• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Procedure for manufacturing a piece of reinforced plastic, and corresponding reinforced plastic part. The plastic part comprises a rigid core (3) completely embedded in a molded body (2), and is manufactured in an injection mold (20) without the need to insert support pins in the molding cavity. The method comprises: forming a first part (2a) of the molded body (2) in an injection mold (4, 20); extracting from the injection mold (4, 20) the first part (2a) formed; joining the reinforcing core (3) to the first part (2a) in order to form a semi-finished part (9); arranging the semi-finished part (9) in an injection mold (11, 20); forming a second part (25) of the molded body (2) in the injection mold (11, 20) in order to obtain the piece of reinforced plastic; extracting the formed reinforced plastic part from the injection mold (11, 20). (Machine-translation by Google Translate, not legally binding)
    公开号:ES2588262A1
    申请号:ES201631282
    申请日:2016-10-04
    公开日:2016-10-31
    发明作者:José Antonio MOSTAZO OVIEDO
    申请人:Unex Aparellaje Electrico SL;
    IPC主号:
    专利说明:

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    MANUFACTURING PROCEDURE OF A REINFORCED PLASTIC PIECE AND CORRESPONDING REINFORCED PLASTIC PIECE
    DESCRIPTION
    Field of the invention
    The invention is located in the field of manufacturing reinforced plastic parts with a rigid insert.
    Specifically, the invention relates to a method of manufacturing a reinforced plastic part having the particularity of being formed by a molded plastic body and at least one rigid reinforcing core that is completely embedded in the molded body.
    The invention also relates to a reinforced plastic piece obtained by this procedure.
    State of the art
    Reinforced plastic parts of the particular type to which the invention relates are used, for example, as support pieces, in which the rigid reinforcing core provides mechanical resistance to the piece, while the plastic body that completely envelops said core of reinforcement has the function of forming a complete coating of the latter to isolate it from the environment.
    The manufacture of these pieces using a mold presents the difficulty of ensuring that the reinforcing core is correctly positioned within the body of molded plastic material. Indeed, if during the molding process the reinforcing core is not maintained in a correct position, it is possible that in some areas the plastic material coating has an insufficient thickness, even nonexistent, with which the reinforcing core in the piece end may be exposed to the outside atmosphere. A solution to control the position of the reinforcing core in the mold
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    it consists in providing in the molding cavity some support points on which the reinforcing core is supported to keep it at a predetermined distance from the wall of said molding cavity. The parts of the reinforcing core that are in contact with these points of support remain uncoated, which is why it is necessary to provide a later stage to cover them with plastic material.
    Document US2002074688 describes a procedure to completely encapsulate an insert with a plastic material, in which a two-stage injection molding is performed. In a first stage the insert is placed in a first mold and held in position by means of pins, so that the insert is separated from the wall of the molding cavity by an interstitium of uniform thickness. Plastic is injected into this gap, so that the insert is covered by a layer of plastic on its entire surface except at the points of contact with the pins, which remain uncoated. The molding cavity of this first mold is provided with recesses that form protuberances in the plastic coating layer. In a second stage a second mold is used, wider than the first, in which the plastic-coated insert formed in the first stage is placed supported by the protuberances against the wall of the mold cavity, whereby a new gap of uniform thickness between the insert and the mold. Plastic is injected again in this last gap, so that a new layer of plastic is formed that covers the entire surface, including the contact points with the spikes that have been left uncoated in the first stage. Thus, the final coating of the piece has two layers, and its thickness cannot be less than the sum of the thickness of the first coating and the height of the protuberances formed in the first molding. On the other hand, it is difficult to obtain a uniform finish of the surface of the final piece, in which the protuberances that have supported the second molding are not noticed.
    Description of the invention
    The purpose of the invention is to provide a method of the type indicated at the beginning, to manufacture the reinforced plastic part using an injection mold without the need to introduce support pins into the molding cavity, and which
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    allow to obtain a better finish of the surface of the piece, as well as choosing
    greater free the thickness of plastic material that covers the reinforcing soul.
    This purpose is achieved by a manufacturing process of the type indicated
    at the beginning, characterized in that it comprises the following stages:
    - forming by means of injection molding of plastic material, in an injection mold, a first part of the molded body, so that said first part has a perimeter edge that delimits a face in which a footprint is formed to receive the soul of reinforcement, said footprint being surrounded by a perimeter zone of said face between said footprint and said perimeter edge;
    - extracting said first formed part of said mold by injection;
    - provide a rigid reinforcing soul with a shape corresponding to that of that footprint;
    - joining said reinforcing core to said first part by snapping said reinforcing core into said footprint, thereby obtaining a semi-finished piece formed by the integral assembly of said first part and said reinforcing soul, in which said reinforcing soul it covers said footprint and has a bare surface;
    - arranging said semi-finished piece in an injection mold comprising a housing cavity, in which said semi-finished piece is housed, and a molding cavity that is applied on said face of the first part, completely covering said uncovered surface of the core of reinforcement and said perimeter zone of the face of the first part; and forming by molding, by injection of plastic material into said molding cavity, a second part of said molded body that completely covers said uncovered surface of the reinforcing core and said perimeter area of the face of the first part, and which is attached to said surface already discovered and said perimeter zone by overmolding, said reinforced plastic part being formed, in which said reinforcing core is completely isolated from the outside by the plastic material constituting said molded body;
    - extracting said reinforced plastic part formed from said injection mold.
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    This method according to the invention is carried out in two stages of injection molding using successively two different molding cavities, but without the need to introduce support pins into the molding cavity. Thanks to the fact that the coating of plastic material by injection takes place without the wall of the molding cavity that defines the coating being in contact with support points, a perfect surface finish is obtained in the final piece. Furthermore, in the process according to the invention, the mold cavities can be freely sized to obtain the desired coating thickness.
    On the basis of the invention defined in the main revindication, preferred embodiments are provided whose characteristics are set out in the dependent claims.
    The footprint formed on the face of the first part may consist of a recess in said face. However, in preferred embodiments that allow a thinner coating to be obtained, the footprint is delimited at least by protrusions formed on the face along a line that corresponds to a contour of the reinforcing core. Preferably, at least some of these projections form a frame that externally frames the reinforcing soul embedded in the footprint. This arrangement facilitates the operation of fitting the reinforcement soul into the footprint, and makes the fit more robust. In some planned embodiments, the frame formed by the projections is discontinuous. In particular, the projections can be provided to be arranged only at corners of the reinforcing core. This solution improves the union between the two parts during the second molding stage. In other embodiments, the frame formed by the projections is continuous, whereby the fixing of the reinforcing core to the first part is more robust.
    The projections that form a frame can be located in the extension of the perimeter edge of the first part. However, in the preferred embodiments said projections are separated from the perimeter edge. This arrangement improves the union between the first and second parts and provides a particularly good finish in the final piece, in which the union between the two parts is only noticeable by
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    a line that corresponds to the contour of the face of the second piece in which the footprint is formed.
    The invention is applied in a particularly advantageous way to manufacture reinforced plastic parts provided with at least one through hole that crosses the reinforcing core and which generally serves to screw the piece to a support. In this case, preferably, the through hole is constituted by a through hole formed in the first part and which crosses the face of the latter, a corresponding through hole formed in the second part and a corresponding through trade formed in the reinforcing core. The footprint is delimited at least by a flange that is formed on said face of the first part and which extends from said face from the contour of said through hole of the first part. The flange is shaped so that when said reinforcing core is fitted in said fingerprint said flange is inserted tightly into said corresponding passing craft formed in said reinforcing core.
    Preferably, the flange is a continuous flange along the entire contour of the through hole of the first part, and said continuous flange is shaped so that when the reinforcing core fits into the fingerprint said continuous flange is inserted tightly into the corresponding through office formed in the reinforcing core and completely covers the contour of this last through hole. This configuration has the advantage that the flange ensures the covering of the surface of the reinforcing core corresponding to the contour of the through hole of the latter.
    In the preferred embodiments, the reinforced plastic part has a plate shape and the reinforcing core also has a plate shape, the dimensions of said reinforcing core being in its main plane such that it extends throughout the main plane of said reinforced plastic piece, except in the perimeter zone.
    This reinforced plastic part is particularly advantageous for use as a support part, in particular as a support part in wiring installations
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    electrical in which all elements must be electrical insulators. The process according to the invention is particularly advantageous for the manufacture of this type of plate-shaped pieces, since it allows to obtain a coating of plastic material of small thickness without the risk that some point of the reinforcing core is discovered. In some basic embodiments, this reinforced plastic part has a flat plate shape and the reinforcing core also has a flat plate shape. In other embodiments, the reinforced plastic part has a layered plate shape and the reinforcing core also has a layered plate shape.
    Preferably the reinforcing soul is metal. A metal piece commercially available as a support piece can be advantageously used as a reinforcing core, such as a flat or angled metal plate, preferably with a through hole, and a plastic material coating applied thereon by applying the method according to the invention .
    Preferably the first and second parts of the molded body are formed by injection molding of the same plastic material. A piece with a uniform appearance is obtained, like that of a piece of ordinary molded plastic without inserts.
    In advantageous embodiments, the injection mold in which the first part of the molded body is formed and the injection mold in which said second part of said molded body is formed form the same injection mold, which comprises the cavity housing and the molding cavity to form the second part of the molded body, and also comprising a molding cavity to form the first part of the molded body. This solution allows to reduce the cost of the molds.
    The invention also relates to a reinforced plastic part, formed by a molded body by plastic injection and a rigid reinforcing core completely embedded in said molded body, manufactured by the procedure described above.
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    The invention also comprises other detail features illustrated in the following detailed description of a form of embodiment of the invention and in the accompanying figures.
    Brief description of the drawings
    The advantages and characteristics of the invention can be seen from the following description in which, without limitation with respect to the scope of the main revindication, preferred ways of carrying out the invention are mentioned by mentioning the figures.
    Fig. 1 is a perspective view of a piece of reinforced plastic in the form of a flat plate, the broken line representing a rigid soul embedded therein.
    Figs. 2, 3 and 4 are, respectively, a plan view, a side view and a front view of the reinforced plastic part of Fig. 1.
    Figs. 5 and 6 show the formation of the semi-finished piece in an intermediate stage of the manufacturing process of the reinforced plastic part of Fig. 1. Fig. 5 is a perspective view of the rigid soul presented in front of the first part of the body molded Fig. 6 is a perspective view of the semi-finished piece formed after pressing the rigid core into the first part of the molded body.
    Fig. 7 is a perspective view of the reinforced plastic part of Fig. 1, after the second part of the molded body has been formed from the mold in which the second part of the molded body has been formed on the semi-finished part of Fig. 6.
    Fig. 8 shows the molding cavity intended to form the first part of the molded body. Two half molds of an injection mold, which form said molding cavity, are shown in a separate position.
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    Fig. 9 shows the housing cavity in which the semi-finished piece of Fig. 6 is housed, and the molding cavity that is applied on said semi-finished piece to form the second part of the molding body. Two half molds of an injection mold are shown in a separate position, forming said housing cavity and said molding cavity.
    Figs. 10 and 11 represent the disposition stage of the semi-finished piece of Fig. 6 in the mold cavity. Fig. 10 shows the semi-finished piece presented in front of the housing cavity. Fig. 11 shows said semi-finished piece arranged in said housing cavity.
    Fig. 12 is a sectional view showing the semi-finished piece in the mold, before injecting the plastic material to form the second part of the molded body.
    Fig. 13 is a view corresponding to Fig. 12, after having injected the plastic material to form the second part of the molded body.
    Fig. 14 shows a solution in which the same mold is used to mold the first part and the second part of the molded body.
    Fig. 15 is a perspective view of a reinforced plastic part according to another possible embodiment of the invention, in which said part has a layered plate shape.
    Fig. 16 is an exploded view of the rigid core and the first part of the molded body, corresponding to the reinforced plastic part of Fig. 14.
    Detailed description of some embodiments of the invention
    Figs. 1-4 and 7 show a reinforced plastic part 1, manufactured by the method according to the invention and intended to be used as a support piece for cable trays. Piece 1 has a rectangular flat plate shape, with
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    a through collision hole 16 intended for the passage of a fixing screw. It is constituted by a molded body 2 of plastic material and a rigid reinforcing core 3 that is completely embedded in said molded body 2, such that said reinforcing core 3 is completely isolated from the outside by the plastic material constituting said molded body 2. As can be seen in Fig. 5, the reinforcing core 3 is a rectangular flat plate provided with a through hole 19 corresponding to the through hole 16 of the piece 1, so that the latter passes through the reinforcing core 3 through said through hole 19. The dimensions of this reinforcing core 3 in its main plane are such that it extends over the entire main plane of the piece 1, except in a perimeter zone 8 which will be defined later.
    The reinforcing core 3 is a flat metal plate, for example galvanized steel, while the constituent material of the molded body 2 is an electrical insulating thermoplastic, for example PVC.
    The process for manufacturing part 1 comprises the following steps.
    In a first stage, it is formed by injection molding, in an injection mold 4, a plastic part that constitutes a first part 2A of the molded body 2. Once formed and sufficiently cooled to have consistency, this first part 2A is removed from the mold 4. As can be seen in Fig. 5, the first part 2A has a flat plate shape whose dimensions, in its main plane, correspond to those of the piece 1 to be manufactured. The lower face of this first part 2A, as well as the perimeter edge 5 thereof, will respectively form an outer face and a part of the perimeter edge of the part 1. The opposite face 6 of the first part 2A, delimited by the perimeter edge 5, is intended to receive the reinforcing soul 3 and remain inside the piece 1. To this end, on this face 6 a footprint 7 is formed to receive the reinforcement soul by snap fit. This footprint 7 is positioned so that between it and the perimeter edge 5 is a perimeter zone 8 of the face 6. In the embodiment shown in Fig. 5, the footprint 7 is delimited by protrusions 14 formed in the face 6 along a line that corresponds to a contour of the reinforcing core 3. The protrusions 14 are four straight elbow-shaped flanges arranged
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    in positions corresponding to the four corners of the reinforcing core 3, so that these protrusions 14 form a discontinuous frame that externally frames the reinforcing core 3 when the latter is embedded in the footprint 7. Optionally, other complementary protrusions arranged can be provided along the lines corresponding to the sides of the reinforcing soul. Outgoing
    14 are separated from the perimeter edge 5, so that said perimeter zone 8 between the footprint 7 and the perimeter edge 5 is formed by the width of the flanges that form the projections 14 plus the fringe between these projections 14 and the perimeter edge 5 In addition, the first part 2A has a through collision hole 17 that crosses the face 6 and which corresponds to the through hole 19 of the reinforcing core 3. The footprint 7 is delimited, in addition to the said projections 14, by a flange
    15 which is formed on the face 6 and extends from said face 6 from the contour of the through hole 17. The flange 15 has an outer shape that conforms to the inner shape of the through hole 19 of the reinforcing core 3, of such that when said reinforcing core 3 fits into the footprint 7, said flange 15 is inserted tightly into said passing trade 19. As can be seen in Figs. 5 and 6, in the embodiment shown, the flange 15 is a continuous flange that extends along the entire contour of the through hole 17 of the first part 2A. The height of the flange 15 is greater than the thickness of the reinforcing core 3, so that when said reinforcing core 3 fits into the footprint 7 against the face 6, said continuous flange 15 completely covers the contour of the through hole 19 of the core of reinforcement 3.
    In Fig. 8 is shown the injection mold 4 that is used to form this first part 2A of the molded body. It is formed by two half molds that together form a molding cavity 21 corresponding to the shape of said first part 2A.
    In a second stage, the reinforcing core 3 is joined to the first part 2A that has been previously formed in the injection mold 4. This joint is made by snap fitting of the reinforcing core 3 in the footprint 7, thanks to the shape correspondence between the discontinuous frame formed by the protrusions 14 and the corners of the reinforcing core 3, and between the continuous flange 15 and the through hole 19. The
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    semi-finished piece 9 shown in Fig. 6, formed by the joint assembly of the first part 2A and the reinforcing core 3. In this semi-finished piece 9, the reinforcing core 3 is arranged so that it covers the footprint 7 and has a bare surface 10. In the form of realization shown in Figs. 5 and 6, this uncovered surface 10 is formed by the upper face of the reinforcing soul 3 and by the sections of the four sides of the latter which are not covered by the projections 14.
    In a third stage, a second part 2B of the molded body 2 is formed by injection molding, which is finally constituted by these first 2A and second 2B parts, and which contains the reinforcement core 3 completely embedded therein. For this, the semi-finished piece 9 is introduced into an injection mold 11 comprising a housing cavity 12, in which said semi-finished piece 9 is housed. The mold 11 also comprises a molding cavity 13 to form the second part 2B of the molded body 2. When the semi-finished piece 9 is housed in the housing cavity 12, the molding cavity 13 is applied on the face 6 of the first part 2A, completely covering the uncovered surface 10 of the reinforcing core 3 and the area perimeter 8 of face 6 of the first part 2A. Fig. 9 shows the two half molds that form the mold 11. The half mold on the right comprises the housing cavity 12, while the half mold on the left comprises the mold cavity 13.
    Figs. 10 and 11 show the process of introducing the semi-finished piece 9 into the housing cavity 12. In Fig. 12 the position of the semi-finished piece 9 can be seen once the mold 11 has been closed. As can be seen in Figs . 11 and 12, the face 6 is flush with the half-mold face in which the housing cavity 12 is formed. In Fig. 12 it can also be seen that the shape of the housing cavity 12 is a negative of the shape of the housing first part 2A on the side opposite to the face 6. The housing cavity 12 comprises a projecting block 23 that passes through the through holes 17 and 19 and which extends into the molding cavity 13, in order to form in the second part 2B a through hole 18 which is aligned with said through holes 17 and 19 to constitute with them the through hole 16 of the part 1. The outgoing block 23 has the additional function of supporting
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    the semi-finished piece 9 housed in the housing cavity 12. Also shown in Fig. 12 is the space 22 formed between the molding cavity 13, the semi-finished piece 9 and the projecting block 23. This space 22 corresponds to the second part 2B to be formed, and completely covering the uncovered surface 10 of the reinforcing core 3 and the perimeter zone 8 of the face 6 of the first part 2A. The same plastic material that is injected into the mold 4 is injected into the space 22 to form the first part 2A, thereby forming the second part 2B by injection molding, which is attached to the uncovered surface 10 and the perimeter zone 8 by overmold. The two parts 2A, 2B, which have been made by two-stage molding, together form a single molded body 2 of the same material, which contains the reinforcing core 3.
    Finally, the formed part 1, shown in Figs. 1-4 and 7. As can be seen in Fig. 7, the outer appearance of part 1 is that of a conventional injection-molded monobloc plastic part.
    The injection molding steps to form the two parts 2A and 2B respectively can be carried out in different injection molds 4, 11. In the figures, the molds 4 and 11 have each been represented with a single molding cavity. However, it can be provided that these molds 4, 11 comprise a plurality of cavities, so that each mold 4, 11 can form in each injection-extraction cycle a plurality of first parts 2A and a plurality of second parts 2B, respectively.
    To reduce the cost of the molds, it can also be provided that the injection mold in which the first part 2A is formed and the injection mold in which the second part 2B is formed form the same injection mold 20, which comprises the cavity housing 12 to accommodate the semi-finished piece 9, the molding cavity 13 to form the second part 2B and the molding cavity 21 to form the first part 2A. This embodiment is shown in Fig. 14. In the same injection-extraction cycle a first part 2A is formed and a second part 2B is formed at the same time on a semi-finished part 9 that has been made with another first part 2A formed in a previous cycle. As in the previous case,
    A variant of this embodiment can be provided in which the mold 20 comprises a plurality of cavities to simultaneously form a plurality of first parts 2A and a plurality of second parts 2B.
    5 Figs. 15 and 16 show by way of non-limiting example another piece 1 obtainable by the method according to the invention, which only differs from the piece 1 shown in the previous figures in that it has a layered plate shape with several through holes 16. The core of reinforcement 3 also has a corresponding angled plate shape and corresponding through holes 19. Also, the first part 2A has a corresponding angled plate shape and corresponding through holes 17, each with a flange 15 as described above. In addition, in this case the protrusions 14 that delimit the footprint 7 form a continuous frame. The procedure used to manufacture part 1 of Fig. 15 is the same as described above. The only difference is that the 15 cavities of the molds have corresponding shapes to this piece 1 in the form of a flat layered plate. It is not considered necessary to represent these molds here, since they are within the reach of a person skilled in the art who follows the teachings provided above for the manufacture of part 1 of Fig. 7.
    权利要求:
    Claims (15)
    [1]
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    1.- Manufacturing process of a reinforced plastic part (1), formed by a molded body (2) of plastic and at least one stiffening reinforcement (3) completely embedded in said molded body (2), characterized by which comprises the following stages:
    - forming, by injection molding of plastic material, in an injection mold (4, 20), a first part (2A) of said molded body (2), so that said first part (2A) has a perimeter edge (5 ) delimiting a face (6) in which a footprint (7) is formed to receive the reinforcing core (3), said footprint (7) being surrounded by a perimeter zone (8) of said face (6) between said footprint (7) and said perimeter edge (5);
    - extracting said first part (2A) of said mold from said mold by injection (4, 20);
    - provide a rigid reinforcing soul (3) with a shape corresponding to that of said footprint (7);
    - joining said reinforcing core (3) to said first part (2A) by snapping said reinforcing core (3) on said footprint (7), thereby obtaining a semi-finished piece (9) formed by the integral assembly of said first part (2A) and said reinforcing core (3), wherein said reinforcing core (3) covers said footprint (7) and has a bare surface (10);
    - arranging said semi-finished piece (9) in an injection mold (11, 20) comprising a housing cavity (12), in which said semi-finished piece (9) is housed, and a molding cavity (13) which is it applies on said face (6) of the first part (2A), completely covering said uncovered surface (10) of the reinforcing core (3) and said perimeter zone (8) of the face (6) of the first part (2A) ; and forming by molding, by injecting plastic material into said molding cavity (13), a second part (2B) of said molded body (2) that completely covers said uncovered surface (10) of the reinforcing core (3) and said perimeter zone (8) of the face (6) of the first part (2A), and which is attached to said uncovered surface (10) and said perimeter zone (8) by overmolding, said reinforced plastic part (1) being formed. ), wherein said reinforcing core (3) is completely isolated from the outside by the plastic material constituting said molded body;
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    - extracting said reinforced plastic part (1) formed from said injection mold (11, 20).
    [2]
    2. - Procedure according to claim 1, characterized in that said footprint (7) is delimited at least by projections (14) formed on said face (6) along a line corresponding to an outline of said reinforcing core (3).
    [3]
    3. - Method according to claim 2, characterized in that at least some of said projections (14) form a frame that externally frames said reinforcing core (3) embedded in said footprint (7).
    [4]
    4. - Method according to claim 3, characterized in that the frame formed by said projections (14) is discontinuous.
    [5]
    5. - Procedure according to claim 3, characterized in that the frame formed by said projections (14) is continuous.
    [6]
    6. - Method according to any of claims 3 to 5, characterized in that said projections (14) forming a frame are separated from said perimeter edge (5) of the first part (2A).
    [7]
    7. - Method according to any one of claims 1 to 6, wherein the reinforced plastic part (1) obtained by it comprises at least one through hole (16) that crosses said reinforcing core (3), characterized by that said through hole (16) is constituted by a through hole (17) formed in said first part (2A) and that crosses said face (6) of the latter, a corresponding through hole (18) formed in said second part (2B ) and a corresponding passing trade (19) formed in said reinforcing core (3), and because said footprint (7) is delimited at least by a flange (15) that is formed on said face (6) of the first part ( 2A) and extending from said face (6) from the contour of said through hole (17) of the first part (2A), said flange (15) being shaped so that when said reinforcing core (3) is fitted ) in said
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    fingerprint (7) said flange (15) is inserted tightly into said corresponding passing craft (19) formed in said reinforcing core (3).
    [8]
    8. - Method according to claim 7, characterized in that said flange (15) is a continuous flange along the entire contour of said through hole (17) of the first part (2A) and said continuous flange (15) is formed so that when said reinforcing core (3) is fitted on said fingerprint (7) said continuous flange (15) is introduced tightly into said corresponding passing craft (19) formed in said reinforcing soul (3) and completely covers the contour of this last through hole (19).
    [9]
    9. - Method according to any of claims 1 to 8, characterized in that said reinforced plastic part (1) has a plate shape and said reinforcing core (3) also has a plate shape, the dimensions of said soul being of reinforcement (3) in its main plane such that it extends throughout the main plane of said reinforced plastic part (1), except in said perimeter zone (8).
    [10]
    10. - Method according to claim 9, characterized in that said reinforced plastic part (1) has a flat plate shape and said reinforcing core (3) also has a flat plate shape.
    [11]
    11. - Method according to claim 9, characterized in that said reinforced plastic part (1) has a bent plate shape and said reinforcement core (3) also has a bent plate shape.
    [12]
    12. - Method according to any of claims 1 to 11, characterized in that said reinforcing core (3) is metallic.
    [13]
    13. Method according to any of claims 1 to 12, characterized in that said first (2A) and second (2B) parts of the molded body (2) are formed by injection molding of the same plastic material.
    - 17 -
    [14]
    14. - Method according to any one of claims 1 to 13, characterized in that the injection mold in which said first part (2A) of the molded body (2) is formed and the injection mold in which said second part is formed ( 2B) of the molded body (2) form the same injection mold (20), which comprises said
    5 housing cavity (12) and said molding cavity (13) to form the second part (2B) of the molded body (2), and also comprising a molding cavity (21) to form said first part (2A) of the molded body (2).
    [15]
    15. - Reinforced plastic part (1), formed by a molded body (2) by plastic injection 10 and a rigid reinforcing core (3) completely embedded in said
    molded body (2), manufactured by the method according to any of claims 1 to 14.
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