 is firmly fixed in the raw material storage part 5. Since the hollow 20b is formed in the top portion 20c and the air vent groove 20e is formed in the body portion 20d of the core 20, the core 20 can be easily inserted to the rear end.

The ring holder 2 is loosely fitted to the raw material storage portion 5 until the raw material storage portion 5 is inserted into the main cap 1 and hits the lower end of the longitudinal rib 12. At that time, the claw portions 2d of the ring holder 2 and the side surfaces of the longitudinal ribs 12 of the raw material storage portion 5 are engaged with each other. Since the inner peripheral surface of the ring holder 2 has a concave surface and a convex surface which are alternately repeated in a wavy shape, the inner peripheral surface of the ring holder 2 is located between the inner peripheral surface of the ring holder 2 and the outer peripheral surface of the raw material storage part 5. A sufficient gap is formed at the concave surface. The gap communicates with the slit 2c of the ring holder 2. The raw material storage unit 5 is filled with the raw material after this fitting.

With respect to the ring holder 2 thus configured, the bottom seal cap 3 meshes a plurality of tooth portions 2b thereof with a plurality of meshing recesses 13b of the bottom seal cap 3, respectively, and a raw material storage portion filled with the raw material 102. 5, the lower end portion is fitted into the annular recess 13 of the bottom seal cap 3, and the lower end opening 5a is sealed in a state where a part of the bottom seal cap 3 is fitted into the raw material storage portion 5.
With such sealing, the outer peripheral wall projection 13d of the bottom seal cap 3 is press-fitted into the annular groove 5b of the raw material storage part 5 in the annular recess 13, and the lower end of the raw material storage part 5 is bottom sealed cap 3 as well. Of the bottom seal cap 3 is pressed against the inner peripheral surface of the raw material storage portion 5 above the annular recess 13. Due to the pressure contact at these three locations, the sealability with respect to the raw material storage portion 5 is very high, and even if the raw material storage portion 5 is pressurized and filled with a gas such as nitrogen, air tightness is obtained from the raw material storage portion 5 as well. You can secure enough.
On the other hand, the bottom seal cap 3 and the ring holder 2 can be engaged with each other with a margin by making the width of the former engagement recess 13b larger than the width of the tooth portion 2b of the ring holder 2.

In order to mount the bottle cap 100A of the present embodiment, in which the four parts are assembled as described above, to the bottle mouth portion 101a, the claw portion 2d of the ring holder 2 is engaged with the side surface of the longitudinal rib 12 of the raw material storage portion 5. In advance, while inserting the raw material storage part 5 into the bottle mouth part 101a, the main cap 1 is rotated in the closing direction so that the screw part 6 is screwed into the screw part 101b of the bottle mouth part 101a. The screwing is performed until the locking ring portion 9 of the main cap 2 is forcibly passed over the locking annular projection 101c provided on the bottle mouth portion 101a and locked.

During this operation, the bottom seal cap 3 rotates together with the raw material storage portion 5, and the ring holder 2 also has its claw portions 2d engaged with the longitudinal ribs 12 and rotates together with the raw material storage portion 5 and the bottom seal cap 3 so that the bottom seal The ring holder 2 is press-fitted into the bottle mouth 101a while rotating without turning off the cap 3 from the raw material container 5. During the press-fitting, the retaining protrusion 2g of the ring holder 2 is in sliding contact with the inner peripheral surface of the raw material storage unit 5, but the plurality of slits 2e having the retaining protrusion 2g are formed with slits 2c. Since the retaining projection 2g projects obliquely upward, the slit portion 2e gradually bends inward, and the ring holder 2 is in a state of being pruned at this portion, and the raw material storage portion 5 enters the bottle 101. And rush.
When the final locking state is reached, the retaining protrusion 2g of the ring holder 2 reaches the lower side of the lower end edge 101d of the bottle mouth 101a, and the slit 2e is restored, so that the retaining protrusion 2g is released. The lower end edge 101d is engaged with the lower side edge 101d while being directed obliquely upward. As a result, the ring holder 2 is in a state in which it cannot be rotated and is prevented from coming off with respect to the bottle mouth portion 101a. That is, the ring holder 2 is fixedly fixed to the bottle cap 101a only by screwing the main cap 1 into the bottle cap 101a.
If a slit is also provided between the claw portion 2b of the ring holder 2 and the claw portion 2b, the press-fitting of the ring holder 2 can be performed more smoothly due to the elasticity of the slit.

On the other hand, the ring holder 2 and the raw material storage part 5 are not fixed to each other, and a sufficient gap is formed in the concave surface of the inner peripheral surface of the ring holder 2, and this gap communicates with the slit 2c. The liquid that is the content in the bottle 101 can be circulated.
Further, the inside of the raw material storage portion 5 is protected by the core 20 which is formed on the outer surface of the metal coating layer 20a so as to prevent the raw material from being deteriorated by external light or the like, and also has an antibacterial effect.
Since the metal coating layer 14a is also formed on the bottom seal cap 3 at the portion protruding into the raw material storage portion 5, the bottom seal cap 3 also has the effect of preventing alteration of the raw material and the antibacterial effect. However, since the metal coating layer 14a is not formed in the annular recess 13 that fits with the lower end portion of the raw material storage portion 5, the sealing performance at the fitting portion is not impaired by the metal coating layer 14a.
On the other hand, in the main cap 2, since the side sealing projection 10 of the main cap 1 is in pressure contact with the inner peripheral surface of the bottle mouth 101a, the sealing performance of the cap body 4a at the upper end peripheral edge of the bottle mouth 101a is extremely high. ..
In the closed hinge cap 50, the tip portion of the protrusion 55 thereof projects into the pouring hole 52 of the main cap 2 to close it, but the sharp tip does not reach the top portion 20c of the core 20.

In order to open the bottle cap 100A attached to the bottle mouth 101a in the above state, as shown in FIG. 2, first, the top portion 50a of the hinge cap 50 is pushed and bent. Then, the top end 20c of the core 20 is pierced in the central recess 20b by the sharp tip of the protrusion 55, and the pouring hole 57 is formed therein.
As shown in FIG. 3, after returning the top portion 50a of the hinge cap 50, the main cap 1 is rotated in the opening direction as shown in FIG. Then, the main cap 1 rotates and rises with respect to the bottle mouth portion 101a while accommodating the raw material storage portion 5, but the ring holder 2 is fixedly fixed to the bottle mouth portion 101a and the claw portion 2d. Since the long rib 12 of the raw material storage portion 5 is disengaged, the raw material storage portion 5 is not followed. The main cap 1 is vertically separated at the notch 8, and the locking ring portion 9 is retained as it is by being locked by the locking annular projection 101c of the bottle mouth portion 101a, but the other portions including the raw material storage portion 5 are included. It rises while rotating.

However, the bottom seal cap 3 has its meshing concave portion 13b meshing with the tooth portion 2b of the stationary ring holder 2 and is restricted from rotating and rising by the ring holder 2. 5 is disengaged and separated from the raw material storage portion 5, and accordingly, the meshing with the tooth portion 2b of the ring holder 2 is also released, so that the bottom seal cap 3 falls into the bottle 101 and the raw material storage portion 5 The raw material is discharged into the bottle 101 and mixed with the liquid contained in the bottle 101. Since the ring holder 2 remains in the bottle mouth 101a, the bottom seal cap 3 after opening is prevented from coming out of the bottle mouth 101a. Since the raw material storage part 5 is longer than the length of the bottle mouth 101a, the raw material storage part 5 can have a sufficient capacity to store the raw material 102.

After opening the main cap 1 as described above, the main cap 1 is screwed into the bottle mouth portion 101a of the bottle 101 again as shown in FIG. 5, and the hinge cap 50 is opened. By separating from the top part 4a of the cap 1, the pouring hole 52 of the top part 4a is opened, and the pouring hole 57 of the core 20 communicating with this is also opened. Since it may be longer than the length of the portion 101a, the liquid in the bottle 101 in which the raw materials from the raw material storage portion 5 are mixed can be poured out little by little from these pouring holes 52 and 57. When the hinge cap 50 is closed, the spout 55 closes the pouring hole 52 again.

Second embodiment

14 to 18 show a bottle cap 100B according to a second embodiment of the present invention, and the drawings correspond to FIGS. 1 to 5 in the first embodiment, respectively.
This bottle cap 100B differs from the first embodiment in that a strap band 60 for suspending the bottom seal cap 3 is used so as not to drop the bottom seal cap 3.

The strap band 60 is in the form of a thin vertically long plate piece, has a flexible spring property in the length direction, and its base end can be detachably connected to the ring holder 2. A slit (not shown) is formed at the tip of the strap band 60, and the ring holder 2 and the bottom seal cap 3 can be connected by penetrating the enlarged portion of the protrusion 16 of the bottom seal cap 3 through this slit. This connection is performed before the ring holder 2 is set on the outer circumference of the raw material storage unit 5. With the bottom seal cap 3 closed, the strap band 60 is bent in the length direction.

When the bottle cap 100B of the second embodiment is opened, as shown in FIG. 16, the bottom seal cap 3 after opening has the strap band 60 restored to a substantially straight state by its own spring force. The strap band 60 hangs on the ring holder 2 without falling inward, and the opened state is maintained by the spring force of the strap band 60.

Third embodiment

19 and 20 show a bottle cap 100C according to the third embodiment of the present invention. This bottle cap 100C is different from the first embodiment in that a pouring hole 57 is provided in the top portion 20c of the core 20 in advance. In this case, the core 20 also has a pouring hole 57, and from the viewpoint of ensuring the airtightness here, around the pouring hole 52 of the main camp 1 and around the protrusion 56 of the hinge cap 50, respectively. It is advisable to form the portions 61 and 62 or to provide a sealing means such as adding a sealing material such as packing.

The bottle cap according to the present invention is not limited to PET bottles, but can be widely applied to various containers having a screw structure mouth portion.

100A, 100B, 100C Bottle cap 101 Bottle 101a Bottle mouth 101b Screw 101c Locking annular protrusion 101d Lower end lip 102 Raw material 1 Main cap 2 Ring holder 2a Absent 2b Teeth 2c Slit 2d Claw 2e Notch 2g Missing Stop projection 3 Bottom seal cap 4 Cap body 4a Top 4b Body 5 Raw material storage 5a Lower end opening 5b Annular groove 6 Screw 12 Vertical rib 13 Annular recess 13a Outer peripheral wall 13b Engaging recess 13c Bottom protrusion 13d Outer peripheral wall projection 13e Inner peripheral wall 13f Inner peripheral wall projection 14/15 Recess 14a Metal coating layer 16 Connection projection 20 Core 20a Metal coating layer 20b Recess 20c Top 20d Body 20e Air vent groove 50 Hinge cap 50a Hinge cap top 51 Hinge 55 Pole 52/57 Pouring hole

Claims (4)

A cap main body that is a screw cap that seals the bottle mouth portion, a resin main cap integrally provided with a cylindrical raw material accommodating portion to be inserted into the bottle mouth portion,
A resin-made bottom seal cap having an annular concave portion into which the lower end portion of the raw material container is fitted,
A metal core is formed on the outer surface, and the metal core is closely attached to the inner surface of the raw material storage portion and is inserted into the raw material storage portion.
Consisting of a resin ring holder that is fixed to the bottle mouth by inserting the raw material accommodating portion,
By fitting the annular recess of the bottom seal cap and the lower end portion of the raw material storage part together and engaging the engaging part of the bottom seal cap and the ring holder, the lower end opening of the raw material storage part becomes the bottom seal cap. Sealed
When the main cap is lifted and rotated, the rotation and lift of the bottom seal cap are regulated by the ring holder, so that the lower end portion of the raw material container and the bottom seal cap are fitted and In a bottle cap in which the bottom seal cap is disengaged from the ring holder, the bottom seal cap is separated from the raw material container, and the lower end opening of the raw material container is opened,
A pouring hole is provided in the top part of the cap body, and a hinge cap is connected to the cap body so as to be openable and closable by the hinge part. The hinge cap closes the pouring hole and the top of the core is passed through the hinge cap. A bottle cap characterized by having a protrusion that can be penetrated through the portion. The bottle cap according to claim 1, wherein the protrusion forms a pouring hole in the core by breaking through the top of the core when the top of the hinge cap is deformed. A cap main body that is a screw cap that seals the bottle mouth portion, a resin main cap integrally provided with a cylindrical raw material accommodating portion to be inserted into the bottle mouth portion,
A resin-made bottom seal cap having an annular concave portion into which the lower end portion of the raw material container is fitted,
A metal core is formed on the outer surface, and the metal core is closely attached to the inner surface of the raw material storage portion and is inserted into the raw material storage portion.
Consisting of a resin ring holder that is fixed to the bottle mouth by inserting the raw material accommodating portion,
By fitting the annular recess of the bottom seal cap and the lower end portion of the raw material storage part together and engaging the engaging part of the bottom seal cap and the ring holder, the lower end opening of the raw material storage part becomes the bottom seal cap. Sealed
When the main cap is lifted and rotated, the rotation and lift of the bottom seal cap are regulated by the ring holder, so that the lower end portion of the raw material container and the bottom seal cap are fitted and In a bottle cap in which the bottom seal cap is disengaged from the ring holder, the bottom seal cap is separated from the raw material container, and the lower end opening of the raw material container is opened,
A hinge cap is connected to the cap body by a hinge part so as to be openable and closable, and a pouring hole is provided in the top part of the hinge cap and the top part of the cap body, and the top part of the hinge cap is connected to the top part of the cap body. A bottle cap characterized by having a protrusion that closes the pouring hole. A retaining protrusion is formed on the outer peripheral surface of the ring holder, and the retaining protrusion engages with the lower edge of the bottle mouth after being press-fitted into the bottle mouth of the ring holder. The bottle cap according to claim 1, 2 or 3, wherein the bottle cap is prevented from coming off from the bottle mouth portion.

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