CN208451994U - The modified master batch manufacturing equipment of degradable blister package film - Google Patents

Abstract

The utility model relates to the modified master batch manufacturing equipments of degradable blister package film, including prilling granulator, feeding device, material-pulling device；And discharging device；Cooling body includes bellows, sealing element, cooling storehouse, receiving warehouse and ventilation duct；Bellows offers sliding slot thereon, offers air port below sliding slot；Sealing element includes capping and elastic component c；Cooling storehouse side offers cooling hole；Cutting mechanism further includes cutting knife unit, supporting element a, supporting element b and control assembly；Cutting knife unit includes hilt a and hilt b；Supporting element a includes support frame a and Flexible element a；Supporting element b includes support frame b and Flexible element b；Pipeline matching is arranged in the through slot of support frame b and is arranged on Flexible element b；The technical issues of the utility model is solved to be easy to appear to be sheared again during shearing and be minced, and damages product quality.

Description

The modified master batch manufacturing equipment of degradable blister package film

Technical field

The utility model relates to the modified master batch manufactures that biomass makes technical field more particularly to degradable blister package film Equipment.

Background technique

Bubble chamber film is then to add the auxiliary materials such as brightening agent, opening agent using high pressure polyethylene as primary raw material, through 230 degree of left sides Right high temperature squeezes out plastic uptake into the product of bubble；Existing bubble chamber film is generally dual-layer, single-sided bubble chamber film, and dual-layer, single-sided bubble chamber film is The New Plastic Packing Materials that a kind of quality is light, the transparency is good, nontoxic, tasteless can play damp proof, buffering, heat preservation etc. to product and make With；But also having the disadvantages that bubble is fragile, shockproof effect is bad；To divide front and back sides in packaging use process；Secondary operation Afterwards, using effect is poor, can manufacture the various special gas such as antistatic by the way that different additives is added in plastic raw materials more Pad film；Anti-static air cushion film is used for packaging electronic components, component, such as plate, card, can prevent electrostatic from can play buffering vibrationproof again Effect, plating aluminium foil bubble chamber film be generally used for the automobile sun block heat, roof it is heat-insulated.

The patent document of Patent No. CN102580831A discloses paddle type mill shear granulator, including with feed inlet and goes out The granulation warehouse of material mouth, is installed on blade support the blade support that can be rotated around horizontal middle spindle being installed in granulation warehouse The central axis outer end of shear-blade, blade support is connect with actuating unit；Blade support is horizontal cylinder cage structure, Cylindrical cage item is distributed in blade support periphery, and blade is that unilateral or bilateral is put the first edge on a knife or a pair of scissors structure, opens in the one or both ends of blade Equipped with can freedom suit in the mounting hole on cage item, at least two blades, two neighboring cage are uniformly installed on every cage item Blade interlaced arrangement on item；The discharge outlet of granulation warehouse is provided with sieve；The utility model carries out expanded cabo granulation, can Particle shape, raising production yield, raising product Filling power, the raising blade for changing expanded cabo turnary porous granule use the longevity Life.

But in actual use, utility model people discovery is during shearing due to clipped completion Product can not be seen off in time, when accumulating certain altitude, be easy to appear to be sheared again and be minced, damage asking for product quality Topic.

Utility model content

The purpose of this utility model is in view of the deficiencies of the prior art, to be transferred molten liquid by setting feeding device To pelletizing unit, material-pulling device is recycled to cooperate discharging device, so that material-pulling device pushes the molten liquid in pelletizing unit While cooling to discharging device, the shearing that equal portions are carried out to strip object will be synchronized, to solve the mistake in shearing Since the product of clipped completion can not be seen off in time in journey, when accumulating certain altitude, it is easy to appear and is cut again The technical issues of cutting and mince, damaging product quality, and then each device setting division of labor for realizing whole equipment is defined and is worked Linking is close, carries out bar material to blow away collection in time, granulating and forming, cooling, cutting and integration apparatus is realized, utilization rate High effect.

Against the above technical problems, as follows using technical solution: the modified master batch manufacturing equipment of degradable blister package film, Include:

Prilling granulator, the prilling granulator include for forming the granulating mechanism of bar material and being arranged in the granulating mechanism On rotating mechanism, offer pelletizing unit on the granulating mechanism, when work, the rotating mechanism drove the granulating mechanism The power and energy of charging with discharging is realized in rotation；

The side of the granulating mechanism is arranged in feeding device, the feeding device matching comprising for holding melting Liquid and it is connected to the feeding warehouse of setting with the pelletizing unit, match with the pelletizing unit stock stop of setting and described in The first driving mechanism on the outside of feeding warehouse, when work described in the first driving mechanism be used to push the molten liquid in the feeding warehouse In to the pelletizing unit；

Material-pulling device, the material-pulling device matching are arranged in the granulating mechanism side comprising are located at the charging and fill Set the feeding storehouse between the stock stop, the second driving mechanism on the outside of the feeding storehouse, when work described in second Driving mechanism is for pushing out the molten liquid in pelletizing unit；And

The other side of the granulating mechanism is arranged in discharging device, the relatively described material-pulling device of the discharging device, packet The cooling body for matching setting with the pelletizing unit and setting is included to connect in the cooling body side and with the cooling body The cutting mechanism of logical setting, the cutting mechanism includes cutter, and the cutter is single to offer pressurization inside cavity setting and its Member；When work, the cooling body is used to the molten liquid in pelletizing unit being cooled to bar material, then cooperates cutter will be after cooling Bar material carry out regular shearing, while the compress cell is blown the bar material after shearing by the cold wind using cooling body It walks.

Preferably, the pelletizing unit includes:

It is granulated part a, the granulation part a is along the granulating mechanism transverse direction through setting；And

It is granulated part b, the granulation part b is handed over along the granulating mechanism longitudinal direction through setting and with the granulation part a It is wrong not to be connected to setting vertically and mutually；

The granulation part a and granulation part b is granulated the equidistant horizontal arrays in hole by several and forms and along the granulation Mechanism height direction is uniformly arranged several groups.

Preferably, the cooling body includes:

Bellows, the bellows are located at the feeding warehouse side, offer sliding slot thereon, offer below the sliding slot Air port；

Sealing element, the sealing element are arranged on the outside of the bellows comprising the capping of setting is matched with the air port And one end connect its other end with the closure base portion and extends the elastic component c that pedestal is connect with the bellows；

Cooling storehouse, cooling storehouse matching setting is in the granulating mechanism side and its side offers and the granulation hole The cooling hole being arranged in a one-to-one correspondence；

Receiving warehouse, the receiving warehouse are located at the cooling storehouse rear and are located at below the cutting mechanism；And

Setting is connected to inside ventilation duct, described ventilation duct one end and the bellows and its other end and the cooling storehouse connect Logical setting.

Preferably, the cutting mechanism includes:

Cutting knife unit, the cutting knife unit are located at the cooling storehouse rear and are arranged along granulating mechanism short transverse several Group comprising be separately positioned on the hilt a and hilt b of the cutter two sides；

Supporting element a, the supporting element a are located at the cutter side comprising support frame a and setting are in support frame as described above a The Flexible element a of bottom setting；

Supporting element b, the supporting element b and the supporting element a are symmetrical arranged along cutter and are located at the bellows and institute It states between cutter comprising the support frame b and Flexible element b that the bottom support frame as described above b is set；

Pipeline, the pipeline are fixedly connected with the hilt b, and matching is arranged in the through slot of support frame as described above b and sets It sets on the Flexible element b；And

Control assembly, the control assembly are arranged above the pipeline and cut for driving cutter to move up and down It cuts.

Preferably, the control assembly includes:

Convex block a, the convex block a setting is on the pipeline；

Boom, the boom are located at right above the convex block a and are vertically arranged with the pipeline；And

Convex block b, the convex block b is fixedly mounted below the boom and matches setting with the convex block a, along described Boom is uniformly arranged several groups；

Convex block a is stated in the convex block b cooperation moves up and down it along the granulating mechanism short transverse.

Preferably, offering compress cell inside the cutter, the compress cell includes being provided with above blade Blast channel and be provided with the cutter outer surface and be connected to the blast channel setting blowhole, the blowhole facing away from The cooling storehouse is arranged and is uniformly arranged several groups along the cutter length direction；

The hollow setting of the hilt b and it is internal setting is connected to the blast channel, one end is slidably arranged in described In sliding slot, the interface mutually fitted with the duct size is offered in the capping, the interface is located at immediately below the sliding slot；

When work, the wind in bellows is transmitted to blast channel by hilt b using compression capping by the pipeline, real Now the bar material that shearing is completed is blown away to receiving warehouse.

Preferably, second driving mechanism includes:

Limiting slot, the limiting slot are provided on the feeding storehouse inner sidewall and are symmetrically set with two；

Pushing tow component, the pushing tow component include the top plate being slidably arranged in the limiting slot, are arranged on the top The push rod at plate rear and it is arranged in front of the top plate and several are set in qually spaced in the thimble on the top plate；

Flat-pushing part a, the flat-pushing part a is arranged on the outside of the feeding storehouse and its telescopic end is fixedly connected with the top plate；

The thimble is arranged in a one-to-one correspondence with the granulation hole；

Described boom one end is fixedly connected with the telescopic end of the flat-pushing part a；

When work, the flat-pushing part a drives the boom and the push rod to be moved forward and backward simultaneously.

Preferably, first driving mechanism includes:

Flat-pushing part b, the flat-pushing part b are located at outside the feeding warehouse；

Extrusion, described extrusion one end are fixedly connected with the telescopic end of the flat-pushing part b, and the other end is slidably arranged In the feeding warehouse comprising the compression bar being plugged in the feeding warehouse, the pressing plate being fixedly connected with the compression bar other end With the material-blocking plate that the pressing plate top is arranged in；

The hot-air muffler for heating molten liquid in the feeding warehouse is offered outside the feeding warehouse；

Material guiding parts are provided with above the feeding warehouse, the material guiding parts are used to molten liquid passing through hot-air muffler and import into described Inside feeding warehouse.

Preferably, the stock stop includes:

Striker plate, the striker plate are oppositely arranged with the feeding warehouse；

Slow pressure space, the slow pressure space is connected to setting with the pelletizing unit, is used to that feeding warehouse to be cooperated to make to described Molten liquid is pushed in grain unit.

Preferably, the rotating mechanism includes:

Rotation axis, the rotation axis are fixed on the granulating mechanism and are coaxially disposed with the granulating mechanism；

Turn tooth, the tooth that turns is fixedly mounted in the rotation axis and is coaxially disposed with the rotation axis；And

One way component, the one way component include the gearing that one end is fixedly connected with the first driving mechanism telescopic end Bar, the cavity box body connecting with the interlocking lever other end are fixed in the cavity box body and along the cavity box body Length direction array several fixing axle, the teeth that are rotatably provided in the fixing axle and be arranged in the teeth side Limited block.

As preferably, the granulating mechanism lower section is provided with mounting assembly, and the mounting assembly includes: again

Support base, the support base are arranged below the granulating mechanism；

Support shaft, the support shaft are fixed on the support base；And

Bearing shaft, described bearing shaft one end is rotatably connected in the support shaft and the other end is coaxially fixed at institute State the lower section of granulating mechanism.

The utility model has the beneficial effects that

(1) molten liquid is transferred in pelletizing unit by setting feeding device in the utility model, recycles pusher dress Cooperation discharging device is set, so that the molten liquid in pelletizing unit is pushed to discharging device by material-pulling device while cooled down, The shearing that equal portions are carried out to strip object will be synchronized, each device setting division of labor of whole equipment is clear and work linking is close, Granulating and forming, cooling, cutting and integration apparatus are realized, save each equipment placing space in workshop by its high degree of automation, Utilization rate is high；

(2) molten liquid in pelletizing unit is pushed in cooling storehouse by the way that flat-pushing part a is arranged in the utility model, simultaneously During pushing forward, drives the boom of control assembly is synchronous to move forward, on the one hand realize shearing work and cooling work Close linking, improve working efficiency, on the other hand to realize that the work of two stations is same under the driving of a driving force Shi Jinhang saves power output, reduces investment of production cost；

(3) in the utility model by by the hollow setting of hilt b, in shearing work pipeline with cutter in sliding slot to A little wind, so that being connected to setting inside hilt b and bellows, is introduced to blast channel to compress capping by lower movement It is interior, and then wind is blown out from blowhole, realizes that the bar material for completing shearing is blown away to receiving warehouse, after the completion of shearing Bar material be deposited in below knife, sheared repeatedly to effect that is broken, and then realizing equal portions shearing；

(4) cold wind in bellows is guided in cooling storehouse by ventilation duct in the utility model, so that flat-pushing Molten liquid under part a effect close to one end of cooling storehouse when out due to being cooled suddenly, be cooled to stripe shape automatically, And it is removed from corresponding cooling hole, and then realize the cooling work of molten liquid, high degree of automation, rapid and convenient；

(5) cooperate Flexible element a and Flexible element b by the way that cutter is arranged under control assembly effect in the utility model Elastic reaction, move up and down realization to bar material shearing work after cooling, again it is noted that Flexible element a and On the one hand Flexible element b plays the role of supporting cutter, be on the other hand used to realize the downward shearing work of cutter and reset work；

(6) it is staggered by the way that part a will be granulated with part b is granulated in the utility model, so that being granulated part a and being granulated part b work It is clear to make the division of labor, can synchronize and work again while not interfering with each other, improves working efficiency, utmostly changes and realizes pelletizer The utilization rate of structure；

(7) it is used cooperatively in the utility model by the convex block a and convex block b in setting control assembly, so that convex block a is convex It is moved down under the extruding of block b, and then realizes working repeatedly for cutter or more shearing, structure is simple, and shear efficiency is high.

In conclusion the advantages of equipment has high degree of automation, and shear forming is integrated, is particularly suitable for biomass Make technical field.

Detailed description of the invention

It, below will be to required in embodiment description for the clearer technical solution for illustrating the utility model embodiment The attached drawing used is briefly described, it should be apparent that, drawings discussed below is only some embodiments of the utility model, For those of ordinary skill in the art, without creative efforts, it can also obtain according to these attached drawings Obtain other accompanying drawings.

Fig. 1 is the structural schematic diagram of the modified master batch manufacturing equipment of degradable blister package film.

Fig. 2 is the structural schematic diagram of discharging device.

Fig. 3 is the schematic cross-sectional view of discharging device.

Fig. 4 is enlarged diagram of the Fig. 3 at A.

Fig. 5 is the schematic cross-sectional view in the direction modified master batch manufacturing equipment x-x of degradable blister package film.

Fig. 6 is enlarged diagram of the Fig. 5 at B.

Fig. 7 is enlarged diagram of the Fig. 5 at C.

Fig. 8 is the schematic cross-sectional view in the direction modified master batch manufacturing equipment y-y of degradable blister package film.

Fig. 9 is the structural schematic diagram of one way component.

Specific embodiment

The technical scheme in the embodiment of the utility model is clearly and completely illustrated with reference to the accompanying drawing.

Embodiment one

As shown in Figure 1, the modified master batch manufacturing equipment of degradable blister package film, comprising:

Prilling granulator 1, the prilling granulator 1 include for forming the granulating mechanism 11 of bar material and being arranged in the granulation Rotating mechanism 12 in mechanism 11, offers pelletizing unit 111 on the granulating mechanism 11, when work 12 band of rotating mechanism Move the power and energy that charging with discharging are realized in the rotation of granulating mechanism 11；

Feeding device 2, the feeding device 2 match the side that the granulating mechanism 11 is arranged in comprising for holding Molten liquid and it is connected to the feeding warehouse 21 of setting with the pelletizing unit 111, matches with the pelletizing unit 111 backgauge being arranged Mechanism 23 and the first driving mechanism 22 positioned at 21 outside of the feeding warehouse, when work described in the first driving mechanism 22 be used for institute It states the molten liquid in feeding warehouse 21 to push in the pelletizing unit 111, the stock stop 23 cooperates the granulating mechanism 11 Prevent the molten liquid in pelletizing unit 111 unrestrained outside；

Material-pulling device 4, the matching of material-pulling device 4 are arranged in 11 side of granulating mechanism comprising are located at described add Expect the feeding storehouse 41 between device 2 and the stock stop 23, the second driving mechanism 42 positioned at 41 outside of feeding storehouse, work Second driving mechanism 42 described in when making is for pushing out the molten liquid in pelletizing unit 111；And

The another of the granulating mechanism 11 is arranged in discharging device 5, the relatively described material-pulling device 4 of the discharging device 5 Side comprising matched with the pelletizing unit 111 setting cooling body 51 and be arranged 51 side of cooling body and with The cutting mechanism 52 of the connection of cooling body 51 setting, the cutting mechanism includes cutter 521, and the cutter 521 is cavity It is arranged and offers compress cell 5211 inside it；When work, the cooling body 51 is used for the melting in pelletizing unit 111 Liquid cooling is but in strip material, then cooperates cutter 521 that bar material after cooling is carried out regular shearing, while the compress cell 5211 are blown away the bar material after shearing by the cold wind using cooling body 51.

In the present embodiment, molten liquid is transferred in pelletizing unit 111 by setting feeding device 2, recycles pusher Device 4 cooperates discharging device 5, cools down so that the molten liquid in pelletizing unit 111 is pushed to discharging device 5 by material-pulling device While, the shearing that equal portions are carried out to strip object will be synchronized, each device setting division of labor of whole equipment defines and work rank Close, high degree of automation is connect, by the realization of granulating and forming, cooling, cutting and integration apparatus, saves each equipment pendulum in workshop Between emptying, utilization rate is high.

Further, as shown in figure 9, the pelletizing unit includes that pelletizing unit 111 includes:

It is granulated part a1111, the granulation part a1111 is along 11 transverse direction of granulating mechanism through setting；And

Be granulated part b1112, the granulations part b1112 along 11 longitudinal direction of granulating mechanism through be arranged and with it is described It is granulated part a1111 serrated vertical and is not connected to setting mutually；

The granulation part a1111 and be granulated part b1112 by several be granulated the equidistant horizontal arrays in hole 1113 form and Several groups are uniformly arranged along 11 short transverse of granulating mechanism.

In the present embodiment, it is staggered by the way that part a1111 will be granulated with part b1112 is granulated, so that being granulated part a1111 Part b1112 work division is clear with being granulated, and can synchronize and work again while not interfering with each other, and improves working efficiency, maximum The utilization rate of degreeization realization granulating mechanism 11.

Further, as shown in Figure 3, Figure 4, the cooling body 51 includes:

Bellows 511, the bellows 511 are located at 21 side of feeding warehouse, offer sliding slot 512, the cunning thereon Air port 513 is offered below slot 512；

Sealing element 514, the sealing element 514 setting is in 511 outside of bellows comprising with 513, the air port Capping 5141 and one end with setting connect its other end with 5141 bottoms of the capping and the bellows 511 extends pedestal The elastic component c5142 of 5144 connections；

Cooling storehouse 515, the matching of cooling storehouse 515 is arranged in 11 side of granulating mechanism and its side offers and institute It states and is granulated the cooling hole 516 that hole 1113 is arranged in a one-to-one correspondence；

Receiving warehouse 517, the receiving warehouse 517 are located at 515 rear of cooling storehouse and are located under the cutting mechanism 52 Side；And

Setting and its other end and institute are connected to inside ventilation duct 518, described 518 one end of ventilation duct and the bellows 511 State the connection setting of cooling storehouse 515.

In the present embodiment, the cold wind in bellows 511 is guided in cooling storehouse 515 by ventilation duct 518, so that Flat-pushing part a423 effect under molten liquid close to one end of cooling storehouse 515 out when due to being cooled suddenly, from It is dynamic to be cooled to stripe shape, and removed from corresponding cooling hole 516, and then realize the cooling work of molten liquid, automate journey Degree is high, rapid and convenient.

Further, as shown in Fig. 2, the cutting mechanism 52 further include:

Cutting knife unit 527, the cutting knife unit 527 are located at 515 rear of cooling storehouse and along 11 height of granulating mechanism Several groups are arranged in direction comprising are separately positioned on the hilt a522 and hilt b523 of 521 two sides of cutter；

Supporting element a524, the supporting element a524 are located at 521 side of cutter comprising support frame a5241 and setting In the Flexible element a5242 of the bottom support frame as described above a5241 setting；

Supporting element b525, the supporting element b525 and the supporting element a524 are symmetrical arranged along cutter 521 and are located at institute It states between bellows 511 and the cutter 521 comprising support frame b5251 and the bullet that the bottom support frame as described above b5251 is set Property unit b5252；

Pipeline 528, the pipeline 528 are fixedly connected with the hilt b523, and matching is arranged in support frame as described above b5251 Through slot 5253 in and be arranged on the Flexible element b5252；And

Control assembly 526, the control assembly 526 be arranged the pipeline 528 above and be used to driving cutter 521 into Row moves up and down shearing.

In the present embodiment, by setting cutter 521 control assembly 526 effect under, cooperation Flexible element a5242 and The elastic reaction of Flexible element b5252 moves up and down realization to bar material shearing work after cooling, is worth mentioning again It is on the one hand Flexible element a5242 and Flexible element b5252 play the role of supporting cutter 521, is on the other hand used to realize and cut The downward shearing work of knife 521 and reset work.

Further, as shown in Fig. 2, the control assembly 526 includes:

Convex block a5261, the convex block a5261 setting is on the pipeline 528；

Boom 5262, the boom 5262 are located at right above the convex block a5261 and are vertically arranged with the pipeline 528； And

Convex block b5263, the convex block b5263 be fixedly mounted on 5262 lower section of boom and with the convex block a5261 With setting, several groups are uniformly arranged along the boom 5262；

Convex block a5261 is stated in the convex block b5263 cooperation moves up and down it along 11 short transverse of granulating mechanism.

In the present embodiment, it is used cooperatively by the convex block a5261 and convex block b5263 in setting control assembly, so that convex Block a5261 is moved down under the extruding of convex block b5263, and then realizes working repeatedly for about 521 cutter shearing, structure Simply, shear efficiency is high.

Further, as shown in Fig. 2, Fig. 3, Fig. 4, Fig. 5, compress cell 5211, the increasing are offered inside the cutter 521 Pressure unit 5211 include be provided with the blast channel 5212 above blade and be provided with 521 outer surface of cutter and with the drum The blowhole 5213 of the connection setting of wind channel 5212, the blowhole 5213 are arranged facing away from the cooling storehouse 515 and along described 521 length direction of cutter is uniformly arranged several groups；

The hollow setting of the hilt b523 and inside are connected to setting with the blast channel 5212, and pipeline one end is slidably set It sets in the sliding slot 512, offers the interface 5143 mutually fitted with 528 size of pipeline in the capping 5141, it is described to connect Mouth is located at immediately below the sliding slot 512；

When work, the pipeline 528 is transmitted the wind in bellows 511 by hilt b523 using compression capping 5141 To blast channel 5212, realize that the bar material for completing shearing is blown away to receiving warehouse 517.

In the present embodiment, by by the hollow setting of hilt b523, in shearing work, pipeline 528 exists with cutter 521 It is moved down in sliding slot 512, so that capping 5141 is compressed, so that it is connected to setting inside hilt b523 and bellows 211, it will A little wind is introduced in blast channel 5212, and then wind is blown out from blowhole 5213, realizes that the bar material for completing shearing is blown away To receiving warehouse 517, it is deposited in below hilt, is sheared repeatedly to broken, Jin Ershi so as to avoid the bar material after the completion of shearing The effect of equal portions shearing is showed.

Further, as shown in fig. 6, second driving mechanism 42 includes:

Limiting slot 421, the limiting slot 421 are provided on 41 inner sidewall of feeding storehouse and are symmetrically set with two It is a；

Pushing tow component 422, the pushing tow component 422 include slidably be arranged in the limiting slot 421 top plate 4221, The push rod 4222 at 4221 rear of top plate is set and setting is in front of the top plate 4221 and several are set in qually spaced in Thimble 4223 on the top plate 4221；

Flat-pushing part a423, the flat-pushing part a423 setting is in 41 outside of feeding storehouse and its telescopic end and the top plate 4221 are fixedly connected；

The thimble 4223 is arranged in a one-to-one correspondence with the granulation hole 1113；

Further, as shown in figure 8, first driving mechanism 22 includes:

Flat-pushing part b221, the flat-pushing part b221 are located at outside the feeding warehouse 21；

Extrusion 222, described 222 one end of extrusion are fixedly connected with the telescopic end of the flat-pushing part b221, the other end Slidably it is arranged in the feeding warehouse 21 comprising compression bar 2221 and the compression bar being plugged in the feeding warehouse 21 The pressing plate 2222 that 2221 other ends are fixedly connected and the material-blocking plate 2224 that 2222 top of pressing plate is set；

The hot-air muffler 10 for heating molten liquid in the feeding warehouse 21 is offered outside the feeding warehouse 21；

Material guiding parts 2223 are provided with above the feeding warehouse 21, the material guiding parts 2223 are used to molten liquid passing through hot-air muffler 10 import into inside the feeding warehouse 21.

It is worth noting that the purpose of hot-air muffler 10 is arranged in order to guarantee that the molten liquid in feeding warehouse 21 remains melting State avoids the reduction of its temperature that molten liquid is caused to solidify, and then influences the normal work of whole equipment.

Further, as shown in figure 8, the stock stop 23 includes:

Striker plate 231, the striker plate 231 are oppositely arranged with the feeding warehouse 21；

Slow pressure space 232, the slow pressure space 232 is connected to setting with the pelletizing unit 111, is used to cooperate feeding warehouse 21 push molten liquid into the pelletizing unit 111.

It is noted that the slow pressure space 232 is the space for the unique size debugged, and offer air hole 30, purpose is pushing melting into pelletizing unit 111 with the flat-pushing part b221 be on the one hand conducive in cooperation feeding warehouse 21 Liquid guarantees that the molten liquid in pelletizing unit 111 will not flow out pelletizing unit because of inertia on the other hand again in effective air pressure In 111, and then save manually to the scavenging period of 231 bottom molten liquid of striker plate and labour output cost.

Further, as shown in figure 9, the rotating mechanism 12 includes:

Rotation axis 121, the rotation axis 121 are fixed on the granulating mechanism 11 and same with the granulating mechanism 11 Axis setting；

Turn tooth 122, the tooth 122 that turns is fixedly mounted in the rotation axis 121 and coaxially sets with the rotation axis 121 It sets；And

One way component 123, the one way component 123 include that one end is fixedly connected with 22 telescopic end of the first driving mechanism Interlocking lever 1231, connect with 1231 other end of interlocking lever cavity box body 1232, be fixed at the cavity box body In 1232 and along the 1232 length direction array of cavity box body several fixing axle 1233, be rotatably provided in the fixation Teeth 1234 on axis 1233 and the limited block 1235 that 1234 side of teeth is set.

In the present embodiment, setting is connect with the first driving mechanism 22 by setting rotating mechanism 12, so that driving at one It under the driving of power, realizes the work of two stations while carrying out, save power output, reduce investment of production cost；

In addition, limited block 1235 is arranged in 1234 side of teeth by the present embodiment, and then realize one way component 123 flat-pushing During part 223 advances, rotating without turn tooth 122, during flat-pushing part retreats, band turn tooth 122 is rotated, thus Further realize the automatic switchover rotation of granulating mechanism 11.

Further, as shown in fig. 6, being provided with mounting assembly 13 below the granulating mechanism 11, the mounting assembly 13 Include:

Support base 131, the support base 131 are arranged below the granulating mechanism 11；

Support shaft 132, the support shaft 132 are fixed on the support base 131；And

Bearing shaft 133, described 133 one end of bearing shaft is rotatably connected in the support shaft 132 and the other end is coaxially solid The lower section of the granulating mechanism 11 is set calmly.

Embodiment two

As shown in Figure 2 and Figure 3, wherein with component identical or corresponding in embodiment one using corresponding with embodiment one attached Icon note hereafter only describes the distinctive points with embodiment one for simplicity.The difference of the embodiment two and embodiment one It is:

Further, as shown in Figure 2 and Figure 3, the telescopic end of described 5262 one end of boom and the flat-pushing part a423 are fixed connects It connects；

When work, the flat-pushing part a423 drives the boom 5262 to be moved forward and backward with the push rod 4222 simultaneously.

In the present embodiment, the molten liquid in pelletizing unit 111 is pushed into cooling storehouse 515 by the way that flat-pushing part a423 is arranged It is interior, while forward during promotion, drive the boom 5262 of control assembly 526 is synchronous to move forward, on the one hand realization shearing Work is connected with the close of cooling work, improves working efficiency, on the other hand makes under the driving of a driving force, realizes two The work of a station carries out simultaneously, saves power output, reduces investment of production cost.

The course of work:

Molten liquid is passed through feed cavity 211 by material guiding parts 214 first, starts horizontal sliding cylinder 222,222 band of horizontal sliding cylinder Pressing plate 2232 on dynamic push rod 2231 moves forward, and pressing plate 2232 pushes molten liquid into granulation part a1111, then push rod 2231 move backward, in moving process drive interlocking lever 1231 move backward, in moving process teeth 1234 with turn tooth 122 into Row rotation, turn tooth 122 by rotation axis 121 drive 90 degree of granulating mechanism rotation, top plate 4221 flat-pushing part a423 act under to Preceding movement, thimble 4223 at the uniform velocity export the molten liquid being granulated in part a1111；Bellows 511 is opened at this time, and cooling storehouse 515 reaches To low-temperature condition, molten liquid is quickly cooled to strip, strip object is flowed out from cooling hole 516, while control assembly 526 Boom 5262 it is synchronous move forward, convex block a5261 is moved down under the extruding of convex block b5263, and then is moved down on cutter 521 Dynamic to shear to strip object, then pipeline 528 is moved down in sliding slot 512 with cutter 521, to compress capping 5141, so that being connected to setting inside hilt b523 and bellows 211, a little wind is introduced in blast channel 5212, into And wind is blown out from blowhole 5213, is realized that the bar material for completing shearing is blown away to receiving warehouse 517 and is collected；

At the same time, horizontal sliding cylinder 222 drives the pressing plate 2232 on push rod 2231 mobile, and pressing plate 2232 is by molten liquid to making Push in grain part b1112, then push rod 2231 moves backward, and drives interlocking lever 1231 to move backward in moving process, is moved through Teeth 1234 are rotated with turn tooth 122 in journey, are turned tooth 122 by rotation axis 121 and are driven 90 degree of granulating mechanism rotations, top plate 4221 move forward under flat-pushing part a423 effect, and thimble 4223 at the uniform velocity exports the molten liquid being granulated in part b1112；It opens at this time Bellows 511 is opened, cooling storehouse 515 reaches low-temperature condition, and molten liquid is quickly cooled to strip, and strip object is from cooling hole It is flowed out in 516, while the synchronous forward movement of boom 5262 of control assembly 526, convex block a5261 is under the extruding of convex block b5263 It moves down, and then cutter 521 is moved up and down and sheared to strip object, then pipeline 528 is as cutter 521 is in sliding slot It is moved down in 512, so that capping 5141 is compressed, so that it is connected to setting inside hilt b523 and bellows 211, it will be a little Wind is introduced in blast channel 5212, and then wind is blown out from blowhole 5213, realizes that the bar material for completing shearing is blown away to receipts Feed bin 517 is collected, and is resetted after the completion of recycling, and equipment repeats a upper movement.

In the description of the present invention, it should be understood that the orientation or position of the instructions such as term " front and back ", " left and right " Relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of describing the present invention and simplifying the description, without It is that the equipment of indication or suggestion meaning or component must have a particular orientation, be constructed and operated in a specific orientation, therefore not It can be interpreted as the limitation to utility model.

Certainly in the technical scheme, those skilled in the art is it should be understood that term " one " is interpreted as " at least One " or " one or more ", i.e., in one embodiment, the quantity of an element can be one, and in other implementation In example, the quantity of the element can be it is multiple, term " one " should not be understood as the limitation to quantity.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, the variation that anyone skilled in the art can readily occur under the technical clarification of the utility model Or replacement, it should be covered within the scope of the utility model.Therefore, the protection scope of the utility model should be with right Subject to the protection scope of claim.

Claims (7)

1. the modified master batch manufacturing equipment of degradable blister package film characterized by comprising

Prilling granulator (1), the prilling granulator (1) include making for forming the granulating mechanism of bar material (11) and being arranged described Rotating mechanism (12) on grain mechanism (11) offers pelletizing unit (111) on the granulating mechanism (11), when work described in turn Motivation structure (12) drives granulating mechanism (11) rotation to realize the power and energy fed with discharging；

Feeding device (2), side of feeding device (2) the matching setting in the granulating mechanism (11) comprising for containing It puts molten liquid and is connected to the feeding warehouse (21) of setting with the pelletizing unit (111), match setting with the pelletizing unit (111) Stock stop (23) and the first driving mechanism (22) for being located on the outside of the feeding warehouse (21), when work described in the first driving machine Structure (22) is used to push to the molten liquid in the feeding warehouse (21) in the pelletizing unit (111)；

Material-pulling device (4), material-pulling device (4) matching are arranged in the granulating mechanism (11) side comprising are located at described Feeding storehouse (41) between feeding device (2) and the stock stop (23), second on the outside of the feeding storehouse (41) drive Motivation structure (42), when work described in the second driving mechanism (42) for the molten liquid in pelletizing unit (111) to be pushed out；With And

Discharging device (5), the relatively described material-pulling device (4) of the discharging device (5) are arranged in the another of the granulating mechanism (11) Side comprising match the cooling body (51) of setting with the pelletizing unit (111) and be arranged in the cooling body (51) Side and the cutting mechanism (52) that setting is connected to the cooling body (51), the cutting mechanism includes cutter (521), described Cutter (521) is that cavity is arranged and offers compress cell (5211) inside it；When work, the cooling body (51) is used for will Molten liquid in pelletizing unit (111) is cooled to bar material, then cooperates cutter (521) that bar material after cooling is carried out regular cut It cuts, while the compress cell (5211) is by being blown away the bar material after shearing using the cold wind of cooling body (51)；

The cooling body (51) includes the bellows (511) for being located at the feeding warehouse (21) side, is arranged in the bellows (511) sealing element (514), matching on the outside of are arranged in the cooling storehouse (515) of the granulating mechanism (11) side, positioned at described cold But storehouse (515) rear and the receiving warehouse (517) being located at below the cutting mechanism (52) and one end and the bellows (511) are interior Portion's connection setting and its other end are connected to the ventilation duct (518) of setting with the cooling storehouse (515)；The bellows (511) its On offer sliding slot (512), offer air port (513) below the sliding slot (512)；The sealing element (514) include with it is described Air port (513) matches the capping (5141) being arranged and one end and connect its other end and the air blast with described capping (5141) bottom Case (511) extends the elastic component c (5142) of pedestal (5144) connection；Cooling storehouse (515) side offers and the granulation The cooling hole (516) that unit (111) is arranged in a one-to-one correspondence；

The cutting mechanism (52) further includes setting positioned at the cooling storehouse (515) rear and along granulating mechanism (11) short transverse Set cutting knife unit (527), the supporting element a (524) for being located at the cutting knife unit (527) side and the supporting element a of several groups (524) support arranged symmetrically and between the bellows (511) and the cutting knife unit (527) along cutter (521) Part b (525), the pipeline (528) being fixedly connected with the cutter (521) and setting are above the pipeline (528) and for driving Dynamic cutting knife unit (527) move up and down the control assembly (526) of shearing；The cutting knife unit (527) includes being respectively set Hilt a (522) and hilt b (523) in the cutter (521) two sides；The supporting element a (524) includes (5241) support frame a The Flexible element a (5242) being arranged with setting in (5241) bottom support frame as described above a；The supporting element b (525) includes support frame B (5251) and setting support frame as described above b (5251) bottom Flexible element b (5252)；Pipeline (528) the matching setting exists In the through slot (5253) of support frame as described above b (5251) and it is arranged on the Flexible element b (5252).

2. the modified master batch manufacturing equipment of degradable blister package film according to claim 1, which is characterized in that described to make Grain unit (111) include:

It is granulated part a (1111), the granulation part a (1111) is along the granulating mechanism (11) transverse direction through setting；And

Be granulated part b (1112), the granulations part b (1112) along the granulating mechanism (11) longitudinal direction through be arranged and with institute It states and is granulated part a (1111) serrated vertical and is not connected to setting mutually；

The granulation part a (1111) and granulation part b (1112) are granulated hole (1113) equidistant horizontal array by several and form And several groups are uniformly arranged along the granulating mechanism (11) short transverse.

3. the modified master batch manufacturing equipment of the degradable blister package film according to claim 1, which is characterized in that institute Stating rotating mechanism (12) includes:

Rotation axis (121), the rotation axis (121) be fixed on the granulating mechanism (11) and with the granulating mechanism (11) it is coaxially disposed；

Turn tooth (122), it is described turn tooth (122) be fixedly mounted on it is on the rotation axis (121) and coaxial with the rotation axis (121) Setting；And

One way component (123), the one way component (123) include one end and the fixed company of the first driving mechanism (22) telescopic end The interlocking lever (1231) that connects, the cavity box body (1232) being connect with the interlocking lever (1231) other end, be fixed at it is described In cavity box body (1232) and along cavity box body (1232) the length direction array several fixing axle (1233), can be rotated The limited block (1235) of the teeth (1234) that are arranged on the fixing axle (1233) and setting in the teeth (1234) side.

4. the modified master batch manufacturing equipment of degradable blister package film according to claim 1, which is characterized in that described One driving mechanism (22) includes:

Flat-pushing part b (221), it is external that the flat-pushing part b (221) is located at the feeding warehouse (21)；

Extrusion (222), described extrusion (222) one end is fixedly connected with the telescopic end of the flat-pushing part b (221), another End is slidably arranged in the feeding warehouse (21) comprising compression bar (2221) and the institute being plugged in the feeding warehouse (21) State the pressing plate (2222) and the material-blocking plate on the pressing plate (2222) top is set that compression bar (2221) other end is fixedly connected (2224)；

The hot-air muffler (10) for heating the feeding warehouse (21) interior molten liquid is offered outside the feeding warehouse (21)；

It is provided with material guiding parts (2223) above the feeding warehouse (21), the material guiding parts (2223) are used to molten liquid passing through hot gas Cover (10) imports internal into the feeding warehouse (21).

5. the modified master batch manufacturing equipment of degradable blister package film according to claim 1, which is characterized in that the gear Expect that mechanism (23) include:

Striker plate (231), the striker plate (231) are oppositely arranged with the feeding warehouse (21)；

Slow pressure space (232), the slow pressure space (232) are connected to setting with the pelletizing unit (111), are used to cooperate charging Storehouse (21) pushes molten liquid into the pelletizing unit (111).

6. the modified master batch manufacturing equipment of degradable blister package film according to claim 2, which is characterized in that described Two driving mechanisms (42) include:

Limiting slot (421), the limiting slot (421) are provided on the feeding storehouse (41) inner sidewall and are symmetrically set with two It is a；

Pushing tow component (422), the pushing tow component (422) include the top plate being slidably arranged in the limiting slot (421) (4221), be arranged the top plate (4221) rear push rod (4222) and setting the top plate (4221) front and several The thimble (4223) being set in qually spaced on the top plate (4221)；

Flat-pushing part a (423), flat-pushing part a (423) setting is in the feeding storehouse (41) outside and its telescopic end and the top plate (4221) it is fixedly connected；

The thimble (4223) is arranged in a one-to-one correspondence with the granulation hole (1113).

7. the modified master batch manufacturing equipment of degradable blister package film according to claim 6, which is characterized in that the control Component (526) processed includes:

Convex block a (5261), the convex block a (5261) are arranged on the pipeline (528)；

Boom (5262), the boom (5262) are located at right above the convex block a (5261) and vertical with the pipeline (528) set It sets；And

Convex block b (5263), the convex block b (5263) be fixedly mounted below the boom (5262) and with the convex block a (5261) matching setting, is uniformly arranged several groups along the boom (5262)；

Convex block a (5261) is stated in convex block b (5263) cooperation moves up and down it along the granulating mechanism (11) short transverse；

Described boom (5262) one end is fixedly connected with the telescopic end of the flat-pushing part a (423)；

When work, the flat-pushing part a (423) drives the boom (5262) and the push rod (4222) to be moved forward and backward simultaneously；

The compress cell (5211) includes the blast channel (5212) being provided with above blade and is provided with the cutter (521) Outer surface and the blowhole (5213) that setting is connected to the blast channel (5212), the blowhole (5213) is facing away from described cold But storehouse (515) are arranged and are uniformly arranged several groups along the cutter (521) length direction；

The hollow setting of the hilt b (523) and inside are connected to setting with the blast channel (5212), by pipeline (528) Connection setting, one end are slidably arranged in the sliding slot (512), offer and the pipeline on the capping (5141) (528) interface (5143) that size is mutually fitted, the interface are located at immediately below the sliding slot (512)；

When work, the pipeline (528) passes through hilt b (523) using compression capping (5141), the wind in bellows (511) It is transmitted to blast channel (5212), realizes that the bar material for completing shearing is blown away to receiving warehouse (517).