FI83616B - Pilfer-proof plastics seal for receptacle - Google Patents

Description

1 83616

Plastic seal for containers

The invention relates to a plastic seal closure for containers, and in particular to a plastic seal closure 5 placed on a container having a mouthpiece having an external thread on its circumferential surface and a holding jaw portion below the external thread.

Plastic seals have recently replaced metal seals for various beverage containers. A typical such plastic container closure is disclosed in JP Patent Application No. 7445/1981 and U.S. Patent No. 4,418,828.

The closure disclosed in these patents has a planar top and a cylindrical skirt extending downwardly from the circumferential edge of the top. A circumferential, fracturing line is made in the hem to divide the hem into a main portion above the broken line and a sealed lower portion below it. The circumferential fracture line consists of a plurality of circumferential slots spaced apart in the circumferential direction and a plurality of bridge portions spaced between the circumferential slits. An internal thread is made on the inner surface of the main part, and a plurality of radially inwardly projecting coupling flaps are made on the inner surface of the sealed lower part at points spaced apart in the circumferential direction.

A plastic closure having the described construction is attached to a container having a mouth-neck portion having an outer thread on the circumferential surface with a holding jaw portion below. To close the mouthpiece of the container with the closure, the closure is placed over the mouthpiece and turned in the closing direction so that it engages the external thread of the mouthpiece with its internal thread. As a result, the closure pivots in the closing direction relative to the mouthpiece and at the same time moves axially downward. In this case, the holding jaw part made on the outer surface of the mouth-neck part contacts the coupling flaps made on the inner surface of the sealed lower part 35 in order to flexively bend them outwards. When the coupling flaps completely pass the holding jaw part, they resiliently return inwards radially and remain against the lower surface of the holding jaw part. To open the mouth-neck part of the container, the closure 5 is turned in the opening direction opposite to the closing direction. In this case, the inner thread of the closure is moved along the outer thread of the mouthpiece, and therefore the closure pivots in the opening direction and at the same time moves axially upwards. However, the sealed lower part of the closure cannot move axially upwards because the connecting flaps made on its inner surface contact the lower surface of the holding jaw part of the mouthpiece. This puts considerable strain on the bridge portions of the fracture made in the hem of the closure. In this case, the bridge parts break to divide the skirt into a main part and a sealed lower part. Thereafter, the planar upper part and the main part of the skirt are separated from the mouth-neck part. In this way, the mouth part is opened and the sealed lower part remains attached to the mouth part.

It is important that a container closure having the described structure and function meets the following two requirements. First, when closing the mouthpiece of the container with a closure, the coupling flaps should be able to bend easily and resiliently radially outwardly over the holding jaw, to install the closure on the mouthpiece with relatively little torque and to precisely prevent excessive stress on the fracture line. Second, when opening the mouthpiece of the container, the coupling flaps should engage fully and precisely in the holding jaw portion so as to precisely prevent the closure from sliding out of the mouthpiece 30 without breaking the fracture line portions as the coupling flaps pass radially outward. It is clear that if such a slip occurs, the sealing properties of the closure deteriorate. In order for the closure to meet these two requirements, the torque must be reduced sufficiently downwards, 3 83616 to be applied to the closure when the coupling flaps are passed over the holding jaw axially downwards from above, sufficient torque must be increased upwards to be applied to the closure when the coupling flaps are brought down , and adjust the breaking torque to be applied to the closure to break the bridge sections of the dashed line to a value between the required downward torque and the required upward torque.

However, conventional container closures cannot provide a sufficient difference between the required downward torque and the required upward torque, and due to manufacturing defects, the containers often do not meet the first or second requirement.

It is an object of the present invention to provide a plastic seal closure for a container which is improved to provide a sufficient difference between the required downward torque and the required upward torque by sufficiently reducing the former and increasing the latter sufficiently to accurately fill the first and the second claim.

This object is achieved by a closure according to the invention, characterized in that each coupling end has a first part projecting from the inner surface of the sealed lower part and a second part projecting further obliquely from the front end of the first part in the closing direction of the closure in which the closure is mounted. mouth-neck portion.

In a conventional plastic closure, each coupling flap is completely inclined in a direction opposite to the direction of rotation of the closure when mounted on the mouthpiece of the container and extends in a continuous straight line from the inner surface of the sealed lower portion. Extensive 4 8 3 61 6 studies and experiments by the inventors have led to the finding that if each coupling flap is bent to obtain a first part extending from the inner surface of the sealed lower part and a second part extending further from the front end of the first part 5 while inclined relative to the first part in the closing direction of the container closure, where the closure is mounted on the mouthpiece, said required upwardly directed torque can be substantially increased while preventing the increase of the required downwardly directed torque, whereby the first object can be achieved.

The advantages of the invention will become apparent from the following description of an embodiment thereof, taken in conjunction with the accompanying drawings.

In the drawings: Fig. 1 is a side elevational view, partly in section, of a blank forming an embodiment of a closure according to the invention; Fig. 2 is a partial perspective view of the coupling flap of the blank shown in Fig. 1; Fig. 3 is a partial plan view of the coupling flap of the blank of Fig. 1; Fig. 4 is a side elevational view showing, partly in section, an embodiment of a closure according to the invention; and Fig. 5 shows a sectional view along the line V-V in Fig. 4.

Figure 1 shows a closure blank from which an embodiment of a closure according to the invention is formed. The blank 30 shown by the general numeral 2 and made of a suitable plastic material such as polypropylene or polyethylene by injection molding, compression molding or the like has a circular planar top 4 and a cylindrical skirt 6 extending downwards from the circumferential edge of the top 4. The annular ul-35 machines 8 are made in the upper end part of the inner surface of the skirt 6, so that it protrudes radially inwards from the upper end part. A step portion 10 is made in the lower part of the circumferential surface of the skirt 6, which is displaced diametrically. The part 12 above the step part 10 has a considerably large wall-5 piston thickness, while the part 14 below the step part 10 has a smaller thickness. In the embodiment shown, a step 16 is also made on the inner circumferential surface of the skirt 6 below the step part 10 and the part 14 has a relatively thick part 18 above the step part 16 and a relatively thin part 20 below the step part 16. As will be apparent from the following description, the thickness tx of the part 20 is sufficiently small, preferably 0.05 to 0.75 mm, in particular 0.20 to 0.50 mm. The thickness t2 of the relatively thick part 18 is preferably 0.50 to 1.10 mm, more preferably 0.75 to 0.85 mm. If desired, the thickness t2 of the part 18 can be made sufficiently small in the same way as in the part 20 (therefore there is no step part 16). The raised and lowered or knurled part 22 is made on the circumferential surface of the part 12 of the skirt 6 to prevent the finger gripping it from slipping. The internal thread 24 is made on the inner circumferential surface of the skirt 12 portion 12. A plurality of spaced-apart coupling flaps 26 are provided on the inner circumferential surface of the skirt 6 portion 14. Each coupling flap 26 projects radially inwardly from its bottom edge 28, which is connected to the inner circumferential surface of the portion 14. As will be apparent from the following description, it is important that at least a majority of the bottom edge 28 of each coupling flap 26 be located in a relatively thin portion 20 below the step portion 16 in the portion 14. In the illustrated embodiment, the bottom end 28 of each coupling flap 26 is aligned with the step portion 16. Thus, the entire bottom edge 28 of each coupling flap 26 is located in a relatively thin portion 20 below the step portion 16.

According to the present invention, the following improvement is made to the coupling flap 26. According to Figures 2 and 3, each coupling flap 26 is bent along a bending line 30 6 83616 and each flap consists of a first portion 32 extending from the bottom edge 28 to the bending line 30 and a second portion 34 extending from the bending line 30 to its free end. The bottom edge 28 runs substantially in the unidirectional direction, and therefore substantially vertically, with the central axis 36 of the blank 2 (Fig. 1). But if desired, the bottom edge 28 may be inclined in a suitable direction relative to the central axis 36 of the blank 2 (Fig. 1); it may in fact be inclined downward at an appropriate angle relative to the closure 10 closing in the direction in which the shutter mounted on the container mouth-neck portion (clockwise as viewed from above in Figure 1, the direction of the arrow 36 shown by Figures 2 and 3) or in the opposite direction. The first portion 32 is preferably inclined in a direction opposite to the aforementioned closure direction and extends radially inwardly from the bottom edge 28. The angle α of the first portion 32 relative to the inner surface of the portion 20 is preferably 5 ° to 85 °, preferably 20 ° $ a $ 80 ° and most preferably 30 ° $ a $ 70 °. It is important that the second part 34, which extends radially si-20 inwards from the bending line 30, extends obliquely with respect to the first part 32 in said closing direction. The angle β of the second portion 34 relative to the first portion 32 is preferably 0 ° <β $ 90 ° and most preferably 0 ° <β $ 70 ° and most preferably 5 ° $ 3 $ 45 °. The bending line 30 may run substantially parallel to the central axis 36 of the blank 2 (Figure 1) and therefore substantially vertically, or may be inclined downwardly approaching the inner surface of the portion 20. It is preferably inclined downwards in a direction away from the inner surface of the part 20. The angle of inclination γ of the bending line 30 with respect to the downward direction and away from the inner surface of the portion 20 is preferably 5 ° $ γ $ 80 °, more preferably 10 ° <γ $ 60 °, and most preferably 20 ° $ γ <50 °.

As shown in Figures 1 and 2, the upper edge 38 of the first portion 32 may suitably extend downwardly in an inclined radially inward direction so as to form a gentle curve, and the upper edge 40 of the second portion 34 extends almost horizontally. On the other hand, it is suitable that the lower edge 42 of the first part 32 and the lower edge 44 of the second part 34 extend upwards in an inclined radially inward direction. The angle of inclination 62 of the lower edge 44 of the second part 34 is generally slightly larger than the angle of inclination 6 of the lower edge 42 of the first part 32. The suitable angle of inclination is 10 ° $ 6X $ 30 ° and the angle of inclination 62 is 20 ° and δ2 s50 °.

Referring to Fig. 4 in conjunction with Fig. 1, in the manufacture of the container closure of the invention, a circumferential broken line 46 is formed in the blank 2. According to Fig. 4, a circular broken line 46 is located immediately below the step portion 10 and therefore a portion 12 having a larger thickness 10, the main part of the skirt 6 and the part 14 having a smaller thickness below the step part 10 and consisting of a relatively thick part 18 and a relatively thin part 20 form a sealed lower part. The perpendicular line 46 itself consists of a plurality of circumferentially spaced and circumferentially extending slits 50 and a plurality of bridge portions 52 between the slits 50. The part 14, i.e. the anti-theft lower part 14, is connected to the part 12, i.e. to the main part 2 of the skirt 6, by means of bridge parts 52.

The formation of the sealing liner 58 can be performed by a casting method known per se. Instead of the sealing liner 58 being made separately, the sealing protrusion can be formed in a suitable shape in one piece on the inner surface of the upper part 4 of the blank 2.

The finished closure 60 thus made is placed in a container 30 having a mouth-neck portion 62 having the shape shown in Fig. 6. An external thread 64 and below it a holding jaw portion 66 are made on the cylindrical circumferential surface of the mouth-neck portion 62.

To close the mouthpiece 62, the shutter 60 places the shutter 60 on the mouthpiece 62 and rotates 35 in the closed direction, i.e. clockwise as seen from above in Figure 8 83616 6. As a result, the inner clamp 24 in the shutter 60 engages the outer thread 64 in the mouthpiece 62. Each coupling flange 26 made in the closure 60 thus passes the outer thread 64 made in the mouthpiece 5 and further over the holding jaw portion 66. As it passes over the holding jaw portion 66, each coupling flange 26 is pivoted by the holding jaw portion 66 and becomes resiliently bent outward radially. When the inner clamp 24 of the closure 60 is fully engaged with the thread 64 of the outer 10, each coupling flap 26 passes completely past the holding jaw portion 66 and differs from contact with the holding jaw portion 66. As a result, the coupling flaps 26 resiliently return to their original state.

It will be clear from the example and the following comparative examples that the required downward torque to be applied to the closure 60 of the invention as the resiliently bent coupling flaps 26 pass over the holding jaw portion 66 is nearly equal to a conventional container closure without the second portion 34 of each coupling flap 26 20 bent with the first part 32, but extending in a straight line with the first part, as shown by the two-point dashed line in Fig. 3, and is therefore sufficiently small.

When the coupling flaps 26 return completely to their original state 25, they contact the lower surface of the holding jaw portion 66, as clearly shown in Fig. 6. When the inner thread of the closure 60 is fully engaged with the outer thread 64 of the mouthpiece portion 62, the sealing liner 58 is in intimate contact with the main surface portion of the mouthpiece portion 62, thereby sealing the neck portion 62 of the mouthpiece 30.

To open the mouthpiece 62, the closure 60 is rotated in the opening direction, i.e. counterclockwise, as seen from above in Figure 6. Thus, the inner thread 24 of the closure 60 moves along the outer thread of the mouthpiece 62 and therefore the closure 60 moves axially upwards as it is rotated. The sealed lower portion 14 9 83616, on the other hand, cannot move axially upward because the coupling flaps 26 are made on its inner surface and are in engagement with the lower surface of the holding jaw portion 66 of the mouthpiece portion 62. Thus, considerable stress is applied to the circumferential fracture line 5 46 and more specifically to its bridge portions 52. Therefore, the bridge portions 52 of the circumferential fracture line 46 break.

As is clear from the description of the following example and comparative example, the engaging flaps 26 contact the lower surface of the holding jaw portion 66 more strongly in the improved closure of the invention than in a conventional closure in which the second portion 34 of each coupling flap 26 is not bent relative to the first portion 32 but extends along a straight line together with the first part 32, as shown by the dotted line in Fig. 15. The required upward torque to be applied to the closure of the invention when the coupling flaps 26 are flexibly passed over the holding jaw portion 66 in the axially upward direction is much greater than in the conventional direction. The closing device. Thus, the removal of the closure 60 from the mouthpiece 62 is certainly prevented without the desirable breaking of the dashed line 46 and the dashed lines 48, and the sealing properties of the closure 60 can be maintained.

Example 25 Ten blanks having a shape substantially the same as the shape of the blank 2 shown in Figures 1-3 were cast from polypropylene having a melt index of 2.0 and a density of 0.90. The inner diameter d of the inner thread of each blank was 25.4 mm and the outer diameter D of the top was 30.0 mm and the female height H of the size-30 was 19.0 mm. Each coupling flap 26 made on the inner surface of the part 20 had the following values:

Thickness W: 0.35 mm

The length 42 of the lower edge 42 of the first part 32 is 1.9 mm

Length 44 of the lower edge 44 of the second part 34 £ 2.0: 35 Angle of inclination a: 50 ° ίο 8 3 61 6

Slope angle B: 10 °

Slope angle Ύ: 30 °

Slope angle 6 ^ 20 °

Slope angle δ2: 45 ° 5 The upper edge 38 of the first part 32 had a curved shape with a radius of 0.5 mm, and the upper edge 40 of the second part 34 was substantially horizontal.

Each blank was mounted on a mouth-neck portion 62 of a glass container having the shape shown in Figure 6 and a nominal diameter of 28 mm 10, and the required downward torque was measured.

The blank was then forcefully removed from the mouth-neck portion 62 and the required upward torque was measured. The results are shown in Table 1 below.

15 Comparative example

For comparison, ten blanks were cast as in the example except that each coupling flange 26 made on the inner surface of the part 20 had the shape shown by the two-point dashed line in Figure 3 (namely, the second part 34 was not bent relative to the first part 32 but extended along a straight line). 32).

In the same manner as in the example, the required torque downwards and the required torque upwards were measured. The results are shown in Table 1.

table 1

Required torque Required torque downwards (kg-cm) _upwards (kg-cm)

Avg. Highest Lowest Avg. Maximum Smallest 30 Eg 1.5 2.0 1.0 9.0 10.0 8.0

Vert.

e.g., 1.4 2.0 1.0 4.0 4.5 3.5

Claims (15)

A plastic pilferproof closure for a container with a mouth-neck portion (62), in which the peripheral surface comprises an outer thread, and a pouring jaw portion (66), located below the outer thread, which closure comprises a tab. 4) and a cylindrical skirt (6) extending downwards from the peripheral edge of the upper part (4) and in which is formed a circumferential line (46) extending along the circumference, which divides the skirt (6) into a body (12) above the fracture line and a lower pilferproof portion (14) below the fault line, whereby in the inner surface of the body portion (12), an inner thread (24) is coupled to the outer thread of the mouth-neck portion of the container (62), and in the lower pilferproof portion ( 14) a plurality of radially inwardly projecting coupling flaps (26) have been formed along the periphery at a distance from each other, characterized in that each coupling flap (26) has a first portion (32) projecting from the inner surface of the lower pilferproof portion (14), and a second portion (34), which 20 is projected from the front portion of the first portion (32) inclined relative to the first portion (32) in the closing direction of the closure, in which the closure is mounted on the mouth portion (62). 2. A closure according to claim 1, characterized in that the first part (32) is projected from the inner surface of the lower pilferproof part (14) inclined in a direction opposite to the closing direction. 3. A closure according to claim 2, characterized in that the angle of inclination a between the first part (32) and the inner surface of the lower pilferproof part (14), where the bottom edge (28) of the flap (26) is, is 5®. $ and $ 85 °. 4. A closure according to claim 3, characterized in that the angle of inclination a is 20 ° <a 35 $ 80®. 5. A closure according to claim 4, characterized in that the angle of inclination a is 30 ° to $ 70 °. i4 83 61 6 6. A closure according to any of claims 1-5, characterized in that the angle of inclination β between the second part (34) and the first part is 0 ° <β $ 90 '. 5 7. A closure according to claim 6, characterized in that the angle of inclination β is 0 ° or β $ 70 °. 8. A closure according to claim 7, characterized in that the angle of inclination β is 5 ° $ β $ 45 °. 9. A closure according to any one of claims 1-8, characterized in that a bending line (30) between the first part (32) and the second part (34) runs downwardly and slopes away from the lower pilferproof part (14). ) inner surface at a point where the bottom edge (28) of the flap (26) connects to the lower pilferproof portion. 15 10. A closure according to claim 9, characterized in that the angle of inclination γ between the bending line (30) and the direction away from the inner surface of the lower pilferproof part (14) is 5 ° to γ $ 80 °. 11. A closure according to claim 10, characterized in that the angle of inclination γ is 10 "$ γ $ 60". 12. A closure according to claim 11, characterized in that the angle of inclination γ is 20 ° $ γ $ 50 °. A closure according to any one of claims 1 to 11, characterized in that the upper edge (38) of the first part (32) extends radially inwardly and is down-sloped, and that the upper edge (40) of the second part (34) runs close to horizontal. 14. A closure according to claim 13, characterized in that the upper edge (38) of the first part (32) is a flat bend. 15. A closure according to any one of claims 1 to 14, characterized in that the lower edge (42) of the first part (32) and the lower edge 35 (44) of the second part (34) extend radially inward and are sloping upwards.