CN204322444U - A kind of double-color mold line position exits controlling organization - Google Patents

Abstract

The utility model discloses a kind of double-color mold line position and exit controlling organization, for in double-color mold, comprise being located at and described second penetrate Angle Pin on master mold, be located at the oblique chute outside described line position seat and be located at the bayonet lock of described oblique chute both sides, described bayonet lock is positioned at described line position seat at least partly, state on Angle Pin and have screens, described oblique chute is consistent with the incline direction of described Angle Pin; Penetrate in matched moulds process second, described Angle Pin is penetrated master mold with described second and is moved down and progress into described oblique chute, when second penetrate matched moulds put in place time, described Angle Pin contacts with bottom described oblique chute, described bayonet lock contacts with described screens, makes described Angle Pin be stuck in described oblique chute by described bayonet lock; Penetrate in die sinking process second, described Angle Pin is penetrated master mold with described second and is moved up and cause described bayonet lock to slide along described screens, and described Angle Pin along described oblique chute basal sliding, thus drives described line position seat horizontally outward to shift out.

Description

A kind of double-color mold line position exits controlling organization

Technical field

The utility model relates to the technical field of double-color mold die sinking, particularly relates to a kind of double-color mold line position and exits controlling organization.

Background technology

Existing two-color injection-molded mould, when second time die sinking, needs to complete ejecting of line position and product respectively by eject for twice, therefore, on mould structure, need on the basis of universal mold, add ejector retainner plate and shovel base, ejector retainner plate comprises two groups (four pieces), square iron needs to increase, therefore cost of manufacture is higher, complex structure, and mold base uses non-standard structure, tailor-made mould needs to take a long time, and mold cycle is longer.

Utility model content

Main purpose of the present utility model is that proposing a kind of double-color mold line position exits controlling organization, to solve, existing double-color mold line position exit structure is complicated, cost of manufacture is higher, and the technical problem using non-standard structure to cause mold cycle customized long due to mold base.

The utility model provides following technical scheme to solve above-mentioned technical problem:

A kind of double-color mold line position exits controlling organization, for in double-color mold, described double-color mold comprises two identical male models, first penetrates master mold, second penetrates master mold, line position and line position seat, described line position is fixed on described line position seat, described line position seat and the sliding connection in the horizontal direction of described male model, described controlling organization comprises to be located at described second and to penetrate Angle Pin on master mold, be located at the oblique chute outside described line position seat and be located at the card pin of described oblique chute both sides, described card pin is positioned at described line position seat at least partly, and described card pin be connected to all be positioned at described line position seat elastomeric element on, described Angle Pin has screens, described oblique chute is consistent with the incline direction of described Angle Pin, penetrate in matched moulds process second, described Angle Pin is penetrated master mold with described second and is moved down and progress into described oblique chute, when second penetrate matched moulds put in place time, described Angle Pin contacts with bottom described oblique chute, described card pin contacts with described screens under the effect of described elastomeric element, makes described Angle Pin be stuck in described oblique chute by described card pin, penetrate in die sinking process second, described Angle Pin is penetrated master mold with described second and is moved up and cause described card pin to slide along described screens, and described Angle Pin along described oblique chute basal sliding, thus drives described line position seat horizontally outward to shift out.

This technical scheme that the utility model provides, be applicable to first and penetrate the product that line position will be done in product appearance glue position, when first penetrates die sinking, without the need to starting position, after turnback, close second penetrate master mold carry out second penetrate shaping, when second penetrates die sinking ejecting product, be fixedly connected on second penetrate Angle Pin on master mold with second penetrate that master mold moves up time, because card pin is seized Angle Pin, Angle Pin moves upward and card pin cannot be moved up and down by the restriction of line position seat, therefore card pin can only slide in the screens of Angle Pin, i.e. screens and card pin relative sliding, card pin produces the displacement of outwards (namely away from product) in horizontal direction, thus drive line position seat outwards to pull open, while die sinking, achieve line position exit.Meanwhile, the utility model also can play shaping complete first when penetrating product to second time penetrate product complete after the effect of positioning action, pressure maintaining effect and buffering deformation of products.

Preferably, the outer surface side of described Angle Pin lower semisection is the face of cylinder, and opposite side is concave plane, and the described face of cylinder is and the face contacted bottom described oblique chute, and described concave plane is described screens; Penetrate master mold at described Angle Pin with described second to move down and progress in the process of described oblique chute, described card pin compresses by the described face of cylinder of described Angle Pin and makes described elastomeric element be in compressive state, when second penetrate matched moulds put in place time, the described face of cylinder and described card pin stagger and described elastomeric element are released, and by described card pin bullet to described Angle Pin, make described card pin be pressed onto on described concave plane, described Angle Pin is stuck in described oblique chute; Penetrate in die sinking process second, described card pin to be pressed on described concave plane and with described concave plane relative sliding.The concave plane produced after half of being pruned on the face of cylinder, as described screens, is simplified with coordinating between card pin, realizes without the need to adopting complicated mechanical snap structure.

Preferably, described elastomeric element is spring.

Compared to existing technology, the double-color mold line position that the utility model provides exits controlling organization and has the following advantages:

1) action ejecting line position is specially decreased, therefore without the need to adopting shovel base, thus decrease the quantity of ejector retainner plate, become common one group of ejector retainner plate, master die embryonic knob structure can be used, process in direct field, less to the transformation of general mould structure, without the need to having made to order again, making mould hand over the phase to shorten 7 days, and simplifying the structure;

2) cost-saving: to reduce tailor-made 900 yuan, non-standard mould/cover and processing charges 1400 yuan/cover, and add in the utility model Angle Pin only need 400 yuan/cover, therefore in double-color mold, use the described controlling organization that the utility model provides, a set of double-color mold can save (900+1400) * 2-400=4200 unit;

Accompanying drawing explanation

Fig. 1 is that double-color mold line position that the utility model detailed description of the invention provides exits controlling organization and is applied to schematic diagram in double-color mold;

Fig. 2 is the concrete structure schematic diagram that the double-color mold line position shown in Fig. 1 exits controlling organization;

Fig. 3 is that the second Angle Pin penetrated when matched moulds puts in place in Fig. 2 coordinates schematic diagram with card pin;

Fig. 4 second to penetrate when matched moulds puts in place in double-color mold second and penetrates mould sectional view in the x-direction;

Fig. 5 second to penetrate when matched moulds puts in place in double-color mold second and penetrates mould sectional view in the y-direction.

Detailed description of the invention

Below in conjunction with accompanying drawing and concrete embodiment, the utility model is described in further detail.

Specific embodiment of the utility model provides a kind of double-color mold line position as shown in Figures 1 to 3 to exit controlling organization, for pulling open line position when second penetrates die sinking in double-color mold, as shown in Figure 1, double-color mold comprises two identical male model 10a and 10b, first and penetrates master mold 21, second and penetrate master mold 22, line position 23 and line position seat 24, line position 23 to be fixed on line position seat 24 and to move with line position seat 24, and line position seat 24 and male model are slidably matched in the horizontal direction and link.Line position 23 may comprise the multiple slide structure pulled open towards periphery by product at grade, such as, can comprise the line position of four direction on same plane.Particularly, male model 10a and 10b includes male model die and male model template, and first penetrates master mold 21 and second penetrates master mold 22 and include female die core and master mold template.

As shown in Fig. 1 to 5, the described controlling organization that the utility model detailed description of the invention provides comprises being located at second to be penetrated Angle Pin 100 on master mold 22, is located at the oblique chute 200 of (for product) outside line position seat 24 and is located at the card pin 400 of oblique chute 200 both sides, described card pin 400 is positioned at described line position seat 24 at least partly, and described card pin 400 be connected to all be positioned at described line position seat 24 elastomeric element 300 on, oblique chute 200 is consistent with the direction that Angle Pin 100 tilts, and Angle Pin 100 has screens.The described controlling organization that the utility model detailed description of the invention provides is applicable to first and penetrates the infrastructure product that line position will be done in product appearance glue position, such as: first penetrate product have about 80 percent by second penetrate product cover, but have about 20 percent can not be penetrated product by second to cover, so when second penetrates shaping, need to do line position to carry out side core-pulling to pull out sunken back-off position, form final products apparent first and penetrate Surface Appearance.That is, described controlling organization is when second penetrates die sinking for pulling out line position, and first does not need to start position when penetrating die sinking.As shown in Figure 1, when first penetrates formed product, first penetrate master mold 21 die sinking after, male model 10a revolves the position of turnback to original male model 10b place, and male model 10b forwards the position at original 10a place to, then male model 10a and second penetrates master mold 22 and carries out second and penetrate matched moulds, in matched moulds process, be positioned at second and penetrate Angle Pin 100 on master mold 22 (particularly, be positioned at second to penetrate on the die of master mold 22) penetrate master mold 22 with second and move down, progress into oblique chute 200, when matched moulds puts in place, Angle Pin 100 contacts with the bottom of oblique chute 200, described card pin 400 ejects and contacts with described screens under the effect of described elastomeric element 300 simultaneously, thus make Angle Pin 100 be stuck in oblique chute 200 by described card pin 400, when second penetrates die sinking, Angle Pin 100 is penetrated master mold 22 with second and is moved up, and cause described card pin 400 to slide along described screens, Angle Pin 100 is along the basal sliding of oblique chute 200, thus driving line position seat 24 horizontally outward to shift out, die sinking action can complete line position and exit.Need first to complete second compared to existing technology and penetrate die sinking, eject line position again, then could ejecting product, must sequentially carry out three actions, not only operation trouble, and need to adopt more ejector retainner plate, additional shovel base is used for ejecting line position; for this reason cause square iron needs to be increased, mold base can only adopt off-gauge.Comparatively speaking, line position die sinking controlling organization that the utility model detailed description of the invention provides adopts to design cleverly and completes die sinking and line position exits simultaneously, and parts used greatly reduce on the contrary, use standard mold base, not only reduce die cost, key is that mould hands over the phase greatly to shorten.

Particularly, whether the outer surface of the lower semisection of Angle Pin 100 according to can be contacted with the bottom of oblique chute 200 and be divided into contact surface and noncontact face two halves, namely contact surface refers to that side external surface that can touch bottom Angle Pin 100 and oblique chute 200, noncontact face be contact surface to side external surface.As shown in Figure 3, in a kind of specific embodiment, the described contact surface of Angle Pin 100 is face of cylinder 100a, and described noncontact face is concave plane 100b (can regard Angle Pin lower semisection as to be formed by complete cylinder half of pruning vertically), described concave plane is described screens.Correspondingly, be also curved surface in oblique chute 200.

As shown in the figure, described card pin 400 and elastomeric element 300 can be located in the hole of oblique chute 200 both sides, wherein card pin 400 some be positioned at this hole all the time and contact with elastomeric element 300, described elastomeric element 300 can be such as spring, described spring is connected to the bottom of described hole, card pin 400 one end is directly or indirectly connected to spring, and the other end is positioned at described hole mouth place, penetrate master mold 22 at Angle Pin 100 with second to move down and progress in the process of oblique chute 200, card pin 400 compresses by the face of cylinder (i.e. described contact surface) of Angle Pin 100 and makes described elastomeric element 300 be in compressive state, when second penetrate matched moulds put in place time, columned described contact surface staggers with described card pin 400, and (face of cylinder is close until finally contact to oblique chute bottom surface gradually simultaneously downwards for matched moulds process Angle Pin) makes described elastomeric element 300 be released, and by described card pin 400 bullet to described Angle Pin 100, described card pin 400 is made to be pressed onto on described concave plane 100, thus described Angle Pin 100 is pressed in described oblique chute 200, penetrate in die sinking process second, second penetrates master mold 22 can move up and leave male model, also drive Angle Pin 100 to move up simultaneously, but because card pin 400 one end is pressed on the concave plane 100b of Angle Pin 100, and the other end is positioned at described hole, therefore Angle Pin 100 movement upwards can make card pin 400 along concave plane 100b formed relatively described concave plane 100b slip obliquely (but for product, card pin moves horizontally outward), this kind of slip of card pin 400 driven line position seat 24 carry out simultaneously relative Angle Pin 100 slip obliquely (but for product, line position seat moves horizontally outward), thus, penetrate master mold second to move in the process of die sinking and achieve outwards pulling open of line position exit along band.After die sinking puts in place, direct ejecting product.

Above content is in conjunction with concrete preferred embodiment further detailed description of the utility model, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of ordinary skill in the field; without departing from the concept of the premise utility; some equivalent to substitute or obvious modification can also be made, and performance or purposes identical, all should be considered as belonging to protection domain of the present utility model.

Claims (3)

1. a double-color mold line position exits controlling organization, for in double-color mold, described double-color mold comprises two identical male models, first and penetrates master mold, second and penetrate master mold, line position and line position seat, described line position is fixed on described line position seat, described line position seat and the sliding connection in the horizontal direction of described male model, is characterized in that:

Comprise being located at and described second penetrate Angle Pin on master mold, be located at the oblique chute outside described line position seat and be located at the card pin of described oblique chute both sides, described card pin is positioned at described line position seat at least partly, and described card pin be connected to all be positioned at described line position seat elastomeric element on, described Angle Pin has screens, and described oblique chute is consistent with the incline direction of described Angle Pin; Penetrate in matched moulds process second, described Angle Pin is penetrated master mold with described second and is moved down and progress into described oblique chute, when second penetrate matched moulds put in place time, described Angle Pin contacts with bottom described oblique chute, described card pin contacts with described screens under the effect of described elastomeric element, makes described Angle Pin be stuck in described oblique chute by described card pin; Penetrate in die sinking process second, described Angle Pin is penetrated master mold with described second and is moved up and cause described card pin to slide along described screens, and described Angle Pin along described oblique chute basal sliding, thus drives described line position seat horizontally outward to shift out.

2. controlling organization as claimed in claim 1, it is characterized in that: the outer surface side of described Angle Pin lower semisection is the face of cylinder, and opposite side is concave plane, the described face of cylinder is and the face contacted bottom described oblique chute, and described concave plane is described screens; Penetrate master mold at described Angle Pin with described second to move down and progress in the process of described oblique chute, described card pin compresses by the described face of cylinder of described Angle Pin and makes described elastomeric element be in compressive state, when second penetrate matched moulds put in place time, the described face of cylinder and described card pin stagger and described elastomeric element are released, and by described card pin bullet to described Angle Pin, make described card pin be pressed onto on described concave plane, described Angle Pin is stuck in described oblique chute; Penetrate in die sinking process second, described card pin to be pressed on described concave plane and with described concave plane relative sliding.

3. controlling organization as claimed in claim 2, is characterized in that: described elastomeric element is spring.