CN205085370U

CN205085370U - Rotatory intelligent control switch ejection mechanism of accuse torsion in car safety

Info

Publication number: CN205085370U
Application number: CN201520804574.4U
Authority: CN
Inventors: 沙威
Original assignee: Foehl Die Casting (taicang) Co Ltd
Current assignee: Foehl Die Casting (taicang) Co Ltd
Priority date: 2015-10-16
Filing date: 2015-10-16
Publication date: 2016-03-16
Anticipated expiration: 2025-10-16

Abstract

The utility model discloses a rotatory intelligent control switch ejection mechanism of accuse torsion in car safety, including installing the fixed die plate of cover half benevolence, the movable mould board of installing movable mould benevolence, movable mould mode locking board, push pedal ejector pad, guide block, spacer pin and bolt, wherein, fixed mounting has the ejector guide pin on the movable mould mode locking board, set gradually on the ejector guide pin and run through the first push pedal of ejector guide pin is fixed first thimble board in the first push pedal, the second push pedal is fixed second thimble board in the second push pedal, first push pedal first thimble board the second push pedal and second thimble board can be followed the ejector guide pin slides from top to bottom. The utility model discloses a phenomenons such as rotatory intelligent control switch ejection mechanism of accuse torsion in car safety improves effectively that the product exists at the die -casting in -process that the power of holding tightly is big, the product can not go out the mould, die -casting is bad, the spraying is not in place, ejector pin and mold insert push up disconnected, drawing breakage in process of production.

Description

Torsion rotary intelligent gauge tap ejecting mechanism is controlled in a kind of automotive safety

Technical field

The utility model relates to alloy die cast field, is specifically related to control torsion rotary intelligent gauge tap ejecting mechanism in a kind of automotive safety.

Background technology

Control the important component part that torsion rotary intelligent gauge tap (as illustrated by figures 1 a-1 c) is automotive safety accessory in automotive safety, its dimensional requirement is higher.According to the feature of this product, prior art employing single ejects the structure in conjunction with inner slide, but in actual Die Casting process, there is easy snap gauge sizing, push rod easily ruptures, the defects such as product exhaust is bad and product filling is bad, size cannot ensure, thus cannot meet normal production process.Wherein, cause the main cause of snap gauge sizing to be that product muscle position is comparatively dark, and muscle position is many, enclasping force is excessive, and releasing agent spraying is less than mould inside.Causing push rod to eject major cause of failure is that interiors of products enclasping force is excessive, and push rod cannot directly eject.Cause the bad and product of exhaust to fill bad, the main cause that size cannot ensure be interiors of products muscle position too much and comparatively dark, bottom cannot increase exhaust gear, and muscle position is thin, and thus product is filled bad, and size cannot ensure.

Utility model content

For the defect of prior art, the purpose of this utility model is to provide in a kind of automotive safety controls torsion rotary intelligent gauge tap ejecting mechanism, this ejecting mechanism has structure applying flexible, design convenient, can according to product structure, flexible adjustment secondary, three inferior repeatedly pushing methods, and can enclasping force is strong in analytical product completely feature, and then thoroughly solve the routine of alloy die cast in above-mentioned prior art and masty difficulties.

To achieve these goals, the utility model is by the following technical solutions:

Control torsion rotary intelligent gauge tap ejecting mechanism in a kind of automotive safety, comprise the solid plate being provided with fixed mold core, the moving platen being provided with mavable module core, dynamic model locked mode plate, push pedal pushing block, guide pad, spacer pin and latch, wherein,

Described dynamic model locked mode plate is installed with push pedal guide pillar, described push pedal guide pillar is disposed with the first push pedal running through described push pedal guide pillar, be fixed on the first ejector retainner plate in described first push pedal, second push pedal, be fixed on the second ejector retainner plate in described second push pedal, described first push pedal, described first ejector retainner plate, described second push pedal and described second ejector retainner plate can slide up and down along described push pedal guide pillar;

Described mavable module core is provided with mavable module core insert, described mavable module core insert is provided with mavable module core and ejects mold insert, one end that described mavable module core ejects mold insert is connected with mavable module core slide block supporting plate by mavable module core inner slide, described mavable module core slide block supporting plate by run through described first push pedal, the first ejector retainner plate, the second push pedal and the second ejector retainner plate support column be connected with described dynamic model locked mode plate;

One end of described push pedal pushing block is fixedly connected with described first ejector retainner plate with described first push pedal, and the other end is free end, in interim ejection process, act on described spacer pin;

Described guide pad is fixedly mounted on described second push pedal and described second ejector retainner plate, and described spacer pin telescopically is arranged on described guide pad;

One end of described latch is fixedly connected with described moving platen, and the other end is free end, in interim ejection process, act on described spacer pin, and described spacer pin is shunk in the bottom outlet of described guide pad.

Further, run through described first push pedal, described first ejector retainner plate, described second push pedal and described second ejector retainner plate and be provided with the release link be connected with described dynamic model locked mode plate.

Further, described moving platen is provided with slide block shovel base, described slide block shovel base inside is provided with slide block mechanism, and described slide block shovel base is provided with Angle Pin.

Further, the bottom of described slide block shovel base is provided with wear-resistant block.

Further, described moving platen is provided with block and sliding block spring.

Further, the inner spring connecting described spacer pin is provided with in described bottom outlet.

Compared with prior art, the Advantageous Effects controlling torsion rotary intelligent gauge tap ejecting mechanism in automotive safety of the present utility model is:

(1) die venting caused due to characteristics such as the muscle position of product are dark, thin, many is improved bad and fill bad technical problem;

(2) technical problem not having position caving bar, push rod insufficient strength, cause push rod to rupture thoroughly is solved;

(3) for the characteristic of product, favourablely die size can be improved, convenient processing and production, the technical problem of excessive the caused workpiece fracture of solutionization mould inside enclasping force.

Accompanying drawing explanation

Fig. 1 a-1c is the structural representation controlling torsion rotary intelligent gauge tap in automotive safety;

Fig. 2 is the structural representation controlling torsion rotary intelligent gauge tap ejecting mechanism in automotive safety of the present utility model;

Fig. 3 is another structural representation controlling torsion rotary intelligent gauge tap ejecting mechanism in automotive safety of the present utility model;

Fig. 4 is another structural representation controlling torsion rotary intelligent gauge tap ejecting mechanism in automotive safety of the present utility model;

Fig. 5 is another structural representation controlling torsion rotary intelligent gauge tap ejecting mechanism in automotive safety of the present utility model;

Fig. 6 a is the matched moulds schematic diagram controlling torsion rotary intelligent gauge tap ejecting mechanism in automotive safety of the present utility model;

Fig. 6 b is the first time demoulding schematic diagram controlling torsion rotary intelligent gauge tap ejecting mechanism in automotive safety of the present utility model;

Fig. 6 c is the second time demoulding schematic diagram controlling torsion rotary intelligent gauge tap ejecting mechanism in automotive safety of the present utility model;

Fig. 7 a controls the torsion rotary intelligent gauge tap ejecting mechanism schematic diagram that ejects of first time in automotive safety of the present utility model;

Fig. 7 b controls the schematic diagram that ejects of torsion rotary intelligent gauge tap ejecting mechanism second time in automotive safety of the present utility model;

Fig. 7 c controls the torsion rotary intelligent gauge tap ejecting mechanism schematic diagram that ejects of third time in automotive safety of the present utility model.

Description of reference numerals:

1 solid plate, 2 moving platens, 3 latches, 4 push pedal pushing blocks, 5 spacer pins, 6 guide pads, 7 mould pin, 8 dynamic model locked mode plates, 9 slide block mechanisms, 10 wear-resistant blocks, 11 blocks, 12 sliding block springs, 13 second ejector retainner plates, 14 second push pedals, 15 first ejector retainner plates, 16 first push pedals, 17 release links, 18 push pedal guide pillars, 19 slide block shovel bases, 20 Angle Pins, 21 mavable module core inserts, 22 mavable module cores eject mold insert, 23 mavable module core inner slides, 24 mavable module core slide block supporting plates, 25 fixed mold cores, 26 support columns, torsion rotary intelligent gauge tap is controlled in 27 automotive safeties, 28 inner springs.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is described in further detail.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

As Figure 2-Figure 5, control torsion rotary intelligent gauge tap ejecting mechanism in automotive safety of the present utility model and comprise the solid plate 1 being provided with fixed mold core 25, the moving platen 2 of mavable module core is installed, dynamic model locked mode plate 8, push pedal pushing block 18, guide pad 6, spacer pin 5 and latch 3, wherein, dynamic model locked mode plate 8 is installed with push pedal guide pillar 18, run through push pedal guide pillar 18 and be disposed with the first push pedal 16, be fixed on the first ejector retainner plate 15 in the first push pedal 16, second push pedal 14, be fixed on the second ejector retainner plate 13 in the second push pedal 14, and, first push pedal 16, first ejector retainner plate 15, second push pedal 14 and the second ejector retainner plate 13 can slide up and down along push pedal guide pillar 18.

Mavable module core is provided with mavable module core insert 21, mavable module core insert 21 is provided with mavable module core and ejects mold insert 22, one end that mavable module core ejects mold insert 22 is connected with mavable module core slide block supporting plate 24 by mavable module core inner slide 23, and mavable module core slide block supporting plate 24 is connected with dynamic model locked mode plate 8 by the support column 26 running through the first push pedal 16, first ejector retainner plate 15, second push pedal 14 and the second ejector retainner plate 13.

One end of push pedal pushing block 4 is fixedly connected with the first ejector retainner plate 15 with the first push pedal 16; Guide pad 6 is fixedly mounted on the second push pedal 14 and the second ejector retainner plate 13, and spacer pin 5 is fixedly mounted on guide pad 6; In interim ejection process, the other end of push pedal pushing block 4 acts on spacer pin 5, then acts on the second push pedal 14 by guide pad 6; One end of latch 3 is fixedly connected with moving platen 2, and the other end acts on spacer pin 5.Be provided with bottom outlet in guide pad 6, in bottom outlet, be provided with the inner spring 28 connecting spacer pin 5.When latch 3 acts on spacer pin 5, spacer pin 5 can compress the inner spring 28 in bottom outlet and progress in the bottom outlet of guide pad 6, realizes the first ejector retainner plate 15, first push pedal 16 thus and continues to push ahead.

In a preferred embodiment, the first push pedal 16, first ejector retainner plate 15, second push pedal 14 is run through and the second ejector retainner plate 13 is provided with the release link 17 be connected with dynamic model locked mode plate 18.

In a preferred embodiment, moving platen 2 is provided with slide block shovel base 19, slide block shovel base 19 inside is provided with slide block mechanism 9, and slide block shovel base 19 is provided with Angle Pin 20.Slide block shovel base 19 and Angle Pin 20 run through fixing solid plate 1, and in die sinking process, interlock is pressed in the slide block mechanism 9 on moving platen 2, realize button feature in product shaping.

In a preferred embodiment, the bottom of slide block shovel base 19 is provided with wear-resistant block 10.

In a preferred embodiment, moving platen 2 is provided with block 11 and sliding block spring 12.

As shown in Fig. 6 a-7c, the manner of execution controlling torsion rotary intelligent gauge tap ejecting mechanism in automotive safety of the present utility model is: by the first ejector retainner plate 15, first push pedal 16 is pushed ahead, spacer pin 5 is acted on by push pedal pushing block 4, the second ejector retainner plate 13 is driven by guide pad 6, second push pedal 14, after making mavable module core eject mold insert 22 common reach LAP, borrow in the restriction of moving platen 2, latch 3 act on spacer pin 5, promote spacer pin 5 compress the inner spring 28 in the bottom outlet of guide pad 6 and be contracted in gradually in bottom outlet, thus realize the first ejector retainner plate 15, first push pedal 16 continues to push ahead, realize ejecting (see Fig. 7 a) for the first time.By that analogy, repeat said process to realize ejecting (see Fig. 7 b) for the second time and ejecting (see Fig. 7 c) for the third time, until push pedal pushing block 4 contacts latch 3, no longer push ahead under the effect of latch 3, control torsion rotary intelligent gauge tap 27 the most at last in automotive safety and eject.For to eject first and secondary, the control that ejects position for three times need be selected according to the requirement of product feature and function, notice that ejecting mechanism is evenly arranged and dynamics balance.

Phenomenons such as controlling in automotive safety of the present utility model that torsion rotary intelligent gauge tap ejecting mechanism effectively improves product and has in press casting procedure that enclasping force is large, product is bad not out of mould, die casting, it is not in place to spray, push rod and mold insert push up disconnected, drawing crack in process of production, the die sinking that common ejecting mechanism cannot carry out can be realized and eject control, namely control die sinking and eject control sequence.Due to the changeability of this ejecting mechanism, also ejecting of runner ejection plate can be realized.In view of the theory of mechanics of this ejecting mechanism, Absorbable organic halogens product size, strengthens die life, improves die casting quality, shortens the mould bases cycle, increases again a routine technical support to Die Casting Industry.

The foregoing is only preferred embodiment of the present utility model, be not used for limiting practical range of the present utility model; If do not depart from spirit and scope of the present utility model, the utility model is modified or equivalent to replace, in the middle of the protection domain that all should be encompassed in the utility model claim.

Claims

1. control a torsion rotary intelligent gauge tap ejecting mechanism in automotive safety, it is characterized in that, comprise the solid plate being provided with fixed mold core, the moving platen being provided with mavable module core, dynamic model locked mode plate, push pedal pushing block, guide pad, spacer pin and latch, wherein,

2. ejecting mechanism according to claim 1, is characterized in that, runs through described first push pedal, described first ejector retainner plate, described second push pedal and described second ejector retainner plate and is provided with the release link be connected with described dynamic model locked mode plate.

3. ejecting mechanism according to claim 1, is characterized in that, described moving platen is provided with slide block shovel base, and described slide block shovel base inside is provided with slide block mechanism, and described slide block shovel base is provided with Angle Pin.

4. ejecting mechanism according to claim 3, is characterized in that, the bottom of described slide block shovel base is provided with wear-resistant block.

5. ejecting mechanism according to claim 1, is characterized in that, described moving platen is provided with block and sliding block spring.

6. ejecting mechanism according to claim 1, is characterized in that, is provided with the inner spring connecting described spacer pin in described bottom outlet.