CN205905356U - Mold machine that spring secondary is loosed core constructs - Google Patents

Abstract

Mold machine that spring secondary is loosed core constructs, it comprises cover half and movable mould, fixed mold (215) and fixed die plate (225) fastening connection, insert in the through -hole of goods (205) during fixed mold (215) compound die, fixed mold (215), fixed die plate (225), movable mould board (175), the combination of slider (115) constitutes the shaping die cavity of goods (205), barocline piece (165) with screw (155) fastening connection in the concave frame of fixed die plate (225), locate to hug closely with the rear end (m) of core (125) during vertical face (t) the compound die of barocline piece (165), hug closely with antifriction plate (145) of installing in slider (165) rear end during the inclined plane (P) of barocline piece (165) compound die, the step is seted up into in movable mould board (175), the T connected in star has been seted up on movable mould board (175).

Description

The mold mechanism of spring secondary core pulling

Technical field

The present invention relates to the inner side core-pulling of die cast metal mould and plastic injection moulding mould, it is spring secondary core pulling Mold mechanism.

Background technology

After moulding by casting, if the side wall of product has annular groove or annular boss, need to carry out by slide block in die sinking Side core pulling, when the side wall of product has multiple annular grooves or boss, if adopt a side core-pulling, the groove of product and Boss is easily pulled out of shape, or even directly connects disconnected, rupture, the qualification rate of impact product.Prior art is by moulded products side The part of boss and groove is arranged to activity, after moulding by casting, outside product launch mode together with movable members, then by people Work Separation Product and movable members, after product is separated with movable members, then are carried out by the artificial loading mould by movable members The moulding by casting in next cycle.Though can obtain complete product using above-mentioned mold mechanism, labor strength is big, workman When installation activity part is in mould, safety it cannot be guaranteed that, the part of moulded products side wall boss or groove is movable simultaneously, Thus result in product size unstable.In order to overcome the deficiencies in the prior art, special provide as follows a kind of mold mechanism to solve on State problem.

Content of the invention

The present invention is to provide the mold mechanism of spring secondary core pulling, as illustrated, carrying two on the lateral surface of product (205) Individual groove and two boss, the small boss (e) in product (205), due to being in the groove be molded over slide block (115), molds When, if adopting a core pulling action, the small boss (e) in product (205) just easily breaks in the groove of slide block (115). In order to obtain perfect product, then carry out core pulling in the following way, it is achieved in that after moulding by casting, mould Dynamic model part is moved rearwards by, and now, is arranged on the baroclinic block (165) of cover half one side and slide block (115) and separates, dynamic in being mounted in First spring (185) of mould one side promotes slide block (115) to make translation motion to mould right, in This move, slide block (115) Front end inclined-plane (s) and product separate, meanwhile, the rear end (m) of core (125) is vertical along baroclinic block (165) in die sinking Sliding action is made in face (t), therefore, when sliding on the right of the first spring (185) promotion slide block (115) is to mould, core (125) Front end withstand product (205), then the small boss (e) of product (205) is successfully de- from the groove of slide block (115) Go out.Dynamic model part is moved after continuing, and at this moment, the rear end (m) of core (125) runs to the end of the vertical plane (t) of baroclinic block (165) Point, dynamic model part is moved after continuing, and at this moment the rear end (m) of core (125) disengages the vertical plane (t) of baroclinic block (165), then core (125) the inclined-plane p of rear end (m) and baroclinic block (165) collides.Dynamic model part is moved after continuing, the at this moment rear end of core (125) M () is slided along the inclined-plane (p) of baroclinic block (165), in This move, second spring (135) promotes core (125) right to mould Square action, then the front end of core (125) extract out from the groove (h) of product (205).When slide block (115) and core (125) After extracting out from product completely, at this moment push rod (195) promotes product (205) to deviate from outside mould from moving platen (175).Spring secondary The mold mechanism of core pulling, its advantage is: it utilizes spring secondary core pulling, and action is solid and reliable, and mould structure is simple, system Make, install, debugging conveniently, its high degree of automation simultaneously, quality of item is graceful.It is suitable for metal die-casting mold and plastic injection The core pulling of mould similar articles.The mold mechanism of spring secondary core pulling, solves a core-pulling die mechanism, the groove of product or Boss is easily pulled, or even directly breaks, ruptures, the problem of the qualification rate of impact product.Solve mould right-hand side work Separation Product and The mold mechanism of movable members, labor strength is big, and safety of workers cannot ensure, the problem of product size stability difference. The mold mechanism of spring secondary core pulling, is characterized in that: it includes fixed half and moving half, and its cover half is by solid plate (225), cover half type Core (215), screw (155), baroclinic block (165) composition, described fixed mold (215) and solid plate (225) are fastenedly connected, cover half In the through hole of insertion product (205) during core (215) matched moulds, fixed mold (215), solid plate (225), moving platen (175), cunning The combination of block (115) constitutes the forming recess of product (205), and described baroclinic block (165) is fastenedly connected in cover half with screw (155) In the recessed frame of plate (225), it is close to rear end (m) place of core (125) during vertical plane (t) matched moulds of baroclinic block (165), baroclinic block (165) be close to the wearing plate (145) being arranged on slide block (115) rear end during inclined-plane (p) matched moulds, the dynamic model of this mould by: dynamic Template (175), push rod (195), slide block (115), wearing plate (145), core (125), the first spring (185), second spring (135) constitute, described moving platen (175) opens up into step, offers t connected in star, described slide block on moving platen (175) (115) it is arranged in the t connected in star of moving platen (175), described first spring (185) one end is arranged on the hole of moving platen (175) In, the other end is arranged in the hole of slide block (115), and the rear end inclined-plane of described slide block (115) is fastenedly connected with wearing plate (145), offer hole (k) in slide block (115), hole (k) is provided with core (125), the small end of described core (125) slides Through the through hole of slide block (115), in the groove (h) of insertion product (205) during the front end matched moulds of core (125), described second bullet Spring (135) and core (125) are set in the hole (k) of slide block (115), and second spring (135) one end is withstood in slide block (115) The bottom in hole (k), the other end withstands step (f) place of core (125), and the rear end (m) of core (125) passes through wearing plate (145) Via, be close to the vertical plane (t) of baroclinic block (165) during rear end (m) matched moulds of core (125), the front end of slide block (115) is opened It is provided with groove (b), during matched moulds, the groove (b) that the boss (e) of product (205) opens up positioned at the front end of slide block (115) is interior, slide block (115) in the groove (a) of insertion product (205) during front end inclined-plane (s) matched moulds.

Brief description

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

Shown in figure:

Fig. 1 is profile during this mold mechanism matched moulds

Fig. 2 is that during the die sinking of this mold mechanism, slide block (115) is extracted out and product (205) from the groove (a) of product (205) The profile that boss (e) is deviate from from the groove (b) of slide block (115)

Fig. 3 is the profile that during die sinking of this mold mechanism, core (125) is extracted out from the groove (h) of product (205)

In figure numeral numbering represents respectively:

115 slide block, 125 core 135 second spring

145 wearing plate, 155 screw 165 baroclinic block

175 moving platen 185 first spring 195 push rod

205 product, 215 fixed mold 225 solid plate

Z represents the boss of product (205)

A represents the groove of product (205)

B represents the groove of slide block (115)

C represents the spring mounting hole in moving platen (175)

D represents the spring mounting hole in slide block (115)

E represents the inclined-plane of wearing plate (145) rear end

T represents the vertical plane of baroclinic block (165)

P represents the inclined-plane of baroclinic block (165)

K represents the hole in slide block (115)

F represents the step of core (125)

R represents the through hole in product (205)

S represents the inclined-plane of slide block (115) front end

M represents the rear end of core (125)

H represents the groove in product (205)

Specific embodiment:

It is illustrated as the mold mechanism of spring secondary core pulling, below to the construction of this mold mechanism, annexation and dynamic It is described in detail as principle.

First, the operating principle of this mould is: when mould installion is in injector, fixed through moulding by casting, pressurize feeding, cooling After type, injector driven mold dynamic model partly moves afterwards, now, is arranged on baroclinic block (165) and the slide block (115) point of cover half one side Open, promote slide block (115) to make translation motion to mould right in the first spring (185) being mounted in dynamic model one side, at this In action, front end inclined-plane (s) and the product of slide block (115) separate, and meanwhile, the rear end (m) of core (125) is along tiltedly in die sinking The vertical plane (t) of briquetting (165) makees sliding action, therefore, on the right of the first spring (185) promotion slide block (115) is to mould During slip, product (205) is withstood in the front end of core (125), and then the small boss (e) of product (205) is successfully from slide block (115) deviate from groove.Dynamic model part is moved after continuing, and at this moment, the rear end (m) of core (125) runs to baroclinic block (165) The terminal of vertical plane (t).Dynamic model part is moved after continuing, and at this moment the rear end (m) of core (125) disengages the vertical of baroclinic block (165) Face (t), then collide in the rear end (m) of core (125) and the inclined-plane (p) of baroclinic block (165).Dynamic model part is moved after continuing, at this moment Slide along the inclined-plane (p) of baroclinic block (165) in the rear end (m) of core (125), in This move, because core (125) loses tiltedly The pressure of the vertical plane (t) of briquetting (165), then second spring (135) promotion core (125) is to the action of mould right, core (125) front end is extracted out from the groove (h) of product (205).When slide block (115) and core (125) are extracted out completely from product Afterwards, at this moment push rod (195) promotes product (205) to deviate from outside mould from moving platen (175).After product abjection mould is outer, mould is multiple During position, contrary action when molding with mould dynamic model part of injector is drawn close to cover half, is the inclined-plane of baroclinic block (165) first P collide in the rear end (m) of () and core (125) so as to core (125) moves to mould left direction, and dynamic model continues to draw close to cover half, At this moment the inclined-plane (p) of baroclinic block (165) and wearing plate (145) are collided, and then force slide block (115) to move to mould left, make Front end inclined-plane (s) of its slide block (115) is inserted in the groove (a) of product (205), continues matched moulds, the rear end (m) of core (125) Place slides into vertical plane (t) place of baroclinic block (165) along the inclined-plane (p) of baroclinic block (165), and then the front end of core (125) exists In the groove (h) of insertion product (205) in the presence of the vertical plane (t) of baroclinic block (165), continue matched moulds, baroclinic block (165) After the inclined-plane (p) of vertical plane (t) and baroclinic block (165) compresses core (125) and slide block (115) respectively, injector ability is to mould Carry out the moulding by casting in next cycle.

Claims (1)

1. the mold mechanism of spring secondary core pulling, is characterized in that: it includes fixed half and moving half, its cover half by: solid plate (225), Fixed mold (215), screw (155), baroclinic block (165) composition, described fixed mold (215) is with solid plate (225) fastening even Connect, in the through hole of insertion product (205) during fixed mold (215) matched moulds, fixed mold (215), solid plate (225), moving platen (175), the combination of slide block (115) constitutes the forming recess of product (205), and described baroclinic block (165) uses screw (155) fastening even It is connected in the recessed frame of solid plate (225), tight with rear end (m) place of core (125) during vertical plane (t) matched moulds of baroclinic block (165) Patch, is close to the wearing plate (145) being arranged on slide block (115) rear end during inclined-plane (p) matched moulds of baroclinic block (165), this mould Dynamic model by: moving platen (175), push rod (195), slide block (115), wearing plate (145), core (125), the first spring (185), Two springs (135) are constituted, and described moving platen (175) opens up into step, offers t connected in star on moving platen (175), described Slide block (115) is arranged in the t connected in star of moving platen (175), and described first spring (185) one end is arranged on moving platen (175) Hole in, the other end is arranged in the hole of slide block (115), and the rear end inclined-plane of described slide block (115) is fastenedly connected with wearing plate (145), offer hole (k) in slide block (115), hole (k) is provided with core (125), the small end of described core (125) slides Through the through hole of slide block (115), in the groove (h) of insertion product (205) during the front end matched moulds of core (125), described second bullet Spring (135) and core (125) are set in the hole (k) of slide block (115), and second spring (135) one end is withstood in slide block (115) Hole (k) bottom, the other end withstands step (f) place of core (125), and the rear end (m) of core (125) passes through wearing plate (145) via, is close to the vertical plane (t) of baroclinic block (165) during rear end (m) matched moulds of core (125), slide block (115) Front end opens up fluted (b), and during matched moulds, the boss (e) of product (205) is located at the groove (b) that the front end of slide block (115) opens up Interior, in the groove (a) of insertion product (205) during front end inclined-plane (s) matched moulds of slide block (115).