CN207697030U - The compression molding device of filler molding machine - Google Patents

Abstract

The utility model discloses a kind of compression molding devices of filler molding machine, its drip irrigation device includes molding fixed frame, it is fixed on molding fixed frame, vertical sliding is connected to the upper die body on the upside of molding fixed frame, vertical sliding is connected to the lower mold body on the downside of molding fixed frame, the linkage mechanism of the drive cylinder and connection upper die body and lower mold body that are fixed on molding fixed frame for driving upper die body to slide up and down, the linkage mechanism drives the lower mold body to synchronize when upper die body moves down and moves up, when upper die body moves up, synchronization drives the lower mold body to synchronize and moves down, the utility model has the effect of die-closed position stabilization.

Description

The compression molding device of filler molding machine

Technical field

The utility model is related to the formers of cooling tower filler, and more specifically it is related to a kind of mould of filler molding machine Pressing molding device.

Background technology

Filler is the most important part of cooling tower, and briefly effect of the filler in cooling tower is exactly to increase heat dissipation capacity, Extend cooling water retention time, increase heat exchange area, increases heat exchange amount.

Currently, the Chinese patent that notification number is CN203110321U discloses a kind of cooling tower S waves filler molding machine, including certainly Dynamic feeder, heating device, switch board, shaping mechanism, cutting mechanism, automatic waste material drawing mechanism, material cutting-off mechanism, control cabinet and Workbench, the switch board control the heating device, and the control cabinet controls the autoloader, shaping mechanism, automatic Waste material drawing mechanism and material cutting-off mechanism, the autoloader include motor, transmission gear, compression axis and sensor, it is described plus Heat insulating basin is equipped in thermal, the shaping mechanism includes oil hydraulic cylinder, upper module and lower module, the automatic waste material drawing mechanism Including steel bracket, driving chain, feeder transmission shaft, lower drive shaft, upper transmission shaft, material folding concave wheel and cam, the upper transmission The both ends of axis and the lower drive shaft are equipped with steel plate, and the steel plate is equipped with tensioning spring.

It is similar to above-mentioned filler molding machine in the prior art, shaping mechanism is respectively driven by the oil hydraulic cylinder of both sides Module and lower module are to the mobile pressing packing sheet in centre, and with the stroke of both sides oil hydraulic cylinder, driving velocity changes, upper die body and The die-closed position of lower mold body may change, and influence the molding of filler.

Utility model content

In view of the deficienciess of the prior art, being molded into the purpose of this utility model is to provide a kind of filler molding machine Type device the advantage is that die-closed position is stablized.

To achieve the above object, the utility model provides following technical solution：A kind of compression molding of filler molding machine Device, including be molded fixed frame, be fixed on molding fixed frame, slide the upper die body being connected on the upside of molding fixed frame vertically, erect Straight sliding is connected to the lower mold body on the downside of molding fixed frame, is fixed on molding fixed frame for driving upper die body to slide up and down Drive cylinder and connect upper die body and lower mold body linkage mechanism, the linkage mechanism driven when upper die body moves down it is described under Die body, which synchronizes, to be moved up, and when upper die body moves up, the synchronization driving lower mold body, which synchronizes, moves down.

By using above-mentioned technical proposal, when drive cylinder starts, and upper die body is driven to move down, linkage mechanism synchronizes driving Lower mold body moves up, and realizes the molding between upper die body and lower mold body, make by conveying device enter upper die body and lower mold body it Between filler by molded.And when drive cylinder drives upper die body to move up, linkage mechanism synchronization driving lower mold body, which synchronizes, to be moved down, real It is existing to divide mould between upper die body and lower mold body.Therefore compared with the prior art, this programme molds and divides in the overall process of mould, only It needs oil cylinder to generate unidirectional active force, therefore the effective synchronism for improving upper die body and lower mold body movement, makes upper die body Stablize with lower mold body die-closed position, is conducive to the automated production of filler.

The utility model is further arranged to：The upper die body includes cope plate and is fixed on the upper mold of cope plate lower face Tool, the lower mold body include lower template and are fixed on the lower mold of lower template upper surface, and the molding fixed frame includes setting vertically Several molding guide posts of both sides are placed in, the cope plate is provided with the upper pilot hole for being socketed on molding guide post, the lower die The lower pilot hole for being socketed on molding guide post is provided on plate.

By using above-mentioned technical proposal, it is socketed in respectively in molding guide post by cope plate and lower template so that on Template and lower template can be along the vertical slidings that molding guide post is stablized.

The utility model is further arranged to：The width of the upper mold is less than cope plate, and is molded guide post and upper mold There are gaps between the side wall of plate；The lower mold is matched with upper mold, and is molded between guide post and the side wall of lower template There are gaps.

By using above-mentioned technical proposal, and upper mold and lower mold are provided with gap between molding guide post, make Obtaining conveying device can be directly installed in upper/lower die and the gap being molded between guide post so that upper mold and lower mold pressure It, will not be to influencing conveying device, to ensure that upper mold and lower mold filler between conveying device to the greatest extent when conjunction While the area of pressing, the vertical sliding stablized between upper mold and lower mold is also maintained.

The utility model is further arranged to：The linkage mechanism includes several linkage units, and the linkage unit corresponds to It is set to the both sides that molding fixed frame is equipped with molding guide post.

By using above-mentioned technical proposal, multigroup linkage unit is correspondingly arranged at the both sides of molding fixed frame, can be upper mold Body and lower mold body provide the linkage active force of balance, to keep stablizing between upper die body and lower mold body to link.

The utility model is further arranged to：The linkage unit includes the wraping plate that middle part is articulated with molding fixed frame bottom And the upper linkage post being vertically arranged and lower linkage post；The upper linkage post upper end is fixedly connected on cope plate, and lower end transmission connects It is connected to one end of wraping plate；The lower linkage post upper end is fixedly connected on lower template, and lower end is sequentially connected sticks up in far from upper linkage post One end of plate.

By using above-mentioned technical proposal, when wraping plate one end moves down, the other end just will be shifted up；And upper linkage post and lower linkage Column is separately fixed at the both ends of wraping plate, drives upper linkage post to move down from this realization cope plate, wraping plate will link in lower linkage post It moves, realizes molding；And driving upper linkage post to move up in cope plate, the wraping plate lower linkage post that will link moves down, and realization divides mould.

The utility model is further arranged to：Linkage piece, the wraping plate are provided between the wraping plate and upper linkage post It is provided with lower linkage piece between lower linkage；Described upper linkage piece one end is rotationally connected with linkage post, other end rotation connection In wraping plate, described lower linkage piece one end is rotationally connected with lower linkage post, and the other end is rotationally connected with wraping plate.

By using above-mentioned technical proposal, upper linkage piece one end is rotationally connected with linkage post, and the other end is rotationally connected with Wraping plate, lower linkage piece one end are rotationally connected with lower linkage post, and the other end is rotationally connected with wraping plate；To ensure upper linkage board and stick up Between plate, it is lower will not be stuck between linkage board and wraping plate.

The utility model is further arranged to：The both ends of the upper linkage piece and the rotation connection of lower linkage piece, which are both provided with, to be added Oil nozzle.

By using above-mentioned technical proposal, refueled by fuel filler neck, linkage piece and lower linkage piece both sides lubrication in holding, into One step ensure it is upper between linkage board and wraping plate, it is lower will not be stuck between linkage board and wraping plate.

The utility model is further arranged to：Being horizontally disposed between the wraping plate of the corresponding linkage unit has horizontal connection Bar.

By using above-mentioned technical proposal, the wraping plate of both sides is connected by horizontal brace rod, can ensure corresponding both sides Wraping plate can rotate synchronously, to ensure the stability to link between cope plate and lower template.

The utility model is further arranged to：The linkage unit and molding guide post are staggered along filler conveying direction In on molding fixed frame.

By using above-mentioned technical proposal, linkage unit and molding guide post are staggered along filler conveying direction, can Ensure molding linkage unit and be molded being uniformly distributed for guide post so that it is steady that bolster can be molded guide post effect at more Surely while sliding, the realization that can also stablize under the action of linkage unit links.

In conclusion the utility model has the following advantages：

1, upper die body is molded with lower mold body by the way that linkage mechanism is synchronous, and die-closed position is kept to stablize；

2, the gap installed for conveying device between upper mold and lower mold and molding guide post is set, protect to the greatest extent Upper mold and lower the mold area that filler presses between conveying device are demonstrate,proved；

3, being horizontally disposed between the wraping plate of corresponding linkage unit has horizontal brace rod, to ensure between cope plate and lower template The stability of linkage；

4, the both ends of gone up linkage piece and lower linkage piece are both provided with fuel filler neck, linkage piece and lower linkage piece both sides in holding Lubrication.

Description of the drawings

Fig. 1 is that the present embodiment highlights positive structural schematic diagram；

Fig. 2 is that the present embodiment highlights structural schematic diagram backwards；

Fig. 3 is the partial schematic diagram that the present embodiment highlights feed mechanism；

Fig. 4 is the partial schematic diagram that the present embodiment highlights hoisting mechanism；

Fig. 5 is the present embodiment installation axle and the schematic cross-sectional view of sleeve connection；

Fig. 6 is the structural schematic diagram that the present embodiment highlights heating device；

Fig. 7 is the schematic cross-sectional view of the present embodiment heating device；

Fig. 8 is the schematic side view that the present embodiment highlights compression molding device；

Fig. 9 is the schematic cross-sectional view that the present embodiment highlights compression molding device；

Figure 10 is the partial schematic diagram that the present embodiment highlights Scissoring device；

Figure 11 is the schematic cross-sectional view that the present embodiment highlights Scissoring device；

Figure 12 is the enlarged diagram of A in Figure 11；

Figure 13 is that the present embodiment highlights the partial schematic diagram for setting material device；

Figure 14 is the schematic cross-sectional view of the present embodiment entirety.

Reference sign：1, feed device；11, cradle；12, feed spool；13, catch is limited；14, installation axle；15、 Annular groove；16, catch is installed；17, driven bevel pinion；18, bar slot；2, heating device；21, fixed frame is heated；22, support frame Frame；23, linkage air cylinder；24, cylinder fagging；25, limiting plate；26, direction switch；27, transmission parts；271, lower linkage board； 272, link guide post；273, upper linkage board；274, cylinder via；28, plate body is heated；281, frame plate；282, insulating layer； 283, heating tube；3, compression molding device；31, it is molded fixed frame；32, drive cylinder；33, it is molded guide post；34, upper plate； 35, lower plate；36, upper die body；361, cope plate；362, upper mold；37, lower mold body；371, lower template；372, lower mold；38、 Linkage mechanism；380, linkage unit；381, upper linkage post；382, lower linkage post；383, wraping plate；384, upper linkage piece；385, under Linkage piece；386, fuel filler neck；387, horizontal brace rod；4, Scissoring device；41, slideway is cut；42, sliding block is cut；43, it cuts and cuts Knife；44, slideway fixed plate；45, horizontally-guided bar；46, magnetic sliding sleeve；47, drive component is slid；471, hollow pipe；472, magnetic Property piston；473, first chamber；474, second chamber；475, snorkel；5, conveying device；51, transportation frame；52, carrier chain Item；53, feeder motor；54, spur is punctured；55, pinch roller is conveyed；56, side cutter；57, synchronous rotating shaft；58, synchronous sprocket wheel；6、 Set material device；61, rack；62, transverse slat；63, put flitch；64, scrap collecting tank；65, mounting table；7, feed mechanism；71, it puts Set platform；72, feeding motor；73, driving bevel gear；74, locating plate；75, locating slot；76, guide surface；77, support wheel；8, it lifts Mechanism；81, fixed link is lifted；82, motor is lifted；83, lifting rope；84, movable pulley；85, sunpender；86, suspension hook；87, buffer unit； 88, connecting rope；89, sleeve；891, inserted link.

Specific implementation mode

Below in conjunction with attached drawing, invention is further described in detail.

Embodiment, a kind of rectangular cooling tower filler molding machine as shown in Figure 1, 2, including are set along filler machine direction successively The feed device 1 set, heating device 2, compression molding device 3, Scissoring device 4 and material device 6 is set, and is horizontally placed on heating Device 2 and set material device 6 between conveying device 5.The filler of web-like is placed in feed device 1, feed device 1 conveys filler To the beginning of conveying device 5；Later filler under the drive of conveying device 5 successively into cross heating device 2, compression molding device 3, Scissoring device 4 and set material device 6, be processed.Wherein heating device 2 carries out heating to filler makes filler suitably soften, and is molded Molding machine 3 presses filler, filler is pressed into required shape, Scissoring device 4 will be molded filler under being cut in web-like filler Come, forms the rectangular cooling tower filler of monolithic.

Feed device 1 as shown in Figure 2 includes cradle 11, is set to the feed mechanism 7 of downside and is set to cradle 11 The hoisting mechanism 8 of upside.Hoisting mechanism 8 is for lifting the filler of web-like to feed mechanism 7, compared to traditional artificial lift Dress mode more saves manpower and facilitates charging.

Specifically, as shown in figure 3, feed mechanism 7 includes mounting table 71, the water mounted on 11 horizontal direction both sides of cradle Flat overlap joint is mounted on the installation axle 14 between both sides mounting table 71, the feeding motor 72 for driving installation axle 14 to rotate and sets It is placed in the feed spool 12 of 71 top of mounting table of both sides.It is provided with spacing between both sides mounting table 71, this spacing is pacified for placing Web-like filler in installation axle 14.Feeding motor 72 is fixedly connected on the outer wall of side mounting table 71, and the two of installation axle 14 End is pierced by from placement both sides mounting table 71.Axially vertical, the feeding with installation axle 14 of the axial direction of the output shaft of feeding motor 72 Driving bevel gear 73 is fixedly connected on the output shaft of motor 72, side of the installation axle 14 towards feeding motor 72 is nested and fixed It is engaged in the driven bevel pinion 17 of driving bevel gear 73.

As shown in figure 3, being fixedly connected with the locating plate 74 of two panels metal material on the upper surface of both sides mounting table 71.Two Piece locating plate 74 is parallel to the axial setting of installation axle 14, and between be provided with gap and form the locating slot being put into for installation axle 14 75, locating slot 75 limits sliding of the installation axle 14 in horizontal radial direction.In addition the upside of two panels locating plate 74 is inclined outwardly Fold, forms inclined guide surface 76, is easily installed axis 14 from being caught under upper to locating slot 75.

As shown in figure 3, there are two support wheel 77, two support wheels 77 for rotation connection on the madial wall of both sides mounting table 71 Axial direction it is parallel with installation axle 14, and be provided with gap between two support wheels 77, this gap forms abutting support installation axle 14 placing groove.And the annular groove being socketed on outside support wheel 77 is opened up on the axial position of the correspondence support wheel 77 of installation axle 14 15.Therefore support wheel 77 reduces between installation axle 14 and mounting table 71 except frictional force, also in addition to providing support for installation axle 14 Axial limit is provided for installation axle 14, and 14 position of installation axle is kept to stablize.

As shown in figure 3, being also socketed with installation catch 16 in the both sides of installation axle 14 in addition, installation catch 16 is used in web-like After filler is socketed in installation axle 14, the both sides for being fixed on installation axle 14 limit the both sides of web-like filler, and web-like is filled out Material is fixed.In the present embodiment, installation catch 16 in radial side by opening up bolt hole, and installation bolt is supported in bolt hole Tightly, catch 16 and installation axle 14 is fixedly mounted.

As shown in figure 3, feed spool 12 is rotatably connected on cradle 11, and it is parallel with installation axle 14, in installation axle 14 Filler entered in heating device 2 by the upside of feed spool 12.And limiting block is nested and fixed in the both sides of feed spool 12 Piece 13, limit catch 13 are blocked in filler both sides when filler conveys, and the position of filler conveying is kept to stablize.

As shown in figure 4, hoisting mechanism 8 includes the lifting fixed link 81 for being horizontally fixed on 11 upside of cradle, is fixedly mounted In the lifting motor 82 of 81 downside of lifting fixed link, the lifting rope 83 wound on lifting 82 output shaft of motor, it is mounted on lifting rope 83 The movable pulley 84 of downside, two connecting ropes 88 being connected on movable pulley 84 and the use for being individually fixed in two 88 lower ends of connecting rope Sleeve 89 in 14 end of socket installation axle respectively.

As shown in figure 4, the lower end of lifting motor 82 is fixedly connected with sunpender 85, the rectangular frame-shaped of sunpender 85, level is set The lower section of lifting 82 output shaft of motor is placed in penetrate under movable pulley 84 after the end of lifting rope 83 is pierced by out of sunpender 85 frame Side, rear end be fixedly connected on the downside of sunpender 85 upwards.Movable pulley 84 is set to be hanging connected on lifting rope 83.In addition face in lifting rope 83 The side of nearly sunpender 85 is fixed by socket buffer unit 87, and middle buffer unit 87 is integrated the pie being molded and has in this implementation Elasticity.Therefore when lifting the winding lifting rope 83 of motor 82, buffer unit 87 can be contacted prior to movable pulley 84 with sunpender 85, be prevented The movable pulley 84 for excessively winding lifting rope 83 and causing impacts sunpender 85.

As shown in Figure 4,5, the downside of movable pulley 84 is rotatably connected to suspension hook 86, and suspension hook 86 is spring in the present embodiment, Two connecting ropes 88 are connected on suspension hook 86 between movable pulley 84 to be detachably connected.Prolong in an axial direction at the middle part of 89 inner wall of sleeve Stretching has inserted link 891, the bar slot 18 of installation axle 14 being provided at both ends with for 891 grafting of inserted link.

The process that installation axle 14 is installed：Two sleeves 89 are socketed in the both ends of installation axle 14 respectively first, and make inserted link In 891 insertion rod slots 18, after then startup lifting motor 82 makes 14 position of installation axle rise, it is fixed to be manually moved to installation axle 14 After on the slot 75 of position, restart lifting motor 82,14 position of installation axle is made to drop in locating slot 75, finally sleeve 89 is removed and is pacified Fill axis 14.

As shown in fig. 6, heating device 2 includes heating fixed frame 21, vertically slides on heating fixed frame 21 It transmission parts 27, the heating plate body 28 for being fixed on 27 lower end of transmission parts and is set on the upside of fixed frame and for driving driving section The linkage air cylinder 23 that about 27 part slides.Wherein heating plate body 28 is set to the top of conveying device 5, when filler is filled by conveying When setting 5 and being moved in heating device 2, heating plate body 28 release heat downwards heats for filler.

As shown in fig. 6, heating fixed frame 21 is provided with braced frame 22, braced frame in the top at 28 middle part of heating plate body Cylinder fagging 24 is horizontally fixed on 22, the inversion of linkage air cylinder 23 is fixed on cylinder fagging 24, and the piston of linkage air cylinder 23 Axis is pierced by from cylinder fagging 24.In addition direction switch 26 is also associated in linkage air cylinder 23, direction switch 26 is fixed on heating On the lateral wall of fixed frame 21.

As shown in Figure 6,7, transmission parts 27 include being fixedly connected on the lower linkage board 271 of heating plate body 28 upper end and vertical It is arranged and linkage guide post 272 that lower end is fixedly connected on lower linkage board 271 and is fixedly connected on 272 upper end of linkage guide post Upper linkage board 273.Specifically, the rectangular lower section for being set to cylinder fagging 24 of lower linkage board 271, upper surface and linkage air cylinder 23 piston shaft is fixedly connected, and lower face is bolted to connection in the upside of frame plate 281.The number for the guide post 272 that links Amount is four, is set to four edges of lower linkage board 271, and correspond on 272 position of linkage guide post in cylinder fagging 24 Offer the pilot hole passed through for guide post.And upper 273 general rectangular of linkage board, it is set to the top of cylinder fagging 24, and in Portion offers the cylinder via 274 passed through for linkage air cylinder 23.Therefore linkage guide post 272 be vertically directed effect under, energy Enough ensure transmission parts 27 in stable vertical sliding.

As shown in Figure 6,7, heating plate body 28 includes the frame plate 281 for being provided with the storage tank that Open Side Down, is set to appearance Several heating tubes 283 for setting the insulating layer 282 in slot and being set to 282 lower section of insulating layer and being fixedly connected with frame plate 281. Insulating layer 282 is the heat-preservation cotton being filled in storage tank in the present embodiment.Heating tube 283 is uniformly arranged along vertical filler conveying direction Cloth is in the lower end of heating plate body 28.Specifically, being uniformly provided with connecting leg hole on the side wall of frame plate 281, heating tube 283 is by dividing It is not plugged in connecting leg hole, realizes being detachably connected between frame plate 281.And 281 body of frame plate moves down in order to prevent It contradicts to conveying device 5, heating fixed frame 21 is fixedly connected with limiting plate 25 in the upper horizontal of conveying device 5.

Therefore by starting linkage air cylinder 23, heating plate body 28 is made to increase, far from conveying device 5, heating plate convenient to overhaul Conveying device 5 under body 28.

As shown in figure 8, compression molding device 3 includes molding fixed frame 31, sliding is connected on molding fixed frame 31 vertically Upper die body 36, vertical sliding is connected to the lower mold body 37 of molding fixed frame 31, is fixed on molding fixed frame 31 for driving The linkage mechanism 38 of drive cylinder 32 and connection upper die body 36 and lower mold body 37 that about 36 upper die body slides.Linkage mechanism 38 When upper die body 36 moves down, synchronization driving lower mold body 37, which synchronizes, moves up, and is synchronized when upper die body 36 moves up and drives the lower mold body 37 It synchronizes and moves down.Wherein in the case where compression molding device 3 is in and divides mould state, upper die body 36 is in the top of conveying device 5, lower mold body 37 are in the lower section of conveying device 5；Under molding state, upper die body 36 and lower mold body 37 are in 5 place plane of conveying device.

Specifically, as shown in figure 8, molding fixed frame 31 includes upper plate 34, lower plate 35 and is vertically arranged at upper plate Several molding guide posts 33 of both sides between 34 and lower plate 35.The both ends of molding guide post 33 are separately connected upper plate 34 under Bottom plate 35.

As shown in Figure 8,9, upper die body 36 includes cope plate 361 and the upper mold 362 for being fixed on 361 lower face of cope plate, The both sides of cope plate 361 correspond to 33 position of molding guide post and offer the upper pilot hole for being socketed on molding guide post 33.Upper mold 362 width is less than cope plate 361, and there are gaps between guide post and the side wall of cope plate 361.Lower mold body 37 includes lower die Plate 371 and the lower mold 372 for being fixed on 371 upper surface of lower template and the cooperation upper mold 362, the both sides pair of lower template 371 33 position of guide post should be molded and offer the lower pilot hole for being socketed on molding guide post 33.Lower mold 372 is matched with upper mold simultaneously Tool 362, makes between guide post and the side wall of lower template 371 that there is also gaps.

As shown in Figure 8,9, in the present embodiment, the length of cope plate 361 is two meters, therefore solid in the upper surface of upper plate 34 Two drive cylinders 32 are determined, two drive cylinders 32 are separately fixed in the middle part of the front side of upper plate 34 and in the middle part of rear side, and are driven The piston rod of dynamic oil cylinder 32 passes through upper plate 34 to be fixed on the upper surface of cope plate 361, gives the drive of about 361 cope plate sliding Power.

As shown in Figure 8,9, linkage mechanism 38 includes several linkage units 380, and it is solid that linkage unit 380 is correspondingly arranged in molding Determine the both sides that frame 31 is equipped with molding guide post 33, and is staggered between molding guide post 33.Linkage unit 380 includes middle part The upper linkage post 381 and lower linkage post 382 for being articulated with the wraping plate 383 of lower plate 35 and being vertically arranged.381 upper end of upper linkage post It is fixedly connected on cope plate 361, lower end connects one end outwardly of wraping plate 383 by upper linkage piece 384, and is opened in lower template 371 Equipped with the linkage hole for being socketed on upper linkage post 381；Lower 382 upper end of linkage post is fixedly connected on lower template 371, under lower end biography passes through Linkage piece 385 connects one end inwardly of wraping plate 383.

As shown in Figure 8,9, specifically upper 384 one end of linkage piece is rotationally connected with interlocking bar, and the other end is rotationally connected with Wraping plate 383, lower 385 one end of linkage piece are rotationally connected with lower interlocking bar, and the other end is rotationally connected with wraping plate 383.And upper linkage piece 384 and the both ends of lower linkage piece 385 rotation connection be both provided with and lubricate the fuel filler neck 386 that has for add.In addition corresponding linkage Being horizontally disposed between the wraping plate 383 of component 380 has horizontal brace rod 387, between the both ends and wraping plate 383 of horizontal brace rod 387 There is the flexible connection of surplus for horizontal direction, ensures that the wraping plate 383 of corresponding both sides can rotate synchronously, to ensure cope plate 361 Stability when linkage.

Therefore when drive cylinder 32 drives cope plate 361 to move down, upper linkage post 381 moves down, and 383 outer end of wraping plate moves down inner end It moves up, drives lower linkage post 382 to move up, realize synchronous molding；And work as drive cylinder 32 and cope plate 361 is driven to move up, upper linkage Column 381 moves up, and 383 outer end of wraping plate moves up inner end and moves down, and drives lower linkage post 382 to move down, realization synchronizes a point mould.

As shown in Figure 10, Scissoring device 4 is fixed on the end of compression molding device 3, including last along cope plate 361 is fixed on End and in it is horizontally disposed cut slideway 41, horizontal sliding in cut on slideway 41 cut sliding block 42 and driving cuts sliding block 42 It slides in cutting the sliding drive component 47 on slideway 41.It cuts 42 downside of sliding block and is fixedly connected with cutting cutter 43, cutting is cut Knife 43 fits in 362 end profile of upper mold and downside will be less than the lower face of upper mold 362.

As shown in figure 11, it includes two pieces of 44 Hes of slideway fixed plate for being fixed on 361 horizontal both sides of cope plate to cut slideway 41 It is set between block slideway fixed plate 44 and horizontal connection is in the horizontally-guided bar 45 of slideway fixed plate 44.

As shown in figure 11, sliding drive component 47 includes the hollow pipe being horizontally placed between two pieces of slideway fixed plates 44 471, it is set to 472 and of magnetic piston that hollow pipe 471 is separated into first chamber 473 and second chamber 474 in hollow pipe 471 The both ends being set on hollow pipe 471 are respectively communicated with the snorkel 475 of first chamber 473 and second chamber 474；Wherein hollow pipe 471 are set between two horizontally-guided bars 45.

As shown in figure 11, sliding block 42 is cut to be socketed in respectively on the horizontally-guided bar 45 of upper and lower sides and the hollow stem at middle part On, and include being socketed on hollow pipe 471 the and magnetic magnetic sliding sleeve 46 for being connected to magnetic piston 472.And cut cutter 43 The both sides in horizontal sliding direction are both provided with blade.

By for different 475 gas transmissions of snorkel, making the sliding in hollow pipe 471 of magnetic piston 472.And magnetic piston 472 connect with 46 magnetism of magnetic sliding sleeve, therefore after 472 displacement of magnetic piston, drive is passed through magnetism under the action of magnetism The drive of sliding sleeve 46 cuts the movement of sliding block 42.Compared with tradition is longitudinally cutting, the forced area smaller between transverse cuts and filler, The active force of required application also smaller, therefore can ensure during cutting cutter 43 and cutting to compression molding device 3 It influences smaller.Simultaneously because there are blade in the both sides for cutting cutter 43, as long as therefore cutting cutter 43 from cutting the one of slideway 41 Side is moved to the other side and can complete once to cut molding filler, and without resetting, promotion cuts efficiency.

As shown in Figure 10,11, conveying device 5 includes transportation frame 51, conveyor chain 52 and feeder motor 53.Transportation frame 51 pass through heating fixed frame 21 and are molded fixed frame 31 and are horizontally placed on heating fixed frame 21 and are molded fixed frame 31 successively Both sides, and the opening of transportation frame 51 is towards inside.Conveyor chain 52 is set in a ring in transportation frame 51, in transportation frame Circulation conveying in 51.Feeder motor 53 is set to the side of 51 end of transportation frame, for driving 52 circulation conveying of conveyor chain.

It is worth mentioning, in conjunction with Fig. 7,9, transportation frame 51 is being set to heating one section of fixed frame 21, is set to limiting plate 25 lower section so that with certain spacing when heating tube 283 heats filler.And transportation frame 51 is in molding fixed frame 31 One section, both upper mold 362, lower mold 372 are set in the gap between guide post, that is, does not interfere with compression molding device 3 moldings can also ensure that filler maximum area be molded.

As shown in figure 12, the outside of conveyor chain 52, which is evenly distributed with, punctures spur 54, and is set in transportation frame 51 Conveying pinch roller 55 is provided with above beginning in heating fixed frame 21（In conjunction with Fig. 6）, convey between pinch roller 55 and conveyor chain 52 Be provided with for filler by gap.Filler is entered by feed spool 12 in fixed frame, then by conveying pinch roller 55 and conveying Gap between chain 52 enters the beginning of conveying device 5.Filler conveys moving up for the limit filler of pinch roller 55 during, The height and position that filler enters conveying device 5 is set to keep stablizing, in order to which the puncture spur 54 on conveyor chain 52 can be more Stabilization is punctured from the side of filler.

As shown in Figure 10, in addition, setting the rack that material device 6 includes the both sides for the end for being fixedly connected with molding fixed frame 31 61, the end of transportation frame 51 is fixed on rack 61, and the distal opening side of transportation frame 51 is fixed with side cutter 56, side cutter 56 is obliquely installed and blade is towards 51 beginning side of transportation frame.

As shown in Figure 10, the downside rotation between the rack 61 of both sides has synchronous rotating shaft 57, and the two of synchronous rotating shaft 57 End is fixedly connected with synchronous sprocket wheel 58, and both sides synchronous sprocket wheel 58 ensures that both sides are defeated respectively with the conveyor chain of both sides 52 to engagement Send the synchronous transport of chain 52, feeder motor 53 is connect with 57 chain drive of synchronous rotating shaft in the present embodiment.

As shown in Figure 10,13, the end of both sides rack 61 is provided with the horizontal transverse slat for being fixedly connected with both sides rack 61 62, be overlapped with put flitch 63 on transverse slat 62, put flitch 63 is provided with mounting table 65 far from cross bar, and the both sides of put flitch 63 with It is provided with gap between the conveying device 5 of both sides, the lower section of 63 rear side of put flitch is provided with scrap collecting tank 64.

In conjunction with shown in Figure 14, filler processes total process, and filler is removed out of installation axle 14, is entered and is added by feed spool 12 In thermal 2, under the limit of conveying pinch roller 55, is punctured by spur is pierced by conveyor chain 52, enter transportation frame 51 It is interior；Then under the drive of conveyor chain 52, filler enters 28 lower section of heating plate body, by thermal softening；Later in conveyor chain Under 52 drive, filler enters between upper mold 362 and lower mold 372, is worth mentioning, and the conveying of filler is intermittent transports Row, when upper mold 362 and the molding of lower mold 372, conveying device 5 stops conveying, when upper mold 362 and lower mold 372 divide mould Conveying device 5 is conveyed.Upper mold 362 and the molding of lower mold 372, are molded filler；And the snorkel 475 1 while molding Side is ventilated, and promotes to cut 43 horizontal sliding of cutter, and the molding filler molded portion for removing compression molding device 3 is cut.In mould After pressure, upper mold 362 and lower mold 372 divide mould, molding filler to move down out compression molding dress in the drive of conveyor chain 52 3 are set, the end of transportation frame 51 is entered, the side that the both sides of filler are punctured is molded and is directly filled out from molding by side cutter 56 Directly cutting separation on material, separation finishes aftershaping filler and drops down onto in put flitch 63, and the side being punctured is directly from put flitch 63 and the end of transportation frame 51 enter in scrap collecting tank 64.

Therefore the overall process of this programme, when 3 end of compression molding device is molded to out of compression molding device 3 end The filler of removal is cut, and production efficiency can be effectively improved；In addition compression molding device 3, can will in molding The rear side filler pressing for being molded filler is fixed, and during so that Scissoring device 4 is cut filler, filler position is kept to stablize, ensured Complete molding filler can be cut out.In addition during cutting the movement of sliding block 42, it will drive and cut cutter 43 from level one Side cutting filler is to the other side.Compared with tradition is longitudinally cutting, the forced area smaller between transverse cuts and filler is required to apply The active force added also smaller, thus can ensure influence during cutting cutter 43 and cutting to compression molding device 3 compared with It is small.

The foregoing is merely presently preferred embodiments of the present invention, is not intended to restrict the invention, all design structures in the present invention Within think of, any modification, equivalent replacement, improvement and so on should all be included in the protection scope of the present invention.

Claims (9)

1. a kind of compression molding device of filler molding machine, it is characterised in that：Including molding fixed frame (31), it is fixed on molding admittedly Determine frame (31), vertical sliding is connected to the upper die body (36) being molded on the upside of fixed frame (31), vertical sliding is connected to molding and fixes Lower mold body (37) on the downside of frame (31) is fixed on the driving for driving upper die body (36) to slide up and down on molding fixed frame (31) Oil cylinder (32) and the linkage mechanism (38) of connection upper die body (36) and lower mold body (37), the linkage mechanism (38) is in upper die body (36) it drives the lower mold body (37) to synchronize when moving down to move up, is synchronized when upper die body (36) moves up and drive the lower mold body (37) It synchronizes and moves down.

2. the compression molding device of filler molding machine according to claim 1, it is characterised in that：Upper die body (36) packet It includes cope plate (361) and is fixed on the upper mold (362) of cope plate (361) lower face, the lower mold body (37) includes lower template (371) and it is fixed on the lower mold (372) of lower template (371) upper surface, the molding fixed frame (31) includes being vertically arranged at Several molding guide posts (33) of both sides, the cope plate (361) are provided with the upper pilot hole for being socketed on molding guide post (33), The lower pilot hole for being socketed on molding guide post (33) is provided on the lower template (371).

3. the compression molding device of filler molding machine according to claim 2, it is characterised in that：The upper mold (362) Width be less than cope plate (361), and be molded guide post (33) and the side wall of cope plate (361) between there are gaps；Under described Mold (372) is matched with upper mold (362), and there is also gaps between molding guide post (33) and the side wall of lower template (371).

4. the compression molding device of filler molding machine according to claim 2, it is characterised in that：The linkage mechanism (38) Including several linkage units (380), the linkage unit (380) is correspondingly arranged in molding fixed frame (31) and is equipped with molding guide post (33) both sides.

5. the compression molding device of filler molding machine according to claim 4, it is characterised in that：The linkage unit (380) include middle part be articulated with molding fixed frame (31) bottom wraping plate (383) and the upper linkage post (381) that is vertically arranged and Lower linkage post (382)；Upper linkage post (381) upper end is fixedly connected on cope plate (361), and lower end is sequentially connected in wraping plate (383) one end；Lower linkage post (382) upper end is fixedly connected on lower template (371), and lower end is sequentially connected in far from the first line of a couplet One end of dynamic column (381) wraping plate (383).

6. the compression molding device of filler molding machine according to claim 5, it is characterised in that：The wraping plate (383) with It is provided with linkage piece (384) between upper linkage post (381), lower linkage piece is provided between the wraping plate (383) and lower linkage (385)；Described upper linkage piece (384) one end is rotationally connected with linkage post (381), and the other end is rotationally connected with wraping plate (383), Described lower linkage piece (385) one end is rotationally connected with lower linkage post (382), and the other end is rotationally connected with wraping plate (383).

7. the compression molding device of filler molding machine according to claim 6, it is characterised in that：The upper linkage piece (384) and the both ends of lower linkage piece (385) rotation connection are both provided with fuel filler neck (386).

8. the compression molding device of filler molding machine according to claim 4, it is characterised in that：The corresponding linkage unit (380) being horizontally disposed between wraping plate (383) has horizontal brace rod (387).

9. the compression molding device of filler molding machine according to claim 4, it is characterised in that：The linkage unit (380) it is staggered on molding fixed frame (31) along filler conveying direction with molding guide post (33).