CN110000998A - A kind of molding device of engineering plastics - Google Patents

Abstract

The present invention relates to engineering plastics fields, are more specifically a kind of engineering plastics molding devices, can be may be implemented with transport device to waste and old engineering plastics particulate transportation；Thermoplastic solution can be kept the temperature, be filtered and injection process by priming device；Waste and old engineering plastics particle can be evenly heated by smelting apparatus, cover half can be carried out to thermoplastic solution by molding device by forming thermoplastic solution, including transport device, priming device, molding device and smelting apparatus, it is moved and is transmitted by travelling belt one, travelling belt two and travelling belt three, can completed to needing melting engineering plastics particulate transportation；When thermoplastic solution passes through filter hole and connecting hole, so that being greater than filter hole and connecting hole aperture particle residence on the upside of filter hole and connecting hole, simple filtration process is played；Thermoplastic solution is transported by fluid injection helical-blade, flows through injection molding pipe process under the effect of gravity in thermoplastic solution relative to tradition, thermoplastic solution flow velocity is slowly and uniform.

Description

A kind of molding device of engineering plastics

Technical field

The present invention relates to engineering plastics fields, are in particular a kind of molding devices of engineering plastics.

Background technique

Waste and old engineering plastics be easy to cause serious environmental pollution during processing, so can be right by molding process Waste and old engineering plastics are recycled, and the molding device of general engineering plastics can only carry out mold, and function is relatively simple.

Summary of the invention

The object of the present invention is to provide a kind of molding devices of engineering plastics, can be may be implemented with transport device to waste and old The transport of engineering plastics particle；Thermoplastic solution can be kept the temperature, be filtered and injection process by priming device；It is filled by melting Waste and old engineering plastics particle can be evenly heated by setting, formed thermoplastic solution can by molding device to thermoplastic solution into Row cover half.

The purpose of the present invention is achieved through the following technical solutions:

A kind of molding device of engineering thermoplastic material, including transport device, priming device, molding device and smelting apparatus, The transport device include chassis, bracket, connection boss, middle-end connecting rod, upper end bracket, rotary rollers one, rotary rollers two, Rotary rollers three, rotary rollers four, drive pulley one, transport motor, input belt wheel, travelling belt one, travelling belt two, transport Belt three and transmission belt, the bracket are fixedly connected with chassis, and connection boss is fixedly connected with chassis, middle-end connecting rod and bracket It is fixedly connected, upper end bracket is fixedly connected with middle-end connecting rod, and rotary rollers one and rotary rollers two and upper end holder pivots connect It connects, rotary rollers three and rotary rollers four are connect with holder pivots, and drive pulley one is fixedly connected with rotary rollers four, transport electricity Machine is fixedly connected with chassis, input belt wheel be fixedly connected on transport motor output shaft on, transmission belt be connected to input belt wheel and Between drive pulley one, travelling belt three is connected between rotary rollers one and rotary rollers two, and travelling belt two, which is connected to, to be turned Between dynamic roller two and rotary rollers four, travelling belt one is connected between rotary rollers three and rotary rollers four；

The priming device includes fluid injection outline border, filtration combination body, middle-end screw rod, pressing push rod, pressing push spring, pressing Slide bar, buffering slide bar, fluid injection motor, fluid injection rotating belt, middle-end transmission cone tooth, transmission cone tooth one, input bull stick, connection are logical Hole, fluid injection chamber outline border, fluid injection helical-blade, buffer ferrule, buffering push spring one, buffering push spring two, interior middle-end slide bar, filtering slide bar, Interior middle-end push spring, inner underside fixed link, filter hole, interior push spring two, interior slide bar connecting rod, inner wall slide bar, interior push spring three, interior push spring Four, outside middle-end convex outline border, connecting hole, convex outline border slide bar, middle-end closed rod and closed rod push spring, filtration combination body and fluid injection Frame is slidably connected, and middle-end screw rod and fluid injection outline border are rotatablely connected, and pressing push rod is slidably connected with fluid injection outline border, press push spring and Pressing pushing rod sleeve connects in succession, and pressing slide bar is slidably connected with pressing push rod, and pressing slide bar is slidably connected with fluid injection outline border, snubber slide Bar and fluid injection outline border are articulated and connected, and fluid injection motor is fixedly connected with fluid injection outline border, and it is defeated that fluid injection rotating belt is connected to fluid injection motor Between shaft and pressing push rod, middle-end transmission cone tooth is provided with multiple, and multiple middle-ends transmission cone teeth are fixedly connected in middle-end spiral shell On spinner handle, transmission cone tooth one is fixedly connected with input bull stick, and input bull stick and fluid injection outline border are rotatablely connected, and connection through-hole setting exists Fluid injection outline border inner end, connection through-hole connection connection through-hole and fluid injection chamber outline border, fluid injection helical-blade are fixedly connected with input bull stick, delay Casing and pressing slide bar articulated connection are rushed, buffer ferrule is slidably connected with buffering slide bar, and buffering push spring one and buffering push spring two are equal It is arranged in buffer ferrule, buffering push spring one and buffering push spring two are separately positioned on buffering slide bar two sides, filtering slide bar and interior middle-end Sliding bar connection, interior middle-end push spring connect in succession with interior middle-end jack rod sleeve, and filter hole is arranged on interior slide bar connecting rod, inner wall slide bar It is connected between filtering slide bar and interior slide bar connecting rod, interior push spring three is socketed on inner wall slide bar, and interior push spring two and interior push spring four are divided She Zhi not be in filtering slide bar and interior slide bar connecting rod, middle-end convex outline border is fixedly connected with inner underside fixed link, connecting hole setting On middle-end convex outline border, convex outline border slide bar is fixedly connected with middle-end convex outline border, middle-end closed rod and convex outline border slide bar It is slidably connected, closed rod push spring connects in succession with convex outline border jack rod sleeve, and inner underside fixed link is fixedly connected on the interior of fluid injection outline border On wall；

The molding device includes downside fixed link, inner end push spring, inner end slide bar three, side walls hinged bar, connection slide bar, connects Female connector pipe and inner end push spring four, inner end push spring and the socket of downside fixed link connect, and inner end slide bar three and the sliding of downside fixed link connect Connect, side walls hinged bar and downside fixed link are articulated and connected, and connection slide bar and side walls hinged bar are articulated and connected, connection slide bar with connect Cannula slide connection, between connection slide bar and connecting sleeve, the lower end of connecting sleeve is hingedly connected to the setting of inner end push spring four In the fixed link of downside, downside fixed link is fixedly connected on connection boss；

The smelting apparatus includes melting outline border, closure flap, angle adjustment device, rotary electric machine, input cone tooth, transmission Bore tooth, drive rod, melting sleeve, middle-end boss, downside closed rod, drive sleeve tooth, closure flap ontology, adding thermal resistance, arc Sliding slot, arc slide bar, arc push spring, cover board slide bar, inner end push plate four, inner end push spring four, middle-end fixed frame, connecting rod, closure Slide bar, middle-end arc chute, closure slide bar shield, interior middle-end casing, interior middle-end rotary column, fixed rotating plate, connecting column, inner cavity, card Dynamic boss one blocks dynamic boss two, sliding kelly, kelly slide bar, kelly slide bar push spring, side wall bar, side wall rectangle sliding slot, sliding tooth Wheel, downside fixed plate, buffer ferrule two, downside arc kelly, kelly hinge bar, card slot, middle-end fixed link, delays driving bull stick Slide bar two and buffering push spring A are rushed, input cone tooth is fixedly connected on the output shaft of rotary electric machine, and input cone tooth is nibbled with transmission cone tooth Transmission is closed, drive rod is fixedly connected on transmission cone tooth, and angle adjustment device is fixedly connected on the side wall of melting outline border, middle-end Boss is fixedly connected on the middle-end of melting sleeve outer wall, and drive sleeve tooth is fixedly connected on the upper end of melting sleeve outer wall, and downside is closed The lower end that bar is fixedly connected on melting sleeve is closed, the upper surface of melting sleeve is arranged in arc chute, and adding thermal resistance is provided with more A, multiple adding thermal resistances are uniformly arranged on the inner wall of melting sleeve, and arc slide bar is fixedly connected on the inner end of arc chute, arc The socket of shape push spring is connected on arc slide bar, and cover board slide bar is fixedly connected on closure flap ontology, the setting of closure flap ontology There are two, two cover board slide bars are slidably connected on arc slide bar, and the socket of inner end push spring four is connected under inner end push plate four End, inner end push plate four are slidably connected with middle-end fixed frame, and middle-end fixed frame is fixedly connected on the middle-end of downside closed rod, connecting rod It is connected between inner end push plate four and closure slide bar, the middle-end of middle-end fixed frame, inner end push plate four is arranged in middle-end arc chute Lower gap be cooperatively connected in middle-end arc chute, closure slide bar shield be fixedly connected on downside closed rod lower end, close It closes slide bar to be slidably connected with closure slide bar shield, interior middle-end rotary column is fixedly connected with interior middle-end casing, connecting column and interior middle end cap Pipe is fixedly connected, and connecting column is connect with fixed rotating plate clearance fit, and the inner end of fixed rotating plate is arranged in inner cavity, blocks dynamic one He of boss Block dynamic boss two and be arranged at interior intracavitary, sliding kelly and blocks the dynamic clamping of boss two and connect, kelly slide bar and connecting column is fixed connects It connects, kelly slide bar push spring connects in succession with kelly jack rod sleeve, and sliding kelly is connect with kelly sliding bar, and side wall bar and connecting column are solid Fixed connection, side wall rectangle sliding slot are arranged in side wall bar, and fixed rotating plate is fixedly connected on the outer wall of melting outline border, drive gear It is fixedly connected with driving bull stick, driving bull stick is connect by cross axle with drive rod, and interior middle-end rotary column and the rotation of melting outline border connect It connects, middle-end boss and interior middle-end casing are rotatablely connected, and downside fixed plate is fixedly connected on the lower end of melting outline border, kelly hinge bar It is fixedly connected with melting outline border, downside arc kelly and kelly hinge bar are articulated and connected, and buffer ferrule two and melting outline border are hinged Connection, card slot are arranged on melting outline border, and middle-end fixed link is fixedly connected with melting outline border, buffer ferrule two and buffering slide bar two It is slidably connected, between buffer ferrule two and buffering slide bar two, downside fixed plate is fixedly connected on chassis for buffering push spring A setting On, driving gear and drive sleeve tooth engagement are driven, and the upper end of melting sleeve is connected in card slot, downside arc kelly and melting set Cylinder clamping connection.

As advanced optimizing for the technical program, a kind of molding device of engineering plastics of the present invention, the closed rod is pushed away Spring is in compressive state.

As advanced optimizing for the technical program, a kind of molding device of engineering plastics of the present invention, the inner end push spring Compressive state is in inner end push spring four.

As advanced optimizing for the technical program, a kind of molding device of engineering plastics of the present invention, the inner end push plate Multiple through-holes are provided on four.

As advanced optimizing for the technical program, a kind of molding device of engineering plastics of the present invention, the kelly slide bar Push spring is in compressive state.

As advanced optimizing for the technical program, a kind of molding device of engineering plastics of the present invention, the fluid injection outline border Inner wall in be provided with resistive heater.

A kind of molding device of engineering plastics of the invention has the beneficial effect that

A kind of molding device of engineering plastics of the present invention, is transported by travelling belt one, travelling belt two and travelling belt three Dynamic transmitting, can complete the transport to the engineering plastics particle for needing melting；When thermoplastic solution passes through filter hole and connecting hole, make It obtains greater than the particle residence in filter hole and connecting hole aperture in the upside of filter hole and connecting hole, plays simple filter process； Transport by fluid injection helical-blade to thermoplastic solution flows through injection molding pipeline in thermoplastic solution relative to traditional under the effect of gravity Process, the flow velocity of thermoplastic solution is slowly and uniformly；It is carried out by side walls hinged bar in molding device and inner end slide bar three Cavity realize to the cover half of thermoplastic solution, complete molding history；By the rolling of melting sleeve, so that the heat in melting sleeve Modeling solution can be merged preferably, prevent adding thermal resistance from heating non-uniform situation to thermoplastic solution.

Detailed description of the invention

The present invention will be further described in detail with specific implementation method with reference to the accompanying drawing.

Fig. 1 is a kind of overall structure diagram of the molding device of engineering plastics of the present invention；

Fig. 2 is a kind of transport device structural schematic diagram one of the molding device of engineering plastics of the present invention；

Fig. 3 is a kind of priming device structural schematic diagram two of the molding device of engineering plastics of the present invention；

Fig. 4 is a kind of priming device structural schematic diagram three of the molding device of engineering plastics of the present invention；

Fig. 5 is a kind of priming device structural schematic diagram four of the molding device of engineering plastics of the present invention；

Fig. 6 is a kind of priming device structural schematic diagram five of the molding device of engineering plastics of the present invention；

Fig. 7 is a kind of priming device structural schematic diagram six of the molding device of engineering plastics of the present invention；

Fig. 8 is a kind of priming device structural schematic diagram seven of the molding device of engineering plastics of the present invention；

Fig. 9 is a kind of molding device structural schematic diagram of the molding device of engineering plastics of the present invention；

Figure 10 is a kind of smelting apparatus structural schematic diagram one of the molding device of engineering plastics of the present invention；

Figure 11 is a kind of smelting apparatus structural schematic diagram two of the molding device of engineering plastics of the present invention；

Figure 12 is a kind of smelting apparatus structural schematic diagram three of the molding device of engineering plastics of the present invention；

Figure 13 is a kind of smelting apparatus structural schematic diagram four of the molding device of engineering plastics of the present invention；

Figure 14 is a kind of smelting apparatus structural schematic diagram five of the molding device of engineering plastics of the present invention；

Figure 15 is a kind of smelting apparatus structural schematic diagram six of the molding device of engineering plastics of the present invention；

Figure 16 is a kind of smelting apparatus structural schematic diagram seven of the molding device of engineering plastics of the present invention；

Figure 17 is a kind of smelting apparatus structural schematic diagram eight of the molding device of engineering plastics of the present invention；

Figure 18 is a kind of smelting apparatus structural schematic diagram nine of the molding device of engineering plastics of the present invention；

Figure 19 is a kind of smelting apparatus structural schematic diagram ten of the molding device of engineering plastics of the present invention；

Figure 20 is a kind of smelting apparatus structural schematic diagram 11 of the molding device of engineering plastics of the present invention；

Figure 21 is a kind of smelting apparatus structural schematic diagram 12 of the molding device of engineering plastics of the present invention；

Figure 22 is a kind of smelting apparatus structural schematic diagram 13 of the molding device of engineering plastics of the present invention；

Figure 23 is a kind of smelting apparatus structural schematic diagram 14 of the molding device of engineering plastics of the present invention；

Figure 24 is a kind of smelting apparatus structural schematic diagram 15 of the molding device of engineering plastics of the present invention；

Figure 25 is a kind of smelting apparatus structural schematic diagram 16 of the molding device of engineering plastics of the present invention；

Figure 26 is a kind of smelting apparatus structural schematic diagram 17 of the molding device of engineering plastics of the present invention；

Figure 27 is a kind of smelting apparatus structural schematic diagram 18 of the molding device of engineering plastics of the present invention；

Figure 28 is a kind of smelting apparatus structural schematic diagram 19 of the molding device of engineering plastics of the present invention.

In figure: transport device 1；Chassis 1-1；Bracket 1-2；Connect boss 1-3；Middle-end connecting rod 1-4；Upper end bracket 1-5； One 1-6 of rotary rollers；Two 1-7 of rotary rollers；Three 1-8 of rotary rollers；Four 1-9 of rotary rollers；One 1-10 of drive pulley；Transport electricity Machine 1-11；Input belt wheel 1-12；One 1-13 of travelling belt；Two 1-14 of travelling belt；Three 1-15 of travelling belt；Transmission belt 1-16； Priming device 2；Fluid injection outline border 2-1；Filtration combination body 2-2；Middle-end screw rod 2-3；Press push rod 2-4；Press push spring 2-5；It presses Press slide bar 2-6；Buffer slide bar 2-7；Fluid injection motor 2-8；Fluid injection rotating belt 2-9；Middle-end transmission cone tooth 2-10；Transmission cone tooth one 2-11；Input bull stick 2-12；It is connected to through-hole 2-13；Fluid injection chamber outline border 2-14；Fluid injection helical-blade 2-15；Buffer ferrule 2-16；It is slow Rush one 2-17 of push spring；Buffer two 2-18 of push spring；Interior middle-end slide bar 2-19；Filter slide bar 2-20；Interior middle-end push spring 2-21；Inner underside Fixed link 2-22；Filter hole 2-23；Interior two 2-24 of push spring；Interior slide bar connecting rod 2-25；Inner wall slide bar 2-26；Interior three 2-27 of push spring； Interior four 2-28 of push spring；Middle-end convex outline border 2-29；Connecting hole 2-30；Convex outline border slide bar 2-31；Middle-end closed rod 2-32；Closure Bar push spring 2-33；Molding device 3；Downside fixed link 3-1；Inner end push spring 3-2；Three 3-3 of inner end slide bar；Side walls hinged bar 3-4；Even Meet slide bar 3-5；Connecting sleeve 3-6；Four 3-7 of inner end push spring；Smelting apparatus 4；Melting outline border 4-1；Closure flap 4-2；Angle tune Regulating device 4-3；Rotary electric machine 4-4；Input cone tooth 4-5；Transmission cone tooth 4-6；Drive rod 4-7；Melting sleeve 4-8；Middle-end boss 4-9；Downside closed rod 4-10；Drive sleeve tooth 4-11；Closure flap ontology 4-12；Adding thermal resistance 4-13；Arc chute 4-14；Arc Shape slide bar 4-16；Arc push spring 4-17；Cover board slide bar 4-18；Four 4-19 of inner end push plate；Four 4-20 of inner end push spring；Middle-end fixed frame 4-21；Connecting rod 4-22；It is closed slide bar 4-23；Middle-end arc chute 4-24；It is closed slide bar shield 4-25；Interior middle-end casing 4- 26；Interior middle-end rotary column 4-27；Fixed rotating plate 4-28；Connecting column 4-29；Inner cavity 4-30；Block dynamic one 4-31 of boss；Block dynamic boss two 4-32；Slide kelly 4-33；Kelly slide bar 4-34；Kelly slide bar push spring 4-35；Side wall bar 4-36；Side wall rectangle sliding slot 4-37； Drive gear 4-38；Drive bull stick 4-39；Downside fixed plate 4-40；Two 4-41 of buffer ferrule；Downside arc kelly 4-42；Kelly Hinge bar 4-43；Card slot 4-44；Middle-end fixed link 4-45；Buffer two 4-46 of slide bar；Buffer push spring A4-47.

Specific embodiment

The present invention is described in further detail below in conjunction with the accompanying drawings.

It is fixedly connected described in the present apparatus and refers to and be fixed by the modes such as weld, be screwed, in conjunction with different Use environment uses different fixed forms；The rotation connection refers to by drying bearing on axis, on axis or axis hole It is provided with spring catch ring recess, the axial restraint of bearing is realized in circlip groove by the way that circlip to be stuck in, realizes rotation；Described It is slidably connected and refers to and be attached by sliding of the sliding block in sliding slot or guide rail；Described hingedly refers to by hinge, pin Movable connection type is carried out on the union pieces such as axis and short axle；It is close by sealing ring or O-ring realization at required sealing Envelope.

Specific embodiment 1:

Illustrate present embodiment, a kind of molding device of engineering thermoplastic material, including transport device below with reference to Fig. 1-2 8 1, priming device 2, molding device 3 and smelting apparatus 4, the transport device 1 include chassis 1-1, bracket 1-2, connection boss 1- 3, middle-end connecting rod 1-4, upper end bracket 1-5, one 1-6 of rotary rollers, two 1-7 of rotary rollers, three 1-8 of rotary rollers, rotating roller Four 1-9 of son, one 1-10 of drive pulley, transport motor 1-11, input belt wheel 1-12, one 1-13 of travelling belt, two 1- of travelling belt 14, three 1-15 of travelling belt and transmission belt 1-16, the bracket 1-2 are fixedly connected with chassis 1-1, connect boss 1-3 and chassis 1-1 is fixedly connected, and middle-end connecting rod 1-4 is fixedly connected with bracket 1-2, upper end bracket 1-5 and the fixed company of middle-end connecting rod 1-4 It connects, one 1-6 of rotary rollers and two 1-7 of rotary rollers and upper end bracket 1-5 are rotatablely connected, three 1-8 of rotary rollers and rotary rollers Four 1-9 and bracket 1-2 are rotatablely connected, and one 1-10 of drive pulley is fixedly connected with four 1-9 of rotary rollers, transport motor 1-11 and bottom Frame 1-1 is fixedly connected, and input belt wheel 1-12 is fixedly connected on the output shaft of transport motor 1-11, and transmission belt 1-16 is connected to defeated Enter between one 1-10 of belt wheel 1-12 and drive pulley, three 1-15 of travelling belt is connected to one 1-6 of rotary rollers and rotary rollers two Between 1-7, two 1-14 of travelling belt is connected between four 1-9 of two 1-7 of rotary rollers and rotary rollers, and one 1-13 of travelling belt connects It connects between four 1-9 of three 1-8 of rotary rollers and rotary rollers；

It is moved and is transmitted by one 1-13 of travelling belt, two 1-14 of travelling belt and three 1-15 of travelling belt, can completed pair Need the transport of the engineering plastics particle of melting；

The priming device 2 include fluid injection outline border 2-1, filtration combination body 2-2, middle-end screw rod 2-3, pressing push rod 2-4, Press push spring 2-5, pressing slide bar 2-6, buffering slide bar 2-7, fluid injection motor 2-8, fluid injection rotating belt 2-9, middle-end transmission cone tooth 2-10, transmission cone one 2-11 of tooth, input bull stick 2-12, connection through-hole 2-13, fluid injection chamber outline border 2-14, fluid injection helical-blade 2-15, Buffer ferrule 2-16, buffering one 2-17 of push spring, buffering two 2-18 of push spring, interior middle-end slide bar 2-19, filtering slide bar 2-20, interior middle-end Push spring 2-21, inner underside fixed link 2-22, filter hole 2-23, two 2-24 of interior push spring, interior slide bar connecting rod 2-25, inner wall slide bar 2- 26, interior three 2-27 of push spring, four 2-28 of interior push spring, middle-end convex outline border 2-29, connecting hole 2-30, convex outline border slide bar 2-31, in Closed rod 2-32 and closed rod push spring 2-33, filtration combination body 2-2 is held to be slidably connected with fluid injection outline border 2-1, middle-end screw rod 2-3 It is rotatablely connected with fluid injection outline border 2-1, pressing push rod 2-4 and fluid injection outline border 2-1 is slidably connected, pressing push spring 2-5 and pressing push rod 2-4 socket connection, pressing slide bar 2-6 are slidably connected with pressing push rod 2-4, and pressing slide bar 2-6 and fluid injection outline border 2-1 sliding connect It connects, buffering slide bar 2-7 and fluid injection outline border 2-1 are articulated and connected, and fluid injection motor 2-8 is fixedly connected with fluid injection outline border 2-1, fluid injection rotation Belt 2-9 be connected to fluid injection motor 2-8 output shaft and pressing push rod 2-4 between, middle-end transmission cone tooth 2-10 be provided with it is multiple, it is more A middle-end transmission cone tooth 2-10 is fixedly connected on middle-end screw rod 2-3, and transmission cone one 2-11 of tooth and input bull stick 2-12 are solid Fixed connection, input bull stick 2-12 and fluid injection outline border 2-1 are rotatablely connected, and connection through-hole 2-13 setting is in the inner end fluid injection outline border 2-1, even Hole 2-13 connection connection through-hole 2-13 and fluid injection chamber outline border 2-14, fluid injection helical-blade 2-15 and input bull stick 2-12 are fixed and are connected all It connects, buffer ferrule 2-16 and pressing slide bar 2-6 articulated connection, buffer ferrule 2-16 are slidably connected with buffering slide bar 2-7, and buffering pushes away One 2-17 of spring and buffering two 2-18 of push spring are respectively provided in buffer ferrule 2-16, buffer one 2-17 of push spring and two 2-18 of push spring points of buffering Not She Zhi buffering the two sides slide bar 2-7, filtering slide bar 2-20 and interior middle-end slide bar 2-19 be slidably connected, interior middle-end push spring 2-21 and Interior middle-end slide bar 2-19 socket connection, filter hole 2-23 are arranged on interior slide bar connecting rod 2-25, and inner wall slide bar 2-26 was connected to It filters between slide bar 2-20 and interior slide bar connecting rod 2-25, interior three 2-27 of push spring is socketed on inner wall slide bar 2-26, interior two 2-24 of push spring With interior four 2-28 of push spring be separately positioned on filtering slide bar 2-20 and interior slide bar connecting rod 2-25 in, middle-end convex outline border 2-29 and it is interior under Side fixed link 2-22 is fixedly connected, and connecting hole 2-30 is arranged on middle-end convex outline border 2-29, and convex outline border slide bar 2-31 is in End convex outline border 2-29 is fixedly connected, and middle-end closed rod 2-32 is slidably connected with convex outline border slide bar 2-31, closed rod push spring 2- 33 connect with convex outline border slide bar 2-31 socket, and inner underside fixed link 2-22 is fixedly connected on the inner wall of fluid injection outline border 2-1；

When thermoplastic solution passes through filter hole 2-23 and connecting hole 2-30, so that being greater than filter hole 2-23 and the hole connecting hole 2-30 The particle residence of diameter plays simple filter process in the upside of filter hole 2-23 and connecting hole 2-30；Pass through fluid injection helical-blade Transport of the 2-15 to thermoplastic solution, relative to traditional process for flowing through injection molding pipeline under the effect of gravity in thermoplastic solution, heat The flow velocity for moulding solution is slowly and uniform；

The molding device 3 includes downside fixed link 3-1, inner end push spring 3-2, three 3-3 of inner end slide bar, side walls hinged bar 3- 4, slide bar 3-5, connecting sleeve 3-6 and inner end push spring four 3-7, inner end push spring 3-2 and downside fixed link 3-1 socket connection are connected, Slide bar three 3-3 in inner end is slidably connected with downside fixed link 3-1, and side walls hinged bar 3-4 and downside fixed link 3-1 are articulated and connected, even It meets slide bar 3-5 and side walls hinged bar 3-4 to be articulated and connected, connection slide bar 3-5 and connecting sleeve 3-6 is slidably connected, inner end push spring four Between connection slide bar 3-5 and connecting sleeve 3-6, the lower end of connecting sleeve 3-6 is hingedly connected to downside fixed link 3- for 3-7 setting On 1, downside fixed link 3-1 is fixedly connected on connection boss 1-3；

It is realized by the cavity of side walls hinged bar 3-4 and three 3-3 of inner end slide bar progress in molding device 3 to thermoplastic solution Cover half, complete molding history；

The smelting apparatus 4 include melting outline border 4-1, closure flap 4-2, angle adjustment device 4-3, rotary electric machine 4-4, Input cone tooth 4-5, transmission cone tooth 4-6, drive rod 4-7, melting sleeve 4-8, middle-end boss 4-9, downside closed rod 4-10, transmission Cover tooth 4-11, closure flap ontology 4-12, adding thermal resistance 4-13, arc chute 4-14, arc slide bar 4-16, arc push spring 4- 17, cover board slide bar 4-18, four 4-19 of inner end push plate, four 4-20 of inner end push spring, middle-end fixed frame 4-21, connecting rod 4-22, closure Slide bar 4-23, middle-end arc chute 4-24, closure slide bar shield 4-25, interior middle-end casing 4-26, interior middle-end rotary column 4-27, fixation Rotating plate 4-28, connecting column 4-29, inner cavity 4-30, block dynamic one 4-31 of boss, block dynamic two 4-32 of boss, sliding kelly 4-33, kelly Slide bar 4-34, kelly slide bar push spring 4-35, side wall bar 4-36, side wall rectangle sliding slot 4-37, driving gear 4-38, driving bull stick 4- 39, downside fixed plate 4-40, two 4-41 of buffer ferrule, downside arc kelly 4-42, kelly hinge bar 4-43, card slot 4-44, in Fixed link 4-45, buffering two 4-46 of slide bar and buffering push spring A4-47 are held, input cone tooth 4-5 is fixedly connected on rotary electric machine 4-4's On output shaft, input cone tooth 4-5 and transmission cone tooth 4-6 engaged transmission, drive rod 4-7 are fixedly connected on transmission cone tooth 4-6, angle Degree regulating device 4-3 is fixedly connected on the side wall of melting outline border 4-1, and middle-end boss 4-9 is fixedly connected on outside melting sleeve 4-8 The middle-end of wall, drive sleeve tooth 4-11 are fixedly connected on the upper end of melting sleeve 4-8 outer wall, and downside closed rod 4-10 is fixedly connected on The upper surface of melting sleeve 4-8 is arranged in the lower end of melting sleeve 4-8, arc chute 4-14, and adding thermal resistance 4-13 is provided with more A, multiple adding thermal resistance 4-13 are uniformly arranged on the inner wall of melting sleeve 4-8, and it is sliding that arc slide bar 4-16 is fixedly connected on arc The inner end of slot 4-14, arc push spring 4-17 socket are connected on arc slide bar 4-16, and cover board slide bar 4-18 is fixedly connected on closure On cover board body 4-12, there are two closure flap ontology 4-12 settings, and it is sliding that two cover board slide bar 4-18 are slidably connected at arc On bar 4-16, push spring four 4-20 in inner end is socketed the lower end for being connected to four 4-19 of inner end push plate, and four 4-19 of inner end push plate and middle-end are solid Determine frame 4-21 to be slidably connected, middle-end fixed frame 4-21 is fixedly connected on the middle-end of downside closed rod 4-10, connecting rod 4-22 connection Between four 4-19 of inner end push plate and closure slide bar 4-23, middle-end arc chute 4-24 is arranged in middle-end fixed frame 4-21 The lower gap at end, four 4-19 of inner end push plate is cooperatively connected in middle-end arc chute 4-24, and closure slide bar shield 4-25 is fixed It is connected to the lower end of downside closed rod 4-10, closure slide bar 4-23 is slidably connected with closure slide bar shield 4-25, interior middle-end rotary column 4-27 is fixedly connected with interior middle-end casing 4-26, and connecting column 4-29 is fixedly connected with interior middle-end casing 4-26, connecting column 4-29 with The inner end of fixed rotating plate 4-28 is arranged in fixed rotating plate 4-28 clearance fit connection, inner cavity 4-30, blocks dynamic one 4-31 of boss and card Dynamic two 4-32 of boss is arranged in the 4-30 of inner cavity, and sliding kelly 4-33 and dynamic two 4-32 of the boss clamping of card connect, kelly slide bar 4-34 is fixedly connected with connecting column 4-29, and kelly slide bar push spring 4-35 and kelly slide bar 4-34 socket connect, and slides kelly 4-33 It is slidably connected with kelly slide bar 4-34, side wall bar 4-36 is fixedly connected with connecting column 4-29, and side wall rectangle sliding slot 4-37 setting exists In side wall bar 4-36, fixed rotating plate 4-28 is fixedly connected on the outer wall of melting outline border 4-1, driving gear 4-38 and driving bull stick 4-39 is fixedly connected, and driving bull stick 4-39 is connect by cross axle with drive rod 4-7, interior middle-end rotary column 4-27 and melting outline border 4- 1 rotation connection, middle-end boss 4-9 and interior middle-end casing 4-26 are rotatablely connected, and downside fixed plate 4-40 is fixedly connected on outside melting The lower end of frame 4-1, kelly hinge bar 4-43 are fixedly connected with melting outline border 4-1, downside arc kelly 4-42 and kelly hinge bar 4-43 articulated connection, two 4-41 of buffer ferrule and melting outline border 4-1 are articulated and connected, and card slot 4-44 is arranged on melting outline border 4-1, Middle-end fixed link 4-45 is fixedly connected with melting outline border 4-1, and two 4-41 of buffer ferrule is slidably connected with buffering two 4-46 of slide bar, is delayed Push spring A4-47 setting is rushed between two 4-41 of buffer ferrule and buffering two 4-46 of slide bar, downside fixed plate 4-40 is fixedly connected on On chassis 1-1, driving gear 4-38 and drive sleeve tooth 4-11 engaged transmission, the upper end of melting sleeve 4-8 is connected to card slot 4-44 Interior, downside arc kelly 4-42 and melting sleeve 4-8 clamping connect；

By the rolling of melting sleeve 4-8, the thermoplastic solution in melting sleeve 4-8 is preferably merged, prevents from adding Thermal resistance 4-13 heats non-uniform situation to thermoplastic solution.

Specific embodiment 2:

Illustrate present embodiment below with reference to Fig. 1-2 8, present embodiment is described further embodiment one, described Closed rod push spring 2-33 is in compressive state.

Specific embodiment 3:

Illustrate present embodiment below with reference to Fig. 1-2 8, present embodiment is described further embodiment one, described Inner end push spring 3-2 and four 3-7 of inner end push spring are in compressive state.

Specific embodiment 4:

Illustrate present embodiment below with reference to Fig. 1-2 8, present embodiment is described further embodiment one, described Multiple through-holes are provided on four 4-19 of inner end push plate.

Specific embodiment 5:

Illustrate present embodiment below with reference to Fig. 1-2 8, present embodiment is described further embodiment one, described Kelly slide bar push spring 4-35 is in compressive state.

Specific embodiment 6:

Illustrate present embodiment below with reference to Fig. 1-2 8, present embodiment is described further embodiment one, described Resistive heater is provided in the inner wall of fluid injection outline border 2-1.

A kind of molding device of engineering plastics of the invention, its working principle is that:

In use, starting transports motor 1-11 and input belt wheel 1-12 is driven to rotate, input belt wheel 1-12 passes through transmission Band 1-16 drives one 1-10 of drive pulley to rotate, and passes through being fixedly connected for one 1-10 of drive pulley and four 1-9 of rotary rollers, band Four 1-9 of rotary rollers rotation is moved, four 1-9 of rotary rollers rotation drives one 1-13 of travelling belt to rotate, four 1-9 of rotary rollers Rotation drives two 1-14 of travelling belt, and drives two 1-7 of rotary rollers rotation by two 1-14 of travelling belt, passes through rotation Two 1-7 of roller drives three 1-15 of travelling belt to rotate, and the engineering plastics particle for needing melting is placed on one 1- of travelling belt 13, it is moved and is transmitted by one 1-13 of travelling belt, two 1-14 of travelling belt and three 1-15 of travelling belt, completed to needing melting The transport of engineering plastics particle；Engineering plastics particle is fallen in melting sleeve 4-8 by three 1-15 of travelling belt movement transmitting, Start the adding thermal resistance 4-13 in melting sleeve 4-8, engineering plastics particle is heated by adding thermal resistance 4-13, so that work Engineering plastics particle forms thermoplastic solution, while starting rotary electric machine 4-4, by between input cone tooth 4-5 and transmission cone tooth 4-6 Engaged transmission drives drive rod 4-7 to rotate, by being connected to drive rod 4-7 and driving the cross axle band between bull stick 4-39 Driving bull stick 4-39 rotation is moved, driving bull stick 4-39 is passed by the engagement between driving gear 4-38 and drive sleeve tooth 4-11 It is dynamic, it drives melting sleeve 4-8 to rotate, by the rolling of melting sleeve 4-8, enables thermoplastic solution in melting sleeve 4-8 Preferably fusion prevents adding thermal resistance 4-13 from heating non-uniform situation to thermoplastic solution；Thermoplastic solution is under gravity It overstocks on four 4-19 of inner end push plate, so that push plate four 4-19 in inner end is moved downward along middle-end arc chute 4-24, simultaneously Four 4-20 of inner end push spring is compressed, is pushed by being connected to four 4-19 of inner end push plate and the connecting rod 4-22 being closed between slide bar 4-23 Two closure slide bar 4-23 away from each other so that thermoplastic solution flows into fluid injection by multiple through-holes on four 4-19 of inner end push plate In outline border 2-1, while the resistive heater in priming outline border 2-1, engineering plastics particle is formed by resistive heater Engineering plastics thermoplastic solution is kept the temperature, and prevents thermoplastic solution from solidifying, and thermoplastic solution flows into filtering slide bar by filter hole 2-23 Between 2-20 and inner underside fixed link 2-22, with the thermoplastic solution between filtering slide bar 2-20 and inner underside fixed link 2-22 Accumulation, and fallen on middle-end closed rod 2-32 by the connecting hole 2-30 on middle-end convex outline border 2-29, so that middle-end closed rod 2-32 is along the downward Slideslip of convex outline border slide bar 2-31, so that the connection up and down of inner underside fixed link 2-22, allows thermoplastic solution When by filter hole 2-23 and connecting hole 2-30, so that being greater than the particle residence in filter hole 2-23 and the aperture connecting hole 2-30 in mistake Simple filter process is played in the upside of filter opening 2-23 and connecting hole 2-30；Priming motor 2-8, fluid injection motor 2-8 pass through Fluid injection rotating belt 2-9 drives middle-end screw rod 2-3 to rotate, while the middle-end on middle-end screw rod 2-3 being made to be driven cone tooth 2-10 rotation, transports thermoplastic solution by middle-end screw rod 2-3 to the right, when middle-end screw rod 2-3 flows through connection through-hole 2-13 And it flows into fluid injection chamber outline border 2-14, middle-end transmission cone tooth 2-10 rotation, and cone tooth 2-10 rotation and transmission are driven by middle-end The engaged transmission of cone one 2-11 of tooth drives input bull stick 2-12 to rotate, and input bull stick 2-12 drives fluid injection helical-blade 2-15 to turn Dynamic, the transport by fluid injection helical-blade 2-15 to thermoplastic solution passes through so that thermoplastic solution is flowed out by fluid injection chamber outline border 2-14 Transport of the fluid injection helical-blade 2-15 to thermoplastic solution flows through injection molding pipeline in thermoplastic solution relative to traditional under the effect of gravity Process, the flow velocity of thermoplastic solution is slowly and uniformly；Thermoplastic solution is fallen into molding device 3 by fluid injection chamber outline border 2-14, The cover half to thermoplastic solution is realized by the cavity of side walls hinged bar 3-4 and three 3-3 of inner end slide bar progress in molding device 3, Complete molding history.

Certainly, above description is not limitation of the present invention, and the present invention is also not limited to the example above, the art The variations, modifications, additions or substitutions that those of ordinary skill is made within the essential scope of the present invention also belong to guarantor of the invention Protect range.

Claims (6)

1. a kind of molding device of engineering plastics, including transport device (1), priming device (2), molding device (3) and melting dress Set (4), it is characterised in that: the transport device (1) includes chassis (1-1), bracket (1-2), connection boss (1-3), middle-end company Extension bar (1-4), upper end bracket (1-5), rotary rollers one (1-6), rotary rollers two (1-7), rotary rollers three (1-8), rotation Roller four (1-9), drive pulley one (1-10), transport motor (1-11), input belt wheel (1-12), travelling belt one (1-13), Travelling belt two (1-14), travelling belt three (1-15) and transmission belt (1-16), the bracket (1-2) and chassis (1-1) are fixed Connection, connection boss (1-3) are fixedly connected with chassis (1-1), and middle-end connecting rod (1-4) is fixedly connected with bracket (1-2), upper end Bracket (1-5) is fixedly connected with middle-end connecting rod (1-4), rotary rollers one (1-6) and rotary rollers two (1-7) and upper end bracket (1-5) rotation connection, rotary rollers three (1-8) and rotary rollers four (1-9) and bracket (1-2) are rotatablely connected, drive pulley one (1-10) is fixedly connected with rotary rollers four (1-9), and transport motor (1-11) is fixedly connected with chassis (1-1), inputs belt wheel (1- 12) it is fixedly connected on the output shaft of transport motor (1-11), transmission belt (1-16) is connected to input belt wheel (1-12) and is driven Between belt wheel one (1-10), travelling belt three (1-15) is connected between rotary rollers one (1-6) and rotary rollers two (1-7), Travelling belt two (1-14) is connected between rotary rollers two (1-7) and rotary rollers four (1-9), and travelling belt one (1-13) is even It connects between rotary rollers three (1-8) and rotary rollers four (1-9)；

The priming device (2) includes fluid injection outline border (2-1), filtration combination body (2-2), middle-end screw rod (2-3), pressing push rod (2-4), pressing push spring (2-5), pressing slide bar (2-6), buffering slide bar (2-7), fluid injection motor (2-8), fluid injection rotating belt (2- 9), middle-end transmission cone tooth (2-10), transmission cone tooth one (2-11), input bull stick (2-12), connection through-hole (2-13), outside fluid injection chamber Frame (2-14), buffer ferrule (2-16), buffering push spring one (2-17), buffers push spring two (2-18), is interior fluid injection helical-blade (2-15) Middle-end slide bar (2-19), filtering slide bar (2-20), interior middle-end push spring (2-21), inner underside fixed link (2-22), filter hole (2- 23), interior push spring two (2-24), interior slide bar connecting rod (2-25), inner wall slide bar (2-26), interior push spring three (2-27), four (2- of interior push spring 28), middle-end convex outline border (2-29), connecting hole (2-30), convex outline border slide bar (2-31), middle-end closed rod (2-32) and closure Bar push spring (2-33), filtration combination body (2-2) are slidably connected with fluid injection outline border (2-1), middle-end screw rod (2-3) and fluid injection outline border (2-1) rotation connection, pressing push rod (2-4) are slidably connected with fluid injection outline border (2-1), pressing push spring (2-5) and pressing push rod (2- 4) socket connection, pressing slide bar (2-6) are slidably connected with pressing push rod (2-4), pressing slide bar (2-6) and fluid injection outline border (2-1) It is slidably connected, buffering slide bar (2-7) and fluid injection outline border (2-1) are articulated and connected, and fluid injection motor (2-8) and fluid injection outline border (2-1) are solid Fixed connection, fluid injection rotating belt (2-9) are connected between fluid injection motor (2-8) output shaft and pressing push rod (2-4), middle-end transmission Cone tooth (2-10) is provided with multiple, and multiple middle-ends transmission cone tooth (2-10) is fixedly connected on middle-end screw rod (2-3), is driven Cone tooth one (2-11) is fixedly connected with input bull stick (2-12), and input bull stick (2-12) and fluid injection outline border (2-1) are rotatablely connected, even Hole (2-13) setting is connected to through-hole (2-13) connection connection through-hole (2-13) and fluid injection chamber in the inner end fluid injection outline border (2-1) all Outline border (2-14), fluid injection helical-blade (2-15) are fixedly connected with input bull stick (2-12), buffer ferrule (2-16) and pressing slide bar (2-6) articulated connection, buffer ferrule (2-16) are slidably connected with buffering slide bar (2-7), buffer push spring one (2-17) and buffering pushes away Spring two (2-18) is respectively provided in buffer ferrule (2-16), buffers push spring one (2-17) and buffering push spring two (2-18) is separately positioned on Buffer the two sides slide bar (2-7), filtering slide bar (2-20) be slidably connected with interior middle-end slide bar (2-19), interior middle-end push spring (2-21) and Interior middle-end slide bar (2-19) socket connection, filter hole (2-23) are arranged on interior slide bar connecting rod (2-25), inner wall slide bar (2-26) It is connected between filtering slide bar (2-20) and interior slide bar connecting rod (2-25), interior push spring three (2-27) is socketed in inner wall slide bar (2-26) On, interior push spring two (2-24) and interior push spring four (2-28) are separately positioned on filtering slide bar (2-20) and interior slide bar connecting rod (2-25) Interior, middle-end convex outline border (2-29) is fixedly connected with inner underside fixed link (2-22), and connecting hole (2-30) is arranged in middle-end convex On outline border (2-29), convex outline border slide bar (2-31) is fixedly connected with middle-end convex outline border (2-29), middle-end closed rod (2-32) It is slidably connected with convex outline border slide bar (2-31), closed rod push spring (2-33) and convex outline border slide bar (2-31) socket connect, interior Downside fixed link (2-22) is fixedly connected on the inner wall of fluid injection outline border (2-1)；

The molding device (3) includes downside fixed link (3-1), inner end push spring (3-2), inner end slide bar three (3-3), side walls hinged Bar (3-4), connection slide bar (3-5), connecting sleeve (3-6) and inner end push spring four (3-7), inner end push spring (3-2) are fixed with downside Bar (3-1) socket connection, inner end slide bar three (3-3) are slidably connected with downside fixed link (3-1), and side walls hinged bar (3-4) is under Side fixed link (3-1) articulated connection, connection slide bar (3-5) and side walls hinged bar (3-4) be articulated and connected, connection slide bar (3-5) with Connecting sleeve (3-6) is slidably connected, and inner end push spring four (3-7) setting is connecting between slide bar (3-5) and connecting sleeve (3-6), The lower end of connecting sleeve (3-6) is hingedly connected in downside fixed link (3-1), and downside fixed link (3-1) is fixedly connected on connection On boss (1-3)；

The smelting apparatus (4) includes melting outline border (4-1), closure flap (4-2), angle adjustment device (4-3), rotary electric machine (4-4), input cone tooth (4-5), transmission cone tooth (4-6), drive rod (4-7), melting sleeve (4-8), middle-end boss (4-9), under Side closed rod (4-10), drive sleeve tooth (4-11), closure flap ontology (4-12), adding thermal resistance (4-13), arc chute (4- 14), arc slide bar (4-16), arc push spring (4-17), cover board slide bar (4-18), inner end push plate four (4-19), inner end push spring four (4-20), middle-end fixed frame (4-21), connecting rod (4-22), closure slide bar (4-23), middle-end arc chute (4-24), closure are slided Bar shield (4-25), interior middle-end casing (4-26), interior middle-end rotary column (4-27), fixed rotating plate (4-28), connecting column (4-29), interior Chamber (4-30) blocks dynamic boss one (4-31), blocks dynamic boss two (4-32), sliding kelly (4-33), kelly slide bar (4-34), kelly Slide bar push spring (4-35), side wall bar (4-36), side wall rectangle sliding slot (4-37), driving gear (4-38), driving bull stick (4-39), Downside fixed plate (4-40), buffer ferrule two (4-41), downside arc kelly (4-42), kelly hinge bar (4-43), card slot (4- 44), middle-end fixed link (4-45), buffering slide bar two (4-46) and buffering push spring A (4-47), input cone tooth (4-5) are fixedly connected On the output shaft of rotary electric machine (4-4), input cone tooth (4-5) and transmission cone tooth (4-6) engaged transmission, drive rod (4-7) are solid Surely it is connected on transmission cone tooth (4-6), angle adjustment device (4-3) is fixedly connected on the side wall of melting outline border (4-1), middle-end Boss (4-9) is fixedly connected on the middle-end of melting sleeve (4-8) outer wall, and drive sleeve tooth (4-11) is fixedly connected on melting sleeve The upper end of (4-8) outer wall, downside closed rod (4-10) are fixedly connected on the lower end of melting sleeve (4-8), arc chute (4-14) It is arranged in the upper surface of melting sleeve (4-8), adding thermal resistance (4-13) is provided with multiple, and multiple adding thermal resistances (4-13) uniformly set It sets on the inner wall of melting sleeve (4-8), arc slide bar (4-16) is fixedly connected on the inner end of arc chute (4-14), and arc pushes away Spring (4-17) socket is connected on arc slide bar (4-16), and cover board slide bar (4-18) is fixedly connected on closure flap ontology (4-12) On, there are two closure flap ontology (4-12) settings, and two cover board slide bars (4-18) are slidably connected at arc slide bar (4-16) On, inner end push spring four (4-20) is socketed the lower end for being connected to inner end push plate four (4-19), and inner end push plate four (4-19) and middle-end are solid Determine frame (4-21) to be slidably connected, middle-end fixed frame (4-21) is fixedly connected on the middle-end of downside closed rod (4-10), connecting rod (4- 22) it is connected between inner end push plate four (4-19) and closure slide bar (4-23), middle-end arc chute (4-24) setting is solid in middle-end Determine the middle-end of frame (4-21), the lower gap of inner end push plate four (4-19) is cooperatively connected in middle-end arc chute (4-24), closes Close the lower end that slide bar shield (4-25) is fixedly connected on downside closed rod (4-10), closure slide bar (4-23) and closure slide bar shield (4-25) is slidably connected, and interior middle-end rotary column (4-27) is fixedly connected with interior middle-end casing (4-26), connecting column (4-29) and it is interior in End cap pipe (4-26) is fixedly connected, and connecting column (4-29) is connect with fixed rotating plate (4-28) clearance fit, inner cavity (4-30) setting In the inner end of fixed rotating plate (4-28), blocks dynamic one (4-31) He Kadong boss two (4-32) of boss and be arranged at inner cavity (4-30) Interior, sliding kelly (4-33) and dynamic boss two (4-32) clamping of card connect, and kelly slide bar (4-34) and connecting column (4-29) are fixed Connection, kelly slide bar push spring (4-35) and kelly slide bar (4-34) socket connect, sliding kelly (4-33) and kelly slide bar (4- 34) it is slidably connected, side wall bar (4-36) is fixedly connected with connecting column (4-29), and side wall rectangle sliding slot (4-37) is arranged in side wall bar In (4-36), fixed rotating plate (4-28) is fixedly connected on the outer wall of melting outline border (4-1), and driving gear (4-38) and driving turn Bar (4-39) is fixedly connected, and driving bull stick (4-39) is connect by cross axle with drive rod (4-7), interior middle-end rotary column (4-27) and Melting outline border (4-1) rotation connection, middle-end boss (4-9) and interior middle-end casing (4-26) are rotatablely connected, downside fixed plate (4- 40) it is fixedly connected on the lower end of melting outline border (4-1), kelly hinge bar (4-43) is fixedly connected with melting outline border (4-1), downside Arc kelly (4-42) and kelly hinge bar (4-43) are articulated and connected, and buffer ferrule two (4-41) and melting outline border (4-1) are hinged Connection, card slot (4-44) are arranged on melting outline border (4-1), and middle-end fixed link (4-45) is fixedly connected with melting outline border (4-1), Buffer ferrule two (4-41) is slidably connected with buffering slide bar two (4-46), and buffering push spring A (4-47) is arranged in two (4- of buffer ferrule 41) between buffering slide bar two (4-46), downside fixed plate (4-40) is fixedly connected on chassis (1-1), drives gear (4- 38) it is connected in card slot (4-44) with drive sleeve tooth (4-11) engaged transmission, the upper end of melting sleeve (4-8), downside arc card Bar (4-42) and melting sleeve (4-8) clamping connect.

2. a kind of molding device of engineering plastics according to claim 1, it is characterised in that: the closed rod push spring (2- 33) it is in compressive state.

3. a kind of molding device of engineering plastics according to claim 1, it is characterised in that: the inner end push spring (3-2) Compressive state is in inner end push spring four (3-7).

4. a kind of molding device of engineering plastics according to claim 1, it is characterised in that: the four (4- of inner end push plate 19) multiple through-holes are provided on.

5. a kind of molding device of engineering plastics according to claim 1, it is characterised in that: the kelly slide bar push spring (4-35) is in compressive state.

6. a kind of molding device of engineering plastics according to claim 1, it is characterised in that: the fluid injection outline border (2-1) Inner wall in be provided with resistive heater.