PROCESS FOR PRODUCING A HOLLOW ITEM BY INJECTION- MOULDING AND OBJECT OBTAINED BY USING SAID PROCESS

Abstract

A process of producing a hollow item by injection-moulding thermoplastic material, which has a rigid external shell and at least one soft internal portion, which uses a mould comprising a matrix, a first semi-mould including a first cavity and a second semi-mould including a second cavity counter-shaped to the matrix to reproduce a respective semi-shell of said rigid external shell. The process includes the phases of positioning at least one insert made of a soft material, constituting the soft internal portion, on the matrix; covering the insert with a connecting layer; hermetically sealing the first and second semi-moulds onto the matrix along the edges of the cavities; injecting into the space between the cavities and the connecting layer a thermoplastic material that forms the rigid external shell to create a permanent connection of the soft insert to the shell. The connecting layer substantially retains the characteristics of the soft insert.

Claims

1. Process of producing a hollow item by injection-moulding thermoplastics material, said item comprising a rigid external shell and at least one soft internal portion, said process including the use of a mould comprising a matrix, a first semi-mould comprising a first cavity and a second semi-mould comprising a second cavity counter-shaped to said matrix to reproduce a respective semi-shell of said rigid external shell, wherein it comprises the following phases: a. positioning at least one insert made of a soft material on said matrix, said insert constituting said at least one soft internal portion of said hollow item; b. covering said at least one insert with a connecting layer; p1 c. hermetically sealing said first and second semi-moulds onto said matrix along the edges of said first and second cavity; d. injecting into the space existing between said first and second cavity and said connecting layer a thermoplastics material destined to form said rigid external shell in order to create a permanent connection of said at least one soft insert to said rigid external shell, said connecting layer substantially retaining the characteristics of said at least one soft insert unchanged.

2. Process according to claim 1, wherein the external shell is made at least partially of a thermoplastics material with a melting temperature of between 150 and 250 degrees centigrade and/or a hardness of between 45 and 100 SHD.

3. Process according to claim 1, wherein the rigid external shell is made at least partially of a thermoplastics material chosen from: ABS, EVA, HDPE, LDPE, POM, PP, PS, SAN, SBC, PA, PET, PU and TPU.

4. Process according to claim 1, wherein the connecting layer is made at least partially of a thermoplastics material that has a melting temperature that exceeds 150 degrees centigrade and/or a hardness that exceeds 80 SHA.

5. Process according to claim 1, wherein at least one insert of soft material is made at least partially of a thermoplastics material with a melting temperature of less than 150 degrees centigrade and/or a hardness of between 5 and 80 SHA.

6. Process according to claim 1, wherein at least one insert of soft material is made at least partially of a thermoplastics material chosen from: SEBS, PVC, TPU, foamed PUs, expanded EVA and TPE-SEBS.

7. Process according to claim 1, wherein the connecting layer is made of a material that is chemically compatible with the material of the at least one insert and/or wherein the connecting layer is made of a material that is chemically compatible with the material of the rigid external shell.

8. Process according to claim 1, wherein the connecting layer has a thickness of between 0.04 millimetres and 1.00 millimetres.

9. Process according to claim 1, wherein the connecting layer has a thickness of between 0.04 millimetres and 0.55 millimetres.

10. Process according to claim 1, wherein the phase (a) of positioning the at least one insert is performed by: preparing a mould in order to injection-mould a thermoplastics material comprising the matrix, a third semi-mould and a fourth semi-mould, comprising a third cavity and a fourth cavity respectively, counter-shaped to reproduce the form of the at least one insert; injecting soft thermoplastics material into the space between said third and fourth cavity, so as to achieve the positioning of the at least one insert.

11. Process according to claim 1, wherein the phase (a) of positioning the at least one insert is performed by applying or resting said at least one insert, separately obtained by using known processes, on one free end of the matrix.

12. Hollow item comprising a rigid external shell made of a thermoplastics material and at least one insert made of a soft material, made by means of a process according to claim 1.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0031] Further features and advantages of the present invention will emerge more clearly from the following description of a particular, but not exclusive, embodiment illustrated purely by way of a non-limiting example with reference to the accompanying drawings, in which:

[0032] FIG. 1 is a partially cutaway schematic view of a product of an injection process according to the invention;

[0033] FIG. 2 is a schematic cross-sectional view of the product shown in FIG. 1, along line A-A;

[0034] FIGS. 3 to 5 show different phases of an injection process according to the present invention.

DETAILED DESCRIPTION OF THE INVENTION

[0035] With reference to the Figures referred to above, reference numeral 10 generically shows a sports shoe, in the embodiment shown by way of example in the accompanying Figures, composed of a ski boot; the sports shoe 10 comprises a casing 12, made of a basically rigid plastics material.

[0036] A casing 12 according to the invention is preferably made of a rigid plastics material that has a melting temperature of between 150 and 250 degrees centigrade. Furthermore, the rigid plastic material preferably has a hardness, measured in SHD, of between 45 and 100.

[0037] A list of thermoplastics materials that can be considered as rigid, given by way of non-limiting examples, includes: ABS, EVA, HDPE, LDPE, POM, PP, PS, SAN, SBC, PA, PET, PU and TPU.

[0038] Contained inside the casing 12 are two soft inserts 14 that extend horizontally and internally within the casing 12, which is also provided with at least one opening flap 16 to allow a foot to be inserted into the sports shoe 10 in use.

[0039] The casing 12 defines a cavity 18 to accommodate a foot and a portion of the leg of a user.

[0040] The two soft inserts 14 are connected to the internal surface of the cavity 18 of the casing 12 to cover it at least partially, so as to improve the comfort of a user.

[0041] Between the soft inserts 14 and the casing 12 a connecting layer 15 is advantageously interposed, composed for example of a thin sock, preferably made of a material that has a melting temperature that exceeds 150 degrees centigrade. Furthermore, the material with which the connecting layer 15 is made preferably has a hardness, measured in SHA, that exceeds 80.

[0042] Naturally, a device according to the invention can be a generic hollow item in which is provided a rigid outer casing or shell that comprises a cavity covered with a soft material; as previously mentioned, it can consist of a sports shoe or a protective device such as a knee-pad, wrist guard or elbow-pad where it is preferable to have at least one internal portion of the cavity of the shell made of a soft material.

[0043] Naturally, the application of the process according to the present invention is not limited to items within the sports sector, but can also extend to any other item having a rigid external shell that forms a cavity capable of being covered with a soft material or insert.

[0044] Hereinafter, the word casing shall mean a generic hollow item or external shell made of a rigid plastics material comprising one or more cavities.

[0045] The casing 12 comprises a pair of lateral flanks 20, 22, connected together at the heel 24 and toe 26.

[0046] The two soft inserts 14 are made of a soft plastics material that has a melting temperature of less than 150 degrees centigrade. Furthermore, the soft plastics material preferably has a hardness, measured in SHA, of between 5 and 80.

[0047] A list of plastics and/or thermoplastics materials and/or two-component foams that can be considered as soft include, by way of non-limiting examples, SEBS, PVC, TPU, foamed PUs, expanded EVA and TPE-SEBS.

[0048] The soft inserts 14 can be obtained using known processes and subsequently used as a base for the over-injection of the rigid material, or can be made in a first phase of injection of soft material in a bi-injection process. This bi-injection process therefore envisages at least one other phase with the injection of rigid and chemically compatible material.

[0049] The soft inserts 14 are thus permanently connected to the casing 12 at the internal surfaces of the lateral flanks 20, 22.

[0050] The permanent connection of the soft inserts 14 to the casing 12 is achieved by means of over-injection or bi-injection, as will be explained in further detail below, in the part relating to the process.

[0051] The process of injecting plastics material according to the invention, in order to produce an item with rigid and soft portions, will now be described with reference to FIGS. 3 to 5.

[0052] By way of example, the process involves producing a sports shoe that comprises a soft insert 114 made of a soft material, to completely cover the inside of a casing 112, but it is clearly understood that this process can also produce the sports shoe 10 previously described, in which the soft material is present in the two soft inserts 14 that partially cover the inside of the casing 20 or in general a hollow item comprising a rigid external shell and one or more soft internal portions.

[0053] The process according to the present invention comprises a preparation phase, shown in FIG. 4, in which a soft insert 114 is positioned on one free end of a matrix 30. The soft insert 114 is covered with a connecting layer 115, for example a thin sock fitted onto the matrix 30 manually by an operator. The connecting layer 115, previously prepared, like the connecting layer 15 previously described, is preferably chemically compatible with the soft insert 114.

[0054] The thickness of the connecting layer 15 and/or the connecting layer 115 is preferably between 0.04 millimetres and 1.00 millimetres.

[0055] As a result of experiments and analyses, it has been identified that a range of thickness of between 0.04 millimetres and 0.55 millimetres has been more preferable, obtaining the advantage of greater elasticity and adhesion in the machining phases.

[0056] A moulding phase then follows, schematically illustrated in FIG. 5, in which a first semi-mould 37 and a second semi-mould 38 are used, comprising a first cavity 43 and a second cavity 45 respectively, counter-shaped to reproduce the respective lateral flanks of a casing 112, similar to the casing 12 previously described.

[0057] The two semi-moulds 37, 38 are hermetically sealed on the matrix 30, obtained from the previous preparation phase, at the edges of the first and second cavity 43 and 45.

[0058] Subsequently, the thermoplastics material, intended to form the casing 112, made for example from one of the rigid materials previously mentioned or from others, is injected, through a channel 39, into the space between the first and second cavity 43 and 45.

[0059] Thanks to the presence of the connecting layer 115, the injected molten rigid material, which is at a temperature around its melting temperature, encounters the surface of the connecting layer 115 and is guided to fill the cavity to which it is destined, without damaging the surface of the soft insert 114 and avoiding the problems of the known art.

[0060] The connecting layer 115 favours the flow of the rigid material, so that the soft insert 114 is protected and retains its dimensional, structural and other characteristics, as desired.

[0061] Advantageously, the connecting layer 115 also performs the function of maintaining the position of one or more soft inserts on the matrix, so that the injection of the rigid material does not cause undesirable movements of the soft inserts, for example in the case of the soft inserts 14 of the sports shoe 10.

[0062] Once the moulding phase is completed, and the two semi-moulds 37, 38 are opened and the sports shoe obtained is removed from the matrix 30, the solidified thermoplastics material, which forms the casing 112, will then be closely connected by melting to the connecting layer 115 and consequently to the soft insert 114, thus achieving a permanent connection of the soft insert 114 to the internal surfaces of the lateral flanks of the casing 112.

[0063] Two methods of performing a phase of positioning the soft insert 114 on the matrix 30, according to the invention, will now be described.

[0064] According to the first method, as shown in FIG. 3, a mould is prepared in order to injection-mould a thermoplastics material comprising a matrix 30, a third semi-mould 31 and a fourth semi-mould 32, comprising a third cavity 33 and a fourth cavity 35 respectively, counter-shaped to reproduce the form of the soft insert 114.

[0065] Subsequently, the thermoplastics material, intended to form the soft insert 114, made for example from one of the soft materials previously mentioned or from others, is injected, through a channel 34, into the space between the third and fourth cavity 33 and 35, so as to achieve the positioning of the soft material required for the subsequent phases shown in FIGS. 4 and 5 and previously described.

[0066] In this case the complete process, according to the invention, is configured in a similar manner to a bi-injection process.

[0067] In a second method of performing the positioning phase according to the invention, the soft material is positioned directly on the surface of the matrix 30, thus avoiding the preparation phase shown in FIG. 3.

[0068] In this case, the complete procedure, according to the invention, is configured in a manner similar to an over-injection process.

[0069] The process according to the invention can therefore be applied both as a bi-injection and as an over-injection, advantageously using the relative known equipment.

[0070] In bi-injection, the production times are rendered much shorter by performing both injections in two moments that are very close together, injecting in a first moment the soft material and in a second moment the rigid material, interposing a connecting layer in order to achieve the desired result.

[0071] A second process that can be used is that of over-injection, which uses a soft material previously produced and applied directly onto the matrix, covered with a connecting layer, onto which is over-injected a rigid material, being much harder than the soft material.

[0072] Naturally, the present invention has many applications, modifications or variations without departing from the scope of protection as defined by independent claim 1 or 12.

[0073] Furthermore, the materials and equipment for production described in the present invention, as well as the forms and dimensions of the individual components, can be the most suitable for meeting specific requirements.