CN208497572U - A kind of plastic electrofusion saddle mold - Google Patents

Abstract

The utility model provides a kind of plastic electrofusion saddle mold, belongs to electric smelting saddle type technical field of mold.It solves the problems, such as that the demoulding efficiency of existing electric smelting saddle type mold is low.This plastic electrofusion saddle mold, including cover half block and dynamic model block, the forming cavity for shaping workpiece is formed between cover half block and dynamic model block, guide rail and guide rail core are equipped between dynamic model block and cover half block, the ejection hole being connected with forming cavity is offered in the middle part of guide rail core, guide rail is equipped with the tapered wedges one and tapered wedges two mutually agreed with, tapered wedges two are fixed on one end of guide rail, the other end of guide rail is arranged in tapered wedges one and tapered wedges one are equipped with the mandril that end insertion ejects hole, the side of guide rail is equipped with the actuator that guide rail can be driven to move back and forth along its length, actuator can drive guide rail movement so that tapered wedges one are ejected and eject tapered wedges one by workpiece by mandril by tapered wedges two.This plastic electrofusion saddle mold can improve the production efficiency of plastic electrofusion saddle mold.

Description

A kind of plastic electrofusion saddle mold

Technical field

The utility model belongs to electric smelting saddle type technical field of mold, is related to a kind of plastic electrofusion saddle mold.

Background technique

Plastic electrofusion saddle pipe fitting after moulding, since its underpart package power is larger, and is wound on the inner wall of pipe fitting Resistance wire, and it to be provided with copper bolt in plastics capacitor pipe fitting domestic demand, in process of production, usually copper bolt is directly arranged In type in-core, and due to being provided with resistance wire, after causing entire mold needs to be cooled to, then type core and workpiece be placed on pumping Core pulling is carried out on core machine.

It therefore, is that operator is needed to carry out mould inside, and by the workpiece of injection molding, type in existing mold Core frame and type core take out together, and operation is more troublesome, and in workpiece shaping, are only merely to need one section of copper bolt to be arranged In workpiece, and another section is to need to cut, and the discarded section of copper bolt is discharged, but in the actual production process, due to During die sinking, just copper bolt is broken disconnected, therefore in the process of die sinking, the discarded section of copper bolt is located in mold, It results in staff and is difficult to the case where clearing up appearance, and existing mold is caused using artificial modulus and molding workpiece The production efficiency of entire mold reduces.

Summary of the invention

The purpose of this utility model is the presence of the above problem in view of the prior art, proposes a kind of plastic electrofusion saddle mould Tool, technical problem to be solved in the utility model is how to improve the production efficiency of plastic electrofusion saddle mold.

The purpose of this utility model can be realized by the following technical scheme:

A kind of plastic electrofusion saddle mold, including cover half block and dynamic model block, are formed between the cover half block and dynamic model block Forming cavity for shaping workpiece, which is characterized in that guide rail and guide rail core are equipped between the dynamic model block and cover half block, it is described to lead The ejection hole being connected with forming cavity is offered in the middle part of rail core, the guide rail is equipped with the tapered wedges one and inclined wedge mutually agreed with Block two, the tapered wedges two are fixed on one end of guide rail, and the tapered wedges one are arranged on the other end and tapered wedges one of guide rail The mandril in ejection hole is embedded in equipped with end, the side of the guide rail is equipped with the driving that guide rail can be driven to move back and forth along its length Part, guide rail can be driven mobile for the actuator so that tapered wedges one are ejected and tapered wedges one is made to pass through mandril for work by tapered wedges two Part ejection, the guide rail in-core are additionally provided with the return unit that can be pushed into tapered wedges one in guide rail.

Working principle: workpiece injection molding in forming cavity, the end of the mandril of tapered wedges one is to be located at ejection hole at this time It is not pierced by ejection hole inside, after workpiece shaping, the side of guide rail is arranged in cover half block and the die sinking of dynamic model block, actuator, and Actuator is connect with guide rail core, and driving actuator is able to achieve guide rail and drives tapered wedges two mobile towards tapered wedges one, when being moved to Tapered wedges one are ejected, the mandril on tapered wedges one is with the movement of tapered wedges one at this time, since ejection hole is connected to forming cavity, because One end ejection ejection Kong Bingneng of this mandril ejects the workpiece in forming cavity, does not need staff and enters directly into cover half Workpiece is taken out between block and dynamic model block, but is directly ejected by mandril, and by driving actuator to make tapered wedges One and tapered wedges two are not in stuck phenomenon, to realize the fast demoulding to workpiece, improve the production effect of mold Rate；When needing to be molded next time, as long as driving actuator resets tapered wedges two, tapered wedges one are in return unit at this time It under effect, can reset in guide rail again, and then facilitate the molding of mold next time, further improve the production effect of mold Rate.

In above-mentioned plastic electrofusion saddle mold, the tapered wedges one have inclined-plane one close to one end of tapered wedges two, The tapered wedges two have inclined-plane two close to one end of tapered wedges one, and mobile tapered wedges two can make the inclined-plane one and inclined-plane two-phase Fitting.

During tapered wedges two eject tapered wedges one, the inclined-plane two-phase on the inclined-plane one and tapered wedges two of tapered wedges one Fitting, then the inclined-plane one of tapered wedges one progressively disengages to tapered wedges two with the inclined-plane two of tapered wedges two and can push up tapered wedges one Out, so that the stability in whole process gets a promotion, the production efficiency and stability of mold are further improved.

In above-mentioned plastic electrofusion saddle mold, the sliding groove slided for tapered wedges one is offered on the guide rail, The guide rail offers length direction auxiliary sliding rail identical with sliding groove in the two sides of sliding groove, also sets on the guide rail core There is the auxiliary slider that can be embedded in corresponding auxiliary sliding rail, the auxiliary sliding rail can opposite auxiliary slider sliding.

The setting of the structure, so that guide rail core, during sliding on guide rail, the auxiliary slider on guide rail core can be embedded in It assists in sliding rail, as auxiliary sliding rail slides back and forth, makees so as to when guide rail core is slided along guide rail, can be carried out auxiliary guiding With enabling tapered wedges one to be bonded to each other during promotion with tapered wedges two and push up tapered wedges one against to tapered wedges two Out, the die sinking stability of mold is improved, and then improves the production efficiency of mold.

In above-mentioned plastic electrofusion saddle mold, it is additionally provided on the guide rail core several for being plugged for copper bolt one end Mounting hole and with the one-to-one chip-removal hole of mounting hole, the mounting hole is connected to corresponding chip-removal hole, and the chip-removal hole is equal It is connected to sliding groove, the guide rail is equipped with the chip removal mouth being discharged for copper bolt.

The other end of copper bolt is pierced by forming cavity and is arranged in mounting hole, and copper bolt is equipped with can be with guide rail core lateral wall The shoulder block to lean, in mold clamping, copper bolt is to be set in mounting hole, and the other end of copper bolt is to have set It sets in forming cavity, in forming process, which is to be located in molding workpiece, and only this part is by workpiece It needs to be arranged in the corresponding position of workpiece, therefore during demoulding, needs for copper bolt to be truncated, and since copper bolt is logical Shoulder block is crossed to be fixed on guide rail core, during demoulding, while tapered wedges one being ejected by tapered wedges two, at The workpiece and guide rail core of type are detached from, and copper bolt can be truncated at this time, and the copper bolt being truncated can fall to sliding out of chip-removal hole On slot, and copper bolt is discharged by mold out of chip removal mouth by the reset of tapered wedges one and tapered wedges two, realizes mold oneself Dynamic waste discharge material, further improves the production efficiency of mold.

In above-mentioned plastic electrofusion saddle mold, the guide rail core is equipped with rail core fixture block, and the guide rail, which is equipped with, to be slided Slot and the baffle that can be leant with rail core fixture block, the rail core fixture block are equipped with sliding part, and the chip removal mouth is provided on guide rail And vertically running through guide rail, the rail core fixture block can be slidably connected on the chute and in guide rail by sliding part and sliding and can will be broken The copper bolt split is pushed to chip removal mouth.

During actuator driving, rail core fixture block moves together with guide rail core, during the sliding of guide rail core, energy The copper bolt of truncation being located on guide rail is moved to chip removal mouth with dynamic rail core fixture block, and can be discharged from chip removal mouth, is realized pair The cleaning of waste material on guide rail, so that chip removal is more convenient, and during sliding, track is more smooth, to improve mould The production efficiency of tool.

In above-mentioned plastic electrofusion saddle mold, the aperture of the chip-removal hole is greater than the aperture of mounting hole.

The setting of the structure facilitates the copper bolt of fracture that can faster be discharged out of chip-removal hole, improves mold cleaning The efficiency of scrap, so that the production stability of entire mold is more preferable, whole process continuity is stronger, improves the life of mold Produce efficiency.

In above-mentioned plastic electrofusion saddle mold, this mold further includes type core, and one end of the type core can pass through molding Chamber is simultaneously arranged in ejection hole and leans with mandril, and the other end of the type core is connected with can be by the end of type core from forming cavity The core pulling cylinder of interior removal.

The setting of the structure is the type core being arranged according to actual needs, in process of production, the setting of type core, so that working as Cover half block and dynamic model block are opened completely and can first pass through the mandrils of tapered wedges one and eject type core from ejection hole, at this time type core at Type part is ejected simultaneously, then is removed out of forming cavity by core pulling cylinder band ejector half core, while but also the length of mandril is can It is adjusted with the length of fitting-type core, it is only necessary to which the length of mandril and the length of type core are used cooperatively, and are further mentioned The high production efficiency of mold.

In above-mentioned plastic electrofusion saddle mold, moving-mould-core sub-set and dynamic model fuse are equipped in the dynamic model block, it is described Ejector sleeve is arranged in moving-mould-core sub-set, the moving-mould-core sub-set, dynamic model fuse and ejector sleeve are connected with dynamic model block, the moving-mould-core The end of sub- one end is arranged between moving-mould-core sub-set and ejector sleeve, and the end of the dynamic model fuse and the end of moving-mould-core sub-set are equal It is arranged in forming cavity.

In mold die sinking, a part of molded part is to be arranged between moving-mould-core sub-set, dynamic model fuse and ejector sleeve, and move Mold core sub-set, dynamic model fuse and ejector sleeve are connected with dynamic model block, directly side core-pulling can be carried out to molded part in die sinking, in reality Use process in, it is only necessary to the side wall of ejector sleeve can fit with dynamic model block, and moving-mould-core sub-set and dynamic model fuse are set Setting is that can be adjusted accordingly according to the demand in workpiece aperture, and the interior caliber of ejector sleeve also will do it corresponding adjusting at this time, The workpiece of different tube diameters and different-thickness can be molded by realizing in turn, improve the practicability of entire mold.

In above-mentioned plastic electrofusion saddle mold, the return unit is spring, and the spring is equipped with multiple, the guide rail Core is equipped with several reseting grooves corresponding with spring, and the spring is arranged in corresponding reseting groove, one end of the spring with Tapered wedges one lean, and spring has the trend that tapered wedges one are pushed to sliding groove always.

Spring is used, so that the structure of entire mold is relatively simple, and is only to offer reseting groove on guide rail core , in the process of die sinking, spring is gradually compressed into tapered wedges one and is detached from sliding groove, therefore under the action of tapered wedges two When resetting, tapered wedges one are pushed into sliding groove by the spring energy of spring, ensure that spring is not in during reset The phenomenon that spring pops up further improves the stability of mold production.

In this application, return unit may be elastic sheet metal.

In above-mentioned plastic electrofusion saddle mold, one end of the guide rail is equipped with guide rail baffle, and the guide rail core can be slided It moves to guide rail baffle and leans.

The setting of the structure, it is therefore prevented that guide rail core skids off guide rail during sliding, play to guide rail core prevention and The effect of limit further makes its die sinking process more stability, improves the production efficiency of mold.

Compared with prior art, this plastic electrofusion saddle mold has an advantage in that by the way that guide rail core is arranged, and in cover half block and Guide rail is set between dynamic model block, and is provided with tapered wedges one and tapered wedges two on guide rail, passes through tapered wedges one and tapered wedges two Mating reaction, the workpiece of guide rail core side is ejected, and then realize the fast demoulding to workpiece, to improve mold Production efficiency.

Detailed description of the invention

Fig. 1 is the cross-sectional view of this plastic electrofusion saddle mold.

Fig. 2 is the cross-sectional view in another direction of this plastic electrofusion saddle mold.

Fig. 3 is the partial sectional view of this plastic electrofusion saddle mold.

Fig. 4 is the partial structure diagram of this plastic electrofusion saddle mold.

Fig. 5 is the partial sectional view of A-A in Fig. 4.

Fig. 6 is guide rail and the structural schematic diagram after tapered wedges one and the assembly of tapered wedges two in this plastic electrofusion saddle mold.

In figure, 1, cover half block；2, dynamic model block；21, moving-mould-core sub-set；22, ejector sleeve；23, dynamic model fuse；3, forming cavity；4, Guide rail；41, tapered wedges one；411, mandril；412, sliding groove；413, plane one；414, inclined-plane one；42, tapered wedges two；421, it puts down Face two；422, inclined-plane two；43, actuator；44, sliding rail is assisted；45, chip removal mouth；46, sliding slot；47, baffle；48, guide groove；49, it leads Rail baffle；5, guide rail core；51, hole is ejected；52, spring；521, reseting groove；53, auxiliary slider；54, mounting hole；55, chip-removal hole； 56, rail core fixture block；57, sliding part；58, recessing groove；59, mounting groove；6, workpiece；7, copper bolt；71, shoulder block；8, type core；81, Core rack；82, core pulling cylinder；9, guide plate；91, guide chute；10, guide pad.

Specific embodiment

It is specific embodiment of the utility model and in conjunction with attached drawing below, the technical solution of the utility model is made further Description, but the utility model is not limited to these examples.

As shown in Figure 1, this plastic electrofusion saddle mold, including cover half block 1 and dynamic model block 2, cover half block 1 and dynamic model block 2 it Between be formed with forming cavity 3 for shaping workpiece 6.

Specifically, as Figure 4-Figure 6, it is equipped with guide rail 4 between dynamic model block 2 and cover half block 1 and leading on guide rail 4 is set Rail core 5, the middle part of guide rail core 5 offer the ejection hole 51 being connected with forming cavity 3, and guide rail 4 is equipped with the inclined wedge mutually agreed with Block 1 and tapered wedges 2 42, tapered wedges 2 42 are fixed on one end of guide rail 4, and the other end of guide rail 4 is arranged in tapered wedges 1 And tapered wedges 1 are equipped with the mandril 411 in end insertion ejection hole 51, the side of guide rail 4, which is equipped with, can drive guide rail 4 along length The actuator 43 that direction moves back and forth is additionally provided with the recessing groove 58 being embedded in for tapered wedges 1 on guide rail core 5 and for rail core The mounting groove 59 that fixture block 56 is partially submerged into, guide rail 4 can be driven mobile for actuator 43 so that tapered wedges 2 42 push up tapered wedges 1 Out and eject tapered wedges 1 by workpiece 6 by mandril 411, guide rail 4 can be pushed into for tapered wedges 1 by being additionally provided in guide rail core 5 Interior return unit, return unit be spring 52, spring 52 be equipped with it is multiple, guide rail core 5 be equipped with several resets corresponding with spring 52 Slot 521, spring 52 are arranged in corresponding reseting groove 521, and one end and the tapered wedges 1 of spring 52 lean, and spring 52 begins There is the trend that tapered wedges 1 are pushed to sliding groove 412 eventually, one end of guide rail 4 is equipped with guide rail baffle 49, and guide rail core 5 can slide Extremely lean with guide rail baffle 49.

In the present embodiment, actuator 43 is cylinder either stepper motor.

In the present embodiment, return unit may be elastic sheet metal.

Working principle: the injection molding in forming cavity 3 of workpiece 6, the end of the mandril 411 of tapered wedges 1 is to be located at this time Ejection hole 51 is not pierced by ejection hole 51, after workpiece 6 forms, cover half block 1 and dynamic model block 2 are opened, and actuator 43 is arranged In the side of guide rail 4, and actuator 43 is connect with guide rail core 5, and driving actuator 43 is able to achieve guide rail 4 and drives 2 42 court of tapered wedges It is mobile to tapered wedges 1, tapered wedges 1 are ejected when being moved to, the mandril 411 on tapered wedges 1 is with tapered wedges at this time One 41 movements, since ejection hole 51 is connected to forming cavity 3, one end ejection ejection hole 51 of mandril 411 simultaneously can be by forming cavity 3 Interior workpiece 6 ejects, and does not need staff and enter directly into take out workpiece 6 between cover half block 1 and dynamic model block 2, but It is directly ejected by mandril 411, and by driving actuator 43 to go out tapered wedges 1 can't with tapered wedges 2 42 Existing stuck phenomenon improves the production efficiency of mold to realize the fast demoulding to workpiece 6；When needs carry out next time When molding, as long as driving actuator 43 resets tapered wedges 2 42, tapered wedges 1, can be again under the action of return unit at this time It resets in guide rail 4, and then facilitates the molding of mold next time, further improve the production efficiency of mold.

As shown in figure 5, tapered wedges 1 have inclined-plane 1 close to one end of tapered wedges 2 42, tapered wedges 2 42 are close One end of tapered wedges 1 has inclined-plane 2 422, and mobile tapered wedges 2 42 can make inclined-plane 1 fit with inclined-plane 2 422.

The sliding groove 412 slided for tapered wedges 1 is offered on guide rail 4, tapered wedges 1 are towards sliding groove 412 Side has plane 1, and tapered wedges 2 42 have the plane 2 421 that can be fitted with plane 1.

More specifically, as shown in fig. 6, guide rail 4 offers length direction and sliding groove in the two sides of sliding groove 412 412 identical auxiliary sliding rails 44 are additionally provided with the auxiliary slider 53 that can be embedded in corresponding auxiliary sliding rail 44, auxiliary slider on guide rail core 5 53 is elongated, and the two sides of auxiliary slider 53 convex to form the sliding part that can be embedded in auxiliary sliding rail 44, and auxiliary slider 53 can pass through Sliding part slides in auxiliary sliding rail 44.

Further, as shown in figure 5, being additionally provided with several mounting holes 54 on guide rail core 5 and being corresponded with mounting hole 54 Chip-removal hole 55, the aperture of chip-removal hole 55 is greater than the aperture of mounting hole 54, and mounting hole 54 is connected to corresponding chip-removal hole 55, chip removal Hole 55 is connected to sliding groove 412, and copper bolt 7 is equipped in forming cavity 6, and one end of copper bolt 7, which is pierced by forming cavity 6 and is arranged, is pacifying It fills in hole 54, copper bolt 7 is equipped with the shoulder block 71 that can be leant with 5 lateral wall of guide rail core, and one end setting of copper bolt 7 is forming In chamber 3, guide rail 4 is equipped with the chip removal mouth 45 being discharged for copper bolt 7, and when tapered wedges 2 42 eject tapered wedges 1, copper is inserted The middle part of pin 7 is broken and one end of copper bolt 7 is fallen on sliding groove 412 by chip-removal hole 55 and is discharged from chip removal mouth 45.

As shown in fig. 6, guide rail core 5 is equipped with rail core fixture block 56, guide rail 4 is equipped with sliding slot 46 and can be with 56 phase of rail core fixture block Against baffle 47, rail core fixture block 56 is equipped with sliding part 57, and chip removal mouth 45 is provided on guide rail 4 and vertically through guide rail 4, rail Core fixture block 56 can be slidably connected on sliding slot 46 by sliding part 57 and slide and can push away the copper bolt 7 of fracture in guide rail 4 It moves to chip removal mouth 45.

As shown in Figure 1-3, this mold further includes type core 8, type core 8 is equipped with multiple, and multiple type cores 8 are arranged in core rack 81 On, one end of type core 8 can pass through forming cavity 3 and be arranged in ejection hole 51 and lean with mandril 411, and one end of type core 8 connects It is connected to the core pulling cylinder 82 that the end of type core 8 can be removed out of forming cavity 3, the piston rod company of core rack 81 and core pulling cylinder 82 It connects.

As depicted in figs. 1 and 2, it is equipped with moving-mould-core sub-set 21 and dynamic model fuse 23 in dynamic model block 2, is covered in moving-mould-core sub-set 21 Equipped with ejector sleeve 22, moving-mould-core sub-set 21, dynamic model fuse 23 and ejector sleeve 22 are connected with dynamic model block 2, the end of 23 one end of dynamic model fuse Portion is arranged between moving-mould-core sub-set 21 and ejector sleeve 22, and the end of dynamic model fuse 23 and the end of moving-mould-core sub-set 21 are arranged at In forming cavity 3.

In the actual use process, it is only necessary to which the side wall of ejector sleeve 22 can fit with dynamic model block 2, therefore only need The outer diameter of ejector sleeve 22 is constant, and the setting of moving-mould-core sub-set 21 and dynamic model fuse 23 be can according to the demand in 6 aperture of workpiece, into Row is corresponding to be adjusted, and the interior caliber of ejector sleeve 22 also will do it corresponding adjusting at this time, and then realize to different tube diameters and difference The workpiece 6 of thickness can be molded, and the practicability of entire mold is improved.

As shown in Figure 3 and Figure 5, guide groove 48, the direction of guide groove 48 and the glide direction phase of guide rail core 5 are offered on guide rail 4 It is mutually vertical, it is equipped with guide plate 9 and guide pad 10 between cover half block 1 and dynamic model block 2, offers on guide plate 9 and is connected to guide groove 48 Guide chute 91, guide pad 10, which is arranged, can slide in guide groove 48 and guide chute 91 and along guide plate 9.

The specific embodiments described herein are merely examples of the spirit of the present invention.The utility model institute Belonging to those skilled in the art can make various modifications or additions to the described embodiments or using similar Mode substitute, but without departing from the spirit of the present application or beyond the scope of the appended claims.

Claims (10)

1. a kind of plastic electrofusion saddle mold, including cover half block (1) and dynamic model block (2), the cover half block (1) and dynamic model block (2) Between be formed with forming cavity (3) for shaping workpiece (6), which is characterized in that between the dynamic model block (2) and cover half block (1) Equipped with guide rail (4) and guide rail core (5), the ejection hole being connected with forming cavity (3) is offered in the middle part of the guide rail core (5) (51), the guide rail (4) is equipped with the tapered wedges one (41) and tapered wedges two (42) that can mutually agree with, the tapered wedges two (42) It is fixed on one end of guide rail (4), tapered wedges one (41) setting is equipped on the other end and tapered wedges one (41) of guide rail (4) The mandril (411) of end insertion ejection hole (51), the side of the guide rail (4), which is equipped with, can drive guide rail (4) past along its length The actuator (43) moved again, guide rail (4) can be driven mobile for the actuator (43) so that tapered wedges two (42) are by tapered wedges one (41) guide rail (4) are ejected and eject tapered wedges one (41) by workpiece (6) by mandril (411), are also set in the guide rail core (5) There is the return unit that tapered wedges one (41) can be pushed into guide rail (4).

2. plastic electrofusion saddle mold according to claim 1, which is characterized in that the tapered wedges one (41) are close to inclined wedge One end of block two (42) has inclined-plane one (414), and the tapered wedges two (42) have inclined-plane close to one end of tapered wedges one (41) Two (422), mobile tapered wedges two (42) can make the inclined-plane one (414) fit with inclined-plane two (422).

3. plastic electrofusion saddle mold according to claim 1, which is characterized in that offered on the guide rail (4) for The sliding groove (412) of tapered wedges one (41) sliding, the guide rail (4) offer length direction in the two sides of sliding groove (412) The identical auxiliary sliding rail (44) with sliding groove (412), corresponding auxiliary sliding rail (44) can be embedded in by being additionally provided on the guide rail core (5) Auxiliary slider (53), the auxiliary sliding rail (44) can opposite auxiliary slider (53) slidings.

4. plastic electrofusion saddle mold according to claim 3, which is characterized in that the guide rail core (5) if on be additionally provided with Do mounting hole (54) for being plugged for copper bolt (7) one end and with the one-to-one chip-removal hole (55) of mounting hole (54), it is described Mounting hole (54) is connected to corresponding chip-removal hole (55), and the chip-removal hole (55) is connected to sliding groove (412), the guide rail (4) it is equipped with the chip removal mouth (45) being discharged for copper bolt (7).

5. plastic electrofusion saddle mold according to claim 4, which is characterized in that the guide rail core (5) is equipped with rail core Fixture block (56), the baffle (47) that the guide rail (4) is equipped with sliding slot (46) and can lean with rail core fixture block (56), the rail core Fixture block (56) is equipped with sliding part (57), and the chip removal mouth (45) is provided on guide rail (4) and vertically through guide rail (4), described Rail core fixture block (56) can be slidably connected on sliding slot (46) by sliding part (57) and the sliding and can be by fracture in the guide rail (4) Copper bolt (7) is pushed to chip removal mouth (45).

6. plastic electrofusion saddle mold according to claim 4, which is characterized in that the aperture of the chip-removal hole (55) is greater than The aperture of mounting hole (54).

7. plastic electrofusion saddle mold according to claim 1 or 2 or 3, which is characterized in that this mold further includes type core (8), one end of the type core (8) can pass through forming cavity (3) and be arranged in ejection hole (51) and lean with mandril (411), The other end of the type core (8) is connected with the core pulling cylinder (82) that can remove the end of type core (8) out of forming cavity (3).

8. plastic electrofusion saddle mold according to claim 7, which is characterized in that be equipped with dynamic model in the dynamic model block (2) Fuse set (21) and dynamic model fuse (23) are arranged with ejector sleeve (22) on the moving-mould-core sub-set (21), the moving-mould-core sub-set (21), dynamic model fuse (23) and ejector sleeve (22) are connected with dynamic model block (2), and the end setting of described dynamic model fuse (23) one end exists Between moving-mould-core sub-set (21) and ejector sleeve (22), the end of the dynamic model fuse (23) and the end of moving-mould-core sub-set (21) are all provided with It sets in forming cavity (3).

9. plastic electrofusion saddle mold according to claim 3, which is characterized in that the return unit is spring (52), institute State spring (52) be equipped with it is multiple, the guide rail core (5) be equipped with several reseting grooves (521) corresponding with spring (52), the bullet Spring (52) setting is in corresponding reseting groove (521), and one end of the spring (52) leans with tapered wedges one (41), and spring (52) there is the trend that tapered wedges one (41) are pushed to sliding groove (412) always.

10. plastic electrofusion saddle mold according to claim 1 or 2 or 3, which is characterized in that one end of the guide rail (4) Equipped with guide rail baffle (49), the guide rail core (5) can slide into be leant with guide rail baffle (49).