前苏联专利SU1184437A3 Ventilation device for casting mould

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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:
A gas-venting valve includes a sliding valve and either a fixed or movable valve chamber. The valve is closed by impingement of molten metal or melt flowing out of a cavity defined by the mold, in such a manner that the valve is forced to move relative to the valve chamber from a first position to a second position. The invention further includes a device for urging the valve to move relative to the valve chamber from the first position to the second position; a device for restraining the valve at the first position and preventing it from moving toward the second position, against the force of the urging device, until a part of the melt impinges against the valve; and a device for actuating the valve to return from the second position to the first position against the force of the urging device.
公开号:SU1184437A3
申请号:SU813358554
申请日:1981-11-19
公开日:1985-10-07
发明作者:Такесима Такахико；Уеки Тадаси；Кавасима Мотозо；Уено Тунео；Нисимото Мазаюки
申请人:Убе Индастриз Лтд (Фирма)；
IPC主号:

专利说明:

the plates are fixed on the inner surface of the chamber; they have inclined sections and outwardly curved free ends that interact with the flats of the valve stem. 7. The device according to claim 1, about tl and one that the means for holding the valve in the open position is made in the form of elastic plates fixed to the lower ends of the valve stem, having inclined sections and upper ends bent inwards, while the inner surface of the chamber The steps are made with a step with a transitional inclined surface interacting with the upper ends of the elastic plates. 8. The device according to claim 1, characterized in that the means for holding the valve in the open position and the means for holding the valve in the closed position are made in the form of an elastic concave-up plate having a central opening and connected to the inner wall of the chamber, while the upper end of the valve tail placed in the center hole of the plate. 9..Device according to claim 1, characterized in that the axis of the valve. The camera is located horizontally, the means for holding the valve in the closed position are made in the form of a spiral tension spring connected to the valve stem and the camera. 10. The device according to Claim 1, characterized in that the means for holding the valve in the open position are made in the form of a dummy: a ball placed in a vertical channel filled in the chamber wall and an annular recess on the surface of the valve stem interacting with the ball 11. The device of claim 10, distinguished by the fact that the valve groove is filled with a horizontal groove at the tail of the valve. 12. The device of claim 10, distinguished by the fact that the valve stem is made in the form of a hollow Shlindra, with the coil spring placed inside the cylinder. 13. The device according to Claim 1, characterized in that the means for holding the valve in the open field of 7 research institutes are made in the form of a spring-loaded ball placed in a vertical channel executed in the valve stem, and a horizontal groove on the inner surface of the chamber interacting with the ball. 14. A device according to claim 1, characterized in that the means for holding the valve in the open position are made in the form of elastic plates arranged horizontally in the chamber, while a part of the shank {slang is made with diametrically opposite flats and placed between the elastic plates. 15. A device according to claim 14, characterized in that the elastic plates are fixed horizontally on the inner surface of the chamber, have inclined sections and free ends bent outwardly, interacting with the flats of the valve stem. 16. The device according to claim 1, characterized in that the means for holding the valve in the open position are made in the form of elastic plates arranged horizontally in the chamber and fixed at one end on the valve stem, having inclined portions and inward-curved free ends, while the inner surface of the chamber made step with a transitional inclined surface that interacts with the free ends of the elastic plates. 17. A device according to claims 1, 10-16, characterized in that the means for returning the valve to the open position are made in the form of an ejector plate of the mold with at least one pusher for returning the valve. 18. The device according to claims 10-16, characterized in that there is a hole in the chamber for the passage of the pusher. 19. A device according to claims 1-3-9, characterized in that the means for returning the valve to the open position are provided with stoppers and cooperating with them levers fixed on the valve stem, while vertical slots are made in the chamber in which the levers are placed.
20. A device according to claim 3, 3, 7, 10-14, characterized in that the chamber is provided with opposing bolts which interact with elastic plates.
21. A device according to Claims 4 and 13, characterized in that the camera
bolted to the depth of the groove,
Priority points:
20.11.80 according to claims 1-8, 12, 19-21;
23.12.80 to PP.1-3;
12.06.81 pp.1-4, 9-11, 13-19.
one
The invention relates to foundry, in particular to injection molding.
The aim of the invention is to reduce gas impurities in the casting and increase the service life of the mold.
FIG. Figure 1 shows a form with a ventilation device according to the first type with a vertical arrangement, a general view; in fig. 2 - ventilation device, incision; in fig. 3 and 4 - the same stages of work; in fig. 5 is a section A-A in FIG. in fig. 6 - the same, option; in Fig. 7, section B-B in Fig. 6; in fig. 8 is a variant of the device corresponding to FIG. 2; in fig. 9 is a second variant of the device corresponding to FIG. 3, section; in fig. 10 - the same, the third option; in fig. 11 - the same, the fourth option; in fig. 12 - the same, fifth option; in fig. 13 - the device of the first type, general view; in fig. 14 — form with a ventilation device of the second type (horizontal arrangement), general view; in fig. 15 is a section bb In Fig; in fig. 16 shows the ventilation device corresponding to FIG. 14, incision; in fig. 17 is a variant of the device of the second type; in fig. 18 is a section of YYY in FIG. 17; in fig. 19 is a section d-d in FIG. 17; in fig. 20 - ventilation device, the second option; in fig. 21 - the same, the third option; in FIG. 22 shows section EE of FIG. 21; in fig. 23 - the same, option; in fig. 24 - the same, the second option; in fig. 25-27 — third type ventilation device, stages of operation; in fig. 28 and 29 types of plates used in the device
third type, top view; in Fig.30; section in Fig. 29,
The ventilation device comprises a valve-shaped valve 1, 5 installed with the possibility of vertical movement relative to the form, which consists of a fixed 2 and a movable 3 half-form with a working cavity 4, a pushing plate
0 5 with pushers 6 and gating valve 7. A vent connector 8, two bypass channels 9 and a channel 10 for gas release are provided through the shape connector. The device contains
5 a chamber 11 with a valve seat 12. The bypass channels 9 adjoin the valve seat 12. The branch angle of the channels 9 is not more than 90. The valve 1 has a shank 13 that slides vertically in the chamber 11 along the guide 14. The ventilation device also contains means for holding the valve in the open and closed positions; and a device for returning the valve to the open position.
The means for holding the valve in the closed position is made in the form of an extension coil spring 15 connected to the upper end of the shank 13 and the chamber 11.
The means for returning the valve to the open position are in the form of a hydraulic cylinder 16 with a stem 17, which is connected to the chamber 11. The hydraulic cylinder is fixed on the mold.
The tool for holding the clack in the open state is made in the form of elastic plates 18 and 19 arranged horizontally in the chamber, and covers the shank 13 of the valve 1 from two sides along the flats 20 and 21. When the valve moves from the open-. 3 in the closed position, the resilient plates 18 and 19 are moved from the flats 20 and 21 to the wider part 22 of the shank 13. In addition, this device contains stoppers 23 and 24 mounted on the body 25. The stoppers serve to limit the upward movement of the valve 1 relative to the shape The chamber 11 has vertical slots 26 and 27 in which the levers 28 and 29 are mounted attached to the shank 13 of the valve 1. The levers interact with the stoppers 23 and 24 to prevent the valve 1 from moving upwardly relative to the shape when the stem 17 moves upwardly relative to the shape. A force is applied to valve 1 to return from the closed to the open position. The stoppers are bolts that allow the position of the stoppers 23 and 24 to be adjusted relative to the chamber 11. In another embodiment (Fig. 8), the valve 1 is cylindrical, and the bypass channels 9 are guided to the holes 30 in the valve 1. The elastic plates 18 and 19 can be positioned vertically and fixed on the inner surface of the chamber 11 (Fig. 9). At the same time, the other ends of the plates have inclined sections and are bent outwardly, covering the tips 20 and 21 of the shank 13 of the valve. In the chamber 11 bolts 31 and 32 are installed, which press the elastic plates 18 and 19 to the flats. In another embodiment (Fig. 10), the elastic plates 18 and 19 are fixed with their lower ends on the shank 13 and have inward-curved ends, the chamber 11 being stepped with a transitional inclined surface 33. The plates are pressed against the inner surfaces of the chamber, and when the valve 1 moves upward, slides along an inclined surface 33 with curved ends and, falling into a cavity 34 of smaller diameter, fix the valve position. The means for holding the valve in the open position according to another variant (Fig. 12) is made in the form of balls 35 and 36 located in horizontal channels 37 and 38 made in the walls of the chamber 11, which are preloaded by springs 39 and 40. On the tail 13 of valve 1 made 374 gutters 41 and 42, interacting with balls. In another embodiment (FIG. 11), the balls 35 and 36 are located in a horizontal channel 43, formed in the shank 13 of the valve 1, and spring loaded 44, the vertical grooves 41 and 42 are provided on the inner surface of the chamber. Bolts 45 and 46 are installed in the chamber 11 to limit the size of the recesses. In FIG. 13 shows a modification of the means when the levers 28 and 29 are arranged higher than the coil springs 39 and 40 and the coil springs are located between the balls 35 and 36, and the bolts 45 and 46 are located in the horizontal channels 37 and 38, made in the guide 14, fixed in chamber 11. The force of the horizontal spiral springs 39 and 40 can be adjusted with bolts 45 and 46. The tool can be equipped with several pairs of grooves 41 and 42, which are located at some distance from each other along the periphery of the shank 13. The lower ends of the pairs grooves axial position different from those of other couples. The axial position of each pair determines the degree of valve opening, so valve 1 can be adjusted to a different position. In this embodiment, due to the location of the balls and the spring in the valve guide 14, the shank 13 can maintain alignment with the chamber 11, which is an advantage of the device. The ventilation device may also have a horizontal arrangement (FIGS. 14-16). When this camera 11 horizontally protrudes from the form. A gas outlet 10 is provided in the movable half-mold 3. In this case, the ventilation device is provided with a device for returning the valve to the open position. This device is a pushing plate 5 with pushing elements 47 for acting on valve 1 through levers 28 and 29. The device variants of this type are similar to those of the first type device. The means for keeping the valve in the open position are spring-loaded.
a ball 48 placed in a channel formed in the wall of the chamber, and an annular recess 49 on the shank 13 of valve 1 (Fig. 16). Instead of a recess on the shank of the valve, a horizontal groove 50 can be made, while the shank 13 itself is made in the form of a hollow cylinder, and the spiral spring 15 is placed inside the cylinder.
In the embodiment shown in Fig. 20, this device comprises a vertical channel 43, implemented in the shank 13 of the valve 1, and an open groove 51, executed in the guide 14 of the chamber 11, the ball 48 and the spring 52.
Similarly, the version with elastic plates is executed (Figs. 21 and 22).
The plates 18 and 19 are placed horizontally in the chamber 11 and cover the shank 13 along the flats 20 and 21. In another embodiment (Fig. 23), each of the elastic plates 18 and 19 is fixed horizontally on the inner surface of the chamber 11 and the shank flats 20 and 21 are covered with curved ends
Similar to the embodiment shown in FIG. 10, the device of FIG. 24
The third type of ventilation device has a vertical arrangement (Fig. 25), and the means for holding the valve in the open and closed position is embodied in the form of an elastic plate 53, bent upwards and having a central opening 54 in which the upper end of the shank 13 is located.
The tool dp return the valve to the open position is made in the form of a hydraulic cylinder 16 with a rod 17, fixed with a housing 25 on the form. Preferably, the elastic plate 53 is in the form of a cross.
(Fig.28) or wheels (Fig.29). I
The ventilation device operates as follows.
The metal through the gating channel 7 is pressed into the cavity 4 of the mold. In this case, the gases present in the cavity pass through the ventilation channel 8, the bypass channels 9, the valve chamber 11 and escape to the atmosphere through the channel 10. At the time of filling the mold with the melt 55 of the valve 1 is in the open (lower) position, as shown in fig. 2, and a large amount of gas is vented from the mold through channels 9 and 10. When the pressing is almost complete, part of the melt rises along the gas passage 56, striking the front of the valve surface. Valve 1 moves upward, breaking force
elastic plates 18 and 19, the initial blow of the melt of the first portion 57 (figure 3). In this case, the elastic plates are released by interacting with the flats 20 and 21 on the widest part 22 of the shank 13 (are in the bent state, as shown by dotted lines in Fig. 5), are moved downwards relative to the shank 13 to the widened part
22 and move down the surfaces of the shank using an upward force from the coil spring 15 until the valve reaches the second closed position. When
the valve 1 has reached — there is no second position; it is held in it by the Force acting upward from the side of the spiral spring 15. Therefore, during the time interval after
as the first portion 57 of the melt strikes valve 1, and until the next portion of the melt reaches the first portion, the valve remains in the second position, i.e. camera 11
remains securely closed by valve 1, thanks to the upward force from the coil spring 15, even in the case of intermittent shocks or intermittent
melt flow.
After the extrusion is complete, the movable mold 3 is moved so that the molded product can be removed from the mold. The hydraulic cylinder 16 is actuated so that the rod 17 moves up earlier or simultaneously with the movement of the movable half-form 3. When the hydraulic cylinder is actuated in this manner, the chamber 11 moves up with the rod for 17 seconds. The same speed, but the upward movement of the valve 11 is delayed compared with the chamber 11. This valve holding 31 is caused by the resistance of the part of the melt 55 stuck to the inner wall of the wellhead part 7. the gas passage 56 and to the valve and hardened at the valve, the action of the force of the coil spring 15 directed upwards. As a result, when the rod 17 moves upward and at the same time the chamber 11 moves away from the mold, the elastic plates 18 and 19 move from upwards relative to the stem 13 of the valve 1 and engage with the flats 20 and 21, i.e. the valve 1 moves down from the closed position to the open relative to the chamber 11. After the valve 1 returns to the first open state, it cannot move further downwards relative to the chamber 11, since the coil spring 15 and the valve, including the shank 13 and others elements, for example levers 28 and 29, are designed in such a way that the upward force of the coil spring 15 overcomes the weight of the entire valve. Thus, the valve remains in the first position relative to the chamber M until the levers 28 and 29 of the valve 1 have reached the stoppers 23 and 24. If the rod 17 can move upwards after the stoppers are pressed against the levers, the valve will begin to move downwards relative to the chamber 11 the effect of the force of the rod 17 against the force of the spiral spring; 15. This leads to the separation of the valve from the chamber 11 for a certain period in the first position. However, when the hydraulic cylinder is driven downwardly by the rod 17, the valve 1 returns and is held in the first open position and the chamber 11 is returned to the position in which the throttle is pressed against the mold. A similar action of the rod 378 can be carried out after the removal operation of the molded product and the solidification of the melt are completed. When the chamber 11 is pressed against the mold, the device comes to a position ready for the next cycle. pour. A stopper device, including stoppers 23 and 24 and levers 28, 29, is provided in order to rotate the valve from the closed position to the open position without any assistance from the part of the melt adhering and hardening on the valve. It is intended for use immediately before the pressing operation, as well as to act upon pressure loss or pressure without melt. The resistance of a part of the melt against the upward force of the coil spring 15 is created by a portion of the melt adhering to the front surface of the valve and other portions of the melt sticking to the side surfaces of the valve outside the channels 9. Other portions in many cases include gas pockets. However, the melt resistance can be enhanced by providing an undercut or groove on the outer surfaces of the valve. In other cases, the device works in a similar way. The proposed implementation of the device allows the ventilation duct to be closed smoothly, quickly and reliably when metal enters it, even if intermittent blows of the melt occur in the valve, which is achieved by installing special restraints.
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权利要求:
Claims (12)
[1]
1. VENTILATION DEVICE FOR A CASTING FORM, consisting of a fixed and movable half, containing a ventilation channel made through a mold connector and a channel connected to the working cavity for gas discharge, connected to the atmosphere, at least one bypass channel branched from the ventilation channel, a valve with a shaft mounted movably in the axial direction, a chamber with a valve seat. and means for holding the valve in the open position, characterized in that, in order to reduce gas inclusions in the casting and increase the life forms, further comprising means for retaining the valve in the closed position and the valve return means to the open position.
[2]
2. The device according to claim 1, characterized in that the axis of the valve on and the camera is vertical, the means for holding the valve in the closed position is made in the form of a spiral tension spring connected to the valve shaft and the camera, and the means for returning the valve to the open position is made in the form a hydraulic or pneumatic cylinder mounted on a mold whose stock is connected to the chamber.
[3]
3. The device according to claim 1, characterized in that the means for holding the valve in the open position is made in the form of spring-loaded balls located in horizontal channels made in the walls of the chamber, and grooves interacting with the spring-loaded balls are made on the surface of the valve shank.
[4]
4. The device according to p. .
[5]
5. The device according to claim 1, characterized in that the means of holding the valve in the open position is made in the form of elastic plates located horizontally in the chamber, while part of the valve stem is made with diametrically opposite flats and placed between the elastic plates.
[6]
6. The device pop. 5, about l and, chtochaya that elastic>
the plates are fixed on the inner surface of the chamber, have inclined sections and free ends bent outward, interacting with the flanges of the valve shank.
[7]
7. The device according to claim 1, wherein the means of holding the valve in the open position is made in the form of elastic plates fixed with lower ends on the valve shank having inclined sections and upper ends bent inward, while the inner surface of the chamber is made stepped with a transitional inclined surface interacting with the upper ends of the elastic plates.
[8]
8. The device according to claim 1, characterized in that the means for holding the valve in the open position and means for holding the valve in the closed position are made in the form of an elastic upwardly concave plate having a central hole and connected to the inner wall of the chamber, while the upper end of the valve stem is placed in the center hole of the plate.
[9]
9 .. The device according to claim 1, characterized in that the axis of the valve and the chamber is horizontal, the means of holding the valve in the closed position is made in the form of a spiral tension spring connected to the valve shank and the chamber.
[10]
10. The device according to claim 1, characterized in that the means of holding the valve in the open position is made in the form of a spring-loaded ball placed in a vertical channel made in the wall of the chamber, and an annular screw on the surface of the valve shaft interacting with the ball.
[11]
11. The device according to claim 10, characterized in that a horizontal groove is made on the valve shank.
12. The device according to claim 10, characterized in that the valve shank is made in the form of a hollow cylinder, while the spiral spring is placed inside the cylinder.
13. The device according to claim 1, characterized in that the means for holding the valve in the open position is made in the form of a spring-loaded ball placed in a vertical channel made in the valve shank and a horizontal groove on the inner surface of the chamber interacting with the ball.
14. The device according to claim 1, characterized in that the means for holding the valve in the open position is made in the form of elastic plates located horizontally in the chamber, while part of the shank / valve is made with diametrically opposite flats and placed between the elastic plates. >
15. The device is pop.14, characterized in that the elastic plates are mounted horizontally on the inner surface of the chamber, have inclined sections and free ends bent outward, interacting with the flanges of the valve shank.
16. The device according to claim 1, characterized in that the means of holding the valve in the open position is made in the form of elastic plates located horizontally in the chamber and fixed at one end on the valve shank, having inclined sections and free ends bent inward, while the inner surface the camera is made stepped with a transitional inclined surface interacting with the free ends of the elastic plates.
17. The device according to PP.1,10-16, characterized in that the means for returning the valve to the open position is made in the form of an eject plate of the mold with at least one pusher for returning the valve.
18. The device according to PP.10-16, characterized in that a hole for the passage of the pusher is made in the -chamber.
19. The device according to claims 1, 3, 9, characterized in that the means for returning the valve to the open position is equipped with stoppers and interacting levers' attached to the valve shank, while vertical slots are made in the chamber, in which leverage.
20. The device according to PP.3,7,10-14, characterized in that the camera is equipped with oppositely located bolts that interact with the elastic plates.
21. The device according to PP.4 and 13, characterized in that the camera is equipped with bolts that limit the depth of the groove,
Priority on points:
11/20/80 according to claims 1-8, 12, 19-21;
12/23.80 according to claims 1-3;
[12]
06/12/81 according to claims 1-4, 9-11, 13-19.

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同族专利:

公开号 | 公开日

ES8303150A1|1983-02-01|

KR830007182A|1983-10-14|

FR2494150A1|1982-05-21|

DE3145742A1|1982-06-03|

CH655452B|1986-04-30|

KR870001311B1|1987-07-13|

BR8107586A|1982-08-17|

AU7736181A|1982-05-27|

CA1173614A|1984-09-04|

US4489771A|1984-12-25|

FR2494150B1|1985-09-06|

ES507336A0|1983-02-01|

IT1140287B|1986-09-24|

IT8125209D0|1981-11-20|

DE3145742C2|1988-09-01|

AU529914B2|1983-06-23|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

NL84643C|1954-06-29|

NL110153C|1957-10-01|

LU37776A1|1959-01-02|1900-01-01|

GB1052810A|1963-11-14|

DE1483579B1|1965-08-16|1969-10-02|Fritz Hodler|Device for venting molds on die casting machines|

CH547137A|1972-09-29|1974-03-29|Hodler Fritz|CONTROL DEVICE FOR VENTILATION VALVES IN CASTING MOLDS.|

CH547138A|1972-10-05|1974-03-29|Hodler Fritz|VENTILATION VALVE FOR CLOSING THE VENTILATION CHANNEL OF CASTING FORMS.|

GB1477589A|1974-06-10|1977-06-22|Hodler F|Pressure diecasting block with a venting valve|

DE2433139C3|1974-07-10|1978-03-30|Karl Schmidt Gmbh, 7107 Neckarsulm|Device for venting casting molds on die casting machines|

DE2751431C2|1977-11-17|1986-03-06|Fritz Territet Vaud Hodler|Vent valve for die casting molds|

US4431047A|1979-09-27|1984-02-14|Ube Industries, Ltd.|Gas-venting arrangement incorporated with a mold|JPS6141663B2|1982-11-09|1986-09-17|Ube Industries|

US4562990A|1983-06-06|1986-01-07|Rose Robert H|Die venting apparatus in molding of thermoset plastic compounds|

JPH0140798B2|1984-12-28|1989-08-31|Ube Industries|

US4722385A|1986-03-14|1988-02-02|Ryobi Ltd.|Deflator for use in injection molding machine|

EP0268113B1|1986-11-04|1993-09-22|Ube Industries, Ltd.|Degassing apparatus for a metal mold|

EP0281877B1|1987-03-13|1992-06-03|Ube Industries, Ltd.|Degassing apparatus for a metal mold|

US4997026A|1987-06-05|1991-03-05|Toshiba Kikai Kabushiki Kaisha|Gas venting device for molding operations|

EP0371465B1|1988-11-29|1994-07-27|Ube Industries, Ltd.|Degassing apparatus for mold|

US5240402A|1992-11-23|1993-08-31|Husky Injection Molding Systems Ltd.|Apparatus for preparing hollow plastic article|

IT1309221B1|1999-07-02|2002-01-16|Edoardo Bresciani|SUCTION VALVE TO DISCHARGE AIR AND GAS FROM THE MOLDS FOR PRESSURE CASTING|

DE19951858A1|1999-10-27|2001-05-03|Buehler Ag|Ventilating valve comprises barrier in form of cyclone in elongation of ventilating channel in casting mold|

AT343443T|2001-09-21|2006-11-15|Fondarex Sa|VENTILATION VALVE DEVICE FOR MOLDING|

US7165958B2|2004-04-23|2007-01-23|Husky Injection Molding Systems Ltd.|Apparatus for adjustable hot runner assembly seals and tip height using active material elements|

US7481642B2|2004-04-23|2009-01-27|Husky Injection Molding Systems Ltd.|Method and apparatus for controlling a vent gap with active material elements|

US7072735B2|2004-04-23|2006-07-04|Husky Injection Molding Systems Ltd.|Control system for utilizing active material elements in a molding system|

US20050236725A1|2004-04-23|2005-10-27|Niewels Joachim J|Method and apparatus for countering mold deflection and misalignment using active material elements|

US7293981B2|2004-04-23|2007-11-13|Husky Injection Molding Systems Ltd.|Apparatus for injection molding using active material elements|

US20050238757A1|2004-04-23|2005-10-27|Niewels Joachim J|Method and apparatus for assisting ejection from an injection molding machine using active material elements|

US20050236729A1|2004-04-23|2005-10-27|Arnott Robin A|Method and apparatus for vibrating melt in an injection molding machine using active material elements|

US20050236727A1|2004-04-23|2005-10-27|Niewels Joachim J|Method and apparatus for mold component locking using active material elements|

JP2005329442A|2004-05-20|2005-12-02|Toyota Motor Corp|Control valve body for automatic transmission, and its manufacturing method|

US20080224353A1|2007-03-14|2008-09-18|Husky Injection Molding Systems Ltd.|Hydraulic Valve of Molding System|

US8813816B2|2012-09-27|2014-08-26|Apple Inc.|Methods of melting and introducing amorphous alloy feedstock for casting or processing|

KR101398535B1|2013-07-04|2014-05-27|현대다이모스|Apparatus of gas venting for mold|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

JP55163829A|JPS5914298B2|1980-11-20|1980-11-20|

JP55163830A|JPS59310B2|1980-11-20|1980-11-20|

JP55181334A|JPS57106462A|1980-12-23|1980-12-23|Venting device for die in molding machine|

JP56090296A|JPS6116223B2|1981-06-12|1981-06-12|

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