CN207522949U - A kind of molding machine - Google Patents

Abstract

The utility model is related to a kind of die apparatus,Disclose a kind of molding machine,Solve the problems, such as that existing production efficiency is slow,A kind of molding machine includes rack,Cavity plate and punch-pin,Several sliding bars have been horizontally set in rack,The punch-pin is arranged on sliding bar and passes through a press moulding mechanism drives edge sliding bar and moves forward and backward and coordinate in sliding process with cavity plate,The both sides of the cavity plate along its length are rotatably connected to a sliding seat being arranged on sliding bar by rotation axis respectively,The cavity plate offers the groove for placing mold along its width direction both sides respectively,The driving mechanism that a driving cavity plate circumferentially rotates is provided on the sliding seat,A driving member that driving cavity plate moves forward and backward and specific punch side is abutted with rack in displacement process is provided in the rack,It is toggled with cavity plate and carries out mold processing,The advantages of improving production efficiency.

Description

A kind of molding machine

Technical field

The utility model is related to a kind of die apparatus, more particularly to a kind of molding machine.

Background technology

EPP is the abbreviation of expanded polypropylene (Expandedpolypropylene), is a kind of letter of novel foamed plastic Claim.EPP light specific gravities, good, the antidetonation resistance to compression of elasticity, Recovery is high, absorbent properties are good, oil resistant, acidproof, alkaline-resisting, resistance to variousization Learn solvent, do not absorb water, insulate, heat-resisting (- 40~130 DEG C), it is non-toxic and tasteless, can 100% recycle and performance almost do not drop It is low, it is real environmentally friendly foamed plastics.EPP moulding process includes prefoam, molding and drying etc..Molding is will to foam EPP beads afterwards are molded as various EPP products of different shapes in molding machine.Molding machine includes cavity plate and punch-pin, and cavity plate is solid It is scheduled in rack, slot is provided on cavity plate, there is convex body on punch-pin, punch-pin is driven by press moulding mechanism and moved relative to cavity plate, works as punch-pin After being combined with cavity plate, bead is sprayed into through spray gun in the groove of cavity plate, under punch-pin pressing and heat effect, forms EPP Cystosepiment；Generally there are be not easy to take out from cavity plate after EPP foam sheet metal forming for molding machine in existing.

Publication No. CN106273199A, the applying date disclose a kind of EPP moldings in August, 2016 Chinese patent of 17 days Machine, including rack, cavity plate, punch-pin, press moulding mechanism and shedding mechanism, shedding mechanism includes push plate, push rod and driving member, cavity plate Counter sink is inside offered, push plate is set in counter sink, and push rod one end is connect across counter sink with push plate, the other end and driving member Connection pushes push rod so that push plate to be driven to move forward and backward by driving member, consequently facilitating by the EPP foam plate dismounting in cavity plate, Improve its production efficiency.

It is in place of the deficiencies in the prior art, after one piece of foam sheet metal forming, whole equipment need to be stopped, it will be in cavity plate Cystosepiment take out after, the processing work of next block of cystosepiment can be continued, influence its production efficiency.

Utility model content

The purpose of this utility model is to provide a kind of molding machine, and there is cavity plate to toggle and carry out mold processing, improve life The advantages of producing efficiency.

The above-mentioned technical purpose of the utility model technical scheme is that：

A kind of molding machine including rack, cavity plate and punch-pin, has been horizontally set with several sliding bars in rack, the punch-pin is worn In on sliding bar and pass through a press moulding mechanism drives edge sliding bar move forward and backward and in sliding process with cavity plate coordinate, it is described recessed The both sides of mould along its length are rotatably connected to a sliding seat being arranged on sliding bar, the cavity plate by rotation axis respectively The groove for placing mold is offered respectively along its width direction both sides, and driving cavity plate circumferential direction is provided on the sliding seat The driving mechanism of rotation, be provided in the rack driving cavity plate move forward and backward and in displacement process specific punch side with The driving member that rack abuts.

Using the above structure, driving member is first passed through to abut cavity plate driving side, then drive by press moulding mechanism with rack Punch-pin is abutted towards one Slideslip of cavity plate and with cavity plate, and mold is made to molding in groove, and support is played to cavity plate by rack The stability of mold work is strengthened in effect；After the completion of mold, press moulding mechanism drives punch-pin to be moved far from cavity plate side, passes simultaneously Recessed moved towards punch-pin side of moving part driving reserves gap, and then driving mechanism driving cavity plate is overturn with respect to sliding seat between rack 180 degree, its another groove is made to coordinate with punch-pin and continues mold molding in groove can be taken while mold work Go out, can successively carry out mold work, improve its production efficiency.

Further preferably：The driving member is set as the hydraulic cylinder being arranged in parallel with sliding bar length direction one, described Hydraulic cylinder one end is fixed with rack, and telescopic shaft is fixedly connected with the sliding seat.

Using the above structure, by the telescopic action power of the telescopic shaft of hydraulic cylinder one, pole length side is slided on driving cavity plate edge To the work that slidably reciprocates, make it in injection process, cavity plate side is abutted with rack, enhances the stability of cavity plate and punch-pin.

Further preferably：The driving mechanism includes the driving motor being fixed on sliding seat, the driving motor Output shaft is coaxially fixed with rotation axis.

Using the above structure, rotation axis is driven to rotate by driving motor, so as to fulfill overturning of the cavity plate with respect to sliding seat Movement toggles its cavity plate grooves on two sides and carries out mold work.

Further preferably：The driving mechanism includes being fixed on driving motor on sliding seat, defeated with driving motor The fixed gear one of shaft, with the fixed gear two of rotation axis and coiling on gear one and gear two and with gear one The transmission belt engaged with gear two.

Using the above structure, it is rotated by driving motor band moving gear one, in nibbling for transmission belt and gear one and gear two Under joint force, circumferentially rotating with moving gear two and rotation axis so as to fulfill flip-flop movement of the cavity plate with respect to sliding seat, makes The groove of its cavity plate both sides, which toggles, carries out mold work；By the cushioning effect power by transmission belt, driving motor is reduced The damage that output shaft is subject to.

Further preferably：Cam, one end and the sliding seat that the driving mechanism includes being fixed in rotation axis are hingedly stretched Contracting axis and the hinged hydraulic cylinder two of cam, the telescopic shaft of the hydraulic cylinder two are located at a side surface of the cam with respect to sliding seat.

Using the above structure, it is rotatablely connected respectively with sliding seat and cam by two both sides of hydraulic cylinder, makes its hydraulic cylinder Driving cam does 180 ° of reciprocating rotations in two telescopic shaft telescopic process, so as to be turned over by rotation axis with cavity plate is driven to carry out 180 ° Turn, toggle the groove of its cavity plate both sides and carry out mold work.

Further preferably：The driving mechanism includes the hydraulic cylinder two being fixed on sliding seat, is fixed in rotation axis Gear two and the driving plate that is fixed on two telescopic shaft of hydraulic cylinder, offer one in the driving plate and be only capable of opposed gear The sliding slot of straight-line displacement offers a tooth socket engaged with gear two on the side of the sliding slot.

Using the above structure, driving plate upper and lower displacement is driven by hydraulic cylinder two, in gear two and driving plate sliding slot side Tooth socket engaging force under, band two rotation of moving gear, so as to drive rotation axis and cavity plate rotation, make the recessed of its cavity plate both sides Slot, which toggles, carries out mold work.

Further preferably：T-block is provided on the side of the driving plate opposing hydraulic cylinder two, is opened on the sliding seat Equipped with the T-slot for only supplying T-block upper and lower displacement.

Using the above structure, it is only capable of along T-slot upper and lower displacement, made above and below its hydraulic cylinder two driving driving plate by T-block During displacement, driving plate movement is more stablized.

In conclusion the utility model has the advantages that：

1st, groove and driving mechanism the driving cavity plate opened up respectively by cavity plate both sides does 180 ° of flip-flop movements, makes its recessed The groove of mould both sides abuts back and forth with punch-pin carries out mold work；Another re-entrant mold internal model tool is taken while one cavity plate mold Go out, can successively be produced, so as to improve its production efficiency；

2nd, cavity plate is driven to slidably reciprocate by driving member, makes it in injection process, abutted, pass through with rack on rear side of cavity plate Rack plays a supporting role to cavity plate, avoids punch-pin excessive to cavity plate impact force, influences overall stability.

Description of the drawings

Fig. 1 is the structure diagram of embodiment one, shows overall structure；

Fig. 2 is the partial structural diagram of embodiment two, shows the connection structure of driving mechanism；

Fig. 3 is the partial structural diagram of embodiment three, shows the connection structure of driving mechanism；

Fig. 4 is the partial structural diagram of example IV, shows the connection structure of driving mechanism；

Fig. 5 is the partial structural diagram of example IV, shows the connection structure of T-block and T-slot.

In figure, 1, rack；2nd, cavity plate；3rd, punch-pin；4th, sliding bar；5th, groove；6th, driving mechanism；61st, driving motor；62、 Gear one；63rd, gear two；64th, transmission belt；65th, hydraulic cylinder two；66th, cam；67th, shaft one；68th, shaft two；69th, driving plate； 610th, tooth socket；611st, sliding slot；612nd, installing plate；7th, sliding seat；8th, rotation axis；9th, hydraulic cylinder one；10th, T-block；11st, T-slot.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

Embodiment 1：A kind of molding machine as shown in Figure 1, including rack 1, cavity plate 2 and punch-pin 3, is fixed with inside rack 1 Several sliding bars 4, sliding bar 4 are symmetrically disposed on 1 width direction both sides of rack, and 3 both sides of punch-pin are arranged on sliding bar 4, cavity plate 2 It is set to rear end on sliding bar 4 to abut with rack 1, the groove 5 for placing mold is offered on cavity plate 2, passes through a press moulding mechanism（Figure In be not shown）Driving punch-pin 3 is moved forward and backward along sliding bar 4 to be coordinated with cavity plate 2, by die casting in formation cystosepiment in groove 5.

The setting of above-mentioned groove 5 there are two being opened in cavity plate 2 towards 3 side of punch-pin and the side of specific punch 3 respectively, and two Be equipped with a sliding seat 7 in sideslip lever 4 respectively, the both sides of cavity plate 2 along its length correspond to be fixed with a rotation axis 8 and Opposite sliding seat 7 is arranged in two sliding seats 7 by rotation axis 8 to circumferentially rotate, and one is further fixed in rack 1 along 1 length of rack The horizontally disposed hydraulic cylinder 1 in direction, the telescopic shaft of hydraulic cylinder 1 pass through mounting base（It is not shown in figure）It is removable with sliding seat 7 Connection is unloaded, the driving mechanism 6 of a driving cavity plate 2 overturning is additionally provided on sliding seat 7；2 rear end of cavity plate is driven by hydraulic cylinder 1 It is connected in rack 1, then punch-pin 3 and cavity plate 2 is coordinated by carry out die casting by press moulding mechanism；The complete mold of die casting it Afterwards, press moulding mechanism driving punch-pin 3 is moved far from 2 side of cavity plate, and hydraulic cylinder 1 drives cavity plate 2 to be moved far from 1 side of rack, into And driving mechanism 6 drives cavity plate 2 to overturn 180 ° with respect to sliding seat 7, switching opposite side groove 5 carries out die casting work with punch-pin 3, such as This working in reciprocating mode.

In the present embodiment, above-mentioned hydraulic cylinder 1 is corresponded to there are two the settings of sliding seat 7, is individually fixed in along 1 width side of rack To both sides.

Above-mentioned driving mechanism 6 uses driving motor 61, and driving motor 61 is fixed on sliding seat 7, driving motor 61 it is defeated Shaft is fixed with a wherein rotation axis 8, and by the rotating force of driving motor 61, driving cavity plate 2 is overturn.

In the present embodiment, above-mentioned cavity plate 2 and 3 position of punch-pin are interchangeable, can connect punch-pin 3 with sliding seat 7, in punch-pin 3 Both sides open up the groove 5 for placing mold, and cavity plate 2 is connect with press moulding mechanism, similary to can be achieved to overturn back and forth continuously to cast Die worker makees.

In the present embodiment, above-mentioned cavity plate 2 can be rotated horizontally along rack 1, also can be along 1 vertical rotary of rack.

Embodiment 2：As illustrated in fig. 1 and 2, the difference lies in above-mentioned driving mechanism 6 includes driving electricity with embodiment 1 Machine 61, gear 1, gear 2 63 and transmission belt 64, driving motor 61 are fixed on sliding seat 7, gear 1 and driving electricity The output shaft of machine 61 is fixed, and gear 2 63 is fixed with one rotation axis 8, and 64 coiling of transmission belt is on gear 1 and gear 2 63 And engaged with gear 1 and gear 2 63, it is rotated with moving gear 1 by driving motor 61, is closed in the transmission of transmission belt 64 Under system, band moving gear 2 63 and rotation axis 8 rotate, so as to fulfill the overturning of cavity plate 2.

Embodiment 3：A kind of molding machine, as shown in figs. 1 and 3, the difference lies in above-mentioned driving mechanisms 6 with embodiment 1 Including hydraulic cylinder 2 65 and cam 66, cam 66 is fixed with one rotation axis 8,2 65 one end of hydraulic cylinder by shaft 1 with Sliding seat 7 is rotatablely connected, and installing plate 612 is fixed on telescopic shaft one end, and installing plate 612 is set to cam 66 with respect to sliding seat 7 One end simultaneously passes through the rotation connection that shaft 2 68 realizes installing plate 612 and cam 66；In the present embodiment, telescopic shaft outer diameter is not towards mistake 612 thickness of installing plate, by 66 reciprocal 180 ° of rotations of telescopic drive cam of hydraulic cylinder 2 65, so as to fulfill the overturning of cavity plate 2.

Embodiment 4：A kind of molding machine, as shown in figs. 1 and 4, the difference lies in above-mentioned driving mechanisms 6 with embodiment 1 Including hydraulic cylinder 2 65, gear 2 63 and driving plate 69, hydraulic cylinder 2 65 is fixed on 7 side wall of sliding seat vertically, gear two 63 are fixed in one rotation axis 8, and the telescopic shaft of driving plate 69 and hydraulic cylinder 2 65 is fixed and offers one on gear 2 63 The sliding slot 611 of bottom offset, 611 side of sliding slot offer the tooth socket 610 engaged with gear 2 63, are driven and driven by hydraulic cylinder 2 65 69 upper and lower displacement of movable plate, under the engaging force of tooth socket 610 and gear 2 63,2 63 rotation of drive gear, and then with turn Moving axis 8 and 2 rotation of cavity plate, mold work is carried out so as to fulfill grooves on two sides 5 back and forth.

In the present embodiment, the telescopic shaft of hydraulic cylinder 2 65 passes through bolt（It is not shown in figure）Detachably connect with driving plate 69 It connects.

With reference to Figure 4 and 5, T-block 10 is fixed on the side of above-mentioned 69 opposing hydraulic cylinder 2 65 of driving plate, T-block 10 is set Two pieces of both sides for being respectively arranged at 69 width direction of driving plate are equipped with, offer two on sliding seat 7 vertically respectively in T-block 10 The T-slot 11 of bottom offset.

In the present embodiment, 11 lower end of T-slot offers the link slot communicated with 7 surface of sliding seat, and T-block 10 is along link slot It inside enters in T-slot 11.

This specific embodiment is only explanation to the utility model, is not the limitation to the utility model, ability Field technique personnel can as needed make the present embodiment the modification of no creative contribution after this specification is read, but As long as within the protection scope of the present utility model all protected by Patent Law.

Claims (7)

1. including rack (1), cavity plate (2) and punch-pin (3), several sliding bars (4) have been horizontally set in rack (1) for a kind of molding machine, The punch-pin (3) is arranged on sliding bar (4) and passes through a press moulding mechanism drives edge sliding bar (4) and moves forward and backward and sliding Coordinate in journey with cavity plate (2), it is characterized in that：The both sides of the cavity plate (2) along its length are rotated respectively by rotation axis (8) A sliding seat (7) being arranged on sliding bar (4) is connected with, the cavity plate (2) opens up useful respectively along its width direction both sides In the groove (5) for placing mold, the driving mechanism (6) that a driving cavity plate (2) circumferentially rotates is provided on the sliding seat (7), A driving cavity plate (2) is provided on the rack (1) to move forward and backward and specific punch (3) side and rack in displacement process (1) driving member abutted.

2. a kind of molding machine according to claim 1, it is characterized in that：The driving member is set as and sliding bar (4) length The hydraulic cylinder one (9) that direction flushes, hydraulic cylinder one (9) end and rack (1) are fixed, and telescopic shaft is fixed with sliding seat (7) connects It connects.

3. a kind of molding machine according to claim 1, it is characterized in that：The driving mechanism (6) is including being fixed on sliding seat (7) driving motor (61) on, the output shaft and rotation axis (8) of the driving motor (61) are coaxial fixed.

4. a kind of molding machine according to claim 1, it is characterized in that：The driving mechanism (6) is including being fixed on sliding seat (7) driving motor (61) on, with the fixed gear one (62) of output shaft of driving motor (61), fixed with rotation axis (8) Gear two (63) and coiling are engaged on gear one (62) and gear two (63) and with gear one (62) and gear two (63) Transmission belt (64).

5. a kind of molding machine according to claim 1, it is characterized in that：The driving mechanism (6) is including being fixed on rotation axis (8) cam (66), one end and sliding seat (7) articulated telescopic axis and the hinged hydraulic cylinder two (65) of cam (66) on, the liquid The telescopic shaft of cylinder pressure two (65) is located at a side surface of the cam (66) with respect to sliding seat (7).

6. a kind of molding machine according to claim 1, it is characterized in that：The driving mechanism (6) is including being fixed on sliding seat (7) hydraulic cylinder two (65) on, the gear two (63) being fixed in rotation axis (8) and to be fixed on hydraulic cylinder two (65) flexible Driving plate (69) on axis offers a sliding slot (611) for being only capable of opposed gear straight-line displacement on the driving plate (69), described A tooth socket engaged with gear two (63) (610) is offered on the side of sliding slot (611).

7. a kind of molding machine according to claim 6, it is characterized in that：Driving plate (69) the opposing hydraulic cylinder two (65) T-block (10) is provided on side, the T-slot (11) for only supplying T-block (10) upper and lower displacement is offered on the sliding seat (7).