CN206614748U - A kind of catenating slider mechanism mould - Google Patents

Abstract

The utility model discloses a kind of catenating slider mechanism mould, including：Cope plate, lower template, the preceding mould on cope plate and the rear mold in lower template；When cope plate and lower template matched moulds, preceding mould and rear mold formation product die cavity；Several catenating slider mechanisms, catenating slider mechanism includes the inner slide block structure and rear mold slide block structure mutually linked, and inner slide block structure is adapted with rear mode slider；Inner slide block structure includes inner slide drive device and inner slide mold insert；Inner slide mold insert includes the cavity surface and opposite close to product die cavity, and cavity surface and opposite are oppositely arranged；Rear mold slide block structure includes rear mold drive device and compact heap；When cope plate and lower template matched moulds：Inner slide drive device drives inner slide mold insert in doing reseting movement in rear mold；Rear mold drive device drives the compact heap in doing reseting movement in the rear mold simultaneously with the inner slide mold insert, and compact heap supports the opposite located at inner slide mold insert in motion process.The utility model ensure that mechanical strength and precision of the mould in injection, so that production efficiency is improved, while also assures that the stability and Optimality of plastic cement products quality.

Description

A kind of catenating slider mechanism mould

Technical field

The utility model is related to mold design technical field, espespecially a kind of catenating slider mechanism mould.

Background technology

Injection molding processing method has low shaping expense, short molding cycle, forming process simple and is easy to forming shape The features such as plastic cement products of complexity, therefore in plastic cement products application field using extremely wide.

Plastic mould is one of main tool of plastic products production, in injection moulding process after mould closure, and injection machine is by warm The plastic material of melt in the interior closed die cavity with required shape of injection mould, is treated that plastic material is cooled and solidified, opened at a high speed Mould ejects the plastic cement products of solidification, to obtain shaped article.Current plastic cement products, particularly deep chamber class plastic product, Back-off can be provided with the inside of product.But due to being limited by mould strength and product space, the plastic cement products of this kind of deep chamber class exist During injection molding, mould causes mould parts to be plastically deformed to overcome the injection pressure in injection moulding process, and produces bad The product of matter.Such as plastic cement products thin and thick differs, the part deformation on plastic cement products or missing etc..

Therefore, the application is directed to providing a kind of new catenating slider mechanism mould.

The content of the invention

The purpose of this utility model is to provide a kind of catenating slider mechanism mould, it is ensured that machinery of the mould in injection is strong Degree and precision, so that production efficiency is improved, while also assures that the stability and Optimality of plastic cement products quality.

The technical scheme that the utility model is provided is as follows：

A kind of catenating slider mechanism mould, including cope plate, lower template, the preceding mould on cope plate and be located at down Rear mold in template, when the cope plate and the lower template matched moulds, the preceding mould and rear mold formation product die cavity, also Including：

Several catenating slider mechanisms, the catenating slider mechanism includes the inner slide block structure and rear mode slider mutually linked Structure, the inner slide block structure is adapted with the rear mode slider；

The inner slide block structure includes inner slide drive device and inner slide mold insert；

The inner slide mold insert includes the cavity surface and opposite close to the product die cavity, the cavity surface and described right Facade is oppositely arranged；

The rear mold slide block structure includes rear mold drive device and compact heap；

When the cope plate and the lower template matched moulds：

The inner slide drive device drives the inner slide mold insert in doing reseting movement in the rear mold；

The rear mold drive device drives the compact heap to reset in being done with the inner slide mold insert in the rear mold simultaneously Motion, and the compact heap described in motion process supports the opposite located at the inner slide mold insert.

In the technical program, the compact heap in rear mold slide block structure props up the inner slide of inner slide block structure in mould matched moulds Mold insert so that inner slide mold insert will not occur being plastically deformed or occurring displacement in injection because of injection pressure, it is ensured that mould Have the mechanical strength and precision in injection, so that production efficiency is improved, while also assures that the steady of plastic cement products quality Qualitative and Optimality.Due to mould injection when with good mechanical strength and precision, it is thus also avoided that inner slide block structure exists Because of the phenomenon that can not be born injection pressure and damaging in injection moulding process.Mould matched moulds can be caused abnormal after being damaged due to inner slide, Now the plastic material of hot melt state can spray mould at a high speed under injection pressure, easily occur safety of workers accident, therefore, this reality With the new risk for also reducing safety of workers accident, the security in plastic cement products production process is improved.

It is further preferred that the inner slide drive device includes the first shifting block, and in being adapted with the first shifting block Sliding block；First shifting block is fixedly arranged on the preceding mould；The inner slide is slided in the rear mold, and with the inner slide Mold insert is fixedly connected；When the cope plate and the lower template matched moulds：First shifting block drives the inner slide after described Slid on mould so that the inner slide mold insert does reseting movement.

In the technical program, by the mutual cooperation of the structure of mould in itself so as to realize inner slide mold insert in mould matched moulds When reset so that mould matched moulds just can be molded at once, without further adjustment, improve the production effect of mould Rate.

It is further preferred that first shifting block is set with the inner slide in predetermined angle.

In the technical program, shifting block is easier to for the setting of certain angle so that inner slide carries out reseting movement, reduction The frictional force of inner slide and rear mold, increases the reset power of inner slide.

Pressed it is further preferred that the inner slide drive device is also divided into the first of the inner slide both sides including a pair Bar；First press strip is in the rear mold, the glide direction for limiting the inner slide.

In the technical program, the position-limiting action of press strip and rear mold, it is ensured that the accuracy that inner slide resets, and then improve mould Accuracy during tool injection, it is ensured that the Optimality and stability of plastic cement products quality.

It is further preferred that the inner slide drive device also includes hexagonal socket head cap screw；Described hexagonal socket head cap screw one end is fixed on On the cope plate, the hexagonal socket head cap screw other end is fixedly connected with first shifting block, the hexagonal socket head cap screw and described first Shifting block is set at an angle, and the reset of the incline direction of the hexagonal socket head cap screw and the inner slide is in opposite direction；The upper mould When plate and the lower template matched moulds：The hexagonal socket head cap screw drives first shifting block to do reseting movement so that first shifting block The inner slide is driven in sliding in the rear mold.

It is further preferred that the rear mold drive device includes rear mode slider and the second shifting block；The rear mode slider is slided In the rear mold；One end of second shifting block is fixedly connected with the sliding block, the other end of second shifting block and institute State compact heap connection；When the cope plate and the lower template matched moulds：The rear mode slider drives second shifting block in described Reseting movement is done in rear mold so that the compact heap, which is supported, is located at the opposite.

In the technical program, by the mutual cooperation of the structure of mould in itself so as to realize inner slide mold insert in mould matched moulds When reset so that mould matched moulds just can be molded at once, without further adjustment, improve the production effect of mould Rate.

It is further preferred that when the cope plate and the lower template matched moulds, the compact heap is done to be slided close to the rear mold The motion of block；

End face of the compact heap away from the rear mode slider side, which is supported, is located at the rear mold；

The compact heap is sheathed on the outside of second shifting block, and is connected with the second shifting block contact of incline plane so that When the inner slide mold insert does reseting movement, the compact heap is simultaneously to the opposite located at the inner slide mold insert.

In the technical program, the second shifting block is connected with the compact heap contact of incline plane so that inner slide mold insert is being noted During blow pressure, compact heap can be mortgaged stably in the opposite of interior slide block insert, reduce the stress of inner slide mold insert, so that Protect inner slide mold insert；And the injection pressure that inner slide is subject to is reduced, so as to protect inner slide, extend the use longevity of inner slide Life, and then the risk of safety of workers accident is reduced, improve the security in plastic cement products production process.

It is further preferred that the rear mold drive device also includes Angle Pin, one end of the Angle Pin is located on described In template；The rear mode slider is set with the Angle Pin in predetermined angle, and is tiltedly led provided with what is be adapted with the Angle Pin Hole, the incline direction of the Angle Pin is identical with the reset direction of the rear mode slider；The cope plate and the lower template are closed During mould：The Angle Pin drives the rear mode slider sliding so that the rear mode slider drives second shifting block to do reset fortune It is dynamic.

Pressed it is further preferred that the rear mold drive device is also divided into the second of the rear mode slider both sides including a pair Bar；Second press strip is in the rear mold, the glide direction for limiting the rear mode slider.

In the technical program, the position-limiting action of press strip and rear mold, it is ensured that the accuracy that rear mode slider resets, and then improve Accuracy during mold injection, it is ensured that the Optimality and stability of plastic cement products quality.

The catenating slider mechanism mould provided by the utility model, can bring following at least one beneficial effect：

1. in the utility model, the compact heap in rear mold slide block structure props up the interior cunning of inner slide block structure in mould matched moulds Block mold insert so that inner slide mold insert will not occur being plastically deformed or occurring displacement in injection because of injection pressure, it is ensured that Mechanical strength and precision of the mould in injection, so that production efficiency is improved, while also assures that plastic cement products quality Stability and Optimality.Due to mould injection when with good mechanical strength and precision, it is thus also avoided that inner slide block structure Because of the phenomenon that can not be born injection pressure and damaging in injection moulding process.After being damaged due to inner slide mould matched moulds can be caused different Often, now the plastic material of hot melt state can spray mould at a high speed under injection pressure, easily occur safety of workers accident, therefore, The utility model also reduces the risk of safety of workers accident, improves the security in plastic cement products production process.Due to mould Tool has good mechanical performance and accuracy, extends the mold use life-span, improves the production capacity of mould；It ensure that simultaneously The Optimality and stability of plastic cement products quality, improve the yield rate of plastic cement products, and then reduce the production of plastic cement products Cost and manufacturer buy the cost of mould.

2. in the utility model, pass through press strip and the position-limiting action of rear mold, it is ensured that inner slide and rear mode slider reset fortune Dynamic accuracy, and the compactness that inner slide mold insert and compact heap coordinate；And then ensure that accurate when improving mold injection Property, it is ensured that the Optimality and stability of plastic cement products quality.

3. in the utility model, by the way that each parts of the inner slide block structure mutually linked and rear mold slide block structure are had Before being arranged on to sequence on mould and rear mold, and then by the interaction between cope plate and lower template during mould matched moulds, so that together The reset of Shi Shixian inner slide mold inserts and compact heap, which are supported, is located at side of the inner slide mold insert away from product die cavity so that inner slide Structure and the rear mold slide block structure homing action that completion is related while mould matched moulds, are settled at one go, without adjustment, are not influenceed The speed of injection, it is practical, with good market prospects.

Brief description of the drawings

Below by clearly understandable mode, preferred embodiment is described with reference to the drawings, to a kind of catenating slider mechanism mould Above-mentioned characteristic, technical characteristic, advantage and its implementation of tool are further described.

Fig. 1 is a kind of example structure schematic diagram of the present utility model；

Fig. 2 is a kind of plastic cement products that the utility model is processed；

Fig. 3 is a kind of structural representation of the embodiment for the lower template for being applicable Fig. 2 plastic cement products；

Fig. 4 is the cope plate structural representation being adapted with Fig. 3 lower templates；

Fig. 5 is a kind of structural representation of the embodiment for the catenating slider mechanism for being applicable Fig. 2 plastic cement products；

Fig. 6 is the structural representation of inner slide block structure in Fig. 5 catenating sliders mechanism；

Fig. 7 is the structural representation of inner slide mold insert in Fig. 6 inner slide block structures；

Fig. 8 is the structural representation of rear mold slide block structure in Fig. 5 catenating sliders mechanism；

Fig. 9 is the attachment structure schematic diagram of compact heap and the second shifting block in Fig. 8 rear mold slide block structures.

Drawing reference numeral explanation：

1000. deep chamber plastic cement products, 1100. first back-offs, 1200. second back-offs, 2000. moulds, 2100. cope plates, 2200. lower templates, mould before 2300., 2400. rear molds, 2500. inner slide block structures, 2510. inner slide mold inserts, 2511. cavity surfaces, 2512. back-off die cavities, 2513. opposites, 2521. first shifting blocks, 2522. inner slides, 2523. first press strips, 2524. first glasss Head screw, 2525. second hexagonal socket head cap screws, 2526. first angles, 2600. rear mold slide block structures, 2610. compact heaps, after 2621. Mode slider, 2622. second shifting blocks, 2623. second press strips, 2624. Angle Pins, 2625. second angles, 2626. connection inclined-planes, 2700. water gap plates, 2800. bottom plates, 2910. ejector retainner plates, 2920. Ejector Retainer Plates.

Embodiment

In order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art, accompanying drawing will be compareed below Illustrate embodiment of the present utility model.It should be evident that drawings in the following description are only of the present utility model one A little embodiments, for those of ordinary skill in the art, on the premise of not paying creative work, can also be according to these Accompanying drawing obtains other accompanying drawings, and obtains other embodiments.

To make only to schematically show the part related to the utility model in simplified form, each figure, they are not It is represented as the practical structures of product.In addition, so that simplified form is readily appreciated, there is identical structure or work(in some figures The part of energy, only symbolically depicts one of those, or only marked one of those.Herein, " one " is not only Represent " only this ", the situation of " more than one " can also be represented.It is herein up and down just for upper in accompanying drawing For lower left and right, actual conditions are not fully represented.Herein vertical, parallel is not proper vertical, level, Only represent skilled artisan understands that it is vertical, parallel.

In embodiment one, as shown in figs 1-9, a kind of catenating slider mechanism mould, including：Cope plate 2100, lower template 2200th, on cope plate 2100 preceding mould 2300 and the rear mold 2400 in lower template 2200, when the He of cope plate 2100 During 2200 matched moulds of lower template, preceding mould 2300 and the formation product die cavity of rear mold 2400 (not indicated in figure), several catenating slider machines Structure (is not indicated) in figure, and catenating slider mechanism includes the inner slide block structure 2500 and rear mold slide block structure 2600 mutually linked, interior Slide block structure 2500 is adapted with rear mode slider 2621；Inner slide block structure 2500 includes inner slide drive device (not indicated in figure) With inner slide mold insert 2510；Inner slide mold insert 2510 includes the cavity surface 2511 and opposite 2513 close to the product die cavity, Cavity surface 2511 and opposite 2513 are oppositely arranged；Rear mold slide block structure 2600 include rear mold drive device (not indicated in figure) and Compact heap 2610；During 2200 matched moulds of cope plate 2100 and lower template：Inner slide drive device drives inner slide mold insert 2510 in rear Reseting movement is done on mould 2400；Rear mold drive device drives compact heap 2610 in doing reseting movement in rear mold 2400 so that compress Block 2610, which is supported, is located at opposite 2513.Compact heap 2610 in rear mold slide block structure 2600 props up interior cunning in 2000 matched moulds of mould The inner slide mold insert 2510 of block structure 2500 so that inner slide mold insert 2510 will not be moulded in injection because of injection pressure Property deformation or there is displacement, it is ensured that mechanical strength and precision of the mould 2000 in injection, so as to improve production efficiency, The stability and Optimality of plastic cement products quality are also assures that simultaneously.Due to mould 2000 in injection it is strong with good machinery Degree and precision, it is thus also avoided that inner slide block structure 2500 is in injection moulding process because of the phenomenon that can not be born injection pressure and damaging. It can cause the matched moulds of mould 2000 abnormal after being damaged due to inner slide 2522, now heat plastic material meeting under injection pressure of state Mould 2000 is sprayed at a high speed, easily occurs safety of workers accident, therefore, the utility model also reduces the wind of safety of workers accident Danger, improves the security in plastic cement products production process.Because mould 2000 has good mechanical performance and accuracy, prolong The service life of mould 2000 has been grown, the production capacity of mould 2000 is improved；Simultaneously ensure that plastic cement products quality Optimality and Stability, improves the yield rate of plastic cement products, and then reduces the production cost and manufacturer's purchase mould of plastic cement products 2000 cost.

What deserves to be explained is, in actual application, in order to improve the production efficiency of mould 2000, the matched moulds of mould 2000 Can once produce can set multiple catenating slider machines on cope plate 2100 and lower template 2200 in multiple products, mould 2000 Structure, catenating slider mechanism is corresponding with the number of converted products.The quantity and shape of upper accessory on different product can not It is the same, it is necessary to the quantity of inner slide mold insert 2510 also can be different, the number of the inner slide mold insert 2510 needed during converted products Amount can be different, corresponding can also change to the quantity for the compact heap 2610 that inner slide mold insert 2510 is correspondingly arranged, therefore include interior cunning The quantity of the inner slide block structure 2500 of block mold insert 2510 and rear mold slide block structure 2600 comprising compact heap 2610 also can be corresponding Change.Therefore, the catenating slider mechanism contained in the identical product or the corresponding mould 2000 of different product of processing varying number Can be different；And the inner slide mold insert 2510 and the quantity of compact heap 2610 in different catenating slider mechanisms can be because of different products In parts count correspondence change.

In embodiment two, as shown in figs 1-9, on the basis of embodiment one, inner slide drive device includes first group Block 2521, the inner slide 2522 being adapted with the first shifting block 2521, the first press strip for being divided into the both sides of inner slide 2,522 a pair 2523, and the first hexagonal socket head cap screw 2524；Before first shifting block 2521 is fixedly arranged on mould 2300；Inner slide 2522, which is slided, is located at rear mold On 2400, and it is fixedly connected with inner slide mold insert 2510；First press strip 2523 is in rear mold 2400, for limiting inner slide 2522 glide direction；The one end of first hexagonal socket head cap screw 2524 is fixed on cope plate 2100, the other end of the first hexagonal socket head cap screw 2524 Be fixedly connected with the first shifting block 2521, the first hexagonal socket head cap screw 2524 and the first shifting block 2521 at an angle (as 12-40 ° it Between arbitrary value) set, the reset of the incline direction and inner slide 2522 of the first hexagonal socket head cap screw 2524 is in opposite direction；Cope plate 2100 and during 2200 matched moulds of lower template：First hexagonal socket head cap screw 2524 drives the first shifting block 2521 to do reseting movement so that first group Block 2521 drives inner slide 2522 in sliding in rear mold 2400；And then inner slide 2522 drives inner slide mold insert 2510 in rear mold Reseting movement is done on 2400；Final inner slide mold insert 2510 and the formation back-off of rear mold 2400 die cavity 2512.Preferably, the first shifting block 2521 are set with inner slide 2522 with the first angle 2526, and the scope of the first angle 2526 is 12-40 °.

In embodiment three, as shown in figs 1-9, on the basis of embodiment one or two, rear mold drive device includes rear mold Sliding block 2621, the second shifting block 2622, Angle Pin 2624 and the second press strip for being divided into the rear both sides of mode slider 2621 for a pair 2623；Mode slider 2621 is slided in rear mold 2400 afterwards；One end of second shifting block 2622 is fixedly connected with a slide block, the second shifting block 2622 other end is connected with compact heap 2610；The one end of Angle Pin 2624 is on cope plate 2100；Afterwards mode slider 2621 with tiltedly Guide pillar 2624 is set at an angle, and provided with the oblique guide hole being adapted with Angle Pin 2624, the incline direction of Angle Pin 2624 It is identical with the reset direction of rear mode slider 2621；Second press strip 2623 is in rear mold 2400, for mode slider after limitation 2621 Glide direction；During 2200 matched moulds of cope plate 2100 and lower template：Mode slider 2621 slides after Angle Pin 2624 drives so that after Mode slider 2621 drives the second shifting block 2622 to move；And then second shifting block 2622 make compact heap 2610 reset and to be located at opposite 2513.Preferably, during 2200 matched moulds of cope plate 2100 and lower template, compact heap 2610 does the motion close to rear mode slider 2621； End face (in figure do not indicate) of the compact heap 2610 away from the rear side of mode slider 2621 is supported in rear mold 2400；And compact heap 2610 The outside of the second shifting block 2622 is sheathed on, and is connected with the second shifting block 2622 by contact of incline plane；I.e. compact heap 2610 is hung on Second shifting block 2622 is on the connection inclined-plane 2626 of the side of inner slide mold insert 2510 so that the direction of motion of compact heap 2610 with The reset direction of inner slide mold insert 2510 is vertical, and the inclination angle scope on connection inclined-plane 2626 is 12-60 °.

In above-described embodiment, the opposite 2513 and compact heap 2610 of inner slide mold insert 2510 are close to inner slide mold insert 2510 The surface of side is preferably the inclined plane with certain inclination angle (i.e. the second angle 2625), and the inclination angle scope of inclined plane is 12- 60 °, so as to increase contact area；And injection pressure is decomposed, so as to reduce the injection pressure that compact heap 2610 is subject to, protection is compressed Block 2610.Pass through press strip (i.e. the first press strip 2523 and the second press strip 2623) and the position-limiting action of rear mold 2400, it is ensured that interior cunning The accuracy of block 2522 and the reseting movement of rear mode slider 2621, and inner slide mold insert 2510 and compact heap 2610 coordinate it is close Property；And then ensure that accuracy when improving the injection of mould 2000, it is ensured that the Optimality and stability of plastic cement products quality.And Mould 2300 before each parts of the inner slide block structure 2500 mutually linked and rear mold slide block structure 2600 are arranged in an orderly manner In rear mold 2400, and then by the interaction between cope plate 2100 and lower template 2200 during 2000 matched moulds of mould, so that The reset and compact heap 2610 for realizing inner slide mold insert 2510 simultaneously are supported located at inner slide mold insert 2510 away from product die cavity Side so that inner slide block structure 2500 is dynamic to the reset that completion is related while 2000 matched moulds of mould of rear mold slide block structure 2600 Make, settle at one go, without adjustment, do not influence the speed of injection, it is practical, with good market prospects.

Exemplary, it is that a kind of catenating slider mechanism mould of the utility model is applied to processing with two as shown in figs 1-9 The concrete application situation of the deep chamber plastic cement products 1000 of the individual back-off being oppositely arranged：

As shown in Fig. 2 being the deep chamber plastic cement products 1000 that mould 2000 needs to process, each side have one inside it Individual back-off, i.e. the first back-off 1100 and the second back-off 1200.

As shown in figs 1-9, it is the mould 2000 of the deep chamber plastic cement products 1000 of processing, upper mounted plate is sequentially provided with from top to bottom (not indicated in figure), water gap plate 2700, cope plate 2100, lower template 2200, bottom plate 2800, support block (not indicated in figure)； Mould 2000 also includes the ejector retainner plate 2910 being arranged on inside mould 2000 and the Ejector Retainer Plate being arranged on below ejector retainner plate 2910 2920；Wherein Ejector Retainer Plate 2920 is arranged on above support block；Mould 2000 also includes embedded be arranged on cope plate 2100 Preceding mould 2300, the embedded rear mold 2400 being arranged in lower template 2200 and each part set up separately in preceding mould 2300 and rear mold Catenating slider mechanism (including the inner slide block structure 2500 and rear mold slide block structure 2600 mutually linked) on 2400.Due to deep chamber Plastic cement products 1000 or so respectively have a back-off, therefore, and inner slide block structure 2500 includes being relatively arranged in two of left and right Slide-driving device and two inner slide mold inserts 2510, and inner slide mold insert 2510 is close to the cavity surface 2511 of product die cavity side It is provided with back-off die cavity 2512.Wherein inner slide drive device includes first shifting block 2521, is mutually fitted with the first shifting block 2521 The inner slide 2522 matched somebody with somebody, the first press strip 2523 for being divided into the both sides of inner slide 2,522 a pair, and the first hexagonal socket head cap screw 2524；Phase Answer, the second shifting block that rear mold slide block structure 2600 is installed on rear mode slider 2621 including two compact heaps 2610, two 2622 and the rear both sides of mode slider 2621 are divided into, for the reseting movement direction of mode slider after limitation 2621；Pressure in this example Bar is installed in rear mold 2400 by the second hexagonal socket head cap screw 2525.What deserves to be explained is, mould 2000 is each for convenience of description The direction of motion of individual part, the coordinates of the description of this example in Fig. 5, which are defined, to be described.

When the matched moulds of mould 2000 (i.e. cope plate 2100 and the matched moulds of lower template 2200)：

The first shifting block 2521 being installed on first hexagonal socket head cap screw 2524 on right side can be moved to -Z direction, in its effect Under, inner slide 2522 and the inner slide mold insert 2510 on right side can be moved towards +Y direction；Accordingly, the inner slide 2522 in left side with Inner slide mold insert 2510 can be towards -Y direction motion；It is achieved thereby that the reset of the inner slide mold insert 2510 of the left and right sides, left and right The inner slide mold insert 2510 of both sides forms back-off die cavity 2512 together with rear mold 2400, and (i.e. cope plate 2100 and lower template 2200 is complete Into product die cavity).

At the same time, Angle Pin 2624 is moved to -Z direction, due to Angle Pin 2624 with rear mode slider 2621 is angled sets Put and the incline direction of Angle Pin 2624 be identical with the reset direction of the second shifting block 2622, therefore, rear mode slider 2621 with it is fixed Second shifting block 2622 of the left and right sides can be towards +X direction motion below rear mode slider 2621；Due to the compact heap of the left and right sides 2610 be contact of incline plane connection with the second shifting block 2622 of the corresponding left and right sides, and the compact heap 2610 of the left and right sides is right That answers is hung on the second shifting block 2622 of the left and right sides；Therefore, the compact heap 2610 of the left and right sides can be along inclined-plane to+Z Direction motion is located at the opposite 2513 of inner slide mold insert 2510 so as to support, and then realizes the reset of compact heap 2610.

When the success of the matched moulds of mould 2000, inner slide mold insert 2510 and compact heap 2610 also reset successfully simultaneously；Now may be used To be molded into mould 2000.In injection moulding process, make it will not be because of because compact heap 2610 can prop up inner slide mold insert 2510 Injection pressure and produce displacement or plastic deformation；Simultaneously because compact heap 2610 can undertake the injection pressure of part, therefore drop Injection pressure suffered by low inner slide 2522, so as to protect inner slide 2522；In summary, the setting of compact heap 2610 Improve the mechanical strength and precision of mould 2000.

After deep chamber plastic cement products 1000 are formed, mould 2000 is molded (i.e. cope plate 2100 and lower template 2200 is molded) When：

The first shifting block 2521 being installed on first hexagonal socket head cap screw 2524 on right side can be moved to +Z direction, in its effect Under, inner slide 2522 and the inner slide mold insert 2510 on right side can be moved towards -Y direction；Accordingly, the inner slide 2522 in left side with Inner slide mold insert 2510 can be towards +Y direction motion.

At the same time, Angle Pin 2624 is moved to +Z direction, and rear mode slider 2621 is with being installed in the rear lower section of mode slider 2621 Second shifting block 2622 of the left and right sides can be towards -X direction motion；The compact heap 2610 of the left and right sides can be along inclined-plane to-Z sides To motion.

Now, mould 2000 is molded successfully, and the deep chamber plastic cement products 1000 of shaping are exposed and can be removed.It is worth Illustrate, mould 2000 of the present utility model is applicable not only to process deep chamber plastic cement products 1000, be also suitable the other classes of processing The product of type and other materials, is not just repeated one by one here.

It should be noted that above-described embodiment can independent assortment as needed.Described above is only of the present utility model Preferred embodiment, it is noted that for those skilled in the art, is not departing from the utility model principle On the premise of, some improvements and modifications can also be made, these improvements and modifications also should be regarded as protection domain of the present utility model.

Claims (9)

1. a kind of catenating slider mechanism mould, including cope plate, lower template, the preceding mould on cope plate,

And the rear mold in lower template, when the cope plate and the lower template matched moulds, the preceding mould and the rear mold Form product die cavity, it is characterised in that also include：

Several catenating slider mechanisms, the catenating slider mechanism includes the inner slide block structure and rear mode slider knot mutually linked Structure, the inner slide block structure is adapted with the rear mode slider；

The inner slide block structure includes inner slide drive device and inner slide mold insert；

The inner slide mold insert includes the cavity surface and opposite close to the product die cavity, the cavity surface and the opposite It is oppositely arranged；

The rear mold slide block structure includes rear mold drive device and compact heap；

When the cope plate and the lower template matched moulds：

The inner slide drive device drives the inner slide mold insert in doing reseting movement in the rear mold；

The rear mold drive device drives the compact heap in doing reseting movement simultaneously with the inner slide mold insert in the rear mold, And the compact heap described in motion process supports the opposite located at the inner slide mold insert.

2. catenating slider mechanism mould according to claim 1, it is characterised in that：

The inner slide drive device includes the first shifting block, and the inner slide being adapted with the first shifting block；

First shifting block is fixedly arranged on the preceding mould；

The inner slide is slided in the rear mold, and is fixedly connected with the inner slide mold insert；

When the cope plate and the lower template matched moulds：

First shifting block drives the inner slide in sliding in the rear mold so that the inner slide mold insert does reseting movement.

3. catenating slider mechanism mould according to claim 2, it is characterised in that：

First shifting block is set with the inner slide in predetermined angle.

4. catenating slider mechanism mould according to claim 2, it is characterised in that：

The inner slide drive device also includes the first press strip for being divided into the inner slide both sides for a pair；

First press strip is in the rear mold, the glide direction for limiting the inner slide.

5. catenating slider mechanism mould according to claim 2, it is characterised in that：

The inner slide drive device also includes hexagonal socket head cap screw；

Described hexagonal socket head cap screw one end is fixed on the cope plate, and the hexagonal socket head cap screw other end is fixed with first shifting block to be connected Connect, the hexagonal socket head cap screw is set with first shifting block in predetermined angle, the incline direction of the hexagonal socket head cap screw and the interior cunning The reset of block is in opposite direction；

When the cope plate and the lower template matched moulds：

The hexagonal socket head cap screw drives first shifting block to do reseting movement so that first shifting block drives the inner slide in institute State and slid in rear mold.

6. the catenating slider mechanism mould according to claim 1-5 any one, it is characterised in that：

The rear mold drive device includes rear mode slider and the second shifting block；

The rear mode slider is slided in the rear mold；

One end of second shifting block is fixedly connected with the sliding block, and the other end and the compact heap of second shifting block connect Connect；

When the cope plate and the lower template matched moulds：

The rear mode slider drives second shifting block in doing reseting movement in the rear mold so that the compact heap, which is supported, is located at institute State opposite.

7. catenating slider mechanism mould according to claim 6, it is characterised in that：

When the cope plate and the lower template matched moulds, the compact heap does the motion close to the rear mode slider；

End face of the compact heap away from the rear mode slider side, which is supported, is located at the rear mold；

The compact heap is sheathed on the outside of second shifting block, and is connected with the second shifting block contact of incline plane so that described When inner slide mold insert does reseting movement, the compact heap is simultaneously to the opposite located at the inner slide mold insert.

8. catenating slider mechanism mould according to claim 6, it is characterised in that：

The rear mold drive device also includes Angle Pin, and one end of the Angle Pin is on the cope plate；

The rear mode slider is set with the Angle Pin in predetermined angle, and provided with the oblique guide hole being adapted with the Angle Pin, The incline direction of the Angle Pin is identical with the reset direction of the rear mode slider；

When the cope plate and the lower template matched moulds：

The Angle Pin drives the rear mode slider sliding so that the rear mode slider drives second shifting block to do reset fortune It is dynamic.

9. catenating slider mechanism mould according to claim 6, it is characterised in that：

The rear mold drive device also includes the second press strip for being divided into the rear mode slider both sides for a pair；

Second press strip is in the rear mold, the glide direction for limiting the rear mode slider.