APPARATUS TO ENAMEL RATE SELECTED REGIONS OF METAL OBJECTS

Abstract

An apparatus to enamel rate a selected region of a metal object, such as the rivet area of a lid 40 of a food or beverage container by the adaption of a lid of an electrolyte vessel to direct electrolyte specifically to an area T that requires testing, with the rest of the object being kept dry and separate from the area to be tested. The vessel plate has a main body 16 configured as a lid for attachment to a test chamber and an adapter 20 configured to receive the metal object therein, the adapter having a base 21 and a perimeter wall 23 extending outwardly from the plate, the perimeter wall having a seal 22 mounted thereon, the base of the adapter having at least one aperture 28 surrounded by a secondary seal 24.

Claims

1. An enamel rater vessel plate for attachment to a test chamber of an enamel rater apparatus, the vessel plate comprising a main body configured as a lid for attachment to a test chamber and an adapter configured to receive a metal object therein, the adapter comprising a base and a perimeter wall extending outwardly from the plate, the perimeter wall having a seal mounted thereon, the base of the adapter having at least one aperture surrounded by a secondary seal.

2. (canceled)

3. An enamel rater vessel plate as claimed in claim 1, wherein a vacuum source is provided to pull and secure the metal object onto the perimeter and secondary seal of the adapter of the vessel plate.

4. An enamel rater vessel plate as claimed in claim 1, wherein the metal object is mechanically fastened to the adapter.

5. An enamel rater vessel plate as claimed in claim 1, wherein the secondary seal is provided on a raised area surrounding the at least one aperture, the at least one aperture forming a target area outlet.

6. An enamel rater vessel plate as claimed in claim 5, wherein the raised area is in the form of a rim or lip extending from the base of the adapter surrounding the target area outlet.

7. An enamel rater vessel plate as claimed in claim 5, wherein the adapter is provided with a second outlet spaced apart from the target area outlet.

8. An enamel rater vessel plate as claimed in claim 5, wherein the adapter is provided with a second outlet spaced apart from the target area outlet, wherein the second outlet is funnel shaped and is in fluid communication with a tube.

9. An enamel rater vessel plate as claimed in claim 5, wherein the adapter is provided with a second outlet spaced apart from the target area outlet, and the second outlet is in fluid communication with a tube, wherein a length of the tube is selected from a substantially U-shaped, J-shaped and a helical shape.

10. (canceled)

11. An enamel rater vessel plate as claimed in claim 5, wherein the adapter is provided with a second outlet spaced apart from the target area outlet and a drainage channel is provided in the base of the adapter to direct fluid from the target area to the second outlet.

12. (canceled)

13. An enamel rater vessel plate as claimed in claim 1, wherein the perimeter of the adapter is provided with spaced apart guide members to assist in accurately positioning the metal object on the seals of the adapter of the vessel plate.

14. An enamel rater vessel plate as claimed in claim 13, wherein the guide members are projections extending outwardly from the vessel plate around the perimeter at spaced apart intervals, wherein at least some of the projections are resilient whereby a resilient nature of one or more of the projections serves to direct the metal object into position on the adapter.

15. (canceled)

16. (canceled)

17. An end adapter of an enamel rater apparatus, the end adapter comprising a test chamber for receiving an electrolyte therein, an electrode extending into the electrolyte and an enamel rater vessel plate, the vessel plate comprising a main body configured as a lid for attachment to the test chamber and an adapter configured to receive a metal object therein, the adapter comprising a base and a perimeter wall extending outwardly from the plate, the perimeter wall having a seal mounted thereon, the base of the adapter having at least one aperture surrounded by a secondary seal, the plate configured as a lid for attachment to the test chamber, the main body of the vessel plate having at least one fastener for securely attaching the plate to the test chamber.

18. An end adapter as claimed in claim 17, wherein the at least one fastener comprises as least one magnet.

19. An end adapter as claimed in claim 17, further comprising a stand for supporting at least part of the end adapter which is manually or automatically rotatable to enable inversion of the chamber vessel.

20. An end adapter as claimed in claim 17, wherein the test chamber is provided with a hollow shaft for application of a vacuum.

21. An enamel rater system incorporating an enamel rater end adapter, the end adapter comprising a test chamber for receiving an electrolyte therein, an electrode extending into the electrolyte and an enamel rater vessel plate, the vessel plate comprising a main body configured as a lid for attachment to the test chamber and an adapter configured to receive a metal object therein, the adapter comprising a base and a perimeter wall extending outwardly from the plate, the perimeter wall having a seal mounted thereon, the base of the adapter having at least one aperture surrounded by a secondary seal, the plate configured as a lid for attachment to the test chamber, the main body of the vessel plate having at least one fastener for securely attaching the plate to the test chamber.

22. An enamel rater system as claimed in claim 21, wherein the system is selected from a manual, semi-automatic and an automatic enamel rater system.

23. An enamel rater system as claimed in claim 21 connected to a vacuum generator.

24. An enamel rater system as claimed in claim 23 further comprising at least one of an automatic vacuum control, compressed air source and a filter regulator.

25. An enamel rater system as claimed in claim 21 further comprising an enamel rater digital or analog display for displaying current measured during operation of the system.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0021] For a better understanding of the present invention and to show more clearly how it may be carried into effect, reference will now be made by way of example only to the accompanying drawings in which:

[0022] FIG. 1 is a perspective view of an end adapter of an apparatus for enamel rating a lid according to an embodiment of one aspect of the present invention;

[0023] FIG. 2A is a top view of the vessel plate of the apparatus shown in FIG. 1 showing the lid adapter according to an embodiment of another aspect of the present invention;

[0024] FIG. 2B is a bottom view of the vessel plate shown in FIG. 2A;

[0025] FIG. 2C is a detailed upper side perspective view of the lid adapter shown in FIG. 2A;

[0026] FIG. 2D is an upper side perspective view of the lid adapter shown in FIG. 2C shown with an end cap or lid attached thereto;

[0027] FIG. 2E is a side view of the lid adapter shown in FIG. 2C, shown with an end cap or lid attached thereto;

[0028] FIGS. 3A to 3C are schematic cross-sectional drawings of an apparatus for enamel rating an end cap or lid according to an embodiment of one aspect of the present invention, illustrating directed wetting of the area of the end cap or lid to be enamel rated;

[0029] FIG. 4 is a schematic diagram of an enamel rater apparatus incorporating an end adapter according to an embodiment of an aspect of the present invention;

[0030] FIG. 5A is a perspective view of an end adapter of an enamel rater apparatus incorporating an alternative embodiment of the present invention, shown with a lid fully secured to the lid adapter of the vessel plate;

[0031] FIG. 5B is a perspective view of the vessel plate of FIG. 5A, shown with the lid partially secured to the lid adapter of the vessel plate; and

[0032] FIG. 5C is a top view of the end adapter shown in FIG. 5A.

DETAILED DESCRIPTION

[0033] The present invention provides an apparatus to enamel rate a selected, smaller region of a metal object, particularly but not exclusively the rivet area of an easy opening end/lid of a food or beverage container. In principle, this is achieved by an electrolyte vessel of an enamel rater, in particular the vessel plate, being adapted to direct electrolyte specifically to an area that requires testing, with the rest of the object being kept dry and separate from the area to be tested.

[0034] Prior art enamel raters are known for testing various metal objects, including cans, metal sheets, lids and so on. The apparatus comprises a vessel for holding an electrolyte and a vessel plate fixedly secured to the vessel, the plate being adapted to receive the metal object to be tested. For example, in the case of a can lid, the vessel plate may be provided with correspondingly shaped hole having a circumferential seal. The lid is fitted over the seal and a vacuum is applied to secure the lid on to the plate. An electrode is moved into contact with the lid and the whole vessel is inverted so that electrolyte flows into contact with the lid sealed within the hole of the plate. A constant voltage is applied and the enamel rater uses electrolysis to detect a current between the electrodes. If there is a loss of integrity in the coating on the can lid, a current will be detected due to the exposure of metal on the lid.

[0035] It is desirable to be able to check smaller areas of such objects without having to expose the entire object, such as the whole internal surface of the can lid, to the electrolyte. For example, easy opening lids are normally checked in their entirety but it is the areas of the lid that experience the greatest mechanical deformation during the lid manufacturing process that are most prone to having issues with the coverage of the lacquer. For an easy opening lid, the area with the largest deformation is the rivet area where a ring pull for easy opening is riveted onto the rest of the lid. The present invention achieves this by providing an apparatus that can form a second sealed area around a smaller target region and delivers electrolyte to this sealed target area.

[0036] Embodiments of the present disclosure will now be described by way of example only and with reference to the accompanying drawings in which like features are denoted with the same reference numerals.

[0037] FIGS. 1 to 2E of the accompanying drawings illustrates one embodiment of an enamel rating apparatus according to an aspect of the present invention. The enamel rating apparatus includes an end adapter 10 having a main electrolyte-containing vessel 12 rotatably mounted on a stand 14, an electrode (not shown) penetrating the vessel wall and immersed in the electrolyte, height adjustable contacts 18 and a top plate 16 that is fixedly securable to the vessel 12, for example by magnetic or other suitable fasteners. The top plate 16 forms another aspect of the invention and includes a can lid adapter 20 that is configured to allow selective delivery of electrolyte from the vessel 12 to a target area T of a can lid 40. The vessel is also provided with a hollow vacuum shaft 15 (see FIG. 1) to enable a vacuum to be applied during use. In the illustrated embodiment, the lid adapter has a continuous side wall 23 extending outwardly from an upper surface of the top plate, the wall being in in the general shape of an ovoid to correspond with the profile of a can lid 40 but it is to be appreciated that any shape of adapter may be provided depending upon the shape of the object to be held therein, for example for a circular can lid, a lid adapter 20 would be provided having a circular perimeter wall.

[0038] The can lid adapter 20 has a base 21, preferably formed as part of the top plate 16 and the upper surface of the side wall 23 is provided with a continuous perimeter seal 22. Guide members 26 (further details of which are provided below) are provided at spaced apart intervals around the outer edge of the perimeter seal 22 and the base 21 is provided with a raised area 25 with secondary seal 24 surrounding a target area outlet 28. The raised area is preferably formed from an insulating, non-stick polymer, such as PTFE preferably Teflon. A second outlet 30 in the form of a funnel is provided in the base of the lid adapter spaced apart from outlet 28, preferably provided at the opposing end to the first target area outlet 28, the funnel having a helical U-shaped tube 32 attached to it extending from the underside of the plate 16 into the vessel 12. A drainage channel 21a is also formed in the base 21 for directing fluid towards the outlet funnel 30.

[0039] FIGS. 2D, 2E and 3A to 3C illustrate operation of the end adapter of the enamel rater apparatus shown in FIGS. 1 to 2C. A can lid 40 with rivet area T to be rated by the apparatus is placed over the side wall 23 of the lid adapter 20 to sit on the upper surface of the perimeter seal 22. Guide members 26 comprising spring mounted ceramic balls 26 assist in the accurate placement of the can lid to ensure that the rivet area T (see FIGS. 3A to 3C) lies over the raised area 25 with secondary seal 24. In the illustrated embodiment the spaced apart guide members 26 are positioned to the rear, sides 26s and to the front 26f of the adapter. The guide members 26 are mounted on springs 27 with the spring of the front member 26f being of a higher resilience than the other springs. In this manner, the guide member at the front can be manually moved to allow placement of the lid between the other guide members on the perimeter seal and is then released to urge the lid into the correct position on the adapter, thus ensuring correct centering of the lid with respect to the lid adapter. This is important to ensure that the small target area T to be rated, such as the rivet area, is mounted in line with the raised area 25 with secondary seal 24.

[0040] Once the lid is secured onto the lid adapter on the plate of the vessel, the contacts 18 are lowered into contact with the lid 40 and a vacuum is applied via the vacuum shaft 15. When vacuum is applied through shaft 15, air is removed from under the lid through the U-shaped tube member 32, pushing the lid firmly onto the adapter of the vessel plate. This causes the lid to be sucked onto the perimeter seal 22 and the rivet target area T to be sucked onto the secondary seal 24 surrounding the outlet 28. Vacuum also travels through opening 28 surrounded by the secondary seal, further assisting retention of the lid on the plate. The vessel is then rotated through 180 degrees (see arrows in FIGS. 3B and 3C) so that the plate 16 is now at the bottom of the vessel with the adapter 20 and can lid 40. This allows electrolyte 50 from the vessel 12 to enter only the rivet area T of the adapter via outlet 28, with the secondary seal 24 preventing the electrolyte from contacting the rest of the lid. If any electrolyte does escape via the seal, it is immediately sucked through the funnel outlet 30 and through the helical tube 32 back into the body of the vessel. In this manner, the target area T may be enamel rated independently of the rest of the lid. The use of a non-stick material for the raised area 25 substantially eliminates any air bubbles that may form around this area during inversion of the vessel which would detrimentally affect the readings produced during the enamel rating process. Once testing is complete, the vessel is rotated to the starting position, the electrodes lifted away from the lid, the vacuum is released, thereby enabling the can lid 40 to be removed from the lid adapter.

[0041] FIG. 4 of the accompanying drawings illustrates an enamel rater apparatus 100 incorporating the end adapter 10 of the invention as hereinbefore described wherein identical features already discussed are provided with the same reference numerals. The end adapter 10 of the enamel rater apparatus 100 is connected to vacuum generator 60 with automatic vacuum control 62 for automatic triggering of the vacuum generator and having a compressed air source 64 and filter regulator 66. The current measured during operation of the device is displayed on semi-automatic enamel rater digital display 70 or may be displayed on any other current measuring device.

[0042] It is to be appreciated that any shape of adapter could be provided for receiving a correspondingly-shaped object with the adapter being provided with a secondary sealed area positioned on the adapter to allow enamel rating of a particular target area of the object only. For example, with reference to FIG. 4, a system 100 could be provided with standard components but with a series of different top plates 16 for enamel rating different rivet areas of lids, or other small areas of ends, caps, flat sheets, domes etc., as desired. Ideally, the plates 16 are magnetically held to the vessel 12 to enable quick and easy changing of the plates. The apparatus 100 may also be provided with other optional features, such as sensors for self-checking of electrical contacts before every test, a water separator to avoid electrolyte getting into the air supply and an integrated calibration verification switch as are known in the art.

[0043] The illustrated embodiments secure the object to the vessel plate of the end adapter 10 of the enamel rater by the application of a vacuum. While this mechanism of attachment is preferred, it is to be appreciated that the enamel rater apparatus of the present invention may also be provided with alternative means for attaching the metal object to the vessel plate, such as mechanical means including magnets and/or a clamping mechanism. Targeting of a small area of the object for enamel rating is achieved in the same manner, i.e. by applying a secondary seal around the target area for delivery of electrolyte thereto in the inverted position.

[0044] FIGS. 5A to 5C of the accompanying drawings illustrate one embodiment of an alternative can lid adapter 200 for installation within an end adapter of an enamel rater apparatus of the present invention. In this embodiment, the lid 400 is not attached to the vessel plate 160 by a vacuum seal, instead being held on by mechanical means, such as a plurality of clamps 150 that push the lid onto the perimeter seal 220 of the lid adapter 200 and into contact with the secondary seal (not visible) around the target (e.g. rivet) area. As illustrated, each clamp 150 is secured to the vessel plate 160 adjacent the lid adapter 200 and has a lever 154 for raising and lowering the clamp and a rubber foot 152 for contacting the surface of the lid. Spring-mounted ceramic balls may also be provided for guiding the lid into position on the lid adapter, prior to lowering of the clamps. Once the lid is secured by the clamps, the vessel 12 can then be inverted (as illustrated in FIG. 3C) so that electrolyte just enters the rivet area of the lid. Once the enamel rating has been carried out, the vessel is rotated and the lid removed by removal of each clamp.

[0045] It is to be appreciated that a different number and arrangement of clamps 50 may be used to secure the lid to the lid adapter. A single lever mechanism may also be used to raise and lower multiple clamps.

[0046] The present invention allows a lid or other object to be securely attached to an enamel rater but only a target region, such as a rivet area, of the object gets wetted by electrolyte and thus is the only part of the object to be measured for conductivity. In a preferred embodiment, the whole lid is held onto the vessel by a vacuum with a further seal separating off the target region from the rest of the lid whereby the target region may be in fluid communication with the electrolyte to enable this region to be enamel rated.

[0047] Further modifications to the enamel rater may be made without departing from the principles embodied in the examples described and illustrated herein.