Injection molding tool with centering device.

专利摘要:
In the case of an injection molding tool with at least one centering device, the injection molding tool having a die holding plate (2) with at least one cavity-forming die unit (3), a core holding plate (4) with at least one core unit (5) which, when the molding tool is closed, is inserted into the die unit (3) is inserted, and between the core holding plate (4) and the die holding plate (2) comprises a stripping plate (12), provision is made for the centering device to have a centering insert (6) and a centering insert holder (7) with a recess that is rotationally symmetrical about a central axis MA ( 8) for receiving the centering insert (6); wherein the centering insert (6) has an opening (9) for receiving the core unit (5); wherein the centering insert (6) and the recess (8) of the centering insert holder (7) are designed such that the centering insert (6) is in at least three positions in the recess (8) of the centering insert holder (6) rotatable about a central axis MB of the centering insert (6). 7) can be used so that it cannot rotate and the central axis MA of the recess and the central axis MB of the centering insert overlap; and wherein a central axis MC of the opening (9) of the centering insert (6) is arranged eccentrically to the central axis MB of the centering insert (6) by an offset (V); and that the at least one centering unit is arranged in the stripping plate (12).
公开号:CH716219A2
申请号:CH00257/20
申请日:2020-03-04
公开日:2020-11-30
发明作者:Mühlemann Rolf
申请人:Fostag Formenbau Ag；
IPC主号:

专利说明:

Technical area
The invention relates to an injection molding tool with a centering device, which comprises a die holding plate with at least one cavity-forming die unit, a core holding plate with at least one core unit which is inserted into the die unit when the injection molding tool is closed, and a stripping plate between the core holding plate and the die holding plate .
Technical background
In the production of thin-walled, container-like injection molded products, especially cups, tubes, tube heads, tubes, bottle blanks or syringes, a uniform wall thickness is of great importance, since even small deviations in wall thickness when cooling and demolding the container due to volume shrinkage can cause severe deformation of the container.
[0003] The cavities for such injection molded products are regularly formed by a die and a core arranged therein. In order to obtain a uniform wall thickness, the position of the core in a parting plane must be aligned perpendicular to the closing direction of the tool in such a way that it is centered with the cavity-forming die. With multi-cavity tools, each core is centered separately. A separate centering of the cores in the respective die is important in order to obtain injection molded products with uniform wall thicknesses with all cavities.
Injection molding tools known from WO2017215801 for such thin-walled, container-like injection-molded products comprise a die holding plate in which at least one cavity-forming die unit, respectively. Die is held firmly, a core holding plate on which at least one cavity-forming core unit, respectively. a core is held, and a scraper ring which is positively positioned in a recess of the core unit and can be moved against the closing direction in order to scrape the finished injection-molded product from the core after the tool has been opened. The core resp. the core unit is floatingly mounted on the core holding plate to adjust the centering and is fixed in its position on the core holding plate by means of fastening means when the centering has been carried out correctly.
The core centering device comprises several - mostly four - centering strips, which have a centering surface inclined with respect to the closing direction of the injection molding tool and are supported on a correspondingly inclined support surface of the core unit. By adding or removing adjustment foils from the centering bars, the core can be centered exactly in the associated die. Each centering strip thus forms a centering surface on the core unit, which corresponds to a centering surface on the die unit. As soon as the core and die are centered with respect to one another, the core unit is fixed to the core holding plate and the tool is ready for the manufacture of the injection molded products. If there are several core units, there are air gaps between adjacent core units for the individual centering of the individual units.
In a further centering device described in WO2017215801, the stripping ring is held in a floating manner in a stripping plate which is arranged between the die holding plate and the core holding plate. The at least one adjustable core centering device is arranged between the core unit and the core holding plate.
DE3140711 and JPS5120258 each describe a centering device which is based on a circular eccentric plate in order to adjust the position of the core relative to the die. A disadvantage of such a centering device is that the circular eccentric plate, which holds the core unit eccentrically, is difficult to adjust to the desired displacement of the core and has to be fixed against rotation by means of a locking screw. Due to the locking screws, it is also not space-saving and mostly lateral operation must be guaranteed. In addition, despite being fixed, the circular disk can shift over time during operation of the molding tool.
Presentation of the invention
[0008] It is an object of the invention to provide an injection molding tool with a centering device which avoids at least some of the above disadvantages. Another task is to make the centering device more space-saving and simpler.
[0009] This object is achieved by an injection molding tool with the features of the independent claims.
The injection molding tool comprises a die holding plate with at least one cavity-forming die unit and a core holding plate with at least one core unit which is inserted into the die unit in the closed state of the mold, and a stripping plate between the core holding plate and the die holding plate. The centering device comprises a centering insert and a centering insert holder with a recess that is rotationally symmetrical about a central axis MA for exchangeable accommodation of the centering insert. The centering insert has an opening for receiving the core unit. The centering insert and the recess of the centering insert holder are designed in such a way that the centering insert can be inserted in at least three positions rotatable about a central axis MB of the centering insert in the recess of the centering insert holder and the central axis MA of the recess and the central axis MB of the centering insert are superimposed. Furthermore, a central axis MC of the opening of the centering insert is arranged eccentrically to the central axis MB of the centering insert by an offset. The at least one centering unit is arranged in the stripping plate.
[0011] Mold tools, in particular injection molding tools, generally have several cavities. In order to mold as many products as possible with each production cycle, these cavities must be arranged as close as possible in the mold. The centering device described allows such a tight packing because it is simple and space-saving in structure. Manufacturing tolerances can thus be compensated for in a simple manner. In injection molding tools with lateral injection, the respective core units can be aligned with respect to the injection point, so that they are arranged centrally in the die during the injection process.
The centering of the core unit takes place through the size of the offset of the centering insert and the alignment of the offset when the centering insert is inserted. The core unit is received in the opening of the centering insert, which is in turn received in a stationary and rotationally secure manner in the recess of the centering insert holder. The direction of the offset is set by inserting the centering insert into the receptacle in one of the at least three rotary positions. Additional means to prevent rotation, e.g. Clamping screws are not available, respectively. unnecessary.
A core unit which is not correctly aligned in the die can now be shifted by a desired offset by choosing the appropriate centering insert whose central axis MC of the opening is offset eccentrically to the central axis MB of the centering insert by precisely this offset. The longitudinal direction of the core unit is perpendicular to the offset direction. The direction in which the correction is made is determined by inserting the centering insert in one of the at least three positions. A centering insert whose offset has a certain size can therefore be used to correct this offset in the at least three directions. With an assortment of centering inserts, which only differ in the size of the offset, all core units can be centered as desired in a simple manner. If the centering of the core unit is not correct after a test run of the mold, the centering insert can simply be exchanged in order to obtain the correct centering.
Depending on requirements, the offset can be 0.01 mm to 0.1 mm. For fine adjustment of the core units of a multi-cavity mold, a set with a large number of centering inserts can be produced, for example with an offset of 0.01 mm. Depending on the correction to be made, a centering insert with the desired offset is selected, rotated into the correct position and inserted into the centering insert holder. In many cases, centering inserts with an offset of 0.01 to 0.05 mm in steps of 0.01 mm are sufficient.
[0015] Further embodiments of the invention are given in the dependent claims.
In some embodiments, the centering insert is formed by a scraper element (or a scraper ring) received in the scraper plate. The stripping element, which serves to wipe the injection molded product from the core unit when the injection molding tool is opened, accordingly has the opening for receiving the core unit. The core unit can be held floating in the core holding plate and is centered in the closed injection molding tool by the stripping element. The centering insert holder is designed directly in the stripping plate or as a separate part received in the stripping plate. This embodiment is particularly space-saving because the stripping element also takes on the function of exact centering of the core unit and therefore no additional part is necessary for centering.
In some embodiments, the outer contour of the centering insert has the shape of a regular polygon (i.e. a polygon that is both equilateral and equiangular). The inner contour of the recess of the centering insert holder is designed to be complementary to the outer contour of the centering insert, so that the centering insert can be received in the recess of the centering insert holder so that it cannot rotate. The central axis MC of the opening of the centering insert is aligned eccentrically by an offset in the direction of a polygon side or a polygon corner. The centering unit, which has a symmetrical outer contour, can, depending on the number of side surfaces (polygon sides), respectively. Corners (polygon corners) of the regular polygon can be rotated into as many positions. I.e. a polygon with n faces can be rotated to n different positions. Due to the outer and inner contour in the form of a regular polygon, the centering insert used is secured against rotation while the molding tool is in use. An additional rotation lock is not necessary.
In some embodiments, the regular polygon can have three to twelve side faces, respectively. Have corners. Good results have been achieved with a regular octagon. Eight different directions of offset can be set with an octagon, which corresponds to a gradation of the offset direction of 45 degrees for a centering insert (with an offset towards the polygon side / polygon corner). If two centering inserts are used, one with an offset to the side of the polygon and one with an offset to the corner of the polygon, the direction of the offset can even be graduated by 22.5 degrees.
In some embodiments, the centering insert comprises a circular cylindrical base body, on the outer surface of which a projection perpendicular to the central axis MB of the centering insert, e.g. is arranged in the form of a pin, a pin or a bolt. The recess of the centering insert holder has a shape complementary to the base body of the centering insert, which has at least three rotationally symmetrical slots running parallel to the central axis MA of the recess for receiving the projection of the centering insert. The central axis MC of the opening of the centering insert is usually aligned eccentrically towards the projection by an offset.
In some embodiments, the core unit can be received in the opening in such a way that a displacement in the longitudinal direction of the core unit is possible. This is particularly the case when the centering device is provided in the die unit and the core unit only dips into the opening when the mold is closed. In the case of molding tools, in particular injection molding tools, which have a stripping plate, in the case of a centering unit provided in the stripping plate, the core unit can be received in the opening of the centering insert so as to be displaceable in the longitudinal direction of the core. The receptacle in the opening is stationary at right angles to the longitudinal direction of the core, so that exact centering is possible. The opening for receiving the core unit can be cylindrical or conical and can extend essentially over the entire thickness of the stripping plate. The core unit is then correspondingly also cylindrical or conical in this area. In order to reduce any friction and thus wear on the individual parts, the core unit can have a circumferential taper in a central region of the section which is held in the opening in the closed tool. In this central area, there is no contact with the centering unit in the closed state. However, the areas adjoining the central area on both sides contact the centering unit and, when the tool is closed, fix the core unit at the desired location.
In some embodiments, the opening can be a breakthrough (e.g. preferably when used in the core holding plate or stripping plate) or a blind hole (e.g. preferably when used in the die unit). When using the centering device in the die unit, the core unit is inserted into the opening when the mold is closed. In order to facilitate this introduction and to prevent unwanted standing on the side edges, the opening can be conical. Correspondingly, the tip of the core unit, which dips into the opening, can also be conical.
In some embodiments the centering insert may have a cylindrical shape, e.g. Similar to a hexagon nut, but without an internal thread and with an eccentric hole.
In some embodiments, the molding tool can have a plurality of cavities, each of which is provided with at least one centering unit.
In some embodiments, a further centering unit can be arranged in the core holding plate and / or the die unit.
In some embodiments, the centering insert holder can be designed as a separate part received in the die unit, the stripping plate and / or the core holding plate.
In some embodiments, the centering insert holder can be formed by the die unit, the stripping plate and / or the core holding plate.
Brief explanation of the figures
The invention is to be explained in more detail below on the basis of exemplary embodiments in connection with the drawing (s). Show it:<tb> Fig. 1 <SEP> shows a sectional illustration of a detail of an injection molding tool with a centering device;<tb> Fig. 2 <SEP> a centering device in the form of a regular octagon;<tb> Fig. 3 <SEP> several centering devices arranged in a circle;<tb> Fig. 4 <SEP> shows a further variant of a centering device, under (a) a top view of the end face of the centering insert with pin, under (b) a sectional view of the centering bracket, under (c) a perspective view of the centering insert; and<tb> Fig. 5 <SEP> a sectional illustration of a detail of an injection molding tool with a stripping element designed as a centering device.
Ways of Carrying Out the Invention
1 shows a sectional illustration of a detail of an injection molding tool with at least one cavity 1 for a thin-walled, elongated injection molded product. The injection molding tool comprises a core holding plate 4 in which at least one cavity-forming core unit 5 is held, and a die holding plate 2 in which at least one cavity-forming die unit or die 3 is held. Furthermore, the injection molding tool comprises between the core holding plate 4 and the die holding plate 2 a stripping plate 12 in which a stripping element, respectively. Scraper ring 13 is held. In the injection molding tool shown, the injection takes place via an injection channel 14 arranged laterally in relation to the core unit 5.
Fig. 2 shows a centering device for centering a core unit in a molding tool. The centering device comprises a centering insert 6 and a centering insert holder 7. The centering insert holder 7 forms a recess 8 for receiving the centering insert 6 with a precise fit. The recess 8 is designed to be rotationally symmetrical to a central axis MA. In the embodiment shown, the recess 8 has an inner contour 11 in the form of a regular octagon. The centering insert 6 is rotationally symmetrical to a central axis MB and has in cross section (sectional plane perpendicular to the longitudinal axis of the core unit or to the central axis MB) an outer contour 10 complementary to the inner contour 11 of the recess 8 in the form of a regular octagon. Furthermore, an opening 9 for the core unit (not shown) is formed in the centering insert 6, in which opening the core unit is held in a precisely fitting manner such that it can be displaced or not displaced in the longitudinal direction. In the illustration shown, the central axis MC of the opening 9 is formed exactly centric to the outer contour without offset, i.e. the central axis MC of the opening 9 overlaps the central axis MB of the centering unit 6. When the centering unit 6 is inserted in the centering insert holder 7, the central axis MB of the centering unit 6 overlies the central axis MA of the recess 8 of the centering insert holder 7.
A core unit which, due to manufacturing tolerances, is not exactly in the cavity, respectively. the die unit is centered can be centered with a corrective centering insert 6. For this purpose, the central axis MC 'of the opening 9 of the centering insert 6 is designed to be offset by an offset V, usually in the range of a few hundredths of a millimeter, in the direction R to a side surface (or a corner) of the octagon. With a centering insert 6 with an eccentric opening 9, the position of the core unit in relation to the die / cavity can now be corrected by the offset V in eight different directions. Should the size of the offset or the direction of the offset not be correct in the inserted state (which can be determined by means of a test run of the molding tool) the centering insert 6 can simply be rotated or be replaced by a centering insert 6 with a larger or smaller offset V.
Fig. 3 now shows several centering devices of an injection molding tool, which are arranged on a circle in the illustration shown (only semicircle is shown). The very space-saving and simple design of the centering device with a centering insert in the form of a regular polygon allows a very dense packing of cavities for thin-walled, elongated injection-molded products. In the illustration shown, eight cavities are arranged in a circle (only semicircle shown), which are injected centrally. In such molds, the core in the cavity often has to be arranged slightly eccentrically to the injection point due to the injection pressure, so that it comes to rest in its correct, central position during the injection process. With the centering device described, such a tight packing is possible and the position of each core unit can be adjusted easily and individually.
The centering unit is formed in one or more areas (A, B, C) of the core unit as required, as shown in FIG. 1. The centering unit can be arranged in the core holding plate 4 at the foot of the core unit 5, in the stripping plate 12 and in the die holding plate 2 in the region of the core tip 15.
In the area of the core tip 15 (area C), the opening 9 of the centering insert 6 is usually designed as a slightly conical blind hole, into which the core tip 15 dips and is held when the mold is closed. A lateral shift transversely to the longitudinal direction of the core unit is not possible when the tool is closed and the position of the core tip can be adjusted as desired with the correct centering insert 6. The centering insert 6 is held in the centering insert holder 7 so that it cannot rotate.
A centering insert of a centering device in the area of the stripping plate (area B, centering unit not shown) has a through opening in which the core unit is held displaceably in its longitudinal direction during the operation of the mold.
A centering insert of a centering device in the area of the core holding plate (area A, centering unit not shown), respectively. of the foot of the core unit has a through opening in which the core unit is held displaceably in its longitudinal direction. After setting, the core unit is fixed in the core holding plate.
4 (a) to 4 (c) shows a further variant of a centering device, the centering insert 6 of which comprises a base body 6a in the form of a circular cylinder with a central axis MB and a projection 6b arranged laterally on the cylindrical surface of the base body 6a. In the embodiment shown, the projection 6a is designed as a pin 6a perpendicular to the central axis MB. The centering insert 6 also has the opening 9 for receiving the core unit (not shown). The central axis MC of the opening 9 is offset from the central axis MB of the centering insert by the offset V in the direction of pin 6a.
The complementary to the centering insert 6 substantially circular cylindrical recess 8 of the centering insert holder 7 has a plurality of longitudinally extending slots 8a for receiving the projection, respectively. Pins 6b of the centering insert 6. These slots 8a are arranged rotationally symmetrically about the central axis MA of the recess 8. In the embodiment shown, eight such slots 8a are shown. In the inserted state of the centering insert 6, it is aligned with the pin 6b in the desired direction and held in the centering insert holder 7 so that it cannot rotate. An additional anti-twist device is not required.
With the centering device from FIG. 4, a core unit can be centered analogously to the octagonal centering device described above.
FIG. 5 shows, similar to FIG. 1, a sectional illustration of a detail of an injection molding tool with a centering device. The injection molding tool comprises a die holding plate 2 with at least one cavity-forming die unit 3, a core holding plate 4 with at least one core unit 5, which is inserted into the die unit 3 in the closed state of the mold and forms a cavity 1, and a stripping plate 12 which is positioned between the core holding plate 4 and the die holding plate 2 is arranged. In the stripping plate 12 is a stripping element, respectively. a scraper ring 13 is arranged. The stripping element 13 is used to eject an injection molded product when the tool is opened after the injection molding process by the stripping plate 12 with the stripping element, respectively. the scraper ring 13 is moved forward relative to the core unit 5 towards the core tip 15.
The stripping element 13 is at the same time the centering insert 6 of the centering device. The stripping plate 12 forms the centering insert holder 7. In the embodiment shown, the centering device is designed according to the variant in FIG. 4. The centering insert 6 has a base body 6a with a pin 6b, which can be brought into the desired rotational position by means of slots 8a in the centering insert holder 7. The opening 9 of the centering insert 6 is conical so that the stripping element 13, respectively. the centering insert 6 can be moved slightly forwards relative to the core unit 5. The core unit is accordingly also conical.
The stripping element 13 designed as a centering insert 6 extends essentially over the entire thickness of the stripping plate 12. In this way, the core unit guided in the opening 9 of the centering insert 6 can be supported and stabilized over a long area or in two areas. The core unit 5 is then correspondingly also conical. In order to reduce any friction and thus wear on the individual parts, the core unit 5 in the embodiment shown has a circumferential taper 16 in a central region of a section which is held in the opening 9 in the closed tool. In this central area there is no contact with the centering unit 5 in the closed state. However, the areas adjoining the central area on both sides contact the centering unit 5 and fix the core unit at the desired location when the tool is closed.
In the embodiment shown, the core unit 5 is received in a floating manner in the core holding plate 4. When closing the tool, the core unit 5 by means of the centering insert 6, respectively. Stripping elements 13 centered and fixed in the correct position.
Designation list
1 cavity 2 die holding plate 3 die unit / die 4 core holding plate 5 core unit / core 6 centering insert 6a base body 6b projection, pin 7 centering insert holder 8 recess 8a slot 9 opening 10 outer contour 11 inner contour 12 stripping plate 13 stripping ring 14 injection channel 15 core tip 16 circumferential taper A, B, C Area of the arrangement of a centering device MA center axis of the recess 8 MB center axis of the centering insert 6 MC, MC 'center axis of the opening 9 R offset direction V offset

权利要求:
Claims (15)
[1]
1. Injection molding tool with at least one centering device, the injection molding tool having a die holding plate (2) with at least one cavity-forming die unit (3), a core holding plate (4) with at least one core unit (5) which, when the mold is closed, is inserted into the die unit (3) is inserted, and between the core holding plate (4) and the die holding plate (2) comprises a stripping plate (12), characterized in that the centering device has a centering insert (6) and a centering insert holder (7) with a recess (8) which is rotationally symmetrical about a central axis MA ) for receiving the centering insert (6); wherein the centering insert (6) has an opening (9) for receiving the core unit (5); wherein the centering insert (6) and the recess (8) of the centering insert holder (7) are designed such that the centering insert (6) is in at least three positions in the recess (8) of the centering insert holder (6) rotatable about a central axis MB of the centering insert (6). 7) can be used so that it cannot rotate and the central axis MA of the recess and the central axis MB of the centering insert overlap; and wherein a central axis MC of the opening (9) of the centering insert (6) is arranged eccentrically to the central axis MB of the centering insert (6) by an offset (V); and that the at least one centering unit is arranged in the stripping plate (12).
[2]
2. Injection molding tool according to claim 1, characterized in that the centering insert (6) is formed by a stripping element (13) received in the stripping plate (12).
[3]
3. Injection molding tool according to one of the preceding claims, characterized in that the core unit (5) is held in a floating manner in the core holding plate (4).
[4]
4. Injection molding tool according to one of the preceding claims, characterized in that the outer contour (10) of the centering insert (6) has the shape of a regular polygon, the inner contour (11) of the recess (8) of the centering insert holder (7) complementary to the outer contour ( 10) of the centering insert (6), and wherein the central axis MC of the opening (9) of the centering insert (6) is aligned eccentrically by an offset (V) towards a polygon side or a polygon corner (direction R).
[5]
5. Injection molding tool according to claim 4, characterized in that the regular polygon has three to twelve side surfaces.
[6]
6. Injection molding tool according to one of claims 1 to 3, characterized in that the centering insert (6) comprises a circular cylindrical base body (6a), on the outer surface of which there is a projection (6b) perpendicular to the central axis MB of the centering insert (6); and that the recess (8) of the centering insert holder (7) has a shape complementary to the base body (6a), which has at least three rotationally symmetrical slots (8a), which run parallel to the central axis MA of the recess (8), for receiving the projection (6b) of the Has centering insert (6).
[7]
7. Injection molding tool according to claim 6, characterized in that the central axis MC of the opening (9) of the centering insert (6) is aligned eccentrically towards the projection (6b) by an offset (V).
[8]
8. Injection molding tool according to one of the preceding claims, characterized in that the core unit (5) can be received in the opening (9) in such a way that a displacement in the longitudinal direction of the core unit (5) is possible.
[9]
9. Injection molding tool according to one of the preceding claims, characterized in that the opening (9) is an opening or a blind hole or that the opening (9) is cylindrical or conical.
[10]
10. Injection molding tool according to one of the preceding claims, characterized in that the centering insert (6) has a cylindrical shape.
[11]
11. Injection molding tool according to one of the preceding claims, characterized in that the offset (V) is 0.01 mm to 0.1 mm.
[12]
12. Injection molding tool according to one of the preceding claims, characterized in that the injection molding tool has several cavities (1), each of which has at least one centering unit.
[13]
13. Injection molding tool according to one of the preceding claims, characterized in that a further centering unit is arranged in the core holding plate (4) and / or the die unit (3).
[14]
14. Injection molding tool according to one of the preceding claims, characterized in that the centering insert holder is designed as a separate part received in the die unit (3), the stripping plate (12) and / or the core holding plate (4).
[15]
15. Injection molding tool according to one of the preceding claims, characterized in that the centering insert holder is formed by the die unit (3), the stripping plate (12) and / or the core holding plate (4).

类似技术:

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同族专利:

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公开号 | 公开日

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WO2020234065A1|2020-11-26|

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CN113853289A|2021-12-28|

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CA3139014A1|2020-11-26|

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KR20220011126A|2022-01-27|

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CH716208A1|2020-11-30|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

---

JPS5120258B2|1972-12-30|1976-06-23|

---

JPS5120258A|1974-08-13|1976-02-18|Eiji Tomizawa| Purasuchitsukuchuubuno seizosochi |

---

DE3140711C2|1981-10-14|1983-10-20|Maschinenfabrik Köppern GmbH & Co KG, 4320 Hattingen|Multiple injection mold|

---

US4750877A|1983-05-23|1988-06-14|Taut, Inc.|Injection molding of a thin-walled elongated tubular product such as a catheter|

---

EP1083035B1|1999-09-10|2006-05-10|Calsonic Kansei Corporation|Molding device for molding rotator and method for molding same|

---

JP2001334557A|2000-05-29|2001-12-04|Matsushita Electric Ind Co Ltd|Mold for optical disc, method for correcting eccentricity of optical disc board, and stamper|

---

CN104768602B|2012-02-27|2017-09-26|康乐保有限公司|The manufacture method of catheter|

---

CH712554A1|2016-06-13|2017-12-15|Fostag Formenbau Ag|Injection molding tool with adjustable core centering device.|WO2021255650A1|2020-06-18|2021-12-23|Flex Ltd.|System and method of correcting injection mold alignments|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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CH00662/19A|CH716208A1|2019-05-22|2019-05-22|Centering device for a molding tool.|CN202080037280.7A| CN113853289A|2019-05-22|2020-05-13|Injection mold with centering device|

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KR1020217036966A| KR20220011126A|2019-05-22|2020-05-13|Injection mold with centering device|

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PCT/EP2020/063255| WO2020234065A1|2019-05-22|2020-05-13|Injection-moulding tool with centring device|

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CA3139014A| CA3139014A1|2019-05-22|2020-05-13|Injection mould with centring device|