CN206884117U - A kind of docking facilities for extruder discharging terminal mould - Google Patents

Abstract

The utility model discloses a kind of docking facilities for extruder discharging terminal mould, including moving cart, the moving cart includes mobile platform, lift adjustment seat below mobile platform and the frame above mobile platform for connecting mold, the cross wobble component for swinging die feeding end is provided with the frame, cross wobble component is included in the swivel becket being vertically arranged, the mould is located in swivel becket and is rotatably assorted with it, swung with driven mold feed end, the frame is rotatably assorted with swivel becket, swung up and down with driven mold feed end.The docking facilities enable die feeding end to swing up and down and swing by setting cross wobble component so that discharging extruding end can be docked smoothly with die feeding end, can be reduced the fixed difficulty of docking, be improved merging precision.

Description

A kind of docking facilities for extruder discharging terminal mould

Technical field

Plastic extrusion Production equipment is the utility model is related to, is used for extruder discharging more specifically to one kind The docking facilities of terminal mould.

Background technology

The extrusion method of plastic extruder generally referred to as makes plastic melting, the modeling of melting at a high temperature of 200 degree or so For material again by forming required shape during specific mould, extrusion molding requirement possesses the profound understanding and mould to plastic properties Have the rich experiences of design, be a kind of higher forming method of technical requirements.Extrusion molding be in an extruder by heating, plus The method pressed and make material continue through mouth mold shaping with flow regime, also referred to as " extrusion molding ".Compared with other forming methods, tool The advantages of efficient high, unit cost is low.

According to different shape of products, it is necessary to install the mould of different model in plastic extruder end, as shown in figure 1, In order that the plastics after plastic extruder 1 is extruded can be smoothly entered to mould 2, the discharging extrusion of plastic extruder 1 End 11 and die feeding end 21 are typically disposed as cylindrical-shaped structure, and ring flange 3 is arranged with above both, in reality , it is necessary to realize that discharging extruding end 11 and die feeding end 21 are coaxial docking in operation, ring flange 3 and tight is recycled after docking Firmware, which is engaged, to be fixed, and above-mentioned docking operation is achieved using a moving cart 4, and it is small that mould 2 is fixed on into movement On car 4, when mould 2 is fixed in moving cart 4, the end face of die feeding end 21 is in being vertically arranged, in the bottom of moving cart 4 also Multiple lift adjustment seats 5 are provided with, the docking for realizing horizontal plane are moved horizontally by moving cart 4, in conjunction with lift adjustment Seat 5 completes the docking of perpendicular.

The end face of discharging extruding end 11 on plastic extruder 1 is also in be vertically arranged when dispatching from the factory, with prolonging for usage time It is long, it can not realize and be brought into close contact between the end face of discharging extruding end 11 and the end face of die feeding end 21 on plastic extruder 1, cause The difficulty that fastener wears the fixation of the phase of companion flange disk 3 is larger, and then make it that overall docking fixation difficulty is larger, causes the feelings Condition mainly has the reason for three aspects：

First, after the long-time use of plastic extruder 1, oscillation phenomenon in production process be present, its extruding end 11 that discharges To lower swing and then vertical shape can not be kept by its end face of gravity, the discharging end face relative level of extruding end 11 can be in The inclination of existing certain angle；

Second, after moving cart 4 moves back and forth, on the one hand, frictional dissipation or self structure skew be present, After multiple lift adjustment seats 5 of the lower section of another aspect moving cart 4 are highly adjusted, it can not ensure that moving cart 4 itself is installed There is the levelness of the plane of mould 2, and then cause the feed end end face of mould 2 can not keep vertical shape, the end face phase of die feeding end 21 The inclination of certain angle can be presented to horizontal plane；

3rd, lift adjustment seat 5 is moved after dolly 4 highly adjusts, the scrolls beneath wheel hanging 42 of moving cart 4, The regulation in horizontal plane can not be just carried out, that is, needs to complete the end face of extruding end 11 and the end of die feeding end 21 before height is adjusted The depth of parallelism and the spacing regulation in face, regulation difficulty is larger, and then improves overall docking and fix difficulty；

The fixed difficulty of docking is larger when above-mentioned three kinds of reasons cause the progress docking of mould 2 of plastic extruder 1, merging precision Improvements be present in deficiency, prior art.

Utility model content

In view of the deficienciess of the prior art, the purpose of this utility model is that providing one kind is used for extruder discharging end mould The docking facilities of tool, the docking facilities enable die feeding end to swing up and down by setting cross wobble component And swing so that discharging extruding end can be docked smoothly with die feeding end, can be reduced the fixed difficulty of docking, be improved Merging precision.

To achieve the above object, the utility model provides following technical scheme：One kind is used for extruder discharging terminal mould Docking facilities, including moving cart, the moving cart include mobile platform, the lift adjustment below mobile platform Seat and the frame positioned at mobile platform above for connecting mold, are provided with for swinging die feeding end in the frame Cross wobble component, cross wobble component are included in the swivel becket that is vertically arranged, the mould be located at swivel becket it is interior and with its turn It is dynamic to coordinate, swung with driven mold feed end, the frame is rotatably assorted with swivel becket, above and below driven mold feed end Swing.

It is close when that can not be realized between discharging extruding end end face and die feeding end end face by using above-mentioned technical proposal During fitting, swinging up and down and swinging by die feeding end, changing for feed end end surface inclination or direction is realized Become so that when discharging extruding end is docked with die feeding end, both end faces more can closely fit together, and have Beneficial to merging precision is improved, discharging extruding end and the flange on die feeding end are worn by fastener again after fitting together Disk is fixed, and effectively reduces the fixed difficulty of docking.

The utility model is further arranged to：It is additionally provided with the frame and swings up and down rear mold and frame for fixation Between relative position locking mechanism, the locking mechanism include in be vertically arranged sleeve, positioned at sleeve upper and lower ends and with It is in the first screw rod and the second screw rod that screw thread coordinates, and first screw rod is articulated with swivel becket outer wall, and second screw rod is consolidated Surely it is connected to mobile platform.

By using above-mentioned technical proposal, on the one hand the setting of locking mechanism is advantageous to improve constitutional balance, the opposing party Convenient regulation is played a part of in face, passes through fixed-axis rotation sleeve so that first screw rod and the second screw rod at sleeve both ends can be same Step drawn close to sleeve or it is remote, the feed end of synchronous the drives swivel becket of the first screw rod and mould is swung up and down, completion The adjustment of feed end end slope angle, it can not be moved up and down because the second screw rod is fixed on mobile platform, so when mould enters When material end is needed to lower swing, rotational sleeve, sleeve and the first screw rod synchronous can move downward, and when die feeding end needs When being swung up, rotational sleeve, the upward motion that sleeve and the first screw rod can be synchronous.

The utility model is further arranged to：The cartridges sides offer four square holes.

By using above-mentioned technical proposal, corresponding rod member is worn in four square holes, utilizes rod member rotational band moving sleeve Rotation, and then the position adjustments of sleeve the first screw rod of both ends and the second screw rod are completed, it is easy to the laborsaving regulation of staff.

The utility model is further arranged to：The mould side is extended with the rotating bar being oppositely arranged, the rotation Bar is in be vertically arranged and wear swivel becket.

By using above-mentioned technical proposal, when carrying out die feeding end end face towards during regulation, mould is turned by both sides Lever is formed with swivel becket and is rotatably assorted, and completes swinging for die feeding end.

The utility model is further arranged to：The frame includes two columns that are upwardly extended to mobile platform, described turn Rotating ring is between two heel posts, and the swivel becket side is connected with the support bar being oppositely arranged, and the support bar is in level Set and rotating turret is located at column upper end.

By using above-mentioned technical proposal, when carrying out die feeding end end slope angular adjustment, mould passes through both sides Support bar and column upper end formed and be rotatably assorted, and column upper end is connected to by way of erection, is easily installed dismounting.

The utility model is further arranged to：The column upper end is fixedly connected with open-close type bearing block, the support bar Wear open-close type bearing block and mutually fixed with its inwall.

By using above-mentioned technical proposal, turned from the bearing block of upper and lower open-close type as formation between support bar and column The connector of dynamic relation, is easy to mould and the quick separating of moving cart so that moving cart can arrange in pairs or groups the mould of different model Tool, be advantageous to the scope of application for the flexibility that increase uses.

The utility model is further arranged to：Two limited blocks, the two limited block difference are additionally provided with the support bar It is connected to both sides of the open-close type bearing block along support bar length direction.

By using above-mentioned technical proposal, the setting of open-close type bearing block both sides limited block can avoid mould along support bar Axis direction moves, and then improves stability when plastic extruder uses, meanwhile, two limited block energy being fixed on support bar The region that support bar is embedded with open-close type bearing block is enough formed, facilitates the installation between support bar early stage and bearing block to coordinate.

The utility model is further arranged to：The first displacement for placing frame is provided with the mobile platform to put down Platform, the first displacement platform lower section are provided with the first transmission mechanism and drive first displacement platform along die feeding end by it Radial direction displacement, second for the first displacement platform of placement is additionally provided between the mobile platform and the first displacement platform Displacement platform, the second displacement platform lower section are provided with the second transmission mechanism and drive second displacement platform along mould by it Feed end axial direction displacement.

By using above-mentioned technical proposal, when carrying out extruding end and die feeding end is docked, pass through moving cart first Horizontal displacement mould, the preliminary regulation on horizontal plane is completed, is then lifted at die feeding end to suitable by lift adjustment seat Height, so as to complete the regulation on vertical plane, at this point it is possible to according to the physical location at die feeding end, carry out die feeding Hold horizontal plane on further regulation, along the first displacement platform of die feeding end radial direction displacement so that die feeding end with Extruding end can keep higher axiality, along die feeding end axial direction displacement second displacement platform so that die feeding End can keep higher compactness with extruding end, advantageously reduce docking difficulty, improve the success rate of docking.

The utility model is further arranged to：First transmission mechanism wears the first of the first displacement platform including screw thread Screw mandrel, the first guide rod for wearing the first displacement platform, first screw mandrel and the first guide rod are horizontal by bearing block It is installed on second displacement platform.

By using above-mentioned technical proposal, by rotating the first screw mandrel, and then enable the first displacement platform along One guide rod length direction moves back and forth, and screw rod transmission has preferably regulation stability and degree of regulation so that extruding end end Face can keep higher axiality with die feeding end end face, be advantageous to improve merging precision.

The utility model is further arranged to：Second transmission mechanism wears the second of second displacement platform including screw thread Screw mandrel, the second guide rod for wearing second displacement platform, second screw mandrel and the second guide rod are horizontal by bearing block It is installed on mobile platform.

By using above-mentioned technical proposal, by rotating the second screw mandrel, and then enable second displacement platform along Two guide rod length directions move back and forth, and screw rod transmission has preferably regulation stability and degree of regulation so that extruding end end Face can be brought into close contact with die feeding end end face, be advantageous to improve merging precision.

In summary, the utility model has the advantages that：

One：The docking facilities overall structure that this is used for extruder discharging terminal mould is relatively simple, facilitates installing/dismounting, has There are higher using flexible and the scope of application；

Secondly：This reduces extruding end for extruder discharging terminal mould and fixes difficulty with docking for die feeding end, side Just staff carries out installation docking；

Thirdly：The docking facilities for being used for extruder discharging terminal mould cause inclining for die feeding end end face relative level Rake angle can do the regulation of adaptability, while can also finally make to die feeding end end face towards the regulation for doing adaptability Obtaining extruding end end face can be brought into close contact with die feeding end end face, be advantageous to improve merging precision.

Brief description of the drawings

Fig. 1 is structural representation when prior art is specifically docked；

Fig. 2 is the structural representation of embodiment；

Fig. 3 be embodiment partial structural diagram, be mainly used in embody the first displacement platform, second displacement platform and Modular construction on mobile platform；

Fig. 4 is the partial structural diagram of embodiment, is mainly used in embodying cross wobble component and associated components structure；

Fig. 5 is the structural representation of locking mechanism in embodiment.

Reference：1st, plastic extruder；11st, extruding end；2nd, mould；21st, die feeding end；3rd, ring flange；4th, it is mobile Dolly；41st, mobile platform；42nd, scroll wheel；43rd, frame；431st, column；5th, lift adjustment seat；51st, threaded rod；52nd, base；6、 Locking mechanism；61st, the second screw rod；62nd, sleeve；621st, four square hole；63rd, the first screw rod；64th, hinged seat；7th, support bar；8th, it is spacing Block；9th, open-close type bearing block；10th, swivel becket；12nd, the first displacement platform；121st, the first locating piece；13rd, second displacement platform； 131st, the second locating piece；14th, the first transmission mechanism；141st, the first screw mandrel；142nd, the first guide rod；15th, the second transmission mechanism； 151st, the second screw mandrel；152nd, the second guide rod；16th, bearing block；17th, handwheel；18th, rotating bar.

Embodiment

Reference picture 2 is described further to Fig. 5 to the utility model embodiment.

A kind of docking facilities for extruder discharging terminal mould, it is mainly used in the discharging extruding end of plastic extruder 1 The fixation that is coaxial docking between 11 and die feeding end 21, as shown in Fig. 2 docking facilities specifically include moving cart 4 and position In the cylindrical type mould 2 in moving cart 4, for cylindrical type mould 2 in being horizontally disposed with, moving cart 4 includes horizontally disposed movement Platform 41, some scroll wheels 42 and lift adjustment seat 5 are distributed with below mobile platform 41, are set above mobile platform 41 There is the frame 43 for connecting mold 2, when carrying out docking fixed, moved horizontally by moving cart 4 and realize horizontal plane Regulation, in conjunction with the regulation in the completion vertical height of lift adjustment seat 5 of the lower section of mobile platform 41, regulation makes to draw after completing The material end face of extruding end 11 is mutually close to the end face of die feeding end 21, and wears discharge extruding end 11 and mould by fastener and enter Expect the ring flange 3 on end 21, complete docking and fix.

As shown in Fig. 2 lift adjustment seat 5 is specifically included in the threaded rod 51 being vertically arranged and is connected under threaded rod 51 The cup dolly 52 at end, threaded rod 51 wear mobile platform 41 and coordinated with it in screw thread, adjusted when mould 2 carries out upward height During section, by rotating threaded rod 51 so that base 52 moves downward, and then it is upward to jack up whole mobile platform 41 and mould 2 Motion, after completion is adjusted, scroll wheel 42 is in vacant state.

As shown in Fig. 2 mobile platform 41 to it is lower and on be additionally provided with the displacement platform 12 of second displacement platform 13 and first, Frame 43 and mould 2 are arranged on the first displacement platform 12, are provided between mobile platform 41 and second displacement platform 13 Second transmission mechanism 15, and motion of the second displacement platform 13 along the axis direction of mould 2 is realized by it, finally realize mould 2 Along the motion in own axes direction, the first transmission mechanism is provided between the displacement platform 12 of second displacement platform 13 and first 14, and motion of first displacement platform 12 along the radial direction of mould 2 is realized by it, finally realize mould 2 along itself radial direction side To motion.

When carrying out actual installation docking, the preliminary regulation realized in horizontal plane is moved by moving cart 4 first, In conjunction with the regulation in the completion vertical height of lift adjustment seat 5 of the lower section of mobile platform 41, at this point it is possible to according to die feeding end 21 physical location, die feeding 21 further regulation in the horizontal plane of end is carried out, along the radial direction position of die feeding end 21 Move the first displacement platform 12 so that die feeding end 21 can keep higher axiality with extruding end 11, along die feeding end 21 axial direction displacement second displacement platforms 13 so that die feeding end 21 can keep higher compactness with extruding end 11.

As shown in Figure 2 and Figure 3, the first above-mentioned transmission mechanism 14 has specifically included the first screw mandrel 141 and positioned at first First guide rod 142 of the both sides of bar 141, the first screw mandrel 141 are set in parallel with the first guide rod 142, the length of the first screw mandrel 141 Bearing of trend is the radial direction at die feeding end 21, for the ease of the first screw mandrel 141, the first guide rod 142 and the first displacement Connection between platform 12, is fixed with some first locating pieces 121 below the first displacement platform 12, the first screw mandrel 141 with And first guide rod 142 wear the first locating piece 121, be connected with realizing with first displacement platform 12, the first screw mandrel 141 and first locating piece 121 in screw thread coordinate, the first screw mandrel 141, the head and the tail both ends of the first guide rod 142 are equipped with bearing Seat 16, and realized by bearing block 16 and be fixedly connected with second displacement platform 13.

The second above-mentioned transmission mechanism 15 specifically include the second screw mandrel 151 and positioned at the both sides of the second screw mandrel 151 Two guide rods 152, the second screw mandrel 151 are set in parallel with the second guide rod 152, and the length bearing of trend of the second screw mandrel 151 is mould Has the axial direction of feed end 21, for the ease of between the second screw mandrel 151, the second guide rod 152 and second displacement platform 13 Connection, is fixed with some second locating pieces 131, the second screw mandrel 151 and the second guide rod 152 below second displacement platform 13 The second locating piece 131 is worn, is connected with realizing with second displacement platform 13, the second screw mandrel 151 and the second locating piece 131 Coordinate in screw thread, the second screw mandrel 151, the head and the tail both ends of the second guide rod 152 are equipped with bearing block 16, and pass through bearing block 16 Realization is fixedly connected with mobile platform 41.

Rotary drive is provided with the first screw mandrel 141 and the end of the second screw mandrel 151, is specifically as follows as in Fig. 2 Shown handwheel 17, any convenient increase screw mandrel end diameter can also be used, to be convenient to the part of rotation driving screw mandrel.

As shown in Figure 2, Figure 4 shows, frame 43 is included in two columns 431 that are vertically arranged, mould 2 between two columns 431, The cross wobble component swung for realizing die feeding end 21 is additionally provided with frame 43, cross wobble component, which includes, is in The swivel becket 10 being vertically arranged, mould 2 are located in swivel becket 10, and two support bars 7 are extended with the side horizontal of swivel becket 10, branch Strut 7, in being oppositely arranged, in order to facilitate installing/dismounting, open-close type is fixedly connected with the upper end of column 431 centered on mould 2 Bearing block 9, the open-close type bearing block 9 of this programme is specially that retractable structure, the support bar 7 of both sides are embedded in open-close type up and down In bearing block 9, support bar 7 is realized by open-close type bearing block 9 and is rotatably assorted with column 431, when support bar 7 is rotated When, swivel becket 10 and the synchronous axial system of mould 2, swinging up and down for die feeding end 21 is finally realized, change the end of die feeding end 21 The angle of inclination of face relative level.

The limited block 8 of two circular ring types is also coaxially fixed with support bar 7, limited block 8 abuts the edge of open-close type bearing block 9 The front and rear sides of the length direction of support bar 7, limited block 8 play the purpose for limiting mould 2 along the length direction displacement of support bar 7, The lower end of limited block 8 keeps abutting with the upper end both sides of column 431, when mould 2 has the trend along the length direction displacement of support bar 7 When, distribution of forces on column 431, is advantageously reduced the probability of the damage of open-close type bearing block 9 by limited block 8, extends folding The service life of formula bearing block 9.

As shown in Figure 4, Figure 5, in order that swivel becket 10 and mould 2 be rotatably assorted with column 431 after relative position Fixed, the locking mechanism for both fixed relative positions is additionally provided between the first displacement platform 12 and swivel becket 10 6, locking mechanism 6 is included in the sleeve 62 being vertically arranged, the first spiral shell coordinated positioned at the upper and lower ends of sleeve 62 and with it in screw thread The screw rod 61 of bar 63 and second, the upper end of the first screw rod 63 are rotationally connected with the lower end of swivel becket 10, the second screw rod by hinged seat 64 61 lower ends are fixedly connected on the first displacement platform 12.

Rotated in order to facilitate sleeve 62, four square holes 621 are offered in the side of sleeve 62, can be with four square holes 621 Corresponding rod member is worn, utilizes the dead axle rotation of rod member rotational band moving sleeve 62 so that the He of the first screw rod 63 at the both ends of sleeve 62 Second screw rod 61 is capable of synchronous drawn close to sleeve 62 or remote.

It can not be moved up and down because the second screw rod 61 is fixed on the first displacement platform 12, so when die feeding end 21 needs During to lower swing, rotational sleeve 62, the screw rod 63 of sleeve 62 and first synchronous can move downward, and when die feeding end 21 needs When being swung up, rotational sleeve 62, the upward motion that the screw rod 63 of sleeve 62 and first can be synchronous.The synchronization of first screw rod 63 Driven mold feed end 21 is swung up and down, and completes the angle of inclination adjustment of feed end end face relative level so that discharging extrusion 11 end faces are held more can be closely bonded with the end face of die feeding end 21.

As shown in figure 4, being extended sideways in mould 2 in two rotating bars 18 being oppositely arranged, rotating bar 18 is in be vertically arranged And swivel becket 10 is worn, for the stationarity of holding structure, rotating bar 18 is connected to interposition of the mould 2 along own axes direction Put, interval between the outer wall of mould 2 and the inwall of swivel becket 10 be present, the left and right for realizing die feeding end 21 by rotating bar 18 is put It is dynamic, change the direction of the end face of die feeding end 21 so that when the end face of extruding end 11 is bonded with the end face of die feeding end 21 with compared with High axiality.

Specific work process：

The preliminary regulation in horizontal direction is completed by moving cart 4 first, then is completed by lift adjustment seat 5 perpendicular Nogata to regulation；

At this point it is possible to according to the physical location at die feeding end 21, carry out die feeding end 21 in the horizontal plane enter one Step section, pass through the first screw mandrel of fixed-axis rotation 141 so that the first displacement platform 12 can be along the radial direction side of die feeding end 21 To displacement, and then the displacement of driven mold 2 so that die feeding end 21 can keep higher axiality with extruding end 11, pass through The second screw mandrel of fixed-axis rotation 151 so that second displacement platform 13 can be along the axial direction displacement of die feeding end 21 so that mould The tool end face of feed end 21 can keep higher compactness with the end face of extruding end 11.

In order to further improve the compactness for making the end face of discharging extruding end 11 and the end face of die feeding end 21, reach and be easy to Fastener wears fixation on progress ring flange 3.

Rod member band moving sleeve can be passed through according to the physical location between the end face of die feeding end 21 and the end face of extruding end 11 62 dead axle rotations so that the screw rod 63 of sleeve 62 and first can be moved vertically, and swivel becket 10 and mould 2 can be with Support bar 7 is that rotating fulcrum is swung up and down, and completes the regulation at the end face relative level angle of inclination of die feeding end 21；

Die feeding end 21 is promoted in the horizontal direction so that mould 2 can be that rotating fulcrum does left and right pendulum with rotating bar 18 It is dynamic, complete the regulation of the end face direction of die feeding end 21；

After the end face of extruding end 11 that discharges is bonded completely with the end face of die feeding end 21, ring flange 3 is worn using fastener Complete docking to fix, improve the fixed precision of docking, reduce the fixed difficulty of docking.

Described above is only preferred embodiment of the present utility model, and the scope of protection of the utility model is not limited merely to Above-described embodiment, all technical schemes belonged under the utility model thinking belong to the scope of protection of the utility model.It should refer to Go out, for those skilled in the art, some improvement under the premise of the utility model principle is not departed from and Retouching, these improvements and modifications also should be regarded as the scope of protection of the utility model.

Claims (10)

1. a kind of docking facilities for extruder discharging terminal mould, including moving cart（4）, the moving cart（4）Including There is mobile platform（41）, positioned at mobile platform（41）The lift adjustment seat of lower section（5）And positioned at mobile platform（41）Use top In connecting mold（2）Frame（43）, it is characterised in that the frame（43）On be provided with for swinging die feeding end（21） Cross wobble component, cross wobble component includes in the swivel becket that is vertically arranged（10）, the mould（2）Positioned at swivel becket （10）It is interior and be rotatably assorted with it, with driven mold feed end（21）Swing, the frame（43）With swivel becket（10）Turn It is dynamic to coordinate, with driven mold feed end（21）Swing up and down.

A kind of 2. docking facilities for extruder discharging terminal mould according to claim 1, it is characterised in that the machine Frame（43）On be additionally provided with for fixation swing up and down rear mold（2）With frame（43）Between relative position locking mechanism（6）, The locking mechanism（6）Including in the sleeve being vertically arranged（62）, positioned at sleeve（62）Upper and lower ends and with its in screw thread coordinate The first screw rod（63）With the second screw rod（61）, first screw rod（63）It is articulated with swivel becket（10）Outer wall, second spiral shell Bar（61）It is fixedly connected on mobile platform（41）.

A kind of 3. docking facilities for extruder discharging terminal mould according to claim 2, it is characterised in that the set Cylinder（62）Side offers four square holes（621）.

A kind of 4. docking facilities for extruder discharging terminal mould according to claim 3, it is characterised in that the mould Tool（2）Extend sideways in the rotating bar being oppositely arranged（18）, the rotating bar（18）In being vertically arranged and wear swivel becket （10）.

A kind of 5. docking facilities for extruder discharging terminal mould according to claim 4, it is characterised in that the machine Frame（43）Including to mobile platform（41）Two columns upwardly extended（431）, the swivel becket（10）Positioned at two heel posts（431） Between, the swivel becket（10）Side is connected with the support bar being oppositely arranged（7）, the support bar（7）In horizontally disposed and Rotating turret is located at column（431）Upper end.

6. a kind of docking facilities for extruder discharging terminal mould according to claim 5, it is characterised in that described vertical Post（431）Upper end is fixedly connected with open-close type bearing block（9）, the support bar（7）Wear open-close type bearing block（9）And with it Wall is mutually fixed.

A kind of 7. docking facilities for extruder discharging terminal mould according to claim 6, it is characterised in that the branch Strut（7）On be additionally provided with two limited blocks（8）, two limited blocks（8）Open-close type bearing block is connected to respectively（9）Along support bar （7）The both sides of length direction.

A kind of 8. docking facilities for extruder discharging terminal mould according to claim 1, it is characterised in that the shifting Moving platform（41）On be provided with for placing frame（43）The first displacement platform（12）, first displacement platform（12）Lower section It is provided with the first transmission mechanism（14）And the first displacement platform is driven by it（12）Along die feeding end（21）Radial direction position Move, the mobile platform（41）With the first displacement platform（12）Between be additionally provided with for place the first displacement platform（12） Two displacement platforms（13）, the second displacement platform（13）Lower section is provided with the second transmission mechanism（15）And drive second by it Displacement platform（13）Along die feeding end（21）Axial direction displacement.

9. a kind of docking facilities for extruder discharging terminal mould according to claim 8, it is characterised in that described One transmission mechanism（14）The first displacement platform is worn including screw thread（12）The first screw mandrel（141）, wear the first displacement platform （12）The first guide rod（142）, first screw mandrel（141）And first guide rod（142）Pass through bearing block（16）Water Safety is loaded on second displacement platform（13）.

10. a kind of docking facilities for extruder discharging terminal mould according to claim 8, it is characterised in that described Second transmission mechanism（15）Second displacement platform is worn including screw thread（13）The second screw mandrel（151）, wear second displacement platform （13）The second guide rod（152）, second screw mandrel（151）And second guide rod（152）Pass through bearing block（16）Water Safety is loaded on mobile platform（41）.