The invention refers to lids cups, mugs, receptacles or any container for goods, such as beverages, for example coffee. The containers may be of any material such as paper or plastic.

Known lids have an opening from where the user may drink or sip the beverage. The opening is covered after production with a label for reasons of hygiene. The label may be printed with messages regarding the content of the cup etc. The label may be laminated with adhesive to facilitate its attachment to the lid. Other known lids have a slot for a straw.

Document FR2903041 presents a method of production of containers by injection moulding περιγράφεται μέθοδος παραγωγής χυτών δοχείων με έγχυση with removable/detachable labels that is known as In Mould Labeling - abbreviation: IML. The method is applied for the production of containers to store food stuff in solid form.

European patent application EP2241515 presents an application of the IML method of production for the production of lids having attached and detachable spoons, which are covered by a label.

The object of the present invention is a lid that guarantees the necessary Cleanliness and hygiene and may be produced with no difficulties. A further object of the invention is to provide printing area on the labels. A further object of the invention is a method of production of such lids. A further object of the invention is a mould for the production of such lids.

The invention is defined in the independent claims.

According to the invention, a lid for a glass, cup, mug or other container has a wall with an opening and a detachable label over an area of the wall, which includes the opening, whereby the thickness of a continuous and non- interrupted first section of the wall, which is covered by the label, is greater from the thickness of at least a second section of the wall that is adjacent to the first section and in that the label is attached to the wall by In-Mold- Labeling process during the production of the lid.

Further according to the invention, a method of production of lid for a glass, cup, mug or other container for beverages is effected by moulding and comprises the following steps: i) providing a mould with a gate to guide the moulding material to a cavity of the mould that has a depth corresponding to the thickness of the lid, which cavity has a first zone and a second zone that is adjacent to the first zone, the depth of the first zone being greater than the depth of a second zone and the first zone having configuration means to configure an opening in the lid, ii) providing a label in the cavity, which label covers at least partially the configuration means, iii) forcing the moulding material over one of the two faces of the label and iv) obtaining the lid with the label covering at least part of the opening of the lid and an area of the lid around the opening. A mould according to the invention has a gate to guide the moulding material to a cavity of the mould. The mould has a depth corresponding to the thickness of the lid, which cavity has a first zone and a second zone that is adjacent to the first zone, the depth of the first zone being greater than the depth of a second zone and the first zone having configuration means to configure an opening in the lid.

Optional features offer further advantages when combined with the features of the independent claims. A lid or a method for the production of a lid according to the invention may include one or a combination of more than one optional features. In an embodiment of the invention the wall of the lid has a central wall, a side wall and a lip and the opening is at least partially located at an elevated section of the central wall and is adjacent to the side wall. The continuous and non-interrupted first section may include areas of the central wall, the side wall and the lip.

In a further embodiment of a lid according to the invention, the thickness of the continuous and non-interrupted first section is 10% greater than at least the thickness of the second section. In a further embodiment of a lid according to the invention, the thickness of the continuous and non- interrupted first section is 10% to 20% greater than at least the thickness of the second section. Further according to the invention, a method of production of lid for a glass, cup, mug or other container for beverages is effected by moulding and comprises the following steps: i) providing a mould with a gate to guide the moulding material to a cavity of the mould that has a depth corresponding to the thickness of the lid, which cavity has a first zone and a second zone that is adjacent to the first zone, the depth of the first zone being greater than the depth of a second zone and the first zone having configuration means to configure an opening in the lid, ii) providing a label in the cavity, which label covers at least partially the configuration means, iii) forcing the moulding material over one of the two faces of the label and iv) obtaining the lid with the label covering at least part of the opening of the lid and an area of the lid around the opening. The thickness of the second section may be in a range from 0.3 mm to 2 mm. The lid may be made from a material that includes polypropylene and/or the label may be made from a material that includes multilayer polyporpylene. In an example according to the invention the label has a face attached to the wall that is almost entirely covered by release coating. In a preferred embodiment the label has a flap, which projects from the lid to facilitate the detachment of the label from, the lid. During production the label is placed partially in the cavity and the flap is outside the cavity. During moulding, the moulding material that exits the gate fills faster the first zone rather than to the second zone. The material flows from the gate towards the first zone with an almost radial flow, preferably along a path that is within the first zone. The gate is preferably located within the first one of the cavity of the mould.

The opening of a lid according to the invention, from which the user will suck the beverage, is sealed with a label as soon as the lid is produced and is removed from the lid until the user lifts the label from the lid. Thus, it is ensured that no foreign element will be inserted in the beverage, as long as the container, which contains it, is covered with such a lid. The label may be decorated or printed. The incorporation of the label with IML is an effective method of production that prevents the placement of a self-adhesive label later after the production of the lid. A container with a lid having a label according to the invention may be used to carry a beverage safely, maintaining the aroma and temperature of the beverage and without spilling the liquid content. This effect is achieved in a controllable manner, so that with the fitting of the label on the lid during production, the subsequent fitting of other covers on the lid, using other means such as adhesives, which are not according to the hygiene norms, is not necessary and is avoided.

Preferred embodiments of the invention are described with reference to Figures 1 to 5, whereby:

· Figure 1 is a 3 dimensional view of the lid without the label covering the opening. • Figure 2 is a 3 dimensional view of the lid with the label covering the opening.

• Figure 3 is a section of the mold that is used for the production of the lid according to the invention.

· Figures 4a to 4f present the flow of the material during the production of the lid using moulding. The figures present the diffusion of the material in the cavity of the mold, where the lid is produced as the moulding progresses. Figures 4a and 4f show schematically the flow at the beginning and at towards the end of the process respectively. The arrows show the flow of the moulding material, when moulding is effected according to the invention.

• Figure 5 is a 3 dimensional view of the lid with the label lifted to uncover the opening. Figure 1 shows an example of a lid 10 according to the invention. The lid 10 has a central wall 14 and a side wall 12. The central wall 14 is configured on three levels. In this example the central wall 14 has a circular part, an annular part around the perimeter of the circular part and an elevated part 16 which projects from the annular part. The circular part, the annular part and the elevated part 16 are configured at three different levels with each level being at a distance from the other two. In the elevated part 16 there is an opening 18 from which the user drinks or sips the beverage that is contained in the cup or other receptacle or container, which is covered by the lid 10. In the figures the lid 10 is circular but is may have other shapes, for example oval, rectangular etc. The side wall 12 extends almost perpendicular from the central wall 14 in the opposite direction from the elevated part 16, which projects from the annular part. The side wall 12 has a lip 19 at its edge, which extends radially away from the central wall 14. The central wall 14 covers the cup or other receptacle of container, which is not shown in the figures. In the example of Figure 1 , the central wall 14 is almost circular. The opening 18 is located close to the circumference of the central wall 14, in an elevated part 16 of the central wall 14. When the lid 10 is in position covering the cup, the lip 19 is around the cup and the opening 18 is close to the edge of the opening of the cup. The wall of the lid 10 has an outer face and an inner face. When the lid 10 covers the cup, the inner face faces the cup and the outer face is exposed to the environment. However, there is an area of the outer face, which includes the opening 18 and which is protected from the environment by a detachable or removable label 22. The label 22 that covers the opening 18 may have difference shapes. The label 22 is attached to the outer face of the lid 10 during the production of the lid 10 by moulding. The moulding of the lid 10 with the label 22 attached to the outer face of the wall of the lid 10 is effected by In Mould Labeling - abbreviation IML. Figure 1 shows the lid 10 without the label 22, which has been removed to show the opening 18 and Figure 2 shows the label 22 covering the opening 18.

The label 22 covers the opening 18 and is attached around it. In the example of Figure 2, the detachable label 22 covers almost totally the circular part of the central wall 14 and it is incorporated in the lid 10 around the opening 18, in the side wall 12 and in the lip 19. An end of the label 22, for example a flap, projects from the lip 19, so as to facilitate the user to lift the label 22 and uncover the opening 18. As an example, the material of the lid 10 may comprise polypropylene and the label 22 that is attached to the lid 10 by In- Mold-Labelling may comprise multilayer polypropylene. One face of the label 22 may be printed with information, instructions or other messages. The other face of the label 22 is preferably covered partially or totally with release coating to facilitate its detachment from the lid 10. The lid 10 has a continuous and non-interrupted first section 60, which has a thickness that is greater than the thickness of the at least a second section of the lid 10, which second section is adjacent to the first section. The thicker first section 60 may be totally or partially covered by the label 22. In the examples shown in the Figures the thickness of the first section 60 of the lid 10 is 0.5 mm and the rest of the lid 10 has a thickness that is equal to 0.4 mm. In general the lid 10 has a thickness that is equal or greater than 0.3 mm and equal of smaller than 2 mm. The thickness of the first section 60 is usually 10% to 40% thicker that the thickness of the second section. The lid 10 may be made from polypropylene (PP) and the label 22 is a pre-printed label of polypropylene.

Figure 3 shows a mould 40 according to the invention, which is used for the production of the lid 10. The mould 40 has a female element 41 and a male element 42. Between the female element 41 and the male element 42 there is a cavity for the production of the lid 10. The depth of the cavity, i.e. the distance between the female element 41 and the male element 42, corresponds to the thickness of the lid 10. Figure 3 shows an example of the mould 40, where the female element 41 has a configuration, which forms the opening 18 of the lid 10. In the detail of Figure 3 the configuration is a projection 45. The moulding material flows in the cavity through gate 47, which is also shown in Figure 3. The cavity of the mould 40 has a first zone and a second zone that is adjacent to the first zone. The depth of the first zone that corresponds to the thickness of the first section 60 of the lid 10 is greater than the depth of a second zone.

Figures 4a to 4f present the flow and the diffusion of the moulding material with time during the moulding of the lid 10, i.e. Figure 4a illustrates the diffusion of the moulding material at the beginning of the production process, Figure 4f illustrates the moulding material short before the end of the production process and Figures 4b, 4c, 4d, 4e illustrate the flow and diffusion of material during the moulding process. The arrows in Figures 4a to 4f show schematically how the moulding material flows with time. The flow is depicted on a sketch of the lid 10, which is under production. Before the beginning of the moulding process of a lid 10, a label 22 is placed in the area of the cavity of the mould 40 around the projection 45, where the opening 18 of the mould 10 will be formed. Thus, the label 22 will cover the opening 18 and an area around the opening 18 on the outer face of the lid 10 under production, as it is presented in Figure 3. Region 60 shown in Figure 4 is a continuous and non-interrupted area of the lid 10 that is under production, which, when the lid 10 is produced, will have a thickness that is greater than the thickness of the rest of the lid 10 or at least of an area that is adjacent to region 60. The region 60 that is covered by the label 22, is around gate 47 and extends in the central wall 14, the side wall 12, the lip 19 and surrounds the opening 18. Figures 4a and 4b show the continuous and non-interrupted region 60 in the circular part of the central wall 14 of the lid 10 as the moulding material accumulates in this area and in Figures 4c to 4f after the volume is filled with the moulding material. The continuous and non- interrupted region 60 is depicted in Figures 4a and 4b with continuous lines and Figures 4c έως 4f with dashed lines. Figures 4 illustrate the moulding of the lid 10 according to the invention. The moulding material is guided initially to the first zone of the cavity, where the continuous and non-interrupted region 60 will be produced and subsequently it is diffused in other regions of the cavity of the mould 40. As shown in Figure 4b the moulding material flows faster along the longitudinal direction of the first zone or the region 60 rather that transversely. Figures 4b and 4c illustrate that the moulding material reaches the part of the cavity, where the circumference of the circular part of the lid 10 will be produced and which is covered by the label 22, faster than it reaches other parts of the circumference. Figures 4d and 4e illustrate that the moulding material flows faster in the part of the cavity where the annular part and the lip 19 will be produced and which is covered by the label 22 rather than in the parts of the part of the cavity where the annular part and the lip 19 will be produced and which are at a distance from label 22. Figure 4f illustrates that the moulding material flows in the part of the cavity, where side wall 12 will be formed and which is not covered by the label 22 after the moulding material fills the part of the cavity that corresponds to the side wall 12 of the lid 10 and which is covered by the label 22. The moulding process that is illustrated in Figures 4a to 4f has the advantage to prevent the moulding material to insert between the mould 40 and the label 22. If the moulding material inserts between the mould 40 and the label 22, the label 22 may be covered from both sides with moulding material. In such a case the label 22 may be captured and encased within the lid 10.

The flow of the moulding material is illustrated by the arrows. One way to force the material to the region that is covered by label 22 at the beginning of the production process is the increase of the depth of the mould 40, i.e. the increase of the distance between the female element 41 and the male element 42 of the mould 40, in this region. The gate 47, which is the outlet of the moulding material in the cavity, is also provided in the region, where the label 22 is provided during production. The increase of the thickness of the continuous and non-interrupted first zone of the mould 40 that correspond to the first section 60 of the lid 10, enables the diffusion of the moulding material in the zone with greater depth rather than in its neighboring zones with smaller depth, because the zone with greater depth provides less resistance to the flow of the moulding material. Thus, the moulding material is forced to fill the region of the cavity, where label 22 is provided, before it fills the other regions of the cavity of the mould 40.

If the moudling material were not forced in the region where the label 10 is provided at the beginning of the moulding process, before neighboring regions, the moulding material may insert between the mould 40 and the label 22, following a transverse flow across the circumference of the label 22 towards the region of the cavity that is covered by the label 22. A method according to the invention may be also applied for the production of any container, with a wall that is similar to the wall of a lid, which wall has an opening that is covered by a detachable label. Figure 5 is a three-dimensional view of the lid 10 with the label 22 lifted to uncover the opening 18. The label 22 of this embodiment covers almost all the circular part of the central wall 14. The label that covers the opening may be circular, rectangular, oval or it may have any shape. It may also be printed and/or embossed.