Method for the production of plastic footwear

Abstract

The present invention relates to a method for the production of plastic footwear (10; 100) of the “full plastic” type by means of moulding using a polyurethane mixture (M; P). The method comprises the steps of: —providing a mould (20) having a mould cavity (22) defined by at least two impressions (28, 30) and designed to receive a shoe last (24) so as to define, when the mould (20) is closed, an interspace (26) having the shape and dimensions of the plastic footwear (10; 100) to be produced; —spraying a polyurethane mixture (M, P) onto said at least two impressions (28, 30) of the mould cavity (22); —inserting the shoe last (24) inside said mould cavity (22); —closing the mould cavity (22) so that the sprayed polyurethane mixture (M, P) occupies said interspace (26); —opening the mould (20), once at least the demoulding time (td) for the sprayed polyurethane mixture (M, P) has lapsed, such that the sprayed polyurethane mixture (M, P) has solidified inside the interspace (26) forming said plastic footwear (10, 100); —extracting the shoe last (24) from the mould cavity (22); —removing the plastic footwear (10, 100) from the shoe last (24).

Claims

1. A method for the production of plastic footwear of the “full plastic” type by means of moulding using a polyurethane mixture, wherein a sole and an upper of the plastic footwear are made integrally as one piece, the method comprising the steps of: providing a mould having a mould cavity defined by at least two impressions and designed to receive a shoe last so as to define, when the mould is closed, an interspace having the shape and dimensions of the plastic footwear to be produced; spraying a polyurethane mixture with the mould open onto said at least two impressions of the mould cavity; inserting the shoe last inside the said mould cavity; closing the mould cavity so that the sprayed polyurethane mixture occupies said interspace; opening the mould, once at least the demoulding time for the sprayed polyurethane mixture has lapsed, so that the sprayed polyurethane mixture has solidified inside the interspace forming said plastic footwear; extracting the shoe last from the mould cavity; removing the plastic footwear from the shoe last.

2. The method according to claim 1, characterized in that the mould cavity is formed by at least two side shells, which are divided along a longitudinal plane, and by a base and in that, in order to close the mould cavity, after inserting the shoe last inside it, the following steps are performed: the side shells are moved together so that the said side shells surround the shoe last and make contact with each other along a longitudinal closing edge; the base is arranged against a bottom surface of the side shells so as to obtain said interspace.

3. The method according to claim 2, characterized in that each side shell comprises an impression intended to form an upper portion of the plastic footwear and in that the base comprises an impression intended to form a sole portion of the plastic footwear; during the spraying step the polyurethane mixture being sprayed onto the impressions of each side shell and onto the impression of the base so as to cover them uniformly.

4. The method according to claim 1, characterized in that the step of spraying the polyurethane mixture is performed using one or more anthropomorphic robot arms.

5. The method according to claim 1, characterized in that, before closing the mould cavity, a polymeric material insert is introduced inside the mould cavity; the polyurethane mixture being partly sprayed also onto this insert.

6. The method according to claim 2, characterized in that the mould comprises a cover designed to define, in combination with the two side shells and the shoe last, a first intermediate interspace; the spraying step comprising spraying a first polyurethane mixture onto the impressions of each side shell and spraying a second polyurethane mixture onto the impression of the base.

7. The method according to claim 6, characterized in that, after spraying the first polyurethane mixture, the two side shells are moved together so as to receive inside them the shoe last and make contact with each other along a longitudinal closing edge; the cover being arranged against the bottom surface of the side shells so as to define said first intermediate interspace.

8. The method according to claim 7, characterized in that the second polyurethane mixture is sprayed onto the impression of the base and then, after removing the cover from the two side shells, the base is arranged against the bottom surface of the two side shells.

9. The method according to claim 8, characterized in that a polymeric material insert is introduced inside the impression of the base; the second polyurethane mixture being sprayed, at least partially, onto this insert.

10. The method according to claim 2, characterized in that the two side shells are moved closer together so as to receive the shoe last and make contact with each other along a longitudinal closing edge, before the first polyurethane mixture is sprayed along the impressions of each side shell; a second polyurethane mixture being then sprayed onto the impression of the base and the base being arranged against the bottom surface of the two side shells to form the sole portion of the plastic footwear before forming the upper portion.

11. The method according to claim 10, characterized in that, after removing the base from the bottom surface of the two side shells and after moving the two side shells away from each other, a first polyurethane mixture is sprayed onto the impressions of the two side shells; the two side shells being then moved closer together so as to receive the shoe last and make contact with each other along a longitudinal closing edge, and the base being arranged against the bottom surface of the two side shells.

12. The method according to claim 1, characterized in that, before closing the mould cavity, a lining in the form of a stocking is fitted onto the shoe last.

13. The method according to claim 12, characterized in that said lining consists of a natural or synthetic furry lining or a padding made of synthetic material or felt.

14. The method according to claim 2, characterized in that the mould comprises a cover designed to define, in combination with the two side shells and the shoe last, a first intermediate interspace; the cover comprising a first element and a second element, each fixed to one of the two side shells.

15. The method according to claim 14, characterized in that the first element and the second element are intended to come up against a bottom surface of the side shells and be moved close together, when the two side shells surround the shoe last and make contact with each other along a longitudinal closing edge.

16. The method according to claim 14, characterized in that the first element and the second element are movable with respect to the side shell to which they are fixed by means of movement means; said movement means comprising pivoting supports designed to rotate about an axis perpendicular to a longitudinal axis of the side shells.

17. The method according to claim 1, characterized in that the polyurethane mixture is a mixture of the expanded type with a density less than 1 kg/l.

18. The method according to claim 6, characterized in that the second polyurethane mixture has a greater density than the first polyurethane mixture.

19. The method according to claim 2, characterized in that each side shell comprises an impression intended to form an upper portion of the plastic footwear and in that the base comprises an impression intended to form the tread portion of the plastic footwear.

20. The method according to claim 5, characterized in that said insert is shaped so as to form the tread of the plastic footwear.

Description

(1) The characteristic features and the further advantages of the invention will emerge from the description, provided hereinbelow, of a number of examples of embodiment, provided by way of a non-limiting illustration, with reference to the accompanying drawings in which:

(2) FIGS. 1 and 2 show in schematic form side views of plastic footwear which can be obtained with the method according to the present invention;

(3) FIG. 3 shows in schematic form a cross-sectional view of a mould which can be used for making plastic footwear by means of a known injection method;

(4) FIG. 4 shows a view, on a larger scale, of the detail of FIG. 3 indicated by A;

(5) FIG. 5 shows a view, on a larger scale, of a detail of FIG. 3 indicated by B;

(6) FIGS. 6A, 6B, 6C, 6D and 6E show in schematic form some steps of a first embodiment of the method according to the invention;

(7) FIGS. 7A, 7B, 7C, 7D and 7E show in schematic form some steps of a second embodiment of the method according to the invention;

(8) FIGS. 8A, 8B, 8C, 8D, 8E, 8F and 8G show in schematic form some steps of a third embodiment of the method according to the invention;

(9) FIGS. 9A, 9B, 9C, 9D, 9E, 9F, 9G and 9H show in schematic form some steps of a fourth embodiment of the method according to the invention;

(10) FIGS. 10A, 10B, 10C, 10D, 10E, 10F and 10G show in schematic form some steps of a further embodiment of the method according to the invention;

(11) FIG. 11 shows a view similar to that of FIG. 4, in which a detail of plastic footwear which can be obtained with the method according to the invention is shown;

(12) FIG. 12 shows a cross-sectional view of a further detail of plastic footwear which can be obtained with the method according to the invention;

(13) FIG. 13 shows a schematic view of a mould, in the open configuration, suitable for being used with the method according to the invention;

(14) FIG. 14 shows a schematic longitudinally sectioned view of a mould, in the closed configuration, suitable for being used with the method according to the invention;

(15) FIG. 15 shows a schematic view, similar to that of FIG. 14, showing the positioning of a shoe last inside the mould;

(16) FIG. 16 shows a schematic view of a further embodiment of a mould, in the open configuration and mounted on a corresponding mould holder, suitable for being used with the method according to the invention;

(17) FIGS. 17A, 17B, 17C, 17D, 17E, 17F, 17G and 17H show in schematic form some steps of the method according to the invention in which the mould shown in FIG. 16 is used.

(18) With reference to the attached figures, a method according to the invention for the production, by means of moulding, of plastic footwear 10, 100 of the “full plastic” type using a mixture of polyurethane M, P is described.

(19) As already mentioned, “full plastic” footwear is to be understood as meaning footwear in which the upper and the sole are made integrally such as to form continuous elements which are not stitched or glued together. In other words, in this type of footwear, the sole and the upper are made as one piece.

(20) FIGS. 1 and 2 show, as examples of footwear which can be obtained using the method according to the invention, a shoe 10, formed by a sole 11 and by an upper 12, intended to enclose the foot as far as the ankle, and a boot 100, formed by a sole 101 and by an upper 102, intended to enclose the foot and the bottom part of the leg as far as the knee.

(21) However, as will become clear from the description below, the innovative principles of the present invention may also be advantageously applied to different types of plastic footwear, such as sandals and slippers.

(22) The method according to the invention comprises in particular the following steps: providing a mould 20 having a mould cavity 22 defined by at least two impressions 28, 30 and designed to receive a shoe last 24 so as to define, when the mould 20 is closed, an interspace 26 having the shape and dimensions of the plastic footwear 10, 100 to be produced (see FIGS. 13, 14 and 15). spraying a polyurethane mixture M, P onto said at least two impressions 28, 30 of the mould cavity 22; inserting the shoe last 24 inside said mould cavity 22; closing the mould cavity 22 so that the sprayed polyurethane M, P occupies said interspace 26; opening the mould 20, once at least the demoulding time td for the sprayed polyurethane mixture M, P has lapsed, such that the sprayed polyurethane mixture M, P has solidified inside the interspace 26 forming said plastic footwear 10, 100; extracting the shoe last 24 from the mould cavity 22; removing the plastic footwear 10, 100 from the shoe last 24.

(23) In a known manner, once the footwear 10, 100 has been removed from the shoe last 24, any moulding burrs will be trimmed.

(24) The last 24 is preferably made of aluminium and, in a known manner, has a shape and dimensions which are the same as the overall form of the foot and the leg. It defines the shape and the internal volume of the footwear 10, 100.

(25) The impressions 28, 30 of the mould cavity 22 define the shape and external dimensions of the footwear.

(26) The volume contained within the impressions 28, 30 and the outer surface of the last 24 forms the interspace 26 which must be filled by the polyurethane mixture in order to obtain the footwear 10, 100.

(27) In the context of the present description, spraying means propelling nebulized (atomized) liquid mixtures. Basically, the microparticles of the polyurethane mixture M, P are conveyed inside an air stream.

(28) For the purposes of the present invention, “demoulding time” td means the minimum time interval which must lapse, once the polyurethane mixture M, P has been sprayed, in order to extract the footwear 10, 100 from the mould 20, without the footwear undergoing any deformation.

(29) Advantageously, the polyurethane mixture M, P sprayed onto the impressions 28, 30 of the mould cavity 22 may be a mono or multi-component mixture.

(30) Moreover, the sprayed polyurethane mixture M, P may be polyester based or polyether based. Preferably, the sprayed polyurethane mixture M, P is a mixture of the expanded type, i.e. with a density less than 1 kg/l.

(31) The polyurethane mixture is sprayed using a spraying device 32 (see for example FIGS. 6A-6E). Advantageously, the spraying device 32 may be moved by means of an anthropomorphic robot arm 34 programmed to spray the quantity of polyurethane mixture needed to cover correctly each impression 28, 30 of the mould cavity 22 depending on the shape and the dimensions of the footwear 10, 100 to be obtained.

(32) Alternatively, the spraying device 32 may be moved manually.

(33) Advantageously, the spraying step of the method according to the invention is performed with the mould open and therefore allows the various impressions of the mould cavity to be correctly and uniformly covered.

(34) Preferably, the spraying step is performed with the mould kept in the horizontal position.

(35) Spraying of the polyurethane mixture on the impressions 28, 30 is performed such that the polyurethane mixture is distributed so as to occupy the whole interspace 26, optionally also expanding once the mould is closed. The polyurethane mixture therefore does not have to flow inside the interspace, as instead occurs in injection moulding.

(36) It is therefore no longer necessary to increase the thicknesses of this interspace, as occurs in the case where an injection-moulding process is used, in particular in the case where expanded polyurethane mixtures are used.

(37) With reference to the example shown in FIG. 11, if compared with FIG. 4, it can be noted how, with the method according to the present invention, it is possible to obtain plastic footwear with smaller thicknesses compared to the known footwear. For example, it is possible to obtain plastic footwear with uniform thickness in the region of 1-2 mm.

(38) These smaller thicknesses may also be obtained in the case where a lining 70 is fitted onto the shoe last 24. The lining 70 preferably is in the form of a stocking.

(39) The lining 70, advantageously, is fitted onto the shoe last 24, before the step of spraying the polyurethane mixture M, P is performed and, obviously, before the mould cavity 22 is closed. Optionally, the polyurethane mixture M, P may also be sprayed onto the lining 70, before the mould cavity 22 is closed.

(40) Differently from that which occurs during the known injection-moulding processes, the presence of the lining 70 does not hinder the correct filling of the interspace 26, since the polyurethane mixture, before the mould cavity is closed, is already uniformly distributed on the impressions 28, 30 of the mould cavity.

(41) The lining 70 may in any case be provided with a surface film 80 in the case where it is necessary that the lining should not be impregnated by the sprayed polyurethane mixture. Moreover, advantageously, by performing spraying of the polyurethane mixture M, P it is possible to obtain plastic footwear provided with natural or synthetic furry linings 70A or with a padding of synthetic material or felt, and therefore with irregular thicknesses.

(42) As can be clearly seen in FIG. 12, the presence of these linings does not adversely affect the correct filling of the interspace 26 since the sprayed mixture, when the mould 10 is closed, may be compressed and adhere to the lining. The lining may adhere to the polyurethane mixture (in the case of linings combined with breathable or non-breathable polyurethane films) or be impregnated with it, to a greater or lesser degree, depending on the thickness at a given point, but the footwear will have a defect-free external surface.

(43) Advantageously in this case also, the lining 70A may be combined with a polyurethane film 80 which prevents the lining from being soaked with the sprayed polyurethane mixture.

(44) Preferably, the polyurethane mixture M, P will be sprayed using a spraying device 32 which has a small amount of play between the mixing screw and the internal walls of the mixing chamber, where the base components of the polyurethane mixture M, P (polyol and isocyanate and optional additives) are mixed together. This play is preferably constant and has a value of less than 1 millimetre.

(45) Advantageously, the polyurethane mixture M, P may be sprayed onto the impressions 28, 30 of the mould cavity 22 keeping the value of the throughput preferably between 0.5 and 25 grams per second.

(46) Moreover, the mixing screw of the spraying device 32 preferably is made to rotate at a speed of rotation of between 8000 and 30000 rpm.

(47) A spraying device with these technical characteristics is described in European Patent 2346614.

(48) By means of this type of spraying device it is possible to spray the polyurethane mixture M, P with an excellent degree of precision so that it covers perfectly the finishes of the impressions 28, 30, also when defined textures and sharp edges are present.

(49) Moreover, advantageously with the polyurethane mixture spraying process it is possible to obtain footwear which is free of defects, such as air bubbles or pockets, which may be generally encountered during the known processes for moulding polyurethane mixtures by means of casting or injection.

(50) Reference is now made to FIGS. 6A-6E which show a first embodiment of the method according to the invention.

(51) In this embodiment, the mould cavity 22 is formed by at least two side shells 36, which are divided along a longitudinal plane, and by a base 38.

(52) The step of closing the mould 20 is performed by moving the side shells 36 together so that they receive inside them the shoe last 24 and make contact along a longitudinal closing edge (see FIG. 6D). Then (see FIG. 6E), the base 38 is brought into contact against a bottom surface 40 of the side shells 36, so as to obtain the interspace 26 which must be filled with the sprayed polyurethane mixture.

(53) The movements and the mechanisms for moving the side shells of the mould and the base will not be described in detail since they are well known to the person skilled in the art.

(54) As shown in schematic form in the figures, each side shell 36 comprises an impression 28 and the base 38 comprises in turn an impression 30.

(55) The impressions 28 are preferably intended to form the upper portion (leg piece) 12, 102 of the footwear, while the impression 30 is preferably intended to form the sole portion 11, 101 of the footwear 10, 100. In particular, the impression 30 is intended to form the tread portion of the footwear 10, 100.

(56) During spraying the polyurethane mixture is preferably sprayed onto the impressions 28 of each side shell 36 (see FIGS. 6B and 6C) and onto the impression 30 of the base 38 (see FIG. 6D) so as to cover them.

(57) Preferably, the polyurethane mixture is sprayed uniformly onto the impressions of the mould cavity so as to cover them completely.

(58) Obviously in the case where the footwear envisages variations in thickness, for example in the heel zone, at these points it will be possible to spray a greater or smaller amount of polyurethane mixture.

(59) Preferably, as shown in FIGS. 6B-6D, the polyurethane mixture M may be sprayed firstly onto the impressions 28 of the two side shells 36 and then onto the impression 30 of the base 38.

(60) Advantageously, after spraying the impression 28 of one of the side shells with the polyurethane mixture M (see FIG. 6B), the shoe last 24 is moved towards this impression 28, while in the meantime the polyurethane mixture M is also sprayed onto the impression 28 of the second side shell (see FIG. 6C).

(61) The base 38 may be brought into contact against the bottom surface 40 of the two side shells 36, after the corresponding impression 30 has been sprayed with the polyurethane mixture M (see FIGS. 6D and 6E).

(62) According to an alternative embodiment, not shown in FIGS. 6A-6E, the polyurethane mixture is sprayed firstly onto the impression 30 of the base 38 and then onto the impressions 28 of the two side shells 36.

(63) The sequence of the spraying steps and the sequence of the mould closing steps may, in fact, vary depending on the type of mould 20 and the polyurethane mixture used.

(64) FIGS. 7A-7E show a variant of the above embodiment.

(65) In this embodiment, before the mould cavity 22 is closed, a polymeric material insert 42 is introduced inside the mould cavity 22. Preferably the insert 42 is introduced inside the impression 30 of the base 38.

(66) The insert 42 may be made for example of rubber or thermoplastic polyurethane. Advantageously, the insert 42 may be shaped so as to form the tread of the footwear produced.

(67) Advantageously, before closing the mould cavity 22, the polyurethane mixture M may be sprayed partly also onto the insert 42 (see FIG. 7D) so as to favour its adhesion to the remaining portion of the footwear.

(68) With reference to FIGS. 8A-8G, according to a different embodiment of the invention the mould 20 also comprises a cover 44. This cover 44 is designed to define, in combination with the two side shells 36 and the shoe last 24, a first intermediate interspace.

(69) Advantageously, the cover 44 is arranged in such a way that the spraying step may be performed using two different polyurethane mixtures. For example, a first polyurethane mixture M may be used to form the upper portion 12, 102 of the footwear 10, 100, while a second polyurethane mixture P may be used to form the sole portion 11, 101 of the footwear 10, 100. For example, the second polyurethane mixture P may be a polyurethane mixture having a greater density than the first polyurethane mixture M, thus making it possible to obtain a sole 11, 101 which has a greater abrasion resistance than the other portions of the footwear, without negatively affecting the weight of the whole footwear.

(70) For example, the second polyurethane mixture P may have a density equal to or greater than 1 kg/l and the first polyurethane mixture M may have a density less the 1 kg/l, preferably less than 0.6 kg/l, even more preferably less 0.4 kg/l.

(71) With reference to FIGS. 8B and 8C, the first polyurethane mixture M may be advantageously sprayed onto the impressions 28 of the two side shells 36. After this spraying operation, the two side shells may be moved together so as to receive inside them the shoe last 24 (see FIG. 8D). Then the cover 44 is arranged against the bottom surface 40 of the two side shells 36 so as to obtain the first intermediate interspace (see FIG. 8E).

(72) The second polyurethane mixture P may be sprayed onto the impression 30 of the base 38 (see FIG. 8F) and then, after removing the cover 44 from the two side shells 36, the base 38 is arranged against the bottom surface 40 of the two side shells 36 (see FIG. 8G).

(73) FIGS. 9A-9H show a variant of the above embodiment.

(74) In particular, in this variant a polymeric material insert 42 may be introduced inside the mould cavity 22 so that the second polyurethane mixture P is sprayed, at least partly, on top of this insert.

(75) Preferably, this insert 42 is introduced inside the impression 30 of the base 38 (see FIG. 9F) and the second polyurethane mixture P is sprayed, at least partly, onto it (see FIG. 9G), before arranging the base 38 against the bottom surface 40 of the side shells 36.

(76) Reference is now made to FIGS. 10A-10G. In this embodiment, the two side shells 36 are moved together so as to receive the last 24 and rest against a longitudinal closing edge, before the first polyurethane mixture M is sprayed along the respective impressions 28.

(77) A second polyurethane mixture P, in fact, is first sprayed onto the impression 30 of the base 38 (see FIG. 10A). Then the base 38 is placed against the bottom surface 40 of the two side shells 36 (see FIG. 10B) so as to allow the polymerization reaction of the mixture P to take place. In this way it is possible to form the sole portion of the footwear before forming the upper portion. Moreover, it is possible to use two different polyurethane mixtures to form, respectively, the sole portion and the upper portion of the footwear. For example, a polyurethane mixture P with a density greater than the polyurethane mixture M may be used to form the sole portion, while the polyurethane mixture M with a lower density may be used to form the upper portion.

(78) Thereafter, the base 30 is moved away from the bottom surface 40 of the side shells 36 and the two side shells are separated from each other (see FIG. 10C).

(79) The first polyurethane mixture M is then sprayed onto the respective impressions 28 in the manner described above (see FIGS. 10D and 10E).

(80) Once the two side shells have been closed around the last 24, the base 38 is again positioned against the bottom surface 40 of the two side shells 36 (see FIG. 10G) so as to close the mould cavity and allow the polymerization reaction of the polyurethane mixture M to take place.

(81) The polyurethane mixture M may also be sprayed onto the impression 30 of the base 38 before placing the base 38 against the bottom surface 40 of the two side shells 36, so as to favour adhesion between the sole portion 11, 101 of the footwear and the upper portion 12, 102 thereof (see FIG. 10F).

(82) In this way it is possible to form the sole portion of the footwear, before forming the upper portion. Moreover, it is possible to use two different polyurethane mixtures to form, respectively, the sole portion and the leg portion of the footwear. For example, a higher density polyurethane mixture P with a greater abrasion resistance may be used to form the sole portion, while a polyurethane mixture M with a lower density may be used to form the upper portion.

(83) Reference is now made to FIG. 16 and FIGS. 17A-17H.

(84) FIG. 16 shows a further embodiment of a mould 20 suitable for use with the method according to the invention.

(85) In particular, in this embodiment, the cover designed to define, in combination with the two side shells 36 and the shoe last 24, a first intermediate interspace, is formed by two separate elements, i.e. a first element 44A and a second element 44B, each fixed to one of the two side shells 36.

(86) With reference to FIG. 16, the first element 44A and the second element 44B are movable with respect to the side shell 36 to which they are fixed via movement means 46. These movement means 46 preferably comprise pivoting supports designed to rotate about an axis perpendicular to the longitudinal axis of the shells 36.

(87) Obviously, different embodiments of the movement means 46 are possible in order to satisfy specific requirements as regards the relative movement of the shells 36 and first and second elements 44A, 44B.

(88) In detail, the first element 44A and the second element 44B are intended to come into contact against the bottom surface of the side shells 36 and be moved together when the two side shells 36 are closed around the last 24.

(89) In this way, the two elements 44A, 44B define the first intermediate interspace such as to avoid, during the spraying steps, any leakages of polymeric material along the bottom surface of the side shells 36.

(90) FIGS. 17A-17H show an embodiment of the method according to the invention in which the mould shown in FIG. 16 is used. The steps shown in FIGS. 17A-17H correspond substantially to the steps shown in FIGS. 8A-8G in which the use of a mould 20 provided with a single cover 44 is illustrated.

(91) The difference consists in the fact that preferably the two elements 44A and 44B are arranged next to the respective side shells 36 before the polyurethane mixture M is sprayed onto the impressions 28 of each side shells 36 (see FIG. 17A).

(92) In this way it is ensured that there is no leakage of polymeric material from the shells 36 during the subsequent spraying of the polyurethane mixture M onto the impressions 28, when the two shells 36 are not yet closed around the last 24 (see FIGS. 17B and 17C).

(93) The inner surfaces of the two elements 44A and 44B are shaped so as to be able to receive inside them the bottom portion of the last 24.

(94) Once the polymerization reaction of the first polymer mixture M has taken place, the two elements 44A, 44B, by means of the pivoting movement means 46, may be separated from each other (see FIG. 17F) so as to create the space for the base 38.

(95) After the second polymer mixture P has been sprayed onto the impression 30 of the base 38 (see FIG. 17G), the base is arranged against the bottom surface of the two shells 36 (see FIG. 17H). In this position the base 38 is positioned between the two elements 44A, 44B. Advantageously, the mould shown in FIG. 16 may be used also with the other modes of implementation of the method according to the present invention described above.

(96) For example, a single polymer mixture M may be sprayed onto the impressions 28 of the two shells 36 and onto the impression 30 of the base 38.

(97) Or the polymer mixture may be sprayed first onto the impression 30, and then spraying of the impressions 28 of the two shells 36 may be performed.

(98) Advantageously, with the method according to the present invention it is possible to spray in series, during the same spraying step, polyurethane mixtures M; P having different densities and/or different mechanical properties.

(99) For example, with reference to FIGS. 6A-6E, after spraying a first polyurethane mixture onto the impressions 28 of the two side shells 36 and before moving together the two side shells (see FIGS. 6B and 6C) a second polyurethane mixture may be sprayed onto the first polyurethane mixture which has just been sprayed, so as to cover it.

(100) The two side shells will be moved together, once the second polyurethane mixture has also been sprayed.

(101) Advantageously, the second polyurethane mixture will have a density less than that of the first polyurethane mixture sprayed.

(102) In this way, with the first denser polyurethane mixture, the external surface of the footwear may be formed, while with the second less dense polyurethane mixture the internal part of the footwear will be formed. Advantageously, it is therefore possible to use specific denser polyurethane mixtures in order to form the visible part of the footwear, without adversely affecting the weight thereof.

(103) Between the first and second spraying operations performed in series any inserts (for example glass fibres, carbon fibres, etc.) may be arranged between the two polyurethane mixtures so as to improve the mechanical properties of the footwear and optionally obtain footwear with a more attractive appearance.

(104) Several spraying operations, performed in series, using polyurethane mixtures with different properties are also possible with the other modes of implementation of the method described above.

(105) From the above it is clear how with the method according to the invention it is possible to solve the problems described above with reference to the prior art.

(106) In particular, by means of a method according to the invention it will be possible, compared to the known moulding methods, to design moulds which have small thickness interspaces, without negatively affecting the quality of the finished product.

(107) It will be possible, in fact, to obtain plastic footwear having walls with thin and uniform thicknesses over the entire surface. This enables the weight and cost of the footwear to be reduced.

(108) In particular, with the method according to the invention, it will be possible to produce plastic footwear with small thickness walls, using polyurethane mixtures of the expanded type, i.e. with a density less than 1 kg/l.

(109) Moreover, with the method according to the invention, it is possible to apply to the footwear, already during the moulding step, not only internal linings which are smooth and/or combined with polyurethane films, but also coating-free linings which may be impregnated with the sprayed material and which are less costly.

(110) Furthermore, with the method according to the invention, it is possible to apply inside the footwear, already during the moulding step, also linings with large irregular thicknesses (in the region of 7-10 mm), such as synthetic material padding or natural or synthetic furry linings, without having to resort to subsequent manual application thereof, resulting in an obvious reduction of the time and costs involved.

(111) Advantageously, the method according to the invention may be implemented also using moulds designed to be used in processes for the injection-moulding of different polymeric materials, for example moulds designed for PVC injection-moulding. In this way, without additional costs, a broader range of products may be obtained with a single mould.

(112) Moreover, spraying of the polyurethane mixture advantageously also allows plastic footwear with defined textures and sharp edges to be produced, because there is no longer the risk that air bubbles may remain trapped inside the mould cavity.

(113) Furthermore, spraying of the polyurethane mixture advantageously allows plastic footwear to be produced such that there are no visible injection points on the footwear, also avoiding wastage of material inside the injection channel.

(114) Moreover, with the method according to the invention it is possible to produce footwear using polyurethane mixtures such as to obtain a uniform density of material over the whole volume of the footwear, since the polyurethane mixture is deposited uniformly over all the impressions of the mould cavity when the mould is open.

(115) Finally, with the method according to the invention it is possible to obtain footwear with a uniform colour over the whole surface.

(116) The person skilled in the art, in order to satisfy specific needs, may make modifications to the embodiments described above and/or replace the elements described with equivalent elements, without thereby departing from the scope of the attached claims.

(117) For example, the steps of spraying the impressions of the side shells and the base and the sequence of the mould closing steps may be performed in a different order from that described, according to specific needs.

(118) In the case of moulding using two different polyurethane mixtures, preferably the polyurethane mixture with a longer reaction time will be sprayed first.