CN106994769A - Sliding block combines the mold mechanism of core pulling with oblique top - Google Patents

Abstract

Sliding block combines the mold mechanism of core pulling with oblique top, it includes fixed half and moving half, its top clamping plate (35), cover half backing plate (45), first baroclinic block (225), second baroclinic block (65) is fastenedly connected with the second screw (25), moving platen (85), support block (145), Bottom clamp plate (155) is fastenedly connected with the 3rd screw (105), the first sliding block (235) and the second sliding block (55) are provided with above the moving platen (85), the first oblique top (195) is installed in first tie rod hole e of first sliding block (235), first spring (205), first pull bar (225), the second oblique top (165) is installed in the second tie rod hole q, second spring (175), second pull bar (185), the end face W of first oblique top (195) and during the end face t matched moulds of the second oblique top (165) with being collided at the side K of building core (275).

Description

Sliding block combines the mold mechanism of core pulling with oblique top

Technical field

The present invention relates to plastic injection moulding mould and die cast metal mould, it is that sliding block combines core pulling with oblique top Mold mechanism.

Background technology

After die cast metal part and the shaping of plastic injection part, if having convex convex with on the side of product, while convex with The convex back-off having up or down, prior art is deviate from down by the depth diminution of upper and lower back-off, then by forced stripper mechanism mode Button, this structure easily occur breaking in de- back-off above and below back-off, cause product to be scrapped, while after back-off is reduced, in product During assembling, its tightening force is poor, influences using effect.Another mode is by the part above and below product and moulded products at back-off The structure of activity is designed to, during die sinking, product outside launch mode, is then utilized artificial by product together with movable members outside mould Separated with forming part, finally again by movable members manually are loaded into die for molding product.This structure, though it is simple in construction, Perfect product, but low production efficiency can be obtained, labor strength is big, while workman is laying movable members into mould When, it cannot ensure safely.In order to overcome the deficiencies in the prior art, spy provides a kind of following mold mechanism to solve above-mentioned ask Topic.

The content of the invention

The present invention is to provide the mold mechanism that sliding block combines core pulling with oblique top.As illustrated, due to having on the side of product One through hole, have in the raised material position of through hole above and below two back-offs, if using the mould structure forced stripper mechanism for reducing back-off, fallen Buckle is easily broken, while can influence to cannot fasten during assembling.Manually it is stripped according to outside mould, then low production efficiency, workman's work is strong Degree is big, and the safety of workman cannot be ensured.In order to overcome described problem, the present invention overcomes prior art using as described below Deficiency, what it was realized in：After product molding, mould is opened under the power of injector or die casting machine, injector or pressure Moved behind casting machine driven mold dynamic model part, product is pulled to the side of dynamic model one, while dynamic model is moved rearwards by, installed in cover half one The first Angle Pin (245) and the second Angle Pin (75) of side installed in the first of the side of dynamic model one with sliding (235) and the second sliding block (55) inclined hole is to be slidably matched, therefore the first sliding block (235) and the second sliding block (55) are while be moved rearwards by, while along inclined hole To mobile on the outside of mould, and the first spring (205) and the elastic force of second spring (175) the first oblique top of promotion (195) and second oblique Top (165) makes its first oblique top (195) and the second oblique top (165) not moved with the first sliding block (235) to mould lateral direction.By It is arranged to angling hole in the first tie rod hole e and the second tie rod hole q, therefore the first oblique top (195) progressively moves down abjection product (285) at upper back-off h, the second oblique top (165) is progressively moved up at the lower back-off P of abjection product (285), when the first pull bar (215) head at the first tie rod hole e step with colliding, the head g of the second pull bar (185) and the second tie rod hole q step When place collides, then the first pull bar (215) is spacing to the first oblique top (195), and the second pull bar (185) is limited the second oblique top (165) Position, now the first sliding block (235) continues to move to mould lateral direction, and drives the first oblique top (195) and the second oblique top (165) Moved to mould lateral direction, then the first oblique top (195) and the second oblique top (165) are extracted out from the hole of product (285) side.After Continuous die sinking, when die sinking spacing does not influence product (285) to deviate from, the first sliding block (235) and the second sliding block (55) are set on mould No longer acted in the presence of the locating part put to mould lateral direction, and injector or die casting machine continue to drive behind dynamic model part Move, after spacing is molded more than product (285) and total high 5-10 times gating system of material, dynamic model part is mobile after stopping to be made.This When injector or die casting machine push rod (265) promote thimble backing plate (135) drive be arranged on thimble fixed plate (115) on thimble (95) by outside product (285) launch mode.Sliding block combines the mold mechanism of core pulling with oblique top, and its advantage is：Mould structure is tight Gather, action is solid and reliable, the demoulding is smooth, and quality of item is good, without changing the depth at small product back-off, so as to ensure that product is assembled When it is solid and reliable.Use, and multi-faceted can be set in shaping while it is beneficial to metal die-casting mold and plastic injection mould This kind of mechanism completes the core pulling of the back-off, boss, groove of product diverse location.Sliding block combines the molding machine of core pulling with oblique top Structure, is solved and is easily broken using back-off during forced stripper mechanism, influence quality of item and the unstable problem of assembling.Solve the mould right-hand side Work Separation Product, labor strength is big, low production efficiency, the problem of safety of workers can not be ensured.Sliding block is combined with oblique top to be taken out The mold mechanism of core, it is characterized in that：It include fixed half and moving half, its cover half by：Centring ring (255), the first screw (5), cast gate Cover (15), the second screw (25), top clamping plate (35), cover half backing plate (45), the second baroclinic block (65), the second Angle Pin (75), First baroclinic block (225), the first Angle Pin (245), the top clamping plate (35) are tight with the first screw (5) with centring ring (255) It is solidly connected, sprue bush (15) is installed in the stepped hole of top clamping plate (35), the sprue bush (15) passes through cover half backing plate (45), sprue bush (15) is close to product (285), and the first Angle Pin is provided with the oblique stepped hole of the cover half backing plate (45) (245) and the second Angle Pin (75), the first Angle Pin (245) insertion is arranged on the first sliding block (235) of the side of dynamic model one In angling hole, the second Angle Pin (75) insertion is arranged in the angling hole of the second sliding block (55) of the side of dynamic model one, the cover half pad The first baroclinic block (225) and the second baroclinic block (65), first baroclinic block (225), cover half pad are additionally provided with below plate (45) Plate (45), top clamping plate (35) are fastenedly connected with the second screw (25), second baroclinic block (65), cover half backing plate (45), fixed Die holder plate (35) is fastenedly connected with the second screw (25), described first barocline (225) matched moulds when with installed in the of the side of dynamic model one One sliding block (235) is close to, and is close to during the second baroclinic block (65) matched moulds with the second sliding block (55) installed in the side of dynamic model one；The mould Dynamic model part by：First sliding block (235), the second sliding block (55), the first oblique top (195), the second oblique top (165), the first spring (205), second spring (175), the first pull bar (215), the second pull bar (185), moving platen (85), support block (145), the 3rd screw (105), Bottom clamp plate (155), thimble backing plate (135), dynamic mould core (275), thimble fixed plate (115), the 4th screw (125), thimble (95) is constituted, and dynamic mould core (275), the first sliding block (235), the second cunning are provided with above the moving platen (85) Block (55), the dynamic mould core (275), the first sliding block (235), the shaping of the combination composition product (285) of the second sliding block (55) Die cavity, first sliding block (235) and the second sliding block (55) offer T-shaped boss, the first sliding block (235) and the second sliding block (55) In the T-shaped groove for being slidably mounted on moving platen (85), during the upper plane matched moulds of first sliding block (235) and the second sliding block (55) It is close to the lower plane of cover half backing plate (245), the first tie rod hole e and the second tie rod hole is offered in first sliding block (235) Q, is provided with the first oblique top (195), the first spring (205), the first pull bar (215), in the second tie rod hole in the first tie rod hole e Second oblique top (165), second spring (175), the second pull bar (185) be installed in q, the end face W of first oblique top (195) with Collide, collided at the end face t of the second oblique top (165) and the side K of building core (275) at the side K of building core (275), It is engaged at the X of first sliding block (235) with the S in product (285), at the b of the second sliding block (55) and at a of product (285) It is close to, the afterbody of the first oblique top (195) is withstood in described first spring (205) one end, the other end withstands on the first tie rod hole e interior platform At rank, first pull bar (215) is tight through the first spring (205), the first pull bar (215) and the afterbody of the first oblique top (195) It is solidly connected, the other end is located in the first tie rod hole e outer step hole；Withstand the second oblique top in described second spring (175) one end (165) afterbody, the other end is withstood at the second tie rod hole q interior step, and second pull bar (185) passes through second spring (175), the second pull bar (185) one end and the afterbody of the second oblique top (165) are fastenedly connected, and the other end is located at the second tie rod hole q's In outer step hole, support block (145), Bottom clamp plate (155), the moving platen (85), support block are provided with the lower section of moving platen (85) (145), Bottom clamp plate (155) is fastenedly connected with the 3rd screw (105), in moving platen (85), Bottom clamp plate (155), support block (145) thimble backing plate (135), thimble fixed plate (115), the step of the thimble fixed plate (115) are provided with the cavity between Thimble (95) is installed, thimble (95) is through the hole on moving platen (85), and the end face and product (285) of thimble (95) are tight in hole Patch, the thimble fixed plate (115) and thimble backing plate (135) are fastenedly connected with the 4th screw (125).

Brief description of the drawings

The present invention is further described below in conjunction with the accompanying drawings

Shown in figure：

Fig. 1 is the structure chart that the mold mechanism matched moulds pours into a mould situation

Fig. 2 is the structure chart of the mold mechanism core pulling situation

Fig. 3 is the structure chart that the mold mechanism molds situation

Fig. 4 is the structure chart that the mold mechanism ejects product situation

Fig. 5 is the enlarged drawing at m in Fig. 2

Numeral numbering is represented respectively in figure：

5 --- the first screw 15 --- sprue bush 25 --- second screws

35 --- top clamping plate 45 --- cover half backing plate 55 --- second sliding blocks

65 --- the second baroclinic block 75 --- the second Angle Pin 85 --- moving platens

95 --- thimble 105 --- the 3rd screw 115 --- thimble fixed plates

125 --- the 4th screw 135 --- thimble backing plate 145 --- support blocks

155 --- Bottom clamp plate 165 --- the second oblique top 175 --- second springs

185 --- the second pull bar 195 --- the first oblique top 205 --- first springs

215 --- the first pull bar 225 --- the first baroclinic block 235 --- first sliding blocks

245 --- the first Angle Pin 255 --- centring rings

265 --- injector or die casting machine push rod 275 --- building cores

285 --- product

A --- represent the side wall of product (285)

B --- represent the end face of the second sliding block (55)

M --- represent at amplification

K --- represent the side of building core (275)

S --- represent product (285) groove

C --- represent gating system of material

H --- represent the upper back-off in product (285)

P --- represent the lower back-off in product (285)

W --- represent the end face of the first oblique top (195)

T --- represent the end face of the second oblique top (165)

X --- represent the boss in the first sliding block (235)

Q --- represent the second tie rod hole

E --- represent the first tie rod hole

Embodiment：

First, as illustrated, being the mold mechanism that sliding block combines core pulling with oblique top, it, which includes it, includes fixed half and moving half, its Cover half by：Centring ring (255), the first screw (5), sprue bush (15), the second screw (25), top clamping plate (35), cover half backing plate (45), the second baroclinic block (65), the second Angle Pin (75), the first baroclinic block (225), the first Angle Pin (245), the cover half seat Plate (35) is fastenedly connected with centring ring (255) with the first screw (5), and sprue bush is provided with the stepped hole of top clamping plate (35) (15), the sprue bush (15) passes through cover half backing plate (45), and sprue bush (15) is close to product (285), the cover half backing plate (45) the first Angle Pin (245) and the second Angle Pin (75), the first Angle Pin (245) insertion are installed in oblique stepped hole It is arranged in the angling hole of the first sliding block (235) of the side of dynamic model one, the second Angle Pin (75) insertion is arranged on the of the side of dynamic model one In the angling hole of two sliding blocks (55), the first baroclinic block (225) and the second baroclinic block are additionally provided with below the cover half backing plate (45) (65), first baroclinic block (225), cover half backing plate (45), top clamping plate (35) are fastenedly connected with the second screw (25), described Second baroclinic block (65), cover half backing plate (45), top clamping plate (35) are fastenedly connected with the second screw (25), and described first baroclines (225) it is close to during matched moulds with the first sliding block (235) installed in the side of dynamic model one, with being arranged on dynamic during the second baroclinic block (65) matched moulds The second sliding block (55) of the side of mould one is close to；The dynamic model part of the mould by：It is first sliding block (235), the second sliding block (55), first oblique Push up (195), the second oblique top (165), the first spring (205), second spring (175), the first pull bar (215), the second pull bar (185), moving platen (85), support block (145), the 3rd screw (105), Bottom clamp plate (155), thimble backing plate (135), dynamic mould core (275) dynamic model is installed above, thimble fixed plate (115), the 4th screw (125), thimble (95) composition, the moving platen (85) Core (275), the first sliding block (235), the second sliding block (55), the dynamic mould core (275), the first sliding block (235), the second sliding block (55) combination constitutes the forming recess of product (285), and it is convex that first sliding block (235) and the second sliding block (55) offer T-shaped Platform, the first sliding block (235) and the second sliding block (55) are slidably mounted in the T-shaped groove of moving platen (85), first sliding block (235) and the second sliding block (55) upper plane matched moulds when be close to the lower plane of cover half backing plate (245), first sliding block (235) the first tie rod hole e and the second tie rod hole q are offered in, the first oblique top (195), first are installed in the first tie rod hole e Spring (205), the first pull bar (215), are provided with the second oblique top (165), second spring (175), second in the second tie rod hole q Collided at pull bar (185), the end face W of first oblique top (195) and the side K of building core (275), the second oblique top (165) The end face t and side K of building core (275) at collide, at the X of the first sliding block (235) with product (285) in S place matching Close, with being close at a of product (285) at the b of the second sliding block (55), the first oblique top is withstood in described first spring (205) one end (195) afterbody, the other end is withstood at the first tie rod hole e interior step, and first pull bar (215) passes through the first spring (205), the first pull bar (215) and the afterbody of the first oblique top (195) are fastenedly connected, and the other end is located at the first tie rod hole e between outer land In rank hole；The afterbody of the second oblique top (165) is withstood in described second spring (175) one end, and the other end withstands on the interior of the second tie rod hole q At step, second pull bar (185) passes through second spring (175), the second pull bar (185) one end and the second oblique top (165) Afterbody is fastenedly connected, and the other end is located in the second tie rod hole q outer step hole, and support block is provided with the lower section of moving platen (85) (145), Bottom clamp plate (155), the moving platen (85), support block (145), Bottom clamp plate (155) are fastened with the 3rd screw (105) It is solid provided with thimble backing plate (135), thimble in connection, the cavity between moving platen (85), Bottom clamp plate (155), support block (145) Thimble (95) is installed, thimble (95) passes through moving platen (85) in fixed board (115), the stepped hole of the thimble fixed plate (115) On hole, the end face of thimble (95) is close to product (285), and the thimble fixed plate (115) and thimble backing plate (135) are with the 4th Screw (125) is fastenedly connected.

2nd, the operating principle of the mold mechanism is elaborated below：Due to having a through hole on the side of product, logical Two back-offs above and below having in the raised material position in hole, easily break if used at the mould structure forced stripper mechanism for reducing back-off, back-off, It can influence to cannot fasten during assembling simultaneously.Manually it is stripped according to outside mould, then low production efficiency, labor strength is big, workman's Safety cannot be ensured.In order to overcome described problem, the present invention overcomes the deficiencies in the prior art using as described below, and it is this What sample was realized：After product molding, mould is opened under the power of injector or die casting machine, injector or die casting machine driven mold Moved behind dynamic model part, product is pulled to the side of dynamic model one, while dynamic model is moved rearwards by, and first installed in the side of cover half one tiltedly leads Post (245) and the second Angle Pin (75) and be sliding installed in the first inclined hole for sliding (235) and the second sliding block (55) of the side of dynamic model one It is dynamic to coordinate, therefore the first sliding block (235) and the second sliding block (55) are while be moved rearwards by, while along inclined hole to outside mould sidesway It is dynamic, and the first spring (205) and the elastic force of second spring (175) the first oblique top of promotion (195) and the second oblique top (165) make its One oblique top (195) and the second oblique top (165) are not moved with the first sliding block (235) to mould lateral direction.Due to the first tie rod hole e It is arranged to angling hole with the second tie rod hole q, therefore the first oblique top (195) progressively moves down the upper back-off h of abjection product (285) Place, the second oblique top (165) progressively move up abjection product (285) lower back-off P place, when the first pull bar (215) head and Collided at first tie rod hole e step, when being collided at the head g of the second pull bar (185) and the second tie rod hole q step, then First pull bar (215) is spacing to the first oblique top (195), and the second pull bar (185) is spacing to the second oblique top (165), now first slides Block (235) continues to move to mould lateral direction, and drives the first oblique top (195) and the second oblique top (165) to mould lateral direction Mobile, then the first oblique top (195) and the second oblique top (165) are extracted out from the hole of product (285) side.Continue to mold, when opening When intermode is not away from product (285) abjection is influenceed, the locating part that the first sliding block (235) and the second sliding block (55) are set on mould No longer acted under effect to mould lateral direction, and injector or die casting machine continue to move behind driven mold dynamic model part, work as die sinking After spacing is total high 5-10 times more than product (285) and gating system of material, dynamic model part is mobile after stopping to be made.At this moment injector or Die casting machine push rod (265) promotes thimble backing plate (135) to drive the thimble (95) in thimble fixed plate (115) by product (285) outside launch mode.

Claims (1)

1. sliding block combines the mold mechanism of core pulling with oblique top, it is characterized in that：It include fixed half and moving half, its cover half by：Centring ring (255), the first screw (5), sprue bush (15), the second screw (25), top clamping plate (35), cover half backing plate (45), second are baroclined Block (65), the second Angle Pin (75), the first baroclinic block (225), the first Angle Pin (245), the top clamping plate (35) and positioning Circle (255) is fastenedly connected with the first screw (5), and sprue bush (15) is provided with the stepped hole of top clamping plate (35), described to pour Muzzle (15) passes through cover half backing plate (45), and sprue bush (15) is close to product (285), the oblique stepped hole of the cover half backing plate (45) In the first Angle Pin (245) and the second Angle Pin (75) be installed, the first Angle Pin (245) insertion is arranged on the side of dynamic model one The first sliding block (235) angling hole in, the second sliding block (55) that the second Angle Pin (75) insertion is arranged on dynamic model one side are inclined In inclined hole, the first baroclinic block (225) and the second baroclinic block (65) are additionally provided with below the cover half backing plate (45), described first is oblique Briquetting (225), cover half backing plate (45), top clamping plate (35) are fastenedly connected with the second screw (25), second baroclinic block (65), Cover half backing plate (45), top clamping plate (35) are fastenedly connected with the second screw (25), described first barocline (225) matched moulds when with install It is close in the first sliding block (235) of the side of dynamic model one, with the second sliding block installed in the side of dynamic model one during the second baroclinic block (65) matched moulds (55) it is close to；The dynamic model part of the mould by：First sliding block (235), the second sliding block (55), the first oblique top (195), the second oblique top (165), the first spring (205), second spring (175), the first pull bar (215), the second pull bar (185), moving platen (85), support block (145), the 3rd screw (105), Bottom clamp plate (155), thimble backing plate (135), dynamic mould core (275), thimble fixed plate (115) dynamic mould core (275), the first cunning are installed above, the 4th screw (125), thimble (95) composition, the moving platen (85) Block (235), the second sliding block (55), the dynamic mould core (275), the first sliding block (235), the combination of the second sliding block (55) constitute system The forming recess of product (285), first sliding block (235) and the second sliding block (55) offer T-shaped boss, the first sliding block (235) In the T-shaped groove that moving platen (85) is slidably mounted on the second sliding block (55), first sliding block (235) and the second sliding block (55) Upper plane matched moulds when be close to the lower plane of cover half backing plate (245), offer the first tie rod hole in first sliding block (235) E and the second tie rod hole q, is provided with the first oblique top (195), the first spring (205), the first pull bar in the first tie rod hole e (215), the second oblique top (165), second spring (175), the second pull bar (185), described first are installed in the second tie rod hole q Collided at the end face W of oblique top (195) and the side K of building core (275), the end face t and building core of the second oblique top (165) (275) collide, be engaged at the X of the first sliding block (235) with the S in product (285), the b of the second sliding block (55) at side K Place at a of product (285) with being close to, and the afterbody of the first oblique top (195), other end top are withstood in described first spring (205) one end At the first tie rod hole e interior step, first pull bar (215) is through the first spring (205), the first pull bar (215) and the The afterbody of one oblique top (195) is fastenedly connected, and the other end is located in the first tie rod hole e outer step hole；The second spring (175) The afterbody of the second oblique top (165) is withstood in one end, and the other end is withstood at the second tie rod hole q interior step, second pull bar (185) It is fastenedly connected through second spring (175), the second pull bar (185) one end and the afterbody of the second oblique top (165), the other end is located at the In two tie rod hole q outer step hole, support block (145), Bottom clamp plate (155), the dynamic model are provided with the lower section of moving platen (85) Plate (85), support block (145), Bottom clamp plate (155) are fastenedly connected with the 3rd screw (105), in moving platen (85), Bottom clamp plate (155) thimble backing plate (135), thimble fixed plate (115), the thimble fixed plate, are provided with the cavity between support block (145) (115) thimble (95) is installed, thimble (95) passes through the hole on moving platen (85), the end face and system of thimble (95) in stepped hole Product (285) are close to, and the thimble fixed plate (115) and thimble backing plate (135) are fastenedly connected with the 4th screw (125).