MOLD SEPARATION DEVICE COMPRISING A CHAIN OF ARTICULATED LINKS BETWEEN THEM

专利摘要:
The separation device comprises: - an actuating device (8) movable in translation along a first axis (A1) between a retracted position and a separation position, - a separating element (28, 60) movable in translation according to a second axis (A2) between a retracted position and a separation position, - a transfer device (26) connecting the actuating device (8) and the separating element (28, 60). The transfer device (26) comprises at least two links (46) rotatable relative to one another and to the actuating device (8) and the separating element (28, 60). ), and a guide member (36) receiving said links (46), said links being moved in a displacement path by the actuating device (8) and moving the separating member (28, 60).
公开号:FR3048196A1
申请号:FR1651611
申请日:2016-02-26
公开日:2017-09-01
发明作者:Sylvain Belliard
申请人:Faurecia Interieur Industrie SAS；
IPC主号:

专利说明:

Separation device for a mold comprising a chain of links articulated together
The present invention relates to a mold type separation device for producing an article molded in a molding cavity for allowing the separation between at least a portion of the molded article and at least a portion of said molding cavity, said device comprising: - an actuating device movable in translation along a first axis between a retracted position and a separation position, - at least one separating element movable in translation along a second axis, different from the first axis, between a position retracted and a separation position, - at least one transfer device connecting the actuating device and the separating element, said transfer device being arranged to move the separating element along the second axis between its retracted position and its separation position when the actuating device is moved along the first axis between its position retracted and its separation position.
In a mold for producing a molded part, such as an injection mold, the molded part is removed from the mold, for example by means of a gripping tool, when the mold cavity is open. In order to facilitate this removal, it is intended to separate the molded part from the part of the mold on which the molded part rests by means of a separating device or ejection device.
Such an ejection device generally comprises an ejection plate, movable in a recessed space of the mold part in a direction corresponding to the ejection direction of the part, and one or more ejection rods integral with the plate. ejection and opening into the wall of the portion of the mold against which the molded part is applied. By moving the ejection plate in the ejection direction, the ejector rods push the molded part away from the wall of the mold part, allowing subsequent removal of the molded part. The use of several rods is particularly advantageous when the molded part has a large surface because these rods can be distributed on this surface in order to push the piece into different parts thereof and avoid deformation and or breakage of the piece at during his ejection. The use of an ejection plate makes it possible to simultaneously move all the rods by means of a single device for actuating the ejection plate.
However, in such a separation device, the rods are movable only in a single ejection direction, which limits the possibilities of ejection strokes.
Such a limitation can be problematic for parts having complex shapes, for example when these parts are not flat and have areas extending in one or more different planes of a plane perpendicular to the direction of ejection or when they comprise elements projecting in a direction different from the direction of ejection. On the other hand, the ejection plate must have a sufficient size to receive all the rods, which requires to provide a recessed space of corresponding size in the mold part. However, the larger this space, the more the part of the mold in which it is practiced is weakened. This can be particularly problematic in an injection mold, in which the part of the mold must be able to withstand the injection pressure of the material injected into the molding cavity. Without such resistance, the molding cavity may be deformed during injection and thus produce parts that are not in accordance with what is desired.
In addition, the arrangement of the rods in the mold part may be complicated by the presence of additional elements provided in the mold. For example, heating elements or heat transfer fluid circulation channels may be provided in the mold. The choice of the arrangement of the rods is then limited to not interfere with these elements, which can be problematic to support certain areas of the room during the ejection.
A problem also arises when a complementary molding element intended to form a complementary element on the molded article, such as a screwing drum or the like, must be separated from the complementary element of the molded article before being able to remove the molded article from the molding cavity. Such a problem arises especially when the shape of the complementary element does not allow the ejection of the molded article by simple actuation of an ejection device. One of the aims of the invention is to overcome the above disadvantages by providing a separation device offering a greater freedom of layout while being less bulky, even for large molding parts or comprising one or a plurality of complementary elements formed by one or more complementary molding elements. To this end, the invention relates to a separation device of the aforementioned type, in which the transfer device comprises at least two links movable in rotation with respect to each other and with respect to the actuating device and the separating element, and a guide element receiving said links, said links being moved in a displacement path in said guide element by the actuating device and moving the separating element, said links being guided in said element guidance on the entire travel run.
The transfer device makes it possible to modify the separation direction of the separation element by choosing a second axis inclined with respect to the first axis. Thus, by way of example, the separation device may comprise an ejector rod ejecting the workpiece along the first axis and another ejection rod forming the separation element and ejecting the workpiece along the second axis, which allows to eject pieces of complex shape. The transfer device also makes it possible to deport the second axis relative to the first axis, that is to say to position the second axis away from the first axis without requiring to enlarge the space required for the displacement of the separation device. according to the first axis. Thus, in the case of an ejection plate forming the separating device, the dimension of the recessed space in the mold part can be reduced so that the robustness of the mold part is increased and allows the part of the mold to withstand high injection pressures. The transfer device can also be used to bypass additional elements provided in the part of the mold, which makes it possible to position the separating element as desired whatever the structure of the part of the mold. The separating device can also be used advantageously when the separating element is a complementary molding element intended to form a complementary element on the molded article.
According to other characteristics of the separation device according to the invention: the links are identical to each other; - The transfer device is arranged so that a displacement of the actuating device of a given distance along the first axis causes a displacement of the separation element of the same distance along the second axis; the guide element comprises at least two opposite walls each extending along the displacement path; the links each comprise two opposite surfaces, said opposed surfaces being respectively in permanent contact with an opposite wall of the guide element over the entire displacement path so that the links are guided in said guide element over the entire travel path; displacement; the first axis and the second axis are substantially parallel to one another or form a non-zero angle between them; the guide element comprises an upstream section extending along an axis substantially parallel to the first axis, a downstream section extending along the second axis and an intermediate section extending in a substantially rectilinear and / or curved path between the upstream section and the downstream section; each link comprises two flanks and a hinge pin, the hinge pin of a link being received between the two flanks of another link and being articulated to said flanks so as to allow said links to rotate one in relation to each other; the actuating device comprises at least one ejection plate and an actuating rod integral with one of its ends of said ejection plate, the opposite end of said actuating rod being articulated to one of the links of the transfer device; the separating device comprises a plurality of actuating rods integral with the ejection plate, a plurality of separating elements and a plurality of transfer devices connecting said plurality of separating elements to said plurality of rods; actuation; the separating element is an ejection element intended to permit the ejection of the molded article from the molding cavity; and the separating element is a complementary molding element defining a portion of the molding cavity in the retracted position and intended to form a complementary element on the molded article, said complementary molding element being separated from said complementary element of the mold cavity. article molded into the separation position of the separating member. The invention also relates to a mold comprising a first mold part and a second mold part, each comprising a molding surface and movable relative to each other between an open position, in which the second mold part is spaced apart from the first mold part, and a closed position, in which the molding surfaces of the first and second mold parts define between them a mold cavity having the shape of the molding, said mold comprising a separation as described above integrated in the first mold part, the separating element forming a portion of the mold cavity in the retracted position and protruding or withdrawing from the molding surface of the first part of the mold; mold according to the second axis in the separation position. Other aspects and advantages of the invention will appear on reading the description which follows, given by way of example and with reference to the appended drawings, in which: FIG. 1 is a diagrammatic representation in section of a first mold part comprising a separating device according to one embodiment of the invention, said device being in the retracted position, FIG. 2 is a schematic sectional representation of the first mold portion of FIG. 1, the separating device being in the separation position, - FIG. 3 is a diagrammatic representation in section of a part of a separating device according to another embodiment, FIG. 4 is a diagrammatic representation in section of the part of the separation device of FIG. 3, in a different position, - FIG. 5 is a diagrammatic representation in perspective of a part of the transfer device of the separation device according to the invention; FIG. 6 is a schematic sectional representation of a first mold part comprising a separating device according to another embodiment of the invention, said device being in the retracted position in solid lines and in the dotted separation position, and - the Fig. 7 is a schematic sectional representation of a first mold part comprising a separation device according to another embodiment of the invention, said device being in the retracted position in solid lines and in the dotted separation position.
With reference to FIG. 1, there is described an embodiment mold 1 of a molded article 2 which may have any shape that can be molded. The molded article 2 is for example a part of a motor vehicle or other.
The production mold 1 comprises a first part 4 and a second part (not shown to simplify the figures), movable relative to each other between an open position, in which the first and second parts are spaced apart. on the other side, and a closed position, in which the first and second parts are brought closer to each other so as to define a closed molding cavity. The molding cavity has a shape complementary to the shape of the molded article 2 to be produced. The movement of the closed position to the open position is in a direction of opening D, shown in the figures. The first part comprises a molding surface 6 defining, with a molding surface of the second part, the molding cavity when the first and second parts are in the closed position.
The embodiment mold 1 is for example an injection mold arranged to inject a plastic material at a predetermined pressure into the mold cavity. For this purpose, the embodiment mold 1 comprises all the means making it possible to carry out and control this injection and the formation of the part, such as one or more nozzles for injecting the plastic material, means for regulating the temperature of the molding cavity, means for actuating and moving the first and second parts of the production mold 1, etc. Such means being known, they will not be described in more detail here.
The embodiment mold 1 comprises a separating device arranged to facilitate separation between at least a portion of the molded article 2 and at least a portion of the mold cavity after the molded article is made. Once the molded article 2 is made, the first and second mold parts are moved to the open position. The molded article 2 is then against the molding surface 6 of the first portion 4, as shown in FIG. 1, and the separating device is arranged either to separate the molded article 2 from the molding surface 6, as shown in FIG. 2, in order to allow the molded article 2 to be gripped out of the production mold, or to separate a complementary molding element from a complementary element formed on the molded article, as shown in FIG. 7.
The description will now be made in the context of a separation device forming an ejection device of the molded article, such a device being arranged to move the molded article 2 away from the molding surface 6 in order to allow the grasping the molded article 2 to remove it from the production mold
The separating device comprises an actuating device 8 movable in the first part 4 along a first axis A1 between a retracted position, represented in FIG. 1, and a separation position, shown in FIG. 2. The first axis A1 is for example substantially parallel to the opening direction D so that, in the separation position, the molded article 2 is spaced from the molding surface 6 in the space between the first part 4 and the second part of the mold.
The actuating device 8 comprises at least one ejection plate 10 arranged, movable in translation along the first axis A1, in a space 12 of the first part 4. In the retracted position, the ejection plate 10 is disposed in an upstream portion 14 of the space 12, that is to say the part of the space 12 farthest from the molding surface 6, and in the separation position, or ejection position, the ejection plate 10 is disposed in a downstream part 16 of the space 12, that is to say the part of the space 12 closest to the molding surface 6.
According to one embodiment, the actuating device 8 further comprises at least a first ejection rod 18 arranged to move the molded article 2 along the first axis A1. The first ejection rod 18 extends along the first axis A1 of an end secured to the ejection plate 10 at a free end 20 through the first portion 4 of the mold from the space 12 to the molding surface 6. The first ejection rod 18 is thus movable in translation along the first axis A1 with the ejection plate 10 between a retracted position, in which the free end 20 is flush with the molding surface 6 and forms part of this molding surface, as shown in FIG. 1, and a separation position, in which the free end 20 projects from the molding surface 6 along the first axis A1 so as to move the molded article 2 away from the molding surface 6, as shown in FIG. FIG. 2. According to one embodiment and in known manner, the actuating device 8 may comprise a plurality of first ejection rods 18 distributed over the ejection plate 10 so as to allow the ejection of the molded article 2 in several parts. places of it.
The dimension h extending between the ejection plate 10 in the retracted position and the downstream part 16 of the space 12 is substantially equal to the distance from which it is desired to separate the molded article 2 from the molding surface 6 according to the first axis A1.
The actuating device further comprises at least one actuating rod 22 extending along an axis parallel to the first axis A1 of an end secured to the ejection plate 10 at an opposite end, said actuating end 24 connected to a transfer device 26 itself connected to a separating element. In the case of a separating device forming an ejection device, the separating element is an ejection element 28, as shown in FIGS. 1 to 6. The ejection element 28 extends along a second axis A2, different from the first axis A1. The ejection element 28 is for example formed by a second ejector rod 30 comprising an actuating end 32 connected to the transfer device 26 and a free end 34, flush with the molding surface 6 and forming part of this molding surface in the retracted position of the actuating device 8, as shown in FIG. 1, and protruding from the molding surface 6 along the second axis A2 so as to move the molded article 2 away from the molding surface 6 along the second axis A2, as shown in FIG. 2.
The second axis A2 may be substantially parallel to the first axis A1, as shown in FIGS. 1 to 4, or be inclined with respect to the first axis, that is to say form a non-zero angle with the first axis, as shown in FIG. 6.
Thus, the second ejection element 28 is movable between a retracted position and a separation position respectively when the actuating device 8 is in the retracted position and in the separation position through the transfer device 26 which is arranged to transforming the movement of the actuating device 8 along the first axis A1 in motion of the ejection element 28 along the second axis A2, as will now be described.
The transfer device 26 comprises a guide element 36 extending in the first part 4 of the mold between the space 12 and the molding surface 6 along a path adapted to the arrangement of the first part 4 as will be described later. . The guide element 36 is for example formed by a groove or slide extending in the first part 4 and comprising two opposite walls 38 each extending along the path followed by the guide element 36, as more particularly visible on Figs. 3 and 4. The guide element 36 comprises an upstream section 40 extending in the vicinity of the space 12 along an axis substantially parallel to the first axis A1, opening into this space 12 and able to receive at least a portion of the actuating rod 22 at least in the separation position, as shown in FIG. 2. The guide element 36 also comprises a downstream section 42 extending in the vicinity of the molding surface 6 along the second axis A2, opening into this molding surface 6 and able to receive at least a portion of the second rod ejection device 30 at least in the retracted position, as shown in FIG. 1. The guide element 36 comprises, between the upstream section 40 and the downstream section 42, an intermediate section 44 extending in a rectilinear and / or curved path adapted to the arrangement of the first part 4, as will be described later.
The transfer device further comprises at least two links 46 hinged together and one of which is articulated to the actuating device 8 and the other is articulated to the ejection element 28. The links 46 are thus movable in rotation with respect to each other and with respect to the actuating device 8 and the ejection element 28. The axes of rotation are substantially parallel to one another and substantially perpendicular to a plane containing the first axis A1 and the second axis A2.
The number of links 46 of the transfer device 26 depends on the path followed by the guide element 36 and is arranged so that the links connect the actuating device 8 to the guide element 28. More particularly, the links 46 connect the actuating end 24 of the actuating rod 22 at the actuating end 32 of the second ejector rod 30. Thus, the transfer device 26 may comprise more than two links 46, two of which are articulated ends respectively at the actuating end 24 of the actuating rod 22 and at the actuating end 32 of the second ejector rod 30 and at least one intermediate link articulated to the two end links or several intermediate links successively connected to each other so as to form a chain of links 46 extending in the guide element 36 between the actuation end t 24 of the actuating rod 22 and the actuating end 32 of the second ejector rod 30.
All the links 46 are identical, that is to say that they have the same shape and structure, whether they are end links or intermediate links.
As shown in FIG. 5, each link 46 comprises two flanks 48 and a hinge pin 50, the hinge pin 50 of a link 46 being arranged to be received between the two flanks of another adjacent link 46 in an articulated manner around an axis of rotation as described above. The axis of rotation and the attachment between the mesillions are for example formed by a pin (not shown) introduced into orifices 52 opposite through the flanks 48 and the hinge pin 50. The hinge pin 50 of the end link hinged to the actuating end 24 of the actuating rod 22 is introduced between two flanks 54 provided at this actuating end and articulated with these flanks as described above. The two flanks 48 of the end link hinged to the actuating end 32 of the second ejector rod 30 receive between them a hinge pin provided at the actuating end of the second ejector rod 30. this hinge pin being articulated to both sides 48 as described above.
The links 46 define at least two opposite surfaces 56, for example defined by opposite surfaces of the flanks 48 extending on either side of the axis of rotation, dimensioned to be in sliding contact against the opposite walls 38 of the guiding element 36, as more particularly visible in FIGS. 3 and 4. The flanks have for example a substantially circular section in a plane perpendicular to the axis of rotation so that diametrically opposite portions of the flanks form the opposite surfaces 56. Such a shape makes it possible to ensure contact with the walls 38 of the guide element 36 when the diameter of the flanks 48 is substantially equal to the distance separating the opposite walls 38. Furthermore, the contact surface between the opposed surfaces 56 and the opposite walls 38 is reduced, which allows to ensure a sliding between the opposed surfaces 56 and the opposite walls 38 without risk of blocking the links in the guide element 36. According to the embodiment shown in FIG. 5, each link 46 comprises four sliding surfaces against the guide element.
The shape of the links 46 described above is given by way of example and could be different as long as it allows the articulation of the links 46 between them and that opposite surfaces allow a sliding contact between the links 46 and the opposite walls. 38 of the guide element 36. Thus, by way of example, each link could comprise only one side instead of two.
Thus, the links 46 are guided along all their displacements in the guide element 36. That is to say that the opposite surfaces 56 of the links 46 in contact with the opposite walls 38 of the guide element 36 allow to ensure permanent guiding of the chain of links 46 in the guide element over the entire stroke of movement of the links 46. That is to say that the opposite surfaces 56 are substantially in permanent contact against the opposite walls 38 the guiding element 36 over the entire travel of the links 36. This avoids any risk of blocking or jamming of the ejection device by blocking a link 36 in the guide element 36.
The slippage between the links 36 and the opposing walls 38 may be facilitated by the materials used to make the opposing surfaces 56 and / or the opposing walls 38 or by a coating of these surfaces and / or walls or by the use of a lubricant.
Thanks to the transfer system 26, the separation device thus makes it possible to displace the ejection plate 10 in the direction of the first axis A1, the ejection element 28 along the second axis A2 so as to project the second ejection rod 30 of the molding surface 6 in the direction of the axis A2. The transfer device 26 is arranged such that the distance traveled by the second ejection rod 30 along the second axis A2 is substantially equal to the distance traveled by the ejection plate 10 when it is moved along the first axis. A1. Thus, when the ejection plate 10 is moved by the distance h from the retracted position to the separation position, the second ejector rod 30 also moves a distance h. Therefore, in the case where the actuating device comprises a first ejector rod 18, it is ensured that the separation distance traveled by the first ejector rod 18 and the second ejector rod 30 is the same. .
According to the embodiment shown in Figs. 1 and 2, the second axis A2 is parallel to the first axis A1 and the transfer device 26 is used to offset the position of the ejection element 28 with respect to the ejection plate 10. Such an embodiment is particularly advantageous for the ejection of a molded article 2 of large size without requiring the expansion of the ejection plate and therefore that of the space 12. Therefore, the first part 4 of the mold is more robust because the space 12 does not weaken it and is able to withstand significant injection pressures. According to this embodiment, the shape of the intermediate section 44 comprises a curved portion connecting it to the upstream section 40 and a curved part connecting it to the downstream section 42 and a rectilinear part between the two curved parts, which makes it possible to increase the distance separating the plate 10 from the ejection element 28 without increasing the bulk of the first part 4 of the mold.
According to the embodiment shown in Figs. 3 and 4, the second axis A2 is also parallel to the first axis A1 and the transfer device 26 is used to bypass an additional element 58 of the mold, such as a heat transport channel of a liquid or the like. In this case, the shape and the dimension of the intermediate section 44 are arranged to allow this bypass. According to the embodiment shown in Figs. 3 and 4, the intermediate section is substantially rectilinear and inclined between the upstream section 40 and the downstream section 42.
According to the embodiment shown in FIG. 6, the ejection device comprises several ejection elements 28 and several transfer devices 26 connected to a plurality of actuating rods 22 integral with the ejection plate. The second axes A2 are inclined with respect to the first axis A1. Such an embodiment makes it possible to eject one or more molded articles 2 of complex shapes while using a single ejection plate 10.
It is understood that the embodiments described above can be combined with each other. Thus, the shape of the guide element 36 depends on the structure of the mold and the shape of the molded article 2 to be produced and can be arranged according to these parameters.
The separation device described above thus allows the ejection of molded articles of large dimensions and / or complex shape without weakening the first part of the mold. In addition, the transfer device can be used to adapt the separation device to the structure of the first part of the mold. The chain of links can be easily modified by adding or removing links 36, which are all identical and interchangeable.
The description will now be made in the context of a separating device for separating a complementary molding element from a portion of the molded article, as shown in FIG. 7.
In this case, the separating element is formed by the complementary molding element 60 movable along a second axis A2. The rest of the separation device is substantially the same as that described in the context of an ejection device, that is to say that it comprises an actuating device 8, movable along a first axis A1, different the second axis A2, and connected to the complementary molding element 60 by a transfer device 26, comprising a plurality of identical and movable links 46 in a guide element 36. Therefore, the similar elements between these separation devices do not will not be described again. The complementary molding element 60 is arranged to form, in its retracted position and with the molding surface 6 of the first part 4, a complementary molding cavity in fluid communication with the molding cavity defined between the first and second parts of the mold. mold. The complementary molding cavity has the shape of a complementary element 62 formed on the molded article 2 during the production of this molded article 2. The complementary element 62 is for example a screwing barrel provided on the back of In this case, the complementary molding element comprises for example a lug 64 arranged in the retracted position in the center of a cylinder formed by the molding surface 6 so that the shape of the complementary element 62 is defined between the outer surface of the lug 64 and the inner wall of the cylinder of the molding surface 6. In this case also, the second axis A2 is parallel to the axis of the cylinder formed by the molding surface 6 and to the axis of the lug 64. In one example, the second axis A2 coincides with the axis of the cylinder and with the axis of the lug 64.
When the separation device is moved into the separation position, the complementary molding element 60 is separated from the complementary element 62. Thus, in the case of a screwing drum, the pin 64 is extracted from the element complementary 62 by positioning the lug 64 in the downstream portion 42 of the guide member 36.
The actuating device 8 comprises an actuating element 66 movable in a space 68 in which opens the upstream section 40 of the guide element 36. It should be noted that, according to this embodiment, the first axis A1 according to which moves the actuating element 66 may be different from the ejection direction of the molded article. Thus, the space 68 and the actuating element 66 may be arranged in a part of the first part 4 which may be favorable in terms of size and / or arrangement of the actuating means of the element. Actuation 66. According to the embodiment shown in FIG. 7, the space 68 is thus provided on one side of the first portion 4 and the first axis A1 is substantially perpendicular to the opening direction of the mold.
The separating device may be used to bypass an additional element of the mold and / or to allow displacement of the complementary molding element 60 in a direction different from the first axis A1. Thus, according to the embodiment shown in FIG. 7, the second axis A2 is inclined relative to the first axis A1.
As for an ejection device, the actuating device 8 can be used to move several complementary molding elements along a plurality of different second axes A2.
The mold comprising a separation device as described above may also comprise a conventional ejection device 70 or as described above.
The operation of the separation device according to the embodiment described above will now be described.
To make the molded article 2, the first and second mold parts are placed in the closed position and the separating device is placed in the retracted position. Thus, the molding cavity and the complementary molding cavity are formed and the article 2 can be made with its complementary element 62.
Once the article 2 has been made, the first and second mold parts are moved to the open position and the separating device is moved the separation position by moving the actuating device 8 along the first axis A1. This displacement causes a displacement of the complementary molding element 62 along the second axis A2 towards its separation position in which the complementary molding element 62 is separated from the complementary element 64. The ejection device 70 can then be used to separate the molded article 2 from the molding surface 6 without the risk of damaging the complementary element 64.

权利要求:
Claims (12)
[1" id="c-fr-0001]
1. - Separation device for mold for producing a molded article (2) in a molding cavity for allowing separation between at least a portion of the molded article (2) and at least a portion of said mold cavity. molding, said device comprising: - an actuating device (8) movable in translation along a first axis (A1) between a retracted position and a separation position, - at least one separating element (28, 60) movable in translation along a second axis (A2), different from the first axis (A1), between a retracted position and a separation position, - at least one transfer device (26) connecting the actuating device (8) and the separation (28, 60), said transfer device (26) being arranged to move the separating element (28, 60) along the second axis (A2) between its retracted position and its separation position when the actuating device (8) is moved along the first axis (A1) between its retracted position and its separation position, characterized in that the transfer device (26) comprises at least two links (46) rotatable relative to one another and with respect to the actuating device (8) and the separating element (28, 60), and a guiding element (36) receiving said links (46), said links being displaced in a displacement path in said element (28); for guiding (36) the actuating device (8) and moving the separating element (28, 60), said links (46) being guided in said guide element (36) over the entire travel path.
[2" id="c-fr-0002]
2. - Separation device according to claim 1, wherein the links (46) are identical to each other.
[3" id="c-fr-0003]
3. - Separating device according to claim 1 or 2, wherein the transfer device (26) is arranged so that a displacement of the actuating device (8) of a given distance along the first axis (A1) results in moving the separating element (28, 60) the same distance along the second axis (A2).
[4" id="c-fr-0004]
4. - Separating device according to any one of claims 1 to 3, wherein the guide member (36) comprises at least two opposite walls (38) each extending along the travel path.
[5" id="c-fr-0005]
5. - separating device according to claim 4, wherein the links (46) each comprise two opposite surfaces (56), said opposed surfaces (56) being respectively in permanent contact with an opposite wall (38) of the element of guiding (36) over the entire travel path so that the links (46) are guided in said guide member (36) over the entire travel path.
[6" id="c-fr-0006]
6. - Separation device according to any one of claims 1 to 5, wherein the first axis (A1) and the second axis (A2) are substantially parallel to each other or form a non-zero angle between them.
[7" id="c-fr-0007]
7. - separating device according to any one of claims 1 to 6, wherein the guide element (36) comprises an upstream section (40) extending along an axis substantially parallel to the first axis (A1), a downstream section (42) extending along the second axis (A2) and an intermediate section (44) extending in a substantially rectilinear and / or curved path between the upstream section (40) and the downstream section (42).
[8" id="c-fr-0008]
8. - Separation device according to any one of claims 1 to 7, wherein each link (46) comprises two flanks (48) and a hinge pin (50), the hinge pin (50) d a link (46) being received between the two flanks (48) of another link (46) and being hinged to said flanks (48) so as to allow said links (46) to rotate relative to one another; other.
[9" id="c-fr-0009]
9. - Separation device according to any one of claims 1 to 8, wherein the actuating device (8) comprises at least one ejection plate (10) and an actuating rod (22) integral with a its ends of said ejection plate (10), the opposite end (24) of said actuating rod (22) being hinged to one of the links (46) of the transfer device (26).
[10" id="c-fr-0010]
10. The separation device as claimed in claim 9, comprising a plurality of actuating rods integral with the ejection plate, a plurality of separating elements, and a plurality of devices. transfer member (26) connecting said plurality of separating members (28, 60) to said plurality of actuating rods.
[11" id="c-fr-0011]
The separating device according to any of claims 1 to 10, wherein the separating member is an ejection element (28) for allowing ejection of the molded article (2) out of the molding cavity.
[12" id="c-fr-0012]
The separating device according to any of claims 1 to 10, wherein the separating member is a complementary molding element (60) defining a portion of the molding cavity in the retracted position and intended to form a complementary element on the molded article (2), said complementary molding element being separated from said complementary element of the molded article (2) in the separation position of the separating element.

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FR3065389B1|2019-06-28|MOLDING MOLD OF A MOLDED ARTICLE COMPRISING A DIPOSITIVE FOR EJECTING A TUBULAR PART OF THE MOLDED ARTICLE

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FR2902365A1|2007-12-21|Producing a complex part by injection molding of complementary portions of the part comprises welding the portions together in an assembly device operated in synchrony with the opening and closing of the mold

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FR3037849A1|2016-12-30|EJECTION DEVICE FOR A TOOL FOR MAKING A FORMED PART

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FR3053270A1|2018-01-05|METHOD AND TOOLS ASSOCIATED IN INJECTION MANUFACTURING OF A SLEEVE, AND SLEEVING SLEEVE

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CA2991331A1|2017-01-12|Syringe and method for assembling it

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WO2022002903A1|2022-01-06|Device for ejecting a mould, comprising a chain with sliding links and an adjustment shim

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FR2933890A1|2010-01-22|Hand-held tool i.e. forceps, for pinching and cutting object in medical field, has pins forcibly introduced in hole till assembled position of branches, where pins retain pivot in hole by shape cooperation between pins and support face

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WO2006048433A1|2006-05-11|Device for producing, by molding, a casing with bellows having means for holding an unscrewable core, and corresponding method

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FR3053269A1|2018-01-05|DEVICE FOR EJECTING A PIECE FORMED ON A MOLD PART AND ASSOCIATED TOOL

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FR3095364A1|2020-10-30|Tool and method for making a part of molding material

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EP2492078A1|2012-08-29|Device for simultaneously manufacturing a plurality of moulded parts with at least two moulding materials

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WO2021028220A1|2021-02-18|Guide rail, device and method for injection-moulding this rail

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WO2019175361A1|2019-09-19|System for manufacturing polymer parts by injection and associated method

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FR3072591A1|2019-04-26|MOLD FOR MANUFACTURING RIBBED PIECE AND CORRESPONDING METHOD

同族专利:

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公开号 | 公开日

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PT3210746T|2019-01-10|

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ES2703711T3|2019-03-12|

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US20170246770A1|2017-08-31|

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FR3048196B1|2018-04-06|

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EP3210746B1|2018-09-26|

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CA2957189A1|2017-08-26|

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US10647029B2|2020-05-12|

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CN107127936B|2020-12-18|

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EP3210746A1|2017-08-30|

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CN107127936A|2017-09-05|

引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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US3290724A|1964-05-20|1966-12-13|Plexowood Inc|Mold ejector|

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JPH0671703A|1992-08-26|1994-03-15|Suzuki Motor Corp|Metal mold for molding resin|

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JPH06328533A|1993-05-18|1994-11-29|Tsuoisu Kk|Toggle type clamping apparatus and method for injection molding machine|

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US1345818A|1918-07-08|1920-07-06|Frederick C Witt|Link chain|

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JPH0530169B2|1985-07-01|1993-05-07|Toyota Motor Co Ltd|

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US7168149B2|2002-09-13|2007-01-30|Husky Injection Molding Systems Ltd.|Apparatus for closing a hinged molded part|

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RU2521587C2|2008-10-23|2014-06-27|Сакми Кооператива Мекканичи Имола Сочьета' Кооператива|Method of making articles from plastics|

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KR101020957B1|2008-12-03|2011-03-09|기아자동차주식회사|Punching apparatus of bumper|

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WO2014126534A1|2013-02-18|2014-08-21|Hoong Heng Man|Angled-mold core actuating mechanism|FR3048197B1|2016-02-26|2018-04-06|Faurecia Interieur Industrie|EJECTION DEVICE FOR MOLD COMPRISING SLIDING LINK CHAIN|

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IT201800005920A1|2018-05-31|2019-12-01|Mold for a support element, for example a vehicle saddle, and a support element obtainable with this mold.|

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EP3636407B1|2018-10-10|2021-03-31|Stefan Pfaff Werkzeug- und Formenbau GmbH & Co. KG|Seal profile holder comprising a first and a second holding unit|

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CN111844630A|2019-04-30|2020-10-30|安徽科瑞特模塑有限公司|Injection mold with surplus limit cutting function|

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CN109910252A|2019-05-05|2019-06-21|深圳市银宝山新科技股份有限公司|A kind of pitched roof mechanism of mold|

法律状态:
2017-01-23| PLFP| Fee payment|Year of fee payment: 2 |

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2017-09-01| PLSC| Publication of the preliminary search report|Effective date: 20170901 |

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2018-01-23| PLFP| Fee payment|Year of fee payment: 3 |

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2019-01-23| PLFP| Fee payment|Year of fee payment: 4 |

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2020-11-13| ST| Notification of lapse|Effective date: 20201006 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1651611A|FR3048196B1|2016-02-26|2016-02-26|MOLD SEPARATION DEVICE COMPRISING A CHAIN OF ARTICULATED LINKS BETWEEN THEM|

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FR1651611|2016-02-26|FR1651611A| FR3048196B1|2016-02-26|2016-02-26|MOLD SEPARATION DEVICE COMPRISING A CHAIN OF ARTICULATED LINKS BETWEEN THEM|

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CA2957189A| CA2957189A1|2016-02-26|2017-02-03|Separation device for mould including a chain of interconnected links|

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PT17157818T| PT3210746T|2016-02-26|2017-02-24|Separating device for a mold comprising a chain of articulated links|

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US15/442,541| US10647029B2|2016-02-26|2017-02-24|Separating device for a mold comprising a chain of articulated links|

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ES17157818T| ES2703711T3|2016-02-26|2017-02-24|Separating device for a mold comprising a chain of links articulated to each other|

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CN201710101151.XA| CN107127936B|2016-02-26|2017-02-24|Separating device for moulds comprising a chain of articulated links|

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EP17157818.0A| EP3210746B1|2016-02-26|2017-02-24|Separating device for a mold comprising a chain of articulated links|