CN217121696U - One-outlet multi-zinc alloy lock seat die-casting die - Google Patents

Abstract

The utility model belongs to the technical field of the mould, especially, relate to a go out many zinc alloy lock seat die casting die. The utility model discloses, mould on die-casting lower mould and die-casting, die-casting go up the mould in be equipped with the paneling on the die-casting shaping, the die-casting lower mould in be equipped with the synchronous shaping subassembly of multimode. The utility model discloses in the die-casting in-process, it is close to each other to go up mould with die-casting lower mould and die-casting, make the synchronous shaping subassembly of multimode and the cooperation of the last paneling looks butt of die-casting, form complete die cavity, the melting material passes through the injection molding injection type intracavity, it moulds plastics, through the cooperation between the last paneling of the synchronous shaping subassembly of multimode and die-casting, it moulds plastics in step to form the multimode, it is accurate to go out the mould to arrange, mould and equipment fixing are swift, mould demolding number increases to going out, the productivity of production has been increased substantially, reduce the manpower, the material resources drop into, realize effectual cost control, the practicality is stronger.

Description

One-outlet multi-zinc alloy lock seat die-casting die

Technical Field

The utility model belongs to the technical field of the mould, a go out many zinc alloy lock seat die casting die is related to.

Background

Zinc alloy lock seat is as door and window accessory, uses often in the decoration process, and zinc alloy lock seat generally adopts die casting die to carry out batch production, and present zinc alloy lock seat mould is in process of production, and the number of drawing a mould is less, leads to the product to go out the number few, and the production waste time, manpower, material resources can't satisfy the demand of raw and other materials, manual work, productivity that increase day by day, and efficiency and practicality are comparatively general.

In order to overcome the defects of the prior art, people continuously explore and propose various solutions, for example, a chinese patent discloses a die locking seat of a stamping die [ application number: 201610184394.X ], including the lock seat, be equipped with the stopper on the lock seat, be equipped with the locking lever on the stopper, the tip of locking lever is equipped with the limiting plate, the limiting plate is equipped with the jam plate to the face inwards, is equipped with the locking spring between jam plate and the limiting plate. The lock plate can greatly improve the locking force through the lock spring, conveniently and firmly lock and connect the stamping die, and conveniently realize die locking. However, in the production process of the scheme, the output modulus is still less, so that the output number of products is less, the production wastes time, labor and material resources, the increasing requirements on raw materials, labor and capacity cannot be met, and the defects of general efficiency and practicability exist.

Disclosure of Invention

The utility model aims at the above-mentioned problem, a go out many zinc alloy lock seat die casting die is provided.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

a multi-zinc alloy lock seat die-casting die comprises a die-casting lower die and a die-casting upper die, wherein a die-casting upper paneling is arranged in the die-casting upper die, a multi-die synchronous forming assembly is arranged in the die-casting lower die and corresponds to the die-casting upper paneling in position, an injection molding piece is arranged above the die-casting upper die and corresponds to the multi-die synchronous forming assembly in position, an ejection part is arranged below the die-casting lower die and corresponds to the die-casting lower die in position.

In the die-casting die for the multi-zinc alloy lock base, the multi-die synchronous forming assembly comprises a die-casting lower panel arranged in the die-casting lower die, a plurality of lock base auxiliary forming parts symmetrical along the central line of the die-casting lower panel are arranged in the die-casting lower panel, and the lock base auxiliary forming parts correspond to the die-casting upper panel in position.

In the die-casting die for the multi-zinc alloy lock base, the lock base auxiliary forming part comprises a plurality of lock base auxiliary forming blocks arranged in the die-casting lower paneling, and the lock base auxiliary forming blocks correspond to the die-casting upper paneling in position.

In the die-casting die for the multi-zinc alloy lock base, a plurality of forming block fixing grooves which are symmetrical along the central line in the die-casting lower panel are arranged in the die-casting lower panel, the lock base auxiliary forming blocks are positioned in the forming block fixing grooves, a plurality of upper forming cavity grooves which are symmetrical along the central line of the die-casting upper panel are arranged in the die-casting upper panel, and the upper forming cavity grooves correspond to the forming block fixing grooves in position.

In the die-casting die for the multi-zinc alloy lock base, a material shunting part is arranged in the die-casting lower panel, the material shunting part is communicated with the forming block fixing groove, and the material shunting part corresponds to the injection molding part.

In the die-casting die for the multi-zinc alloy lock base, the material shunting part comprises a material shunting cavity groove arranged in the die-casting lower paneling, the material shunting cavity groove is communicated with the forming block fixing groove, and the material shunting cavity groove corresponds to the injection molding part.

In the die-casting die for the multi-zinc alloy lock seat, the injection molding part comprises an injection molding main cylinder arranged above the die-casting upper die, the injection molding main cylinder sequentially penetrates through the die-casting upper die and the die-casting upper panel, and the injection molding main cylinder corresponds to the material diversion cavity groove in position.

In the die-casting die for the one-outlet multi-zinc alloy lock seat, the top of the die-casting upper die is provided with the main cylinder fixing plate, and the main cylinder fixing plate is matched with the injection molding main cylinder in a clamping manner.

In the die-casting die for the one-outlet multi-zinc alloy lock seat, the ejection part comprises an ejection plate arranged below the die-casting lower die, a plurality of ejection rods are arranged on the ejection plate, and the ejection rods correspond to the auxiliary forming blocks of the lock seat in position.

In the die-casting die for the multi-zinc alloy lock seat, the fixed bottom plate is arranged below the ejector plate, the fixed bottom plate is provided with a plurality of pieces of anti-deflection iron which are symmetrical along the central line of the fixed bottom plate, and the ejector plate is in sliding fit with the anti-deflection iron.

Compared with the prior art, the utility model has the advantages of:

1. the utility model discloses in the die-casting in-process, it is close to each other to go up mould with die-casting lower mould and die-casting, make the synchronous shaping subassembly of multimode and the cooperation of the last paneling looks butt of die-casting, form complete die cavity, the melting material passes through the injection molding injection type intracavity, it moulds plastics, through the cooperation between the last paneling of the synchronous shaping subassembly of multimode and die-casting, it moulds plastics in step to form the multimode, it is accurate to go out the mould to arrange, mould and equipment fixing are swift, mould demolding number increases to going out, the productivity of production has been increased substantially, reduce the manpower, the material resources drop into, realize effectual cost control, the practicality is stronger.

2. The utility model discloses at the in-process of moulding plastics, the melting material pours into through the main section of thick bamboo of moulding plastics, and rethread material reposition of redundant personnel chamber groove shunts the melting material, flows into to shaping piece fixed slot, has accelerated the speed of moulding plastics, has improved production efficiency.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of a partial structure of the present invention.

Fig. 3 is a partial structural schematic diagram in another direction of the present invention.

Fig. 4 is a partial structural schematic diagram in another direction of the present invention.

In the figure: the die-casting die comprises a die-casting lower die 1, a die-casting upper die 2, a die-casting upper panel 3, a multi-die synchronous forming assembly 4, an injection molding part 5, an ejection part 6, a die-casting lower panel 7, a lock seat auxiliary forming part 77, a lock seat auxiliary forming block 8, a forming block fixing groove 9, an upper forming cavity groove 10, a material shunting part 11, a material shunting cavity groove 12, an injection molding main cylinder 13, a main cylinder fixing plate 14, an ejection plate 15, a fixing bottom plate 16 and an anti-deflection iron 17.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in fig. 1-4, a die-casting die for a multi-zinc alloy lock seat comprises a die-casting lower die 1 and a die-casting upper die 2, wherein a die-casting upper panel 3 is arranged in the die-casting upper die 2, a multi-die synchronous forming assembly 4 is arranged in the die-casting lower die 1, the multi-die synchronous forming assembly 4 corresponds to the die-casting upper panel 3 in position, an injection molding part 5 is arranged above the die-casting upper die 2, the injection molding part 5 corresponds to the multi-die synchronous forming assembly 4 in position, an ejection part 6 is arranged below the die-casting lower die 1, and the ejection part 6 corresponds to the die-casting lower die 1 in position.

In this embodiment, in the die-casting process, die-casting lower mould 1 and die-casting upper mould 2 are close to each other, make the synchronous shaping subassembly 4 of multimode and the cooperation of die-casting upper paneling 3 looks butt, form complete die cavity, the melting material pours into the die cavity into through injection molding 5, mould plastics, through the cooperation between synchronous shaping subassembly 4 of multimode and the die-casting upper paneling 3, it moulds plastics to form the multimode in step, it arranges the accuracy to go out the mould, mould and equipment fixing are swift, the mould goes out the modulus and increases to 1 out 16, the productivity of having increased substantially production, reduce manpower, material resources input, realize effectual cost control, and the practicality is stronger.

Referring to fig. 1-4, the multi-mold synchronous forming assembly 4 includes a lower die-casting panel 7 disposed in the lower die-casting mold 1, a plurality of auxiliary lock seat forming members 77 are disposed in the lower die-casting panel 7 and are symmetrical to each other along a center line of the lower die-casting panel 7, and the auxiliary lock seat forming members 77 correspond to the upper die-casting panel 3.

Specifically, in the injection molding process, the lower die-casting-molded paneling 7 is abutted and matched with the upper die-casting-molded paneling 3 to form a complete cavity, multi-die synchronous injection molding is formed through the matching between the lock seat auxiliary forming part 77 and the upper die-casting-molded paneling 3, the demolding arrangement is accurate, the die and equipment are quickly installed, the mold output modulus is increased to 1 to 16, the production capacity is greatly improved, the manpower and material resource investment is reduced, effective cost control is realized, and the practicability is high.

Referring to fig. 3 and 4, the lock seat auxiliary forming member 77 includes a plurality of lock seat auxiliary forming blocks 8 disposed in the die-cast lower panel 7, and the lock seat auxiliary forming blocks 8 correspond to the die-cast upper panel 3.

In the embodiment, in the die-casting process, the lock seat auxiliary forming block 8 is matched with the die-casting upper panel 3 to form multi-mold synchronous injection molding, the mold stripping arrangement is accurate, the mold and the equipment are quickly installed, the mold stripping modulus is increased to 1 to 16, the production capacity is greatly improved, the manpower and material resource investment is reduced, effective cost control is realized, and the practicability is high.

The lower die-casting panel 7 is internally provided with a plurality of forming block fixing grooves 9 which are symmetrical along the central line in the lower die-casting panel 7, the lock seat auxiliary forming block 8 is positioned in the forming block fixing groove 9, the upper die-casting panel 3 is internally provided with a plurality of upper forming cavity grooves 10 which are symmetrical along the central line of the upper die-casting panel 3, and the upper forming cavity grooves 10 correspond to the forming block fixing grooves 9.

In this embodiment, the forming block fixing groove 9 is used to install and fix the lock seat auxiliary forming block 8, and the upper forming cavity groove 10 is used to assist in forming the lock seat product.

Referring to fig. 3, a material distributing portion 11 is arranged in the die-cast lower panel 7, the material distributing portion 11 is communicated with the molding block fixing groove 9, and the material distributing portion 11 corresponds to the injection molding part 5.

In this embodiment, at the in-process of moulding plastics, the melting material pours into through injection molding 5, and rethread material reposition of redundant personnel portion 11 shunts the melting material, has accelerated the speed of moulding plastics, has improved production efficiency.

The material shunting part 11 comprises a material shunting cavity groove 12 arranged in the lower die-casting forming paneling 7, the material shunting cavity groove 12 is communicated with the forming block fixing groove 9, and the material shunting cavity groove 12 corresponds to the injection molding part 5.

In this embodiment, in the process of moulding plastics, the melting material pours into through injection molding 5, and rethread material reposition of redundant personnel chamber groove 12 shunts the melting material, flows into to shaping piece fixed slot 9, has accelerated the speed of moulding plastics, has improved production efficiency.

The injection molding 5 including set up in the die-casting mould 2 top mould a main section of thick bamboo 13 of moulding plastics, a main section of thick bamboo 13 of moulding plastics run through in the die-casting mould 2 and die-casting shaping upper panel 3 in proper order, a main section of thick bamboo 13 of moulding plastics and the position of material reposition of redundant personnel chamber groove 12 corresponding.

In this embodiment, during the injection molding process, the molten material is injected into the material diversion cavity groove 12 through the injection molding main cylinder 13, thereby completing the injection molding.

Referring to fig. 1, a main cylinder fixing plate 14 is arranged at the top of the upper die casting die 2, and the main cylinder fixing plate 14 is in clamping fit with the main injection molding cylinder 13.

In this embodiment, the main cylinder fixing plate 14 is used to clamp and fix the injection molding main cylinder 13, so that the injection molding main cylinder 13 is prevented from deflecting during injection molding, and the injection molding precision is high.

As shown in fig. 1 and 2, the ejecting portion 6 includes an ejecting plate 15 disposed below the lower die-casting die 1, and a plurality of ejecting rods are disposed on the ejecting plate 15 and correspond to the positions of the lock seat auxiliary forming blocks 8.

In this embodiment, after the injection molding is completed, the mold is opened, the ejector plate 15 is moved, and the ejector rod is driven by the ejector plate 15 to move synchronously, so as to eject the product.

Referring to fig. 1, a fixing bottom plate 16 is arranged below the ejector plate 15, a plurality of pieces of anti-deflection iron 17 which are symmetrical along the center line of the fixing bottom plate 16 are arranged on the fixing bottom plate 16, and the ejector plate 15 is in sliding fit with the anti-deflection iron 17.

In the embodiment, in the ejection process, the ejection plate 15 is limited by the sliding fit between the ejection plate 15 and the anti-deviation iron 17, and the ejection accuracy is further improved.

The utility model discloses a theory of operation is:

in the die-casting process, the die-casting lower die 1 and the die-casting upper die 2 are close to each other, the die-casting forming lower paneling 7 is abutted and matched with the die-casting forming upper paneling 3 to form a complete cavity, multi-die synchronous injection is formed through the matching between the lock seat auxiliary forming block 8 and the die-casting forming upper paneling 3, the die-stripping arrangement is accurate, the die and equipment installation is rapid, the die output modulus is increased to 1 out of 16, the production capacity is greatly improved, the manpower and material resource investment is reduced, the effective cost control is realized, the practicability is strong,

the forming block fixing groove 9 is used for installing and fixing the lock seat auxiliary forming block 8, the upper forming cavity groove 10 is used for auxiliary forming of the lock seat product,

in the injection molding process, the molten material is injected through the injection molding main cylinder 13, is shunted through the material shunt cavity groove 12 and flows into the molding block fixing groove 9, the injection molding speed is accelerated, the production efficiency is improved,

the main cylinder fixing plate 14 is used for clamping and fixing the injection molding main cylinder 13, so that the injection molding main cylinder 13 is prevented from deflecting in the injection molding process, the injection molding precision is higher,

after the injection molding is finished, the mold is opened, the ejector plate 15 is moved, the ejector rod is driven by the ejector plate 15 to move synchronously, the product is ejected,

in the ejection process, the ejection plate 15 is limited by the sliding fit between the ejection plate 15 and the anti-bias iron 17, and the ejection accuracy is further improved.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein will be apparent to those skilled in the art without departing from the spirit of the invention.

Although the terms of the lower die casting die 1, the upper die casting die 2, the upper die casting panel 3, the multi-die synchronous forming assembly 4, the injection molding part 5, the ejection part 6, the lower die casting panel 7, the lock base auxiliary forming part 77, the lock base auxiliary forming block 8, the forming block fixing groove 9, the upper forming cavity groove 10, the material diversion part 11, the material diversion cavity groove 12, the main injection cylinder 13, the main cylinder fixing plate 14, the ejection plate 15, the fixing bottom plate 16, the anti-deflection iron 17, etc. are used more frequently herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention and should not be interpreted as imposing any additional limitations that are contrary to the spirit of the present invention.

Claims (10)

1. The utility model provides a many zinc alloy lock seat die casting die, mould (2) on die-casting lower mould (1) and die-casting, its characterized in that, die-casting go up be equipped with in the mould (2) die-casting and mould (3), die-casting lower mould (1) in be equipped with multimode synchronous forming subassembly (4), multimode synchronous forming subassembly (4) and die-casting go up the position of paneling (3) corresponding, die-casting go up mould (2) top and be equipped with injection molding (5), injection molding (5) and the position of multimode synchronous forming subassembly (4) corresponding, die-casting lower mould (1) below be equipped with ejecting portion (6), ejecting portion (6) and the position of die-casting lower mould (1) corresponding.

2. The die-casting die for the multi-zinc-alloy lock seats according to claim 1, wherein the multi-mold synchronous forming assembly (4) comprises a die-casting lower panel (7) arranged in the die-casting lower die (1), a plurality of lock seat auxiliary forming parts (77) which are symmetrical along the center line of the die-casting lower panel (7) are arranged in the die-casting lower panel (7), and the positions of the lock seat auxiliary forming parts (77) correspond to the positions of the die-casting upper panel (3).

3. The die-casting die for the multiple zinc alloy lock bases as claimed in claim 2, wherein the lock base auxiliary forming member (77) comprises a plurality of lock base auxiliary forming blocks (8) arranged in the die-cast lower panel (7), and the lock base auxiliary forming blocks (8) correspond to the die-cast upper panel (3).

4. The die-casting die for the multi-zinc alloy lock bases according to claim 3, wherein a plurality of forming block fixing grooves (9) which are symmetrical along a central line in the die-casting lower panel (7) are formed in the die-casting lower panel (7), the lock base auxiliary forming blocks (8) are located in the forming block fixing grooves (9), a plurality of upper forming cavity grooves (10) which are symmetrical along the central line of the die-casting upper panel (3) are formed in the die-casting upper panel (3), and the positions of the upper forming cavity grooves (10) correspond to the positions of the forming block fixing grooves (9).

5. The die-casting die for the multi-zinc alloy lock base is characterized in that a material shunting part (11) is arranged in the die-casting lower panel (7), the material shunting part (11) is communicated with the forming block fixing groove (9), and the material shunting part (11) corresponds to the injection molding part (5).

6. The die-casting die for the multi-zinc alloy lock seat is characterized in that the material shunting part (11) comprises a material shunting cavity groove (12) arranged in the die-casting lower panel (7), the material shunting cavity groove (12) is communicated with the forming block fixing groove (9), and the material shunting cavity groove (12) corresponds to the position of the injection molding part (5).

7. The die-casting die for the multi-zinc alloy lock base is characterized in that the injection molding part (5) comprises an injection main cylinder (13) arranged above the die-casting upper die (2), the injection main cylinder (13) penetrates through the die-casting upper die (2) and the die-casting upper panel (3) in sequence, and the injection main cylinder (13) corresponds to the position of the material diversion cavity groove (12).

8. The die-casting die for the multi-zinc alloy lock seat is characterized in that a main cylinder fixing plate (14) is arranged at the top of the upper die-casting die (2), and the main cylinder fixing plate (14) is matched with the injection main cylinder (13) in a clamping mode.

9. The die-casting die for the multi-zinc alloy lock seat is characterized in that the ejection part (6) comprises an ejection plate (15) arranged below the die-casting lower die (1), a plurality of ejection rods are arranged on the ejection plate (15), and the ejection rods correspond to the positions of the lock seat auxiliary forming blocks (8).

10. The die-casting die for the one-to-many zinc alloy lock seats according to claim 9, wherein a fixed bottom plate (16) is arranged below the ejector plate (15), a plurality of pieces of anti-deflection iron (17) which are symmetrical along the central line of the fixed bottom plate (16) are arranged on the fixed bottom plate (16), and the ejector plate (15) is in sliding fit with the anti-deflection iron (17).

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