CN208428590U - A kind of secondary structure de- by force of built-in mould - Google Patents

Abstract

The utility model discloses a kind of secondary structure de- by force of built-in mould, including moving template, ejection assembly and secondary component de- by force；Moving template is equipped with mavable module core, and mavable module core is equipped with pushing block, dynamic model pin and back-off pin, ejection assembly and is connect by push rod with pushing block；Secondary structure de- by force includes buckle mold insert and movable insert；One end of buckle mold insert is connect with ejection assembly, and the other end is equipped with sliding slot, and sliding slot forms opening on the side of buckle mold insert, and movable insert slides in sliding slot；When buckling mold insert from initial position forward movement, movable insert protrudes from opening, and back-off pin is pushed to move forward；After buckling mold insert forward movement certain distance, movable insert is embedded in opening, and separately positioned with back-off pin.The utility model can make smoothly to be detached from from the pin of mold with the fine cylindrical body of outer wall back-off structure by the cooperation of ejection assembly and secondary strong de- component, thus the strong demoulding Double-ejection for demoulding injecting products smoothly.

Description

A kind of secondary structure de- by force of built-in mould

Technical field

The utility model relates to the secondary structures de- by force of a kind of Mold Making technical field more particularly to a kind of built-in mould.

Background technique

Currently, in order to produce the cylindrical body moulding that inner wall has back-off structure, it will usually using on mould structure The mode that core-pulling member is set or is directly taken off by force；But in certain injecting products, plastics knob base as shown in Fig. 1, Inner space is limited, and pulled core structure can not be arranged, and can only be demoulded in a manner of taking off by force.

It is deformed due to taking off to be easy to cause at the back-off of product by force, not can guarantee the size of back-off, mold engineer would generally It is demoulded in a manner of Double-ejection.The utility model patent of Publication No. CN206796455U discloses a kind of strong demoulding two Secondary ejecting mechanism comprising top plate group and Double-ejection connection component, top plate group include the thimble fixed board being connect with thimble and with The pin top plate of pin connection, by the top plate group division changeover module on Double-ejection connection component by thimble fixed board and pin Fixed board combines or separation, and spacing limiting structure is equipped between moving template and pin fixed board, limits the ejection distance of pin top plate, Deviate from product successively from pin and mavable module core.However this structure has the disadvantage in that needs additionally increase by one piece of thimble Plate causes die cost to increase, mold thickness increase, and then results in the need for the bigger injection molding unit of replacement specification, further increases Add production cost.

Utility model content

The purpose of the utility model is to provide a kind of secondary structure de- by force of built-in mould, which can make inner wall Smoothly deviate from from mold with the fine cylindrical body moulding of back-off structure.

To achieve the goals above, the technical solution of the utility model is:

A kind of secondary structure de- by force of built-in mould, including moving template, ejection assembly and secondary component de- by force；The moving template It is equipped with mavable module core, the mavable module core is equipped with pushing block, dynamic model pin and back-off pin, the ejection assembly and passes through push rod and push away Block connection；The secondary component de- by force includes buckle mold insert and movable insert；One end of the buckle mold insert and the ejection group Part connection, the other end are equipped with sliding slot, and sliding slot forms opening on the side of the buckle mold insert, and the movable insert is in sliding slot Sliding；When the buckle mold insert is moved forward from initial position, the movable insert protrudes from the opening, the activity edge Part is resisted against the rear end of the back-off pin and the back-off pin is pushed to move forward；When the buckle mold insert moves forward one After set a distance, the movable insert is embedded in the opening, separately positioned with the back-off pin, and after the back-off pin End is resisted against on the moving template.

Further, secondary component de- by force further includes slide guide mold insert, and slide guide mold insert is connected to moving template, which is provided with slide guide Slot；Movable insert is equipped with a slide guide axis, and slide guide axis slides in guide runner.

Further, sliding stroke of the slide guide axis in the glide direction for being parallel to movable insert is greater than the work Dynamic mold insert protrudes from the distance of the buckle mold insert in initial position.

Further, secondary component de- by force further includes pin fixed block, the upper end of the pin fixed block and the back-off Pin connection, lower end are equipped with the first fixture block；When the movable insert protrudes from opening, the movable insert is resisted against described On first fixture block.

Further, the buckle mold insert is equipped with the second fixture block far from one end of the ejection assembly；When the buckle is inlayed When part resets, second fixture block is resisted against on first fixture block, drives the fixed block reset of the pin.

As a kind of specific embodiment, the moving template is equipped with pin mounting groove, and the secondary component de- by force is embedded at In the pin mounting groove.

As a kind of specific embodiment, the open end of the pin mounting groove is equipped with limited block, and the limited block is for preventing Only the pin fixed block is deviate from from the pin mounting groove.

As a kind of specific embodiment, the ejection assembly includes driving element and ejector retainner plate, the buckle mold insert and is pushed away Bar, which is bolted, to be fixed on the ejector retainner plate.

Compared with prior art, the utility model has following technical effect that

The secondary structure de- by force of the built-in mould of the utility model, back-off pin are connected by secondary component de- by force and ejector retainner plate It connects；Wherein, one end of the buckle mold insert of secondary strong de- component is connect with ejection assembly, to make to buckle mold insert in ejection process It is mobile with ejection assembly always；The other end for buckling mold insert is equipped with sliding slot, is equipped with movable insert in sliding slot；Mold insert is buckled from initial When position moves forward, movable insert protrudes from buckle mold insert, so that back-off pin be pushed to move forward；When buckle mold insert forward After moving a certain distance, product has disengaged from dynamic model pin at this time, and movable insert no longer protrudes from buckle mold insert, to no longer push Back-off pin moves forward, and the rear end for being buckled to pin at this time is stuck on moving template, and ejector retainner plate continues ejection and drives product from Deviate from button pin；The secondary structure de- by force of the utility model is simple and reasonable for structure to utilize space, so that rationally control mold is thick Degree reduces production cost.

Further, secondary component de- by force further includes slide guide mold insert, and the slide guide mold insert is connected to the moving template, thereon Equipped with guide runner；Movable insert is equipped with a slide guide axis, and slide guide axis slides in guide runner；When movable insert drives in buckle mold insert During moving forward under dynamic from initial position, while slide guide axis is slided along guide runner, drive movable insert gradually to remote Direction from back-off pin is mobile, so that movable insert be made no longer to protrude from buckle mold insert when product has disengaged from dynamic model pin.

Further, moving template is equipped with pin mounting groove, and secondary component de- by force is embedded in the pin mounting groove, into One step saves space.

In order to better understand and implement, according to the present invention will be described in detail below with reference to the accompanying drawings.

Detailed description of the invention

Fig. 1 is the cross-sectional view of the example production product of the utility model；

Fig. 2 is the structural schematic diagram of the secondary strong de- structure of the built-in mould of the utility model；

Fig. 3 is the enlarged drawing in Fig. 2 at A；

Fig. 4 is the connection schematic diagram of the secondary strong de- component in the utility model；

Fig. 5 is the structural schematic diagram of the slide guide mold insert in the utility model.

Wherein: 1- product, 2- moving template, 3- ejector retainner plate, 4- mavable module core, 5- pushing block, 6- dynamic model pin, 7- are buckled to pin, 8- type core, 9- push rod, 10- buckle mold insert, 11- movable insert, 12- slide guide mold insert, 13- guide groove, 14- pin fixed block, 15- Slide guide axis, 16- sliding slot, 17- limited block, the first fixture block of 18-, the second fixture block of 19-, 20- pin mounting groove.

Specific embodiment

Embodiment 1

Please refer to Fig. 1-5, a kind of secondary structure de- by force of built-in mould, including moving template 2, ejection assembly and secondary group de- by force Part.

Wherein, the front end of moving template 2 is equipped with mavable module core 4, and mavable module core 4 is equipped with pushing block 5, dynamic model pin 6 and back-off pin 7；The rear end of moving template 2 is equipped with pin mounting groove 20.

Wherein, ejection assembly includes driving element and ejector retainner plate 3；Ejector retainner plate 3 is connect by push rod 9 with pushing block 5.

Wherein, secondary component de- by force is set in pin mounting groove 20 comprising buckle mold insert 10, movable insert 11, slide guide Mold insert 12, pin fixed block 14 and limited block 17.

Specifically, the one end for buckling mold insert 10 is connect with ejector retainner plate 3, and the other end is equipped with sliding slot 16；Sliding slot 16 is inlayed in buckle Opening is formed on the side of part 10, movable insert 11 slides in sliding slot 16.

Specifically, slide guide mold insert 12 is connected to moving template 2, which is provided with guide runner 13；Movable insert 11 is equipped with one and leads Slide-bar 15, slide guide axis 15 slide in guide runner.

Preferably, sliding stroke of the slide guide axis 15 in the glide direction for being parallel to movable insert 11 is greater than movable insert 11 protrude from the distance of buckle mold insert 10 in initial position.

Preferably, the upper end of pin fixed block 14 is connect with back-off pin 7, and lower end is equipped with the first fixture block 18；When described When movable insert protrudes from opening, movable insert 11 is resisted against on the first fixture block 18.

Preferably, buckle mold insert 10 is equipped with the second fixture block 19 far from one end of ejector retainner plate 3；When buckling the reset of mold insert 10, Second fixture block 19 is resisted against on the first fixture block 18, and pin fixed block 14 is driven to reset.

When buckling mold insert 10 from initial position forward movement, movable insert 11 protrudes from the opening, movable insert 11 It is resisted against the rear end of back-off pin 7 and back-off pin 7 is pushed to move forward；After buckling the forward movement certain distance of mold insert 10, Movable insert 11 is embedded in the opening, separately positioned with back-off pin 9, and the rear end for being buckled to pin 9 is resisted against pin installation The bottom of slot 20.

Specifically, the limited block 17 is set to the open end of pin mounting groove 20, for preventing pin fixed block 14 from institute It states and deviates from pin mounting groove 20.

Specifically, push rod 9 and buckle mold insert 10 are bolted and are fixed on ejector retainner plate 3.

The working principle of the secondary strong de- component of the present embodiment is as follows:

When die sinking, dynamic model is mutually disengaged with cover half, and ejector retainner plate 14 is ejected forward, and drives buckle mold insert 7 to travel forward, simultaneously Buckle mold insert 10 drives movable insert 11 to be ejected forward, and movable insert 11 acts against on pin fixed block 5, ejects pin fixed block 5；It is gradually mobile to the direction far from pin fixed plate 5 during movable insert 11 is ejected forward；When ejector retainner plate ejects 12mm Afterwards, movable insert 11 is fully retracted in guide runner 6, is detached from pin fixed block 5；Product is detached from rear mold pin 8 at this time.

When the secondary de- arrangement works by force of this built-in mould, the ejection and demoulding of injecting products are completed in two stages；First rank Section, when ejector retainner plate 3 starts to eject, and buckle mold insert 10 is moved forward from initial position, movable insert 11 protrudes from sliding slot 16 Opening, and back-off pin 7 is pushed to move forward；After buckling the forward movement certain distance of mold insert 10, product 1 is from dynamic model at this time Deviate from pin 6, movable insert 11 is embedded in opening, separately positioned with back-off pin 7；Second stage, ejector retainner plate 3 continue to push up Out, push rod 9 drives pushing block 5 to continue ejecting product, and the bottom that pin fixed block is resisted against pin mounting groove 20 at this time can not be forward Mobile, then product can be deformed to the position of former dynamic model pin, smoothly be deviate from.

The utility model is not limited to above embodiment, if the various changes or deformation to the utility model do not take off Spirit and scope from the utility model, if these changes and deformation belong to the claims and equivalents of the utility model Within the scope of, then the utility model is also intended to encompass these changes and deformation.

Claims (8)

1. a kind of secondary structure de- by force of built-in mould, including moving template and ejection assembly, moving template are equipped with mavable module core, mavable module core Pushing block, dynamic model pin and back-off pin, ejection assembly is equipped with to connect by push rod with pushing block, which is characterized in that further include:

Secondary component de- by force comprising buckle mold insert and movable insert；

One end of the buckle mold insert is connect with the ejection assembly, and the other end is equipped with sliding slot, and the sliding slot is inlayed in the buckle Opening is formed on the side of part, the movable insert slides in the sliding slot；

When the buckle mold insert is moved forward from initial position, the movable insert protrudes from the opening, the activity edge Part is resisted against the rear end of the back-off pin and the back-off pin is pushed to move forward；When the buckle mold insert moves forward one After set a distance, the movable insert is embedded in the opening, separately positioned with the back-off pin, and after the back-off pin End is resisted against on the moving template.

2. the secondary structure de- by force of built-in mould according to claim 1, it is characterised in that:

The secondary component de- by force further includes slide guide mold insert, and the slide guide mold insert is connected to the moving template, which is provided with slide guide Slot；

The movable insert is equipped with a slide guide axis, and the slide guide axis slides in the guide runner.

3. the secondary structure de- by force of built-in mould according to claim 2, it is characterised in that:

In the glide direction for being parallel to the movable insert, sliding stroke of the slide guide axis in the guide runner is greater than In initial position, the movable insert protrudes from the distance of the buckle mold insert.

4. the secondary structure de- by force of built-in mould according to claim 1, it is characterised in that:

The secondary component de- by force further includes pin fixed block, and the upper end of the pin fixed block is connect with the back-off pin, Its lower end is equipped with the first fixture block；When the movable insert protrudes from the opening, the movable insert is resisted against described first On fixture block.

5. the secondary structure de- by force of built-in mould according to claim 4, it is characterised in that:

The buckle mold insert is equipped with the second fixture block far from one end of the ejection assembly；It is described when the buckle mold insert resets Second fixture block is resisted against on first fixture block, drives the fixed block reset of the pin.

6. the secondary structure de- by force of built-in mould according to claim 1, it is characterised in that:

The moving template is equipped with pin mounting groove, and the secondary component de- by force is embedded in the pin mounting groove.

7. the secondary structure de- by force of built-in mould according to claim 6, it is characterised in that:

The open end of the pin mounting groove is equipped with limited block, and the limited block is for preventing the pin fixed block from the edge Deviate from needle mounting groove.

8. the secondary structure de- by force of built-in mould according to claim 1-7, it is characterised in that:

The ejection assembly includes driving element and ejector retainner plate, the buckle mold insert and push rod be bolted be fixed on it is described On ejector retainner plate.