CN205395000U - Can mould plastics has plastic part's of external screw thread and helical gear mould simultaneously - Google Patents

Abstract

The utility model discloses a can mould plastics has plastic part's of external screw thread and helical gear mould simultaneously, including the preceding connecting plate of installing the front mould and the back connecting plate of installing the back mould, the front mould including connecting plate before connecting gradually to take off the flitch framed before with, preceding framedly built -inly have two front mould sliders that can move in opposite directions, is equipped with the outer the threaded portion's of shaping plastic part forming groove on the front mould slider, inserts before preceding framed internal stability is equipped with, is equipped with the injecting glue runner on preceding the inserting and corresponds forming groove, back mould is framed with the back including the liftout mechanism that connects gradually the back connecting plate, has linked firmly back mould benevolence on the back is framed, is equipped with the forming through - hole of shaping plastic part helical gear part in the back mould benevolence, and liftout mechanism includes ejector beam, portable base, and ejector beam rotatable coupling is on the base. Still be equipped with two at least back mould sliders that can move in opposite directions on the back is framed, be equipped with the 2nd forming groove on the back mould slider. The utility model discloses an automatic injecting glue, the automatic drawing of patterns have effectively improved production efficiency.

Description

The injection moulding of a kind of energy is simultaneous with the mould of external screw thread and helical gear plastic cement part

Technical field

This utility model relates to injection mold, and the injection moulding of especially a kind of energy is simultaneous with the mould of external screw thread and helical gear plastic cement part.

Background technology

The more complicated plastic cement part 10a of a kind of external structure shown in accompanying drawing 1, its outer surface top with external screw thread 1a, middle part with helical gear 2a, bottom with shoulder 3a.This part outer surface, owing to there is external screw thread and helical gear simultaneously, automatically disengages mould after being difficult to realize part injection moulding in the design of mould structure；Adding the bottom of part again with shoulder 3a, its demoulding difficulty is bigger.Producing this plastic part, traditional moulds just can carry out the injection moulding of next part after manually can only taking out part after part injection moulding, production efficiency is relatively low.

Utility model content

The technical problems to be solved in the utility model is to provide a kind of energy injection moulding mould simultaneous with external screw thread and helical gear plastic cement part, it can make simultaneous with automatic demoulding after external screw thread and helical gear plastic cement part injection moulding, realize automated production, it is greatly improved production efficiency, reduces the production cost of part.

For reaching above-mentioned purpose, the technical solution of the utility model is: the injection moulding of a kind of energy is simultaneous with the mould of external screw thread and helical gear plastic cement part, including front connecting plate, rear connecting plate, front connecting plate on one end of rear connecting plate equipped with front mould, rear connecting plate on one end of front connecting plate equipped with rear mold；

Stripper plate that described front mould includes being sequentially connected with front connecting plate and front framed, front framed built with two front mold slide, two front mold slide sides in opposite directions are respectively provided with the shaping groove of at least one forming plastic cement part male thread portion, stripper plate is installed with two the first drive blocks, one end of each first drive block is connected on front connecting plate, the other end is provided with drive division and coordinates on a front mold slide, two the first drive blocks drive two front mold slide to move towards, before framed interior fixed insert before at least one, front insert is provided with injecting glue runner, the corresponding described shaping groove in one end of injecting glue runner, the injecting glue runner other end is communicated to outside front connecting plate through stripper plate and front connecting plate；Stripper plate side at least one first banking pin fixed, front connecting plate is provided with the first shoulder hole and the first banking pin matches the disengaging distance that limits stripper plate with front connecting plate, stripper plate opposite side at least one second banking pin fixed, front framed is provided with the second shoulder hole and the second banking pin matches to limit stripper plate and front framed disengaging distance；

Material jacking mechanism that described rear mold includes being sequentially connected with rear connecting plate and rear framed, it is fixed with at least one rear cavity on framed afterwards, rear cavity is provided with the forming through hole of forming plastic cement part helical gear part, the inner peripheral surface of forming through hole is provided with helical teeth groove, described shaping groove on one end linking front mold slide of forming through hole, described material jacking mechanism includes at least one ejector beam and two contiguous blocks of the rear framed and rear connecting plate that is connected, equipped with moveable base between two contiguous blocks, forming through hole in the correspondence rear cavity of ejector beam one end, the other end of ejector beam is connected on base in the axial restraint rotating mode of circumference, rear connecting plate is provided with the corresponding described base of through hole of stepping down.

Improve further; after described framed on be also equipped with mode slider after at least two; before after mode slider matches to drive two after framed connected at least two the second drive block and two mode slider move towards; rear cavity is between front mold slide and rear mode slider; after two, mode slider side in opposite directions is respectively provided with second shaping groove; forming through hole in second shaping groove linking rear cavity, ejector beam one end is between two described second shaping grooves.So make mould can also the shoulder portion of forming plastic cement part, and automatic material separator can be realized equally.

Further improving, said two front mold slide side in opposite directions is respectively provided with the shaping groove of two forming plastic cement part male thread portions, front framed interior fixed two front inserts, the corresponding described shaping groove in one end of the injecting glue runner in each front insert；It is fixed with two rear cavities, a described shaping groove on one end linking front mold slide of the forming through hole in each rear cavity on framed afterwards；After described framed on equipped with mode slider after four; front framed upper three the second drive blocks that are connected; after the rear mode slider that the second drive block mediated mediates with two simultaneously matches and simultaneously drives two, mode slider moves towards; be in second drive block on both sides to be in the rear mode slider on side respectively with one and match and drive the rear mode slider on side to move so that be in the rear mode slider on side with one mediated after mode slider can move towards；Described material jacking mechanism includes two ejector beams, and one end of every ejector beam is between two described second shaping grooves.Such injecting glue just energy two plastic cement parts of molding simultaneously, improve production efficiency further.

Further improve; two the second drive blocks being in both sides are respectively provided with a driving skewed slot; being in two on two second drive blocks on both sides driving skewed slots is splayed distribution, and after being in two of side, mode slider is respectively provided with a driving male cooperation on a driving skewed slot；The both sides of the second drive block mediated are respectively provided with one and drive skewed slot; two of the second drive block both sides mediated drive skewed slots be herringbone distribution, and after two mediated, mode slider is also respectively provided with one and drives and protruding match with a driving skewed slot.After thus facilitating three the second drive blocks to simultaneously drive four, mode slider moves towards between two.

Improving further, one end of described front insert is extended with a cylinder, and this cylinder stretches in the forming through hole of rear cavity.One shrinkage pool of plastic cement forming parts can be given by cylinder.

Improving further, be fixed with at least one guide pad on framed after described, guide pad is provided with pilot hole and passes by one end of ejector beam.Strengthen the rigidity of ejector beam, it is ensured that ejector beam kinematic accuracy.

Improving further, two front mold slide are respectively provided with one and drive through hole to match with the drive division of first drive block respectively, the horizontal junction driving through hole on two front mold slide is splayed distribution, and the drive division of two the first drive blocks is also arranged in splayed.To facilitate two the first drive blocks to drive two front mold slide to move towards.

Further improve; described front framed both sides are respectively installed with an adjusting screw rod; the connected front mold slide in one end of every adjusting screw rod, the other end are in front framed outer and are cased with first stage clip, and the first stage clip applies the power being displaced outwardly by adjusting screw rod to front mold slide.Shift precision to guarantee two front mold slide is more accurate.

Further improving, described adjusting screw rod is also rotary with an adjusting nut, first stage clip one end withstands on adjusting nut, the other end withstands on front framed lateral surface.The spring force making the first stage clip is adjustable.

Improve further, described base and framed afterwards between be provided with multiple second stage clip, it is mutually spacing with rear framed one end that base is installed with the first limited post near rear connecting plate side, and it is mutually spacing with rear connecting plate one end that base is installed with the second limited post near rear connecting plate side.To facilitate displacement and the reset of base.

This utility model is by the male thread portion of the shaping groove forming plastic cement part of two front mold slide, by the forming through hole forming plastic cement part helical gear part of rear cavity, the shoulder portion of mode slider the second shaping groove forming plastic cement part after passing through two further, after part injection mo(u)lding, front mold slide and rear mode slider can be opened, then passing through ejector beam drives plastic cement part to move while rotate the forming through hole departing from rear cavity, can automatic injection molding the plastic cement part automatic demoulding after making molding, achieve automated production, it is greatly improved production efficiency, reduce the production cost simultaneous with external screw thread and helical gear plastic cement part.

Accompanying drawing explanation

Fig. 1 is a kind of with external screw thread and helical gear plastic part axonometric chart；

Fig. 2 is this utility model axonometric chart；

Fig. 3 is this utility model right view；

Fig. 4 is the A-A sectional view of Fig. 3；

Fig. 5 is the B-B sectional view of Fig. 3；

Fig. 6 is the C-C sectional view of Fig. 3；

Fig. 7 is the D-D sectional view of Fig. 3；

Fig. 8 is front mold slide axonometric chart；

Fig. 9 is rear mode slider axonometric chart；

Figure 10 is the first drive block and front mold slide and the second drive block and rear mode slider cooperate axonometric chart；

Figure 11 is the three-dimensional exploded view of Figure 10；

Figure 12 is rear cavity axonometric chart.

Detailed description of the invention

Below in conjunction with accompanying drawing and specific embodiment, this utility model is described in further detail.

Shown in Fig. 1 to Figure 12, the injection moulding of a kind of energy is simultaneous with the mould of external screw thread and helical gear plastic cement part, including front connecting plate 1, rear connecting plate 2, front connecting plate 1 is fixedly connected with injection machine glue injecting head side away from one end of rear connecting plate 2, front connecting plate 1 on rear connecting plate 2 one end equipped with front mould 100, rear connecting plate 2 is fixedly connected with the side of top rod away from one end and the injection machine of front connecting plate 1, rear connecting plate 2 on one end of front connecting plate 1 equipped with rear mold 200.

Described front mould 100 includes the stripper plate 3 and front framed 4 being sequentially connected with on front connecting plate 1; front framed 4 built with two front mold slide 5; two front mold slide 5 sides in opposite directions are respectively provided with the shaping groove 51 of two forming plastic cement part 10a external screw thread 1a parts; stripper plate 3 is installed with two the first drive blocks 6; one end of each first drive block 6 is connected on front connecting plate 1, the other end is provided with drive division 61 and coordinates on a front mold slide 5, and two the first drive blocks 6 drive two front mold slide 5 to move towards；Being respectively provided with one on two front mold slide 5 drives through hole 52 to match with the drive division 61 of first drive block 6 respectively; the horizontal junction driving through hole 52 on two front mold slide 5 is splayed distribution; the drive division 61 of two the first drive blocks 6 is also arranged in splayed, and two the first drive blocks 6 are matched with described driving through hole 52 by drive division 61 and drive two front mold slide 5 to move towards；For guaranteeing the shift precision of two front mold slide 5; the described front both sides of framed 4 are respectively installed with an adjusting screw rod 41; the connected front mold slide 5 in one end of every adjusting screw rod 41, the other end are in outside front framed 4 and are cased with first stage clip 42, and the first stage clip 42 applies the power being displaced outwardly to front mold slide 5 by adjusting screw rod 41；Power for making applying is adjustable, and described adjusting screw rod 41 is also rotary with an adjusting nut 43, and first stage clip 42 one end withstands on adjusting nut 43, the other end withstands on the front lateral surface of framed 4；Hurting people to prevent adjusting screw rod 41 from being ejected by the first stage clip 42, in the front both sides of framed 4, also fixed two L-shaped cover plates 44 cover two adjusting screw rods 41.

Fixed two front inserts 7 in front framed 4, each front insert 7 is provided with injecting glue runner 71, the corresponding described shaping groove 51 in one end of the injecting glue runner 71 in each front insert 7；Injecting glue runner 71 other end in each front insert 7 is communicated to outside front connecting plate 1 through stripper plate 3 and front connecting plate 1, and the centre of front connecting plate 1 arranges an injecting glue connector 11, and injecting glue connector 11 is provided with hole for injecting glue 111 and is connected with two described injecting glue runners 71.

Shown in Fig. 3, Fig. 5, fixed four the first banking pins 31 in stripper plate 3 side, front connecting plate 1 is provided with the disengaging distance that four the first shoulder holes 12 match to limit stripper plate 3 with front connecting plate 1 with four the first banking pins 31, fixed four the second banking pins 32 of stripper plate 3 opposite side, front framed 4 are provided with four the second shoulder holes 45 matches with the second banking pin 32 to limit the disengaging distance that stripper plate 3 is with front framed 4.

Described rear mold 200 includes the material jacking mechanism 8 and rear framed 9 being sequentially connected with rear connecting plate 2; it is fixed with two rear cavities 91 on framed 9 afterwards; each rear cavity 91 is provided with the forming through hole 911 of a forming plastic cement part 10a helical gear 2a part; the inner peripheral surface of forming through hole 911 is provided with helical teeth groove, a described shaping groove 51 on one end linking front mold slide 5 of the forming through hole 911 in each rear cavity 91；

Mode slider 92 after being also equipped with four on framed 9 afterwards, before be connected on framed 4 three the second drive blocks 93 match with mode slider 92 after four to drive four after mode slider 92 move towards between two, it is specially, the rear mode slider 92 that the second drive block 93 mediated mediates with two simultaneously match merge simultaneously drive two after mode slider 92 move towards, it is in second drive block 93 on both sides to be in the rear mode slider 92 on side respectively with one and match to merge and drive the rear mode slider 92 on side to move, be in the rear mode slider 92 on side with one mediated after mode slider 92 can move towards；Two the second drive blocks 93 being in both sides are respectively provided with a driving skewed slot 931; two the driving skewed slots 931 being on two second drive blocks 93 on both sides are splayed distribution, and after being in two of side, mode slider 92 is respectively provided with protruding 922 cooperations of driving on a driving skewed slot 931；The both sides of the second drive block 93 mediated are respectively provided with one and drive skewed slot 931; two of the second drive block 93 both sides mediated drive skewed slots 931 distribution in herringbone, and after two mediated, mode slider 92 is respectively provided with one and drives protruding 922 to match with a driving skewed slot 931.

Two rear cavities 91 are between front mold slide 5 and rear mode slider 92; after each two, mode slider 92 side in opposite directions is respectively provided with second shaping groove 921; second shaping groove 921 is connected the forming through hole 911 in rear cavity 91; the middle part of described second shaping groove 921 is provided with depressed area 9211, in order to the shoulder 3a part of forming plastic cement part 10a further.

nullDescribed material jacking mechanism 8 includes two ejector beams 81 and two contiguous blocks 82 of be connected rear framed 9 and rear connecting plate 2，Equipped with moveable base 83 between two contiguous blocks 82，Base 83 is combined by two boards part，Forming through hole 911 in the corresponding rear cavity 91 in every ejector beam 81 one end and being between two described second shaping grooves 921，The other end of every ejector beam 81 is connected on base 83 in the axial restraint rotating mode of circumference，Every ejector beam 81 is connected on base 83 by a plane bearing and a cylindrical bearing，Rear connecting plate 2 is provided with the corresponding described base 83 of through hole 21 of stepping down，Through hole 21 of stepping down can enable the top rod of injection machine drive base 83 to move by through hole 21 of stepping down，Base 83 is additionally provided with a driving head 831 match with the top rod of injection machine.

Being fixed with two guide pads 94 on described rear framed 9, each guide pad 94 is provided with a pilot hole allows one end of an ejector beam 81 pass.

Described base 83 and afterwards between framed 9 equipped with four the second stage clips 84, it is mutually spacing with rear one end of framed 9 that base 83 is installed with two the first limited posts 832 near rear connecting plate 2 side, and it is mutually spacing with rear connecting plate 2 one end that base 83 is installed with eight the second limited posts 833 near rear connecting plate 2 side.

One end of described front insert 7 is extended with a cylinder 72, and this cylinder 72 stretches in the forming through hole 911 of rear cavity 91.Form a shrinkage pool can to plastic cement part 10a by cylinder 72.

Shown in Fig. 3, Fig. 7, also fixed four leads 13 on front connecting plate 1, four leads 13 sequentially pass through stripper plate 3, front framed 4 and afterwards framed 9, it is ensured that the die sinking of front mould 100 and rear mold 200 and the accuracy of die-closed position.

The space that the present embodiment is surrounded by the shaping groove 51 of front mold slide 5, the forming through hole 911 of rear cavity 91, the second shaping groove 921 of rear mode slider 92, front insert 7 and ejector beam 81 forms the die cavity of plastic cement part 10a.

The work process of the present embodiment; after front mould 100 and rear mold 200 matched moulds; as shown in Figure 4; injection machine injects sizing material by the hole for injecting glue 111 of injecting glue connector 11; sizing material through two described injecting glue runners 71 inject by the shaping groove 51 of front mold slide 5, rear cavity 91 forming through hole 911, after two die cavities surrounding of the second shaping groove 921 of mode slider 92, front insert 7 and ejector beam 81, the disposable molding completing two plastic cement part 10a.

Following die sinking; before injection machine drives, connecting plate 1 moves; after a front connecting plate 1 and stripper plate 3 first mobile segment distance; after four the second banking pins 32 touch front framed 4; stripper plate 3 and front framed 4 can not relative motion again, before now, connecting plate 1 drives two the first drive blocks 6 and is further driven to two front mold slide 5 and moves towards and make two front mold slide 5 open；Then before injection machine continues to drive, connecting plate 1 moves a small distance, four the first banking pins 31 touch front connecting plate 1 make front connecting plate 1 and stripper plate 3 can not relative movement, now the stub bar of injecting glue just comes off；Continue to drive front connecting plate 1 to move followed by injection machine; stripper plate 3 is followed together with front framed 4 and is stopped after front connecting plate 1 moves into place; before now, framed 4 drive three the second drive blocks 93 to move; after three the second drive blocks 93 drive four, mode slider 92 moves towards between two, and after four, mode slider 92 is opened；Followed by, the top rod of injection machine is by driving head 831 top pressure base 83, base 83 framed 4 one side shiftings forward also drive two ejector beams 81 to move, and two ejector beams 81 just drive two plastic cement part 10a to move while rotate two rear cavities 91 of disengaging, it is achieved automatic material separator.Followed by each reset matched moulds, enter next work cycle.

Below being only one preferred embodiment of this utility model, those skilled in the art does equivalent change by claim and both falls within the protection domain of this case.

Claims (10)

1. energy injection moulding is simultaneous with the mould of external screw thread and helical gear plastic cement part, including front connecting plate, rear connecting plate, front connecting plate on one end of rear connecting plate equipped with front mould, rear connecting plate on one end of front connecting plate equipped with rear mold, it is characterised in that:

Stripper plate that described front mould includes being sequentially connected with front connecting plate and front framed, front framed built with two front mold slide, two front mold slide sides in opposite directions are respectively provided with the shaping groove of at least one forming plastic cement part male thread portion, stripper plate is installed with two the first drive blocks, one end of each first drive block is connected on front connecting plate, the other end is provided with drive division and coordinates on a front mold slide, two the first drive blocks drive two front mold slide to move towards, before framed interior fixed insert before at least one, front insert is provided with injecting glue runner, the corresponding described shaping groove in one end of injecting glue runner, the injecting glue runner other end is communicated to outside front connecting plate through stripper plate and front connecting plate；Stripper plate side at least one first banking pin fixed, front connecting plate is provided with the first shoulder hole and the first banking pin matches the disengaging distance that limits stripper plate with front connecting plate, stripper plate opposite side at least one second banking pin fixed, front framed is provided with the second shoulder hole and the second banking pin matches to limit stripper plate and front framed disengaging distance；

Material jacking mechanism that described rear mold includes being sequentially connected with rear connecting plate and rear framed, it is fixed with at least one rear cavity on framed afterwards, rear cavity is provided with the forming through hole of forming plastic cement part helical gear part, the inner peripheral surface of forming through hole is provided with helical teeth groove, described shaping groove on one end linking front mold slide of forming through hole, described material jacking mechanism includes at least one ejector beam and two contiguous blocks of the rear framed and rear connecting plate that is connected, equipped with moveable base between two contiguous blocks, forming through hole in the correspondence rear cavity of ejector beam one end, the other end of ejector beam is connected on base in the axial restraint rotating mode of circumference, rear connecting plate is provided with the corresponding described base of through hole of stepping down.

2. a kind of energy according to claim 1 injection moulding is simultaneous with the mould of external screw thread and helical gear plastic cement part; it is characterized in that: on framed after described, be also equipped with mode slider after at least two; before after mode slider matches to drive two after framed connected at least two the second drive block and two mode slider move towards; rear cavity is between front mold slide and rear mode slider; after two, mode slider side in opposite directions is respectively provided with second shaping groove; forming through hole in second shaping groove linking rear cavity, ejector beam one end is between two described second shaping grooves.

3. a kind of energy according to claim 2 injection moulding is simultaneous with the mould of external screw thread and helical gear plastic cement part; it is characterized in that: said two front mold slide side in opposite directions is respectively provided with the shaping groove of two forming plastic cement part male thread portions; front framed interior fixed two front inserts, the corresponding described shaping groove in one end of the injecting glue runner in each front insert；

It is fixed with two rear cavities, a described shaping groove on one end linking front mold slide of the forming through hole in each rear cavity on framed afterwards；

After described framed on equipped with mode slider after four; front framed upper three the second drive blocks that are connected; after the rear mode slider that the second drive block mediated mediates with two simultaneously matches and simultaneously drives two, mode slider moves towards; be in second drive block on both sides to be in the rear mode slider on side respectively with one and match and drive the rear mode slider on side to move so that be in the rear mode slider on side with one mediated after mode slider can move towards；

Described material jacking mechanism includes two ejector beams, and one end of every ejector beam is between two described second shaping grooves.

4. a kind of energy according to claim 3 injection moulding is simultaneous with the mould of external screw thread and helical gear plastic cement part; it is characterized in that: two the second drive blocks being in both sides are respectively provided with a driving skewed slot; being in two on two second drive blocks on both sides driving skewed slots is splayed distribution, and after being in two of side, mode slider is respectively provided with a driving male cooperation on a driving skewed slot；The both sides of the second drive block mediated are respectively provided with one and drive skewed slot; two of the second drive block both sides mediated drive skewed slots be herringbone distribution, and after two mediated, mode slider is also respectively provided with one and drives and protruding match with a driving skewed slot.

5. a kind of energy according to claim 1 injection moulding is simultaneous with the mould of external screw thread and helical gear plastic cement part, it is characterised in that: one end of described front insert is extended with a cylinder, and this cylinder stretches in the forming through hole of rear cavity.

6. a kind of energy according to claim 1 injection moulding is simultaneous with the mould of external screw thread and helical gear plastic cement part, it is characterised in that: being fixed with at least one guide pad on framed after described, guide pad is provided with pilot hole and passes by one end of ejector beam.

7. a kind of energy according to claim 1 injection moulding is simultaneous with the mould of external screw thread and helical gear plastic cement part; it is characterized in that: two front mold slide are respectively provided with one and drive through hole to match with the drive division of first drive block respectively; the horizontal junction driving through hole on two front mold slide is splayed distribution, and the drive division of two the first drive blocks is also arranged in splayed.

8. a kind of energy according to claim 7 injection moulding is simultaneous with the mould of external screw thread and helical gear plastic cement part; it is characterized in that: described front framed both sides are respectively installed with an adjusting screw rod; the connected front mold slide in one end of every adjusting screw rod, the other end are in front framed outer and are cased with first stage clip, and the first stage clip applies the power being displaced outwardly by adjusting screw rod to front mold slide.

9. a kind of energy according to claim 8 injection moulding is simultaneous with the mould of external screw thread and helical gear plastic cement part, it is characterized in that: be also rotary with an adjusting nut on described adjusting screw rod, first stage clip one end withstands on adjusting nut, the other end withstands on front framed lateral surface.

10. a kind of energy injection moulding according to any one of claim 1 to 9 is simultaneous with the mould of external screw thread and helical gear plastic cement part, it is characterized in that: described base and be provided with multiple second stage clip between framed afterwards, it is mutually spacing with rear framed one end that base is installed with the first limited post near rear connecting plate side, and it is mutually spacing with rear connecting plate one end that base is installed with the second limited post near rear connecting plate side.