CN205651613U

CN205651613U - Multi -direction mold machine of loosing core constructs

Info

Publication number: CN205651613U
Application number: CN201620442645.5U
Authority: CN
Inventors: 牟维军
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-05-09
Filing date: 2016-05-09
Publication date: 2016-10-19
Anticipated expiration: 2026-05-09

Abstract

Multi -direction mold machine of loosing core constructs, it includes cover half and movable mould, curved round pin (25) with first screw (15) fastening connection on cover half bedplate (5), curved round pin (25) passes the inclined hole of first slider (105), the curved front end of selling (25) is arranged in the through -hole of die cavity board (185), first slider (105) front end has shaping core (435) with the 7th screw (465) fastening connection, insert during shaping core (435) compound die in goods (445) inboard recess (k), install in the T -slot of movable mould backing plate (275) second slider (365), transversely install core (355) in the step hole of second slider (365), fasten with headless screw (375) the rear end of core (355), insert during core (355) compound die in the recess (h) of goods (445) lateral wall, push up the front end and forming part (475) fastening connection of (335) to one side.

Description

The multi-direction mold mechanism loosed core

Technical field

The present invention relates to metal die-casting mold and plastic injection mould, be the multi-direction mold mechanism loosed core.

Background technology

In injection molding and metal die-casting mold, if having the hole of different directions, groove or boss on goods, prior art is larger-size to the hole on goods, a groove or boss side to be designed to mechanical action complete to loose core, for the less side of size then movable for molding Element Design one-tenth at this, the ejecting mechanism of die sinking rear mold by goods together with movable members outside launch mode, then by manually movable members and goods being separated, after movable members and goods separate, then by manually being installed in mould carry out next cycle moulding by casting by movable members.Though this mold mechanism mould structure is simple, but workman in installation activity part to mould time can not get safely ensureing, labor strength is big, and product size is unstable.In order to overcome the deficiencies in the prior art, the following a kind of mold mechanism of special offer solves the problems referred to above.

Summary of the invention

The present invention is to provide the multi-direction mold mechanism loosed core, and it is that part recessed and outer concave inside moulded products is arranged to move in mould, utilizes the mould opening force of injector to drive these transportable parts to be automatically performed in mould and looses core.Its embodiment is as follows: outside moulded products 445, loosing core at groove h is that the Angle Pin 75 utilizing and being arranged on cover half one side drives the second slide block 365 to drive the core 355 being arranged on slide block 365 to make translation gliding action to mould lateral direction so that it is core 355 is deviate from from the groove h of the lateral wall of goods 445.Inside moulded products 445, at k, the building core 435 being to utilize curved pin 25 band being arranged on cover half one side to be automatically connected on the first slide block 105 of loosing core of groove makees translation gliding action to die inside direction so that it is building core 435 is deviate from from the inboard groove k of goods 445.In moulded products, loosing core at 445 medial wall groove x is to utilize the oblique top 335 being arranged on ejector retainner plate 265 to drive forming part 475 to deviate from from inboard groove x.The multi-direction mold mechanism loosed core, it provides the benefit that: it utilizes the mould opening force of injector to drive Angle Pin, curved pin, oblique top, the part making its moulded products interior outside groove disengages with goods in mould automatically, save labour force, die automation degree is high, mould is installed, debugging is convenient, and product size is stable.It is suitable for complicated metalwork or working of plastics uses when loosing core simultaneously.The multi-direction mold mechanism loosed core, solves the mold mechanism of the outer Separation Product of artificial mould and movable members, the problem that labor strength is big, production efficiency is low, product size is unstable, safety of workers can not get ensureing.nullThe multi-direction mold mechanism loosed core，It is characterized in that: it includes fixed half and moving half，Its cover half is by top clamping plate 5、First screw 15、Curved pin 25、Solid plate 35、Second screw 45、Baroclinic block 55、First pressing plate 65、Angle Pin 75、3rd screw 85、Cover half backing plate 95、First slide block 105、Centring ring 115、4th screw 125、5th screw 135、Second pressing plate 145、Spring 155、Gag lever post 165、6th screw 175、Cavity plate 185、7th screw 465、Building core 435、First guide pin bushing 405、Second guide pin bushing 415、3rd guide pin bushing 425 forms，Described curved pin 25 is fastenedly connected on top clamping plate 5 with the first screw 15，Curved pin 25 is through the inclined hole of the first slide block 105，The front end of curved pin 25 is positioned in the through hole of cavity plate 185，Described first slide block 105 front end is fastenedly connected with building core 435 with the 7th screw 465，Insert in the groove k inside goods 445 during building core 435 matched moulds，Angle Pin 75 is arranged in the oblique stepped hole of solid plate 35，The rear end of Angle Pin 75 compresses with the first pressing plate 65，First pressing plate 65 is fastened on solid plate 35 with the 3rd screw 85，Angle Pin 75 is through the inclined hole in cover half backing plate 95，Insert during the front end matched moulds of Angle Pin 75 in the inclined hole of the second slide block 365，Described baroclinic block 55 is fastened on cover half backing plate 95 with the second screw 45，During the inclined-plane matched moulds of baroclinic block 55, the inclined-plane with the second slide block 365 is close to，Described gag lever post 165 is arranged in the stepped hole of top clamping plate 5，Gag lever post 165 rear end compresses with the second pressing plate 145，Second pressing plate 145 fastens with the 4th screw 135 with top clamping plate 5，Gag lever post 165 is through spring 155，The front end of gag lever post 165 is fastenedly connected with nut，During matched moulds，The nut being connected to gag lever post 165 front end is positioned in the hole of cavity plate 185，Described cavity plate 185 connects with the 6th screw 175 fastening with cover half backing plate 95；The dynamic model part of this mould is by second slide block 365, headless screw 375, core 355, moving platen 195, guide pillar 205, mould foot 215, Bottom clamp plate 225, push back pin 235, ejector retainner plate guide pillar 245, thimble backing plate 255, ejector retainner plate 265, 8th screw 285, dynamic model backing plate 275, 3rd pressing plate 295, ejector sleeve 305, thimble 315, dynamic mould core 325, oblique top 335, pin 345, 5th screw 385, tenth screw 395, forming part 475, keeper 485, Guided Ejection Bushing 455 forms；nullDescribed second slide block 365 is arranged in the T-slot of dynamic model backing plate 275，The stepped hole of the second slide block 365 is horizontally installed with core 355，The rear end headless screw 375 of core 355 fastens，Insert during core 355 matched moulds in the groove h of goods 445 lateral wall，Described dynamic mould core 325 is arranged in the stepped hole of moving platen 195，The inner surface of the upper surface of dynamic mould core 325 and goods 445 is close to，Dynamic mould core 325 is provided with an inclined hole and a straight hole，Oblique top 335 is installed in inclined hole，The front end of oblique top 335 is fastenedly connected with forming part 475，Insert during forming part 475 matched moulds in the groove x of goods 445 medial wall，The rear end of oblique top 335 connects with the slide being arranged in ejector retainner plate 265，Ejector sleeve 305 is installed in described straight hole，Ejector sleeve 305 slides through the hole on dynamic model backing plate 275 and dynamic mould core 325，The front end of ejector sleeve 305 is close to goods 445，The rear end of ejector sleeve 305 is arranged in the stepped hole of ejector retainner plate 265，Described thimble 315 is arranged in the stepped hole of Bottom clamp plate 225，The rear end of thimble 315 compresses with the 3rd pressing plate 295，3rd pressing plate 295 is fastened on Bottom clamp plate 225 with the 8th screw 285，Thimble 315 slides through thimble backing plate 255、Ejector retainner plate 265、The via of ejector sleeve 305，The front end of thimble 315 is inserted in goods 445，Described push back pin 235 is arranged in the stepped hole of ejector retainner plate 265，Push back pin 235 slides through the hole on dynamic model backing plate 275 and moving platen 195，It is close to cavity plate 185 during the end face matched moulds of push back pin 235，Described ejector retainner plate guide pillar 245 is arranged in the stepped hole of dynamic model backing plate 275，Ejector retainner plate guide pillar 245 becomes to be slidably matched with the Guided Ejection Bushing 455 being arranged on ejector retainner plate 265 and thimble backing plate 255，Described guide pillar 205 is arranged in the stepped hole of dynamic model backing plate 275，The first guide pin bushing 405 it is slidably inserted into during guide pillar 205 matched moulds、Second guide pin bushing 415、In 3rd guide pin bushing 425，Described locating part 485 is arranged in the hole of dynamic model backing plate 275，The bottom surface of the upper end of locating part 485 and the second slide block 365 is close to，Described moving platen 195、Dynamic model backing plate 275、Mould foot 215、Bottom clamp plate 225 connects with the tenth screw 395.

Accompanying drawing explanation

Below in conjunction with the accompanying drawings this mold mechanism is further illustrated

Shown in figure:

Fig. 1 is the profile of this mold mechanism matched moulds situation.

Fig. 2 is the profile that the curved pin of this mold mechanism 25 drives that the first slide block 105 is loosed core.

Fig. 3 is this mold mechanism Angle Pin 75 profile when driving the second slide block 365 to loose core.

Fig. 4 is that this mold mechanism oblique top 335 drives forming part 475 to loose core and profile during ejector sleeve 305 pushing out product.

In figure, numeral numbering represents respectively:

The 5 top clamping plate 15 first curved pins of screw 25

35 solid plate 45 second screw 55 baroclinic blocks

65 first pressing plate 75 Angle Pin 85 the 3rd screws

95 cover half backing plate 105 first slide block 115 centring rings

125 the 4th screw 135 the 5th screw 145 second pressing plates

155 spring 165 gag lever post 175 the 6th screws

185 cavity plate 195 moving platen 205 guide pillars

215 mould foot 225 Bottom clamp plate 235 push back pins

245 ejector retainner plate guide pillar 255 thimble backing plate 265 ejector retainner plates

275 dynamic model backing plate 285 the 8th screw 295 the 3rd pressing plates

305 ejector sleeve 315 thimble 325 dynamic mould cores

335 oblique top 345 pin 355 cores

365 second slide block 375 headless screw 385 the 9th screws

395 the tenth screw 405 first guide pin bushing 415 second guide pin bushings

425 the 3rd guide pin bushing 435 building core 445 goods

455 Guided Ejection Bushing 465 the 7th screw 475 forming parts

485 locating parts

X represents the groove of goods 445 medial wall

F represents the inclined-plane of the first slide block 105

M represents the vertical plane of the first slide block 105

H represents the groove of goods 445 lateral wall

K represents the groove inside goods 445

Detailed description of the invention:

It is illustrated as the multi-direction mold mechanism loosed core.Below the operating principle of this mold mechanism and the structure annexation of this mould are described in detail as follows:

nullOne、The structure annexation of this mould is: it includes fixed half and moving half，Its cover half is by top clamping plate 5、First screw 15、Curved pin 25、Solid plate 35、Second screw 45、Baroclinic block 55、First pressing plate 65、Angle Pin 75、3rd screw 85、Cover half backing plate 95、First slide block 105、Centring ring 115、4th screw 125、5th screw 135、Second pressing plate 145、Spring 155、Gag lever post 165、6th screw 175、Cavity plate 185、7th screw 465、Building core 435、First guide pin bushing 405、Second guide pin bushing 415、3rd guide pin bushing 425 forms，Described curved pin 25 is fastenedly connected on top clamping plate 5 with the first screw 15，Curved pin 25 is through the inclined hole of the first slide block 105，The front end of curved pin 25 is positioned in the through hole of cavity plate 185，Described first slide block 105 front end is fastenedly connected with building core 435 with the 7th screw 465，Insert in the groove k inside goods 445 during building core 435 matched moulds，Angle Pin 75 is arranged in the oblique stepped hole of solid plate 35，The rear end of Angle Pin 75 compresses with the first pressing plate 65，First pressing plate 65 is fastened on solid plate 35 with the 3rd screw 85，Angle Pin 75 is through the inclined hole in cover half backing plate 95，Insert during the front end matched moulds of Angle Pin 75 in the inclined hole of the second slide block 365，Described baroclinic block 55 is fastened on cover half backing plate 95 with the second screw 45，During the inclined-plane matched moulds of baroclinic block 55, the inclined-plane with the second slide block 365 is close to，Described gag lever post 165 is arranged in the stepped hole of top clamping plate 5，Gag lever post 165 rear end compresses with the second pressing plate 145，Second pressing plate 145 fastens with the 4th screw 135 with top clamping plate 5，Gag lever post 165 is through spring 155，The front end of gag lever post 165 is fastenedly connected with nut，During matched moulds，The nut being connected to gag lever post 165 front end is positioned in the hole of cavity plate 185，Described cavity plate 185 connects with the 6th screw 175 fastening with cover half backing plate 95；The dynamic model part of this mould is by second slide block 365, headless screw 375, core 355, moving platen 195, guide pillar 205, mould foot 215, Bottom clamp plate 225, push back pin 235, ejector retainner plate guide pillar 245, thimble backing plate 255, ejector retainner plate 265, 8th screw 285, dynamic model backing plate 275, 3rd pressing plate 295, ejector sleeve 305, thimble 315, dynamic mould core 325, oblique top 335, pin 345, 5th screw 385, tenth screw 395, forming part 475, keeper 485, Guided Ejection Bushing 455 forms.nullDescribed second slide block 365 is arranged in the T-slot of dynamic model backing plate 375，The stepped hole of the second slide block 365 is horizontally installed with core 355，The rear end headless screw 375 of core 355 fastens，Insert during core 355 matched moulds in the groove h of goods 445 lateral wall，Described dynamic mould core 325 is arranged in the stepped hole of moving platen 195，The inner surface of the upper surface of dynamic mould core 325 and goods 445 is close to，Dynamic mould core 325 is provided with an inclined hole and a straight hole，Oblique top 335 is installed in inclined hole，The front end of oblique top 335 is fastenedly connected with forming part 475，Insert during forming part 475 matched moulds in the groove x of goods 445 medial wall，The rear end of oblique top 335 connects with the slide being arranged in ejector retainner plate 265，Ejector sleeve 305 is installed in described straight hole，Ejector sleeve 305 slides through the hole on dynamic model backing plate 275 and dynamic mould core 325，The front end of ejector sleeve 305 is close to goods 445，The rear end of ejector sleeve 305 is arranged in the stepped hole of ejector retainner plate 265，Described thimble 315 is arranged in the stepped hole of Bottom clamp plate 225，The rear end of thimble 315 compresses with the 3rd pressing plate 295，3rd pressing plate 295 is fastened on Bottom clamp plate 225 with the 8th screw 285，Thimble 315 slides through thimble backing plate 255、Ejector retainner plate 265、The via of ejector sleeve 305，The front end of thimble 315 is inserted in goods 445，Described push back pin 235 is arranged in the stepped hole of ejector retainner plate 265，Push back pin 235 slides through the hole on dynamic model backing plate 275 and moving platen 195，It is close to cavity plate 185 during the end face matched moulds of push back pin 235，Described ejector retainner plate guide pillar 245 is arranged in the stepped hole of dynamic model backing plate 275，Ejector retainner plate guide pillar 245 becomes to be slidably matched with the Guided Ejection Bushing 455 being arranged on ejector retainner plate 265 and thimble backing plate 255，Described guide pillar 205 is arranged in the stepped hole of dynamic model backing plate 275，The first guide pin bushing 405 it is slidably inserted into during guide pillar 205 matched moulds、Second guide pin bushing 415、In 3rd guide pin bushing 425，Described locating part 485 is arranged in the hole of dynamic model backing plate 275，The bottom surface of the upper end of locating part 485 and the second slide block 365 is close to，Described moving platen 195、Dynamic model backing plate 275、Mould foot 215、Bottom clamp plate 225 connects with the tenth screw 395.

Two, the operating principle of this mould is: when mould is installed in injector, through moulding by casting, pressurize feeding, after cooling and shaping, injector driven mold dynamic model part is moved rearwards by, during This move, owing to cover half part loses pressure, upspring in the spring 155 being mounted in cover half one side and promote solid plate 35, cover half backing plate 95, cavity plate 185 moves to dynamic model direction, in current action, the curved pin 25 being arranged on top clamping plate 5 forces the first slide block 105 to make parallel slip action to die inside direction, deviate from from the inboard groove k of goods 445 in the building core 435 being attached on the first slide block 105.Injector driven mold dynamic model part is mobile after continuing to make to be made, now gag lever post 165 runs to the limit, colliding in the bottom of the nut with the hole on cover half backing plate 95 that are mounted in gag lever post 165 front end, so far gag lever post limits solid plate 35, cover half backing plate 95, cavity plate 185 to the action of dynamic model direction.Dynamic model part is moved after continuing, then mould dynamic model part partially opens with cover half, at this moment the Angle Pin 75 being arranged on cover half one side drives the second slide block 365 being arranged on dynamic model one side to make translation gliding action to mould lateral direction, and then the second slide block 365 drives core 355 to deviate from from the groove h of goods 445 lateral wall.Injector drives dynamic model part to move after continuing, after die sinking spacing is more than goods 445 and running gate system solidifying material height overall, dynamic model part is mobile after stopping to be made, at this moment injector push rod promotes thimble backing plate 255 to drive the oblique top 335 that is arranged on ejector retainner plate 265 to promote forming part 475 to deviate from from the groove x of goods 445 medial wall, forming part 475 together with ejector sleeve 305 by goods 445 from dynamic mould core 325 outside launch mode.After completing one-time cast-forming, when mould resets, it is that injector driven mold dynamic model part makees action contrary during die sinking, resets to the die sinking initial conditions of (as shown in Figure 1), until mould respectively open part of completely closed after, injector just carries out the moulding by casting in next cycle to mould.

Claims

nullThe most multi-direction mold mechanism loosed core，It is characterized in that: it includes fixed half and moving half，Its cover half is by top clamping plate (5)、First screw (15)、Curved pin (25)、Solid plate (35)、Second screw (45)、Baroclinic block (55)、First pressing plate (65)、Angle Pin (75)、3rd screw (85)、Cover half backing plate (95)、First slide block (105)、Centring ring (115)、4th screw (125)、5th screw (135)、Second pressing plate (145)、Spring (155)、Gag lever post (165)、6th screw (175)、Cavity plate (185)、7th screw (465)、Building core (435)、First guide pin bushing (405)、Second guide pin bushing (415)、3rd guide pin bushing (425) composition，Described curved pin (25) is fastenedly connected on top clamping plate (5) with the first screw (15)，Curved pin (25) is through the inclined hole of the first slide block (105)，The front end of curved pin (25) is positioned in the through hole of cavity plate (185)，Described first slide block (105) front end is fastenedly connected with building core (435) with the 7th screw (465)，Insert during building core (435) matched moulds in the groove (k) of goods (445) inner side，Angle Pin (75) is arranged in the oblique stepped hole of solid plate (35)，The rear end of Angle Pin (75) the first pressing plate (65) compresses，First pressing plate (65) is fastened on solid plate (35) with the 3rd screw (85)，Angle Pin (75) is through the inclined hole in cover half backing plate (95)，Insert during the front end matched moulds of Angle Pin (75) in the inclined hole of the second slide block (365)，Described baroclinic block (55) the second screw (45) is fastened on cover half backing plate (95)，During the inclined-plane matched moulds of baroclinic block (55), the inclined-plane with the second slide block (365) is close to，Described gag lever post (165) is arranged in the stepped hole of top clamping plate (5)，Gag lever post (165) rear end the second pressing plate (145) compresses，Second pressing plate (145) and top clamping plate (5) fasten with the 4th screw (135)，Gag lever post (165) passes spring (155)，The front end of gag lever post (165) is fastenedly connected with nut，During matched moulds，The nut being connected to gag lever post (165) front end is positioned in the hole of cavity plate (185)，Described cavity plate (185) connects with the 6th screw (175) fastening with cover half backing plate (95)；The dynamic model part of this mould is by the second slide block (365), headless screw (375), core (355), moving platen (195), guide pillar (205), mould foot (215), Bottom clamp plate (225), push back pin (235), ejector retainner plate guide pillar (245), thimble backing plate (255), ejector retainner plate (265), 8th screw (285), dynamic model backing plate (275), 3rd pressing plate (295), ejector sleeve (305), thimble (315), dynamic mould core (325), oblique top (335), pin (345), 5th screw (385), tenth screw (395), forming part (475), keeper (485), Guided Ejection Bushing (455) forms；nullDescribed second slide block (365) is arranged in the T-slot of dynamic model backing plate (275)，The stepped hole of the second slide block (365) is horizontally installed with core (355)，The rear end of core (355) headless screw (375) fastens，Insert during core (355) matched moulds in the groove (h) of goods (445) lateral wall，Described dynamic mould core (325) is arranged in the stepped hole of moving platen (195)，The inner surface of the upper surface of dynamic mould core (325) and goods (445) is close to，Dynamic mould core (325) is provided with an inclined hole and a straight hole，Oblique top (335) is installed in inclined hole，The front end of oblique top (335) is fastenedly connected with forming part (475)，Insert during forming part (475) matched moulds in the groove (x) of goods (445) medial wall，The rear end of oblique top (335) connects with the slide being arranged in ejector retainner plate (265)，Ejector sleeve (305) is installed in described straight hole，Ejector sleeve (305) slides through the hole on dynamic model backing plate (275) and dynamic mould core (325)，The front end of ejector sleeve (305) is close to goods (445)，The rear end of ejector sleeve (305) is arranged in the stepped hole of ejector retainner plate (265)，Described thimble (315) is arranged in the stepped hole of Bottom clamp plate (225)，The rear end of thimble (315) compresses with the 3rd pressing plate (295)，3rd pressing plate (295) is fastened on Bottom clamp plate (225) with the 8th screw (285)，Thimble (315) slides through thimble backing plate (255)、Ejector retainner plate (265)、The via of ejector sleeve (305)，The front end of thimble (315) is inserted in goods (445)，Described push back pin (235) is arranged in the stepped hole of ejector retainner plate (265)，Push back pin (235) slides through the hole on dynamic model backing plate (275) and moving platen (195)，It is close to cavity plate (185) during the end face matched moulds of push back pin (235)，Described ejector retainner plate guide pillar (245) is arranged in the stepped hole of dynamic model backing plate (275)，Ejector retainner plate guide pillar (245) becomes to be slidably matched with the Guided Ejection Bushing (455) being arranged on ejector retainner plate (265) and thimble backing plate (255)，Described guide pillar (205) is arranged in the stepped hole of dynamic model backing plate (275)，The first guide pin bushing (405) it is slidably inserted into during guide pillar (205) matched moulds、Second guide pin bushing (415)、In 3rd guide pin bushing (425)，Described locating part (485) is arranged in the hole of dynamic model backing plate (275)，The bottom surface of the upper end of locating part (485) and the second slide block (365) is close to，Described moving platen (195)、Dynamic model backing plate (275)、Mould foot (215)、Bottom clamp plate (225) connects with the tenth screw (395).