CN206357579U - A kind of tooth injection mold structure for docking angled-lift splits die sinking braking - Google Patents

Abstract

The utility model discloses a kind of tooth injection mold structure for docking angled-lift splits die sinking braking, including cover half cage plate, dynamic model cage plate, core and guide pillar, the core includes central core, lower core, upper core and mold insert core, and the central core, the lower core, the upper core, the mold insert core and the angled-lift splits are collectively forming the die cavity of tooth；The cover half cage plate is fixed on top clamping plate, and the correspondence die cavity is provided with sprue bush in the middle of the top clamping plate, and the sprue bush is connected with the die cavity；The correspondence angled-lift splits is provided with die sinking arrestment mechanism, the die sinking arrestment mechanism includes banking pin, spring and plug screw, the banking pin is corresponding with the pin-and-hole on the angled-lift splits, and the spring is installed in described banking pin one end, and the spring is fixed by the plug screw being arranged on cover half cage plate.Prevent that because tooth holds cover half tightly the Forming Quality of tooth is good so that angled-lift splits produces parting action in the case where not separated with cover half.

Description

A kind of tooth injection mold structure for docking angled-lift splits die sinking braking

Technical field

The utility model is related to injection mold technical field, more particularly to a kind of tooth note for docking angled-lift splits die sinking braking Mold lamps structure.

Background technology

Injection mold is the tool for plasthetics rapid shaping.Injection mold is made up of dynamic model and cover half two parts, Dynamic model is arranged on the moving die plate of injection (mo(u)lding) machine, and cover half is arranged on the fixed form of injection (mo(u)lding) machine.In injection moulding When dynamic model and cover half closure constitute running gate system and die cavity, dynamic model and cover half separation are to take out plastic products during die sinking.Mould Mainly it is made up of running gate system, thermoregulating system, forming part and constitutional detail.Wherein running gate system and forming part are and plastics Direct contact portion, and change with plastics and product, it is most complicated, change maximum, it is desirable to process finish and essence in mold Spend highest part.Running gate system refer to plastics from nozzle enter die cavity before runner section, including sprue, cold slug well, point Runner and cast gate etc..Forming part refers to the various parts for constituting article shape, including dynamic model, cover half and die cavity, core, shaping Bar and exhaust outlet etc..

In the business automation equipments such as printer, duplicator, tooth plastic (such as plastic gear, synchronous pulley) more because Its excellent building-up property and there is self-lubricating property and be widely used, be one of which tooth as shown in Figure 1, 2 Structure chart.The general tooth-shape structure using docking angled-lift splits formation tooth, during die sinking, because plastic holds cover half tightly so that angled-lift splits exists Parting action is produced in the case of not separating with cover half to have impact on the precision of tooth.

Utility model content

The technical problems to be solved in the utility model is to provide a kind of tooth injection mold for docking angled-lift splits die sinking braking Structure, during die sinking, for prevent because tooth hold tightly cover half so that angled-lift splits is produced in the case where not separated with cover half parting act, The Forming Quality of tooth is good.

In order to solve the above-mentioned technical problem, the technical solution of the utility model is as follows：

It is a kind of dock angled-lift splits die sinking braking tooth injection mold structure, including cover half cage plate, dynamic model cage plate, core with And guide pillar, the core includes central core, lower core, upper core and mold insert core, and the mold insert core is embedded in described In upper core, the upper core is fixed on the cover half cage plate, and the lower core is arranged on described by a core fixing plate In dynamic model cage plate, one group of angled-lift splits is additionally provided with the core fixing plate, the central core is set through the lower core, The central core, the lower core, the upper core, the mold insert core and the angled-lift splits are collectively forming the type of tooth Chamber；The cover half cage plate is fixed on top clamping plate, and the correspondence die cavity is provided with sprue bush in the middle of the top clamping plate, described Sprue bush is connected with the die cavity；Described guide pillar one end is arranged on the core fixing plate, and the guide pillar passes through the dynamic model Cage plate, the cover half cage plate and the top clamping plate；Described central core one end is arranged on ejector pin retaining plate, the push rod Fixed plate is arranged in push pedal, and the push pedal is arranged in Bottom clamp plate；The correspondence angled-lift splits is provided with die sinking arrestment mechanism, The die sinking arrestment mechanism includes banking pin, spring and plug screw, and the banking pin is corresponding with the pin-and-hole on the angled-lift splits, The spring is installed in described banking pin one end, and the spring is fixed by the plug screw being arranged on cover half cage plate.

Further, on the dynamic model cage plate, the correspondence angled-lift splits is provided with banking pin.

Further, the core fixing plate lower end is additionally provided with support plate, and the support plate is pacified by soket head cap screw On the Bottom clamp plate.

Further, the correspondence angled-lift splits is additionally provided with push rod, and the push rod passes the core fixing plate and described It is fixed on after support plate on the ejector pin retaining plate.

Using above-mentioned technical proposal, due to using die sinking arrestment mechanism, it is ensured that plastic stays in dynamic model, makes angled-lift splits in parting The release of plastic is completed simultaneously, and rationally, action is accurate, reliable, it is ensured that product quality for thrust-neutral.

Brief description of the drawings

Fig. 1 is tooth overlooking structure figure of the present utility model；

Fig. 2 is tooth sectional structure chart of the present utility model；

Fig. 3 is tooth injection mold top view of the present utility model；

Fig. 4 is along A-A to sectional structure chart in Fig. 3；

Fig. 5 is along B-B direction sectional structure chart in Fig. 3.

In figure, 1. cover half cage plates, 2. banking pins, 3. angled-lift splitses, 4. support plates, 5. central cores, 6. soket head cap screws, 7. Ejector pin retaining plate, 8. push pedals, 9. Bottom clamp plates, 10. push rods, 11. core fixing plates, 12. times cores, 13. dynamic model cage plates, 14. Guide pillar, 15. banking pins, 16. springs, 17. plug screws, 18. upper cores, 19. sprue bush, 20. mold insert cores, 21. top clamping plates.

Embodiment

Embodiment of the present utility model is described further below in conjunction with the accompanying drawings.Herein it should be noted that Explanation for these embodiments is used to help understand the utility model, but does not constitute to restriction of the present utility model.This Outside, as long as technical characteristic involved in each embodiment of the utility model disclosed below does not constitute conflict each other It can just be mutually combined.

As in Figure 3-5, a kind of tooth injection mold structure for docking angled-lift splits die sinking braking, including it is cover half cage plate 1, dynamic Die sleeve plate 13, core and guide pillar 14, the core include central core 5, lower core 12, upper core 18 and mold insert core 20, the mold insert core 20 is embedded in the upper core 18, and the upper core 18 is fixed on the cover half cage plate 1, described Lower core 12 is arranged in the dynamic model cage plate 13 by a core fixing plate 11, and one is additionally provided with the core fixing plate 11 Group angled-lift splits 3, the central core 5 sets through the lower core 12, the central core 5, the lower core 12, it is described on Core 18, the mold insert core 20 and the angled-lift splits 3 are collectively forming the die cavity of tooth；The cover half cage plate 1 is fixed on fixed On die holder plate 21, the correspondence die cavity is provided with sprue bush 19, the sprue bush 19 and the type in the middle of the top clamping plate 21 Chamber is connected；Described one end of guide pillar 14 is arranged on the core fixing plate 11, and the guide pillar 14 passes through the dynamic model cage plate 13, institute State cover half cage plate 1 and the top clamping plate 21；Described one end of central core 5 is arranged on ejector pin retaining plate 7, and the push rod is consolidated Fixed board 7 is arranged in push pedal 8, and the push pedal 8 is arranged in Bottom clamp plate 9；The correspondence angled-lift splits 3 is provided with die sinking brake Structure, the die sinking arrestment mechanism is included on banking pin 15, spring 16 and plug screw 17, the banking pin 15 and the angled-lift splits 3 Pin-and-hole it is corresponding, the spring 16 is installed in described one end of banking pin 15, and the spring 16 is by being arranged on cover half cage plate 1 Plug screw 17 is fixed.

Under matched moulds state, in the insertion angled-lift splits 3 of banking pin 15.During die sinking, angled-lift splits 3 is forced by banking pin, it is impossible to It is outer to open carry out parting, but fixed mold can be deviate from plastic.Mold after certain position, banking pin 15 is disengaged.Matched moulds When, the open-shaped state of angled-lift splits 3 is docked, forces banking pin 15 to be retracted into cover half, until after dynamic, cover half closes up, in spring 16 Under effect, banking pin 15 inserts angled-lift splits 3 again.

Wherein, on the dynamic model cage plate 13, the correspondence angled-lift splits 3 is provided with banking pin 2.

Wherein, the lower end of core fixing plate 11 is additionally provided with support plate 4, and the support plate is pacified by soket head cap screw 6 On the Bottom clamp plate 9.

Wherein, the correspondence angled-lift splits 3 is additionally provided with push rod 10, and the push rod 10 passes the core fixing plate 11 and institute State and be fixed on after support plate 4 on the ejector pin retaining plate 7.

During die sinking, the dynamic of mould, cover half parting, in the presence of banking pin 15, angled-lift splits 3 is retreated with dynamic model, and is driven Plastic departs from fixed mold with cast gate condensate, stays in dynamic model on one side.Dynamic model is fallen back on behind position, and the ejecting mechanism of injector promotes push pedal 8, make push rod 10 promote angled-lift splits 3 to move obliquely, release plastic while sliding block parting, release distance by banking pin 2 Determine.During matched moulds, two docking angled-lift splitses 3 are fitted in place in the presence of mold clamping force, the vertebra of push rod 10 and push pedal 8 in angled-lift splits 3 Dynamic lower reset, upper core 18 and mold insert core 20 stretch into dynamic model die cavity, and banking pin 15 inserts people's angled-lift splits 3.Matched moulds is finished, under One working cycles.

Embodiment of the present utility model is explained in detail above in association with accompanying drawing, but the utility model is not limited to be retouched The embodiment stated.For a person skilled in the art, it is right in the case where not departing from the utility model principle and spirit These embodiments carry out a variety of change, modification, replacement and modification, still fall within protection domain of the present utility model.

Claims (4)

1. a kind of tooth injection mold structure for docking angled-lift splits die sinking braking, it is characterised in that：Including cover half cage plate, dynamic model set Plate, core and guide pillar, the core include central core, lower core, upper core and mold insert core, the mold insert core edge It is embedded in the upper core, the upper core is fixed on the cover half cage plate, the lower core is pacified by a core fixing plate In the dynamic model cage plate, one group of angled-lift splits is additionally provided with the core fixing plate, the central core is through under described Core is set, the central core, the lower core, the upper core, the mold insert core and the common shape of the angled-lift splits Into the die cavity of tooth；The cover half cage plate is fixed on top clamping plate, and the correspondence die cavity is provided with the middle of the top clamping plate Sprue bush, the sprue bush is connected with the die cavity；Described guide pillar one end is arranged on the core fixing plate, and the guide pillar is worn Cross the dynamic model cage plate, the cover half cage plate and the top clamping plate；Described central core one end is arranged on ejector pin retaining plate On, the ejector pin retaining plate is arranged in push pedal, and the push pedal is arranged in Bottom clamp plate；The correspondence angled-lift splits is provided with out Mould arrestment mechanism, the die sinking arrestment mechanism is included on banking pin, spring and plug screw, the banking pin and the angled-lift splits Pin-and-hole is corresponding, and the spring is installed in described banking pin one end, and the spring is fixed by the plug screw being arranged on cover half cage plate.

2. a kind of tooth injection mold structure for docking angled-lift splits die sinking braking according to claim 1, it is characterised in that： On the dynamic model cage plate, the correspondence angled-lift splits is provided with banking pin.

3. a kind of tooth injection mold structure for docking angled-lift splits die sinking braking according to claim 1, it is characterised in that： The core fixing plate lower end is additionally provided with support plate, and the support plate is arranged on the Bottom clamp plate by soket head cap screw On.

4. a kind of tooth injection mold structure for docking angled-lift splits die sinking braking according to claim 3, it is characterised in that： The correspondence angled-lift splits is additionally provided with push rod, the push rod pass be fixed on after the core fixing plate and the support plate it is described On ejector pin retaining plate.