CN109129971A - A kind of battery plastic housing injection molding raw material full automatic processing device and its technique - Google Patents

Abstract

The present invention provides a kind of battery plastic housing injection molding raw material full automatic processing device and its technique, including raw material crushing device, lifting device, modeling extrusion device, modeling water cooling output device, rack, transmission pressurizing unit and pelletizing de-watering apparatus, transmitting pressurizing unit includes the first transmission assembly and the second transmission assembly, and modeling transmission space is formed between the first transmission assembly and the second transmission assembly；Pelletizing de-watering apparatus is located in the first transmission assembly, and pelletizing component reciprocating is in modeling transmission space；By the way that pelletizing component is arranged inside transmission pressurizing unit, pelletizing component forms reciprocating movement identical with transmission pressurizing unit transmission linear velocity under the drive for moving back and forth component, and it is realized in reciprocating movement to the synchronization pelletizing in modeling transmission process, water removal air blowing component is cooperated to carry out drying processing to modeling grain simultaneously, it solves modeling item in the prior art and forms the technical issues of being bent, influencing the quality of modeling granule product in cutter in transmission process.

Description

A kind of battery plastic housing injection molding raw material full automatic processing device and its technique

Technical field

The present invention relates to biology modeling grain manufacturing technology field more particularly to a kind of battery plastic housing injection molding raw material are full-automatic Processing unit (plant) and its technique.

Background technique

In plastic extruding pelletization production line, first by the melting sources of plastic granulating, it is extruded into from plastic extruder Billot, plastics billot in long strip is cooling through water in the sink, and the hardness for improving billot enters back into pelleter by cutter Pelletizing forms final plastic pellet.

It is usually squeezed from extruder due to the equipment attrition of too many levels or artificial carelessness etc. in process of production Iron filings can be mixed with when out in material strip, the material strip with iron filings enters pelleter, pelleter cutter run at high speed cut off operation when, Cutter is easily damaged when encountering the iron filings in material strip, and such accident is in production practice frequent occurrence.Damage pelleter cutter Replacement cutter need to be often carried out, production operation flow process is affected, affects production efficiency, increases production cost；Moreover, Material strip with iron filings enters pelleter pelletizing, and iron filings are mixed into product, influence following process, seriously affects product quality.

Chinese patent CN201410268783.1 describes a kind of plastic grain cutting machine, including cooler bin and pelleter, described Support transmission mechanism and sensing device are equipped between cooler bin and pelleter, cooler bin includes main box, is equipped with two in main box A live-roller, conveyer belt are stretched on two live-rollers, and spray equipment is fixed in main box, and the lower part of main box has connected defeated Outlet pipe, efferent duct stretch out main box and are connected with the water inlet end of water pump, the water outlet of water pump and the spray equipment for stretching out main box Water inlet end be connected, its structure is simple, easily manufactured, and there are can actively find in time when iron filings when being mixed into plastic strip And the cutter pelletizing movement of pelleter processed is hindered, damage blade is avoided, operation is kept to go on smoothly.

There are many deficiencies for said mechanism, if pelleter cutter is when carrying out pelletizing movement, mould item in transmission process with Cutter carries out the contact in transverse direction, so that modeling item is formed in cutter in transmission process and is bent, influences to mould granule product Quality.

Summary of the invention

Of the invention provides a kind of battery plastic housing injection molding raw material full automatic processing device in view of the deficiencies of the prior art And its technique, by the way that pelletizing component, pelletizing component shape under the drive for moving back and forth component are arranged inside transmission pressurizing unit It realizes at reciprocating movement identical with transmission pressurizing unit transmission linear velocity, and in reciprocating movement in modeling transmission process Synchronous pelletizing, while water removal air blowing component being cooperated to carry out drying processing to modeling grain, instead of the static progress of original cutter transverse direction The mode for moulding a pelletizing solves and moulds item in the prior art in transmission process in cutter formation bending, influences to mould granule product Quality the technical issues of.

To achieve the above object, the invention provides the following technical scheme:

A kind of battery plastic housing injection molding raw material full automatic processing device, including raw material crushing device, it is set to the original The lifting device for expecting crushing device one end, is set to institute at the modeling extrusion device being set to below the lifting device other side The rack stated the modeling water cooling output device of modeling extrusion device side and be set to the modeling water cooling output device side, Further include:

Pressurizing unit is transmitted, the transmission pressurizing unit is set in the rack, which includes first Transmission assembly and the second transmission assembly being set to below first transmission assembly, first transmission assembly and the second transmission Modeling transmission space is formed between component；And

Pelletizing de-watering apparatus, the pelletizing de-watering apparatus are set in the rack and are located at first transmission assembly Interior, which includes moving back and forth component, the pelletizing component being set on the reciprocating motion component and being set to Water removal air blowing component on the pelletizing component, the pelletizing component reciprocating is in the modeling transmission space.

As an improvement, first transmission assembly includes:

First rotating roller, the first rotating roller quantity are two groups and are rotatably dispose in the both ends of the rack respectively；

First transmission belt, first transmission belt both ends are sheathed on respectively in first rotating roller, first transmission belt Interior formation moves back and forth space, offers cutter slot in first transmission belt, which sets with pelletizing component cooperation It sets.

As an improvement, the reciprocating motion component includes:

First revolving meber, first revolving meber are rotatably dispose in the rack and are located at the reciprocating motion space It is interior；

Second revolving meber, second revolving meber are rotatably dispose in the rack and are located at the reciprocating motion space Interior, which is located at the side of first revolving meber, and it is empty that driving is formed between the first revolving meber and the second revolving meber Between；

Revolution driving part, the revolution driving part are fixedly installed on described rack one end.

As an improvement, first revolving meber and the second revolving meber include:

Sprocket wheel, the sprocket wheel quantity are two groups and are rotatably dispose in the rack respectively, the rotational installation of two groups of sprocket wheels Point is located in the same horizontal plane；

Chain, the chain both ends are respectively sleeved on the sprocket wheel.

As an improvement, the pelletizing component includes:

Pelletizing bracket, pelletizing bracket both ends are hingedly connected on first revolving meber and the second revolving meber, this is cut Grain bracket is located in the reciprocating motion space；

Driver slot, the driver slot are opened on the upper surface of the pelletizing bracket；

Guide cylinder, the guide cylinder are set on the lower surface of the pelletizing bracket；

Cutter, the cutter are slideably positioned on the pelletizing bracket, and the cutter basal sliding is installed on the guiding In cylinder, which is equipped with the cutter slot, is fixedly installed on the cutter drive block (4241), and drive block sliding is set It is placed in the driver slot；

Cutter driving part, the cutter driving part are set in the reciprocating motion space；

The cutter along it is described move back and forth component transmission linear velocity W1 and the first transmission belt transmission linear velocity W2 it Between relationship meet, W1=W2.

As an improvement, the pelletizing bracket includes:

Mounting plate, the driver slot are opened on the mounting plate；

Mounting rack, the mounting rack are fixedly installed below the mounting plate, shape between the mounting rack and the mounting plate At cutter mobile space, the guide cylinder quantity is four groups and is fixedly installed on the mounting rack, between the guide cylinder and cutter It is fixedly connected with dynamic clamping head and quiet clamping head.

As an improvement, the cutter driving part includes:

Fixed frame, the fixed frame are fixedly installed in the rack and are located in the driving space；

Convex block, the convex block are fixedly installed on the fixed frame, and the convex block and the drive block discontinuous connection are arranged.

As an improvement, the water removal air blowing component includes:

Ventilating part, the ventilating part is disposed through on the mounting plate and cutter mobile space, and the ventilating part is interior The hollow setting in portion, air inlet is offered on the ventilating part outer wall, and the air inlet is connected to by hose with external drum device of air；

Gas collection portion, the gas collection portion are fixedly installed on the cutter, and the gas collection portion is slidably installed In in the ventilating part, being provided with gas collection hole on the ventilating part, the gas collection hole and the air inlet are intermittent communicated Setting；

Air blowing portion, the air blowing portion are set in the cutter blade, the air blowing portion quantity be several and with the gas Connection is arranged inside body collection portion, and gas hole is provided in the air blowing portion, and the gas hole is set towards a modeling transmission direction side It sets.

As an improvement, second transmission assembly includes:

Second rotating roller, the second rotating roller quantity are two groups and are rotatably dispose in the both ends of the rack respectively；

Second transmission belt, second transmission belt both ends are sheathed on respectively in second rotating roller, second transmission Band lower section is fixedly installed stressed plate, which contacts setting with second transmission belt, and passes in the stressed plate and second Defeated band contact position forms pelletizing area.

Battery plastic housing injection molding raw material full-automatic processing technique, comprising the following steps:

Step 1 crushes, raw material is input in raw material crushing device from the feed inlet at the top of raw material crushing device, by Raw material crushing device crushes raw material；

Step 2 promotes conveying, completes discharge port output of the smashed raw material from raw material crushing device bottom, exports Raw material fall on lifting device, tilted upward by the lifting device be delivered to modeling extrusion device at the top of feed inlet, It is entered in modeling extrusion device from feed inlet；

Step 3, forming are fallen into modeling extrusion device, are sheared, are rubbed to raw material by moulding an extrusion device It wipes, makes raw material stirring, mixing；

Step 4, cooling, the material strip of forming is located at the modeling item for moulding an extrusion device side by moulding an extrusion device and being input to It is during transportation, defeated by being located at modeling water cooling along the length direction conveying of modeling water cooling output device in water cooling output device The cooling component of bottom of device cools down material strip out；

Step 5, blank, material strip after cooling are input in transmission pressurizing unit, are squeezed in the transmission of transmission pressurizing unit Lower cooperation pelletizing de-watering apparatus carries out the cutting of material strip, and material strip is made to be cut into material grain；

Step 6, it is dry, while pelletizing component carries out pelletizing to material strip, air blowing component is removed water with pelletizing component The air blowing and water removing that downward pelletizing carries out the material grain of pelletizing completion is dry.

The beneficial effects of the present invention are:

(1) the more traditional battery plastic case pellet machining production line of the present invention, by moulding a water cooling output device for water cooling The modeling item of completion is conveyed into transmission pressurizing unit, mutual transmission of the modeling item in the first transmission assembly and the second transmission assembly Under, it is transmitted in modeling transmission space, the first transmission belt and the second transmission belt squeeze modeling item in transmission process, The moisture moulded on item is tentatively squeezed, while in modeling transmission process, cutter is real under the drive for moving back and forth component Now with the modeling consistent movement of transmission direction, when being moved to pelletizing area, to modeling item progress pelletizing, the side of realization modeling item passes cutter Defeated side pelletizing, improves work efficiency, while preventing modeling grain bending；

(2) the more traditional battery plastic case pellet machining production line of the present invention is carrying out pelletizing to modeling item by cutter Simultaneously as excision pressure of the modeling item by cutter, so that modeling item is pressed further by, the moisture being adsorbed on modeling item is being cut It realizes during grain and is discharged further out, improve the water removal high efficiency of modeling item, so that the modeling grain moisture produced reduces；

(3) the more traditional battery plastic case pellet machining production line of the present invention, is slided in guide cylinder by cutter, When contact during the drive block on cutter is moved back and forth with convex block, drive block, which moves down, drives cutter being oriented to It is moved down in cylinder, the quick excision of the modeling item in modeling transmission space is carried out, when having carried out once resecting, on cutter Drive block no longer contacted with convex block, cutter dynamic clamping head and quiet clamping head driving under realize reset, realize the continuous pelletizing of cutter, improve Working efficiency；

(4) the more traditional battery plastic case pellet machining production line of the present invention is carried out in drive block and convex block without connecing When touching, cutter is located above cutter mobile space, and the gas collection hole in gas collection portion is located at the top of the air inlet at this time, Ventilating part is not connected to gas collection portion, and air blowing does not have gas to pass through in portion, and when drive block and when bump contact, cutter is to moving down The dynamic pelletizing for carrying out modeling item, while while cutter moves down, the gas collection hole in gas collection portion move down with Air inlet in ventilating part is connected to, and gas is passed through in the portion of air blowing at this time, and gas blows out realization to moisture on modeling grain out of gas hole While drying, carries out modeling grain and collected towards the air blowing of transmission direction, improve the production efficiency of modeling grain；

(5) the more traditional battery plastic case pellet machining production line of the present invention moves back and forth the linear speed of component by setting Degree is identical as the linear velocity of the first transmission belt, when modeling item is transmitted in modeling transmission space, is located at modeling transmission space Modeling item in the cutter and transmission of top keeps opposing stationary, realizes that cutter cuts modeling item while modeling onwards transmission Grain prevents modeling grain bending, improves product quality.

In short, the present invention has many advantages, such as that structure is simple, high degree of automation, high production efficiency are particularly suitable for biology Mould grain manufacturing technology field.

Detailed description of the invention

It, below will be to required use in embodiment description for the clearer technical solution for illustrating the embodiment of the present invention Attached drawing be briefly described, it should be apparent that, drawings discussed below is only some embodiments of the present invention, for ability For the those of ordinary skill in domain, without creative efforts, it is attached to can also be obtained according to these attached drawings other Figure.

Fig. 1 is overall structure diagram of the invention；

Fig. 2 is the assembling schematic diagram that pressurizing unit and pelletizing de-watering apparatus are transmitted in the present invention；

Fig. 3 is the front view that pressurizing unit and pelletizing de-watering apparatus are transmitted in the present invention；

Fig. 4 is the assembly cut-away diagram that pressurizing unit and pelletizing de-watering apparatus are transmitted in the present invention；

Fig. 5 is the enlarged drawing in Fig. 4 at A；

Fig. 6 is the structural schematic diagram of pelletizing de-watering apparatus in the present invention；

Fig. 7 is the structural schematic diagram of pelletizing component in the present invention；

Fig. 8 is working state schematic representation of the invention；

Fig. 9 is the structure cutaway view that air blowing component is removed water in the present invention；

Figure 10 is the working state schematic representation that air blowing component is removed water in the present invention；

Figure 11 is the structural schematic diagram of pelletizing bracket in the present invention；

Figure 12 is process flow diagram of the invention.

Specific embodiment

Technical solution in the embodiment of the present invention is clearly and completely illustrated with reference to the accompanying drawing.

Embodiment one

The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached The embodiment of figure description is exemplary, it is intended to is used to explain the present invention, and is not considered as limiting the invention.

As shown in Fig. 1~11, a kind of battery plastic housing injection molding raw material full automatic processing device, including raw material crushing device 5, the modeling item for being set to the lifting device 6 of described 5 one end of raw material crushing device, being set to below 6 other side of lifting device Extrusion device 7 is set to the modeling water cooling output device 1 for moulding 7 side of an extrusion device and is set to the modeling water The rack 2 of cold 1 side of output device, further includes:

Pressurizing unit 3 is transmitted, the transmission pressurizing unit 3 is set in the rack 2, which includes First transmission assembly 31 and the second transmission assembly 32 for being set to 31 lower section of the first transmission assembly, first transmission assembly 31 and second form modeling transmission space 30 between transmission assembly 32；And

Pelletizing de-watering apparatus 4, the pelletizing de-watering apparatus 4 are set in the rack 2 and are located at the first transmission group In part 31, which includes the pelletizing component for moving back and forth component 41, being set on the reciprocating motion component 41 42 and the water removal air blowing component 43 that is set on the pelletizing component 42,42 reciprocating of pelletizing component passed in the modeling item In defeated space 30.

It should be noted that modeling water cooling output device 1 carries out the modeling item 10 that water cooling is completed into transmission pressurizing unit 3 Conveying, modeling item 10 under the mutual transmission of the first transmission assembly 31 and the second transmission assembly 32, in mould in a transmission space 30 into Row transmission, 322 pairs of modeling items 10 of the first transmission belt 312 and the second transmission belt squeeze in transmission process, will be on modeling item 10 Moisture is tentatively squeezed, at the same modeling 10 transmission process of item in, cutter 424 move back and forth component 41 drive under realize with The consistent movement of 10 transmission direction of item is moulded, cutter 424 carries out pelletizing when being moved to pelletizing area 3220, to modeling item 10.

It should be further noted that cutter 424 to modeling item 10 carry out pelletizing while, due to modeling item 10 by cutter 424 excision pressure so that modeling item 10 be pressed further by, be adsorbed on modeling item 10 on moisture realized during pelletizing into One step discharges, and improves the water removal high efficiency of modeling item 10, so that the modeling grain moisture produced reduces.

Further, first transmission assembly 31 includes:

First rotating roller 311,311 quantity of the first rotating roller are two groups and are rotatably dispose in the rack 2 respectively Both ends；

First transmission belt 312,312 both ends of the first transmission belt are sheathed on respectively in first rotating roller 311, this It is formed in one transmission belt 312 and moves back and forth space 3120, offer cutter slot 3121 in first transmission belt 312, the cutter Slot 3121 is equipped with the pelletizing component 42.

It should be noted that the first transmission belt 312, when being transmitted, modeling item 10 is located at 312 lower section of the first transmission belt It moulds in a transmission space 30, cutter 424 is located in the reciprocating motion space 3120 formed in the first transmission belt 312, and cutter 424 exists When carrying out modeling 10 pelletizing of item, need that several cutter slots 3121 are arranged across the first transmission belt 312, cutter 424 is moulded downwards When 10 pelletizing of item, cutter 424 in carried out in cutter slot 3121 modeling item 10 cut off, it is ensured that will not by the first transmission belt 312 cut off damage It is bad.

Further, the reciprocating motion component 41 includes:

First revolving meber 411, first revolving meber 411 are rotatably dispose in the rack 2 and are located at the reciprocal fortune In dynamic space 3120；

Second revolving meber 412, second revolving meber 412 are rotatably dispose in the rack 2 and are located at the reciprocal fortune In dynamic space 3120, which is located at the side of first revolving meber 411, the first revolving meber 411 and second time Turn to form driving space 410 between part 412；

Revolution driving part 413, the revolution driving part 413 are fixedly installed on described 2 one end of rack.

Further, first revolving meber 411 and the second revolving meber 412 include:

Sprocket wheel 4101,4101 quantity of sprocket wheel are two groups and are rotatably dispose in the rack 2 respectively, two groups of sprocket wheels 4101 rotational installation point is located in the same horizontal plane；

Chain 4102,4102 both ends of chain are respectively sleeved on the sprocket wheel 4101.

Further, the pelletizing component 42 includes:

Pelletizing bracket 421,421 both ends of pelletizing bracket are hingedly connected to first revolving meber 411 and the second revolution On part 412, which is located in the reciprocating motion space 3120；

Driver slot 422, the driver slot 422 are opened on the upper surface of the pelletizing bracket 421；

Guide cylinder 423, the guide cylinder 423 are set on the lower surface of the pelletizing bracket 421；

Cutter 424, the cutter 424 are slideably positioned on the pelletizing bracket 421, and 424 basal sliding of cutter is pacified Loaded in the guide cylinder 423, which is equipped with the cutter slot 3121, is fixedly installed drive on the cutter 424 Motion block 4241, the drive block 4241 are slideably positioned in the driver slot 422；

Cutter driving part 425, the cutter driving part 425 are set in the reciprocating motion space 3120.

It should be noted that cutter 424 is slided in guide cylinder 423, when on cutter 424 drive block 4241 with it is convex Block 4252 move back and forth during contact when, drive block 4241 move down drive cutter 424 in guide cylinder 423 into Row moves down, and carries out the quick excision of the modeling item 10 in modeling transmission space 30, when having carried out once resecting, cutter 424 On drive block 4241 no longer contacted with convex block 4252, cutter 424 dynamic clamping head and quiet clamping head 4231 driving under realize reset.

Further, the pelletizing bracket 421 includes:

Mounting plate 4211, the driver slot 422 are opened on the mounting plate 4211；

Mounting rack 4212, the mounting rack 4212 are fixedly installed on 4211 lower section of the mounting plate, the mounting rack 4212 with Cutter mobile space 4213 is formed between the mounting plate 4211,423 quantity of guide cylinder is four group and is fixedly installed on institute Mounting rack 4212 is stated, is fixedly connected with dynamic clamping head and quiet clamping head 4231 between the guide cylinder 423 and cutter 424.

Further, the cutter driving part 425 includes:

Fixed frame 4251, the fixed frame 4251 are fixedly installed in the rack 2 and are located at the driving space 410 It is interior；

Convex block 4252, the convex block 4252 are fixedly installed on the fixed frame 4251, the convex block 4252 and the driving The setting of 4241 discontinuous connection of block.

Further, the water removal air blowing component 43 includes:

Ventilating part 431, the ventilating part 431 are disposed through on the mounting plate 4211 and cutter mobile space 4213, And the ventilating part 431 is inner hollow setting, offers air inlet 4311, the air inlet 4311 on 431 outer wall of ventilating part It is connected to by hose with external drum device of air；

Gas collection portion 432, the gas collection portion 432 are fixedly installed on the cutter 424, and the gas collection portion 432 are slidably mounted in the ventilating part 431, and gas collection hole 4321, the gas collection hole are provided on the ventilating part 431 4321 with the intermittent communicated setting of the air inlet 4311；

Air blowing portion 433, the air blowing portion 433 are set on 424 blade of cutter, which is several It is a and be connected to setting inside the gas collection portion 432, gas hole 4331, the gas hole are provided in the air blowing portion 433 4331 are arranged towards modeling transmission direction side.

It should be noted that cutter 424 is located at cutter shifting when drive block 4241 and convex block 4252 are carried out without contacting Dynamic 4213 top of space, the gas collection hole 4321 in gas collection portion 432 is located at the top of the air inlet 4311 at this time, ventilation Portion 431 is not connected to gas collection portion 432, does not have gas to pass through in air blowing portion 433, when drive block 4241 is contacted with convex block 4252 When, cutter 424 moves down the pelletizing for carrying out modeling item 10, while while cutter 424 moves down, gas collection portion 432 On gas collection hole 4321 move down and be connected to the air inlet 4311 in ventilating part 431, be passed through gas in the portion of air blowing at this time 433 Body while gas blows out realization to moisture drying on grain is moulded out of gas hole 4331, carries out the air blowing of modeling grain towards transmission direction It collects, improves the production efficiency of modeling grain.

Embodiment two

Fig. 2 is the embodiment two of a kind of battery plastic housing injection molding raw material full automatic processing device of the present invention and its technique A kind of structural schematic diagram；As shown in Fig. 2, wherein with a kind of identical or corresponding component of embodiment using corresponding with embodiment one Appended drawing reference hereafter only describes the distinctive points with embodiment one for simplicity.The embodiment two and embodiment shown in FIG. 1 One the difference is that:

Further, second transmission assembly 32 includes:

Second rotating roller 321,321 quantity of the second rotating roller are two groups and are rotatably dispose in the rack 2 respectively Both ends；

Second transmission belt 322,322 both ends of the second transmission belt are sheathed on respectively in second rotating roller 321, described It is fixedly installed stressed plate 3221 below second transmission belt 322, which contacts with second transmission belt 322 and set It sets, and forms pelletizing area 3220 in the stressed plate 3221 and 322 contact position of the second transmission belt.

It should be noted that since cutter 424 carries out the pelletizing of modeling item, the second transmission belt 322 in the second transmission belt 322 Lower section does not support, then when cutter 424 in the second transmission belt 322 to exerting a force, the second transmission belt 322 can be formed down recessed It falling into, modeling item 10 follows the second transmission belt 322 to lower recess, and cutter 424 can not carry out the pelletizing of modeling item 10, in the present embodiment, By the way that stressed plate 3221 is arranged below the second transmission belt 322, stressed plate 3221 carries out upward branch to the second transmission belt 322 Support can effectively prevent the second transmission belt 322 to lower recess, cutter 424 is in pelletizing when cutter 424 carries out pelletizing downwards Area 3220 carries out the quick pelletizing of modeling item 10.

Further, the cutter 424 is along the transmission linear velocity W1 and the first transmission belt 312 for moving back and forth component 41 Transmission linear velocity W2 between relationship meet, W1=W2.

It should be noted that since the linear velocity for moving back and forth component 41 is identical as the linear velocity of the first transmission belt 312, When modeling item 10 is transmitted in modeling transmission space 30, in the cutter 424 and transmission above modeling transmission space 30 Modeling item 10 keeps opposing stationary, and the pelletizing of 424 pairs of cutter modeling items 10 is realized while moulding 10 onwards transmission of item.

Embodiment three

Reference implementation example one and embodiment two, describe battery plastic housing injection molding raw material full-automatic processing work of the invention Skill.

As shown in figure 12, battery plastic housing injection molding raw material full-automatic processing technique, comprising the following steps:

Step 1 crushes, and raw material are input in raw material crushing device 5 from the feed inlet at 5 top of raw material crushing device, Raw material are crushed by raw material crushing device 5；

Step 2 promotes conveying, completes discharge port output of the smashed raw material from 5 bottom of raw material crushing device, defeated Raw material out are fallen on lifting device 6, tilted upward by the lifting device 6 be delivered to modeling extrusion device 7 top into Material mouth enters in modeling extrusion device 7 from feed inlet；

Step 3, forming are fallen into modeling extrusion device 7, raw material are sheared by moulding an extrusion device 7, Friction makes raw material stirring, mixing；

Step 4, cooling, the material strip of forming is located at the modeling for moulding 7 side of an extrusion device by moulding an extrusion device 7 and being input to In water cooling output device 1, along the length direction conveying of modeling water cooling output device 1, during transportation, by being located at modeling water The cooling component of cold 1 bottom of output device cools down material strip；

Step 5, blank, material strip after cooling are input in transmission pressurizing unit 3, are squeezed in the transmission of transmission pressurizing unit 3 Pressure cooperation pelletizing de-watering apparatus 4 carries out the cutting of material strip, and material strip is made to be cut into material grain；

Step 6, it is dry, while pelletizing component 42 carries out pelletizing to material strip, air blowing component 43 is removed water with pelletizing group The air blowing and water removing that the downward pelletizing of part 42 carries out the material grain of pelletizing completion is dry.

The course of work:

As shown in Figure 1, raw material, which is input to modeling item by the promotion of lifting device 6 after raw material crushing device 5 is broken, squeezes out dress It sets in 7, modeling extrusion device 7 carries out the extrusion molding of modeling item, and the modeling item squeezed out through modeling extrusion device 7 enters modeling water cooling In output device 1, the modeling item 10 completed through modeling 1 water cooling of water cooling output device is transmitted into transmission pressurizing unit 3, the Under the common transport of one transmission assembly 31 and the second transmission assembly 32, modeling item 10 is entered in modeling transmission space 30, is mutually passed Defeated 32 pairs of modeling items 10 of the first transmission assembly 31 and the second transmission assembly carry out squeezing preliminary water removal, while existing in pelletizing component 42 Under the driving for moving back and forth component 41, the cutter 424 on pelletizing component 42 keeps opposing stationary with modeling item 10 in transmission process, Cutter 424 moves down the pelletizing for carrying out modeling item 10 under the driving of cutter driving part 425, while in drive block 4241 and convex block When 4252 progress are without contact, cutter 424 is located at 4213 top of cutter mobile space, and the gas removed water on air blowing component 43 is received The gas collection hole 4321 in collection portion 432 is located at the top of the air inlet 4311, and ventilating part 431 does not connect with gas collection portion 432 It is logical, there is no gas to pass through in air blowing portion 433, when drive block 4241 is contacted with convex block 4252, cutter 424, which moves down, to be moulded The pelletizing of item 10, while while cutter 424 moves down, gas collection hole 4321 in gas collection portion 432 is to moving down It is dynamic to be connected to the air inlet 4311 in ventilating part 431, gas is passed through in the portion of air blowing at this time 433, gas is blown out of gas hole 4331 It is realized out to while moisture dries up on modeling grain, carries out modeling grain and collected towards the air blowing of transmission direction.

In the description of the present invention, it is to be understood that, term " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", " up time The orientation or positional relationship of the instructions such as needle ", " counterclockwise " is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of The description present invention and simplified description, rather than the equipment of indication or suggestion meaning or element must have a particular orientation, with spy Fixed orientation construction and operation, therefore be not considered as limiting the invention.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more of the features.In the description of the present invention, the meaning of " plurality " is two or more, Unless otherwise specifically defined.

The foregoing description of the disclosed embodiments makes those skilled in the art not depart from the spirit and scope of the present invention In the case where, various changes or equivalence replacement can be carried out to these features and embodiment.In addition, under the teachings of the present invention, Can modify to these features and embodiment with adapt to particular situation and material without departing from spirit of the invention and Range.Therefore, the present invention is not limited to the particular embodiment disclosed, fallen with claims hereof range Interior embodiment belongs to protection scope of the present invention.

Claims (10)

1. a kind of battery plastic housing injection molding raw material full automatic processing device, including raw material crushing device (5), it is set to the original The lifting device (6) for expecting crushing device (5) one end, the modeling extrusion device being set to below the lifting device (6) other side (7), it is set to the modeling water cooling output device (1) of described modeling extrusion device (7) side and is set to the modeling water cooling The rack (2) of output device (1) side, which is characterized in that further include:

It transmits pressurizing unit (3), the transmission pressurizing unit (3) is set on the rack (2), the transmission pressurizing unit (3) Including the first transmission assembly (31) and the second transmission assembly (32) being set to below first transmission assembly (31), described Modeling transmission space (30) is formed between one transmission assembly (31) and the second transmission assembly (32)；And

Pelletizing de-watering apparatus (4), the pelletizing de-watering apparatus (4) are set on the rack (2) and are located at first transmission In component (31), which includes moving back and forth component (41), being set on the reciprocating motion component (41) Pelletizing component (42) and the water removal air blowing component (43) that is set on the pelletizing component (42), the pelletizing component (42) it is past It is acted in the modeling transmission space (30) again.

2. a kind of battery plastic housing injection molding raw material full automatic processing device according to claim 1, which is characterized in that institute Stating the first transmission assembly (31) includes:

First rotating roller (311), the first rotating roller (311) quantity are two groups and are rotatably dispose in the rack (2) respectively Both ends；

First transmission belt (312), the first transmission belt (312) both ends are sheathed on respectively on first rotating roller (311), should It is formed in first transmission belt (312) and moves back and forth space (3120), offer cutter slot on first transmission belt (312) (3121), which is equipped with the pelletizing component (42).

3. a kind of battery plastic housing injection molding raw material full automatic processing device according to claim 2, which is characterized in that institute Stating reciprocating motion component (41) includes:

First revolving meber (411), first revolving meber (411) are rotatably dispose on the rack (2) and are located at described reciprocal In space (3120)；

Second revolving meber (412), second revolving meber (412) are rotatably dispose on the rack (2) and are located at described reciprocal In space (3120), which is located at the side of first revolving meber (411), the first revolving meber (411) driving space (410) is formed between the second revolving meber (412)；

Revolution driving part (413), the revolution driving part (413) are fixedly installed on the rack (2) one end.

4. a kind of battery plastic housing injection molding raw material full automatic processing device according to claim 3, which is characterized in that institute It states the first revolving meber (411) and the second revolving meber (412) includes:

Sprocket wheel (4101), sprocket wheel (4101) quantity are two groups and are rotatably dispose on the rack (2) respectively, two groups of sprocket wheels (4101) rotational installation point is located in the same horizontal plane；

Chain (4102), chain (4102) both ends are respectively sleeved on the sprocket wheel (4101).

5. a kind of battery plastic housing injection molding raw material full automatic processing device according to claim 3, which is characterized in that institute Stating pelletizing component (42) includes:

Pelletizing bracket (421), pelletizing bracket (421) both ends are hingedly connected to first revolving meber (411) and second time Turn on part (412), which is located in the reciprocating motion space (3120)；

Driver slot (422), the driver slot (422) are opened on the upper surface of the pelletizing bracket (421)；

Guide cylinder (423), the guide cylinder (423) are set on the lower surface of the pelletizing bracket (421)；

Cutter (424), the cutter (424) are slideably positioned on the pelletizing bracket (421), and cutter (424) bottom is sliding Dynamic to be installed in the guide cylinder (423), which is equipped with the cutter slot (3121), on the cutter (424) Drive block (4241) are fixedly installed, which is slideably positioned in the driver slot (422)；

Cutter driving part (425), the cutter driving part (425) are set in the reciprocating motion space (3120)；

Transmission of the cutter (424) along the transmission linear velocity W1 for moving back and forth component (41) and the first transmission belt (312) Relationship between linear velocity W2 meets, W1=W2.

6. a kind of battery plastic housing injection molding raw material full automatic processing device according to claim 5, which is characterized in that institute Stating pelletizing bracket (421) includes:

Mounting plate (4211), the driver slot (422) are opened on the mounting plate (4211)；

Mounting rack (4212), the mounting rack (4212) are fixedly installed below the mounting plate (4211), the mounting rack (4212) cutter mobile space (4213) are formed between the mounting plate (4211), guide cylinder (423) quantity is four groups And the mounting rack (4212) are fixedly installed on, dynamic clamping head and quiet clamping head is fixedly connected between the guide cylinder (423) and cutter (424) (4231)。

7. a kind of battery plastic housing injection molding raw material full automatic processing device according to claim 5, which is characterized in that institute Stating cutter driving part (425) includes:

Fixed frame (4251), the fixed frame (4251) are fixedly installed on the rack (2) and are located at the driving space (410) in；

Convex block (4252), the convex block (4252) are fixedly installed on the fixed frame (4251), the convex block (4252) with it is described The setting of drive block (4241) discontinuous connection.

8. a kind of battery plastic housing injection molding raw material full automatic processing device according to claim 6, which is characterized in that institute Stating water removal air blowing component (43) includes:

Ventilating part (431), the ventilating part (431) are disposed through the mounting plate (4211) and cutter mobile space (4213) On, and the ventilating part (431) is inner hollow setting, is offered air inlet (4311) on ventilating part (431) outer wall, it is described into Stomata (4311) is connected to by hose with external drum device of air；

Gas collection portion (432), the gas collection portion (432) is fixedly installed on the cutter (424), and the gas collection Portion (432) is slidably mounted in the ventilating part (431), is provided with gas collection hole (4321) on the ventilating part (431), described Gas collection hole (4321) and the air inlet (4311) intermittent communicated setting；

Air blowing portion (433), the air blowing portion (433) are set on the cutter (424) blade, which is Several and be connected to setting inside the gas collection portion (432), be provided with gas hole (4331) in the air blowing portion (433), The gas hole (4331) is arranged towards modeling transmission direction side.

9. a kind of battery plastic housing injection molding raw material full automatic processing device according to claim 1, which is characterized in that institute Stating the second transmission assembly (32) includes:

Second rotating roller (321), the second rotating roller (321) quantity are two groups and are rotatably dispose in the rack (2) respectively Both ends；

Second transmission belt (322), the second transmission belt (322) both ends are sheathed on respectively on second rotating roller (321), institute It states and is fixedly installed stressed plate (3221) below the second transmission belt (322), the stressed plate (3221) and second transmission belt (322) contact setting, and pelletizing area (3220) are formed in the stressed plate (3221) and the second transmission belt (322) contact position.

10. battery plastic housing injection molding raw material full-automatic processing technique, which comprises the following steps:

Step 1 crushes, and raw material are input in raw material crushing device (5) from the feed inlet at the top of raw material crushing device (5), Raw material are crushed by raw material crushing device (5)；

Step 2 promotes conveying, completes discharge port output of the smashed raw material from raw material crushing device (5) bottom, exports Raw material fall on lifting device (6), tilted upward by the lifting device (6) be delivered to modeling extrusion device (7) at the top of Feed inlet, from feed inlet enter modeling extrusion device (7) in；

Step 3, forming are fallen into modeling extrusion device (7), raw material are sheared by moulding an extrusion device (7), Friction makes raw material stirring, mixing；

Step 4, cooling, the material strip of forming is located at the modeling for moulding an extrusion device (7) side by moulding an extrusion device (7) and being input to In water cooling output device (1), along the length direction conveying of modeling water cooling output device (1), during transportation, by being located at modeling The cooling component of water cooling output device (1) bottom cools down material strip；

Step 5, blank, material strip after cooling are input in transmission pressurizing unit (3), are squeezed in the transmission of transmission pressurizing unit (3) Pressure cooperation pelletizing de-watering apparatus (4) carries out the cutting of material strip, and material strip is made to be cut into material grain；

Step 6, it is dry, while pelletizing component (42) carries out pelletizing to material strip, air blowing component (43) are removed water with pelletizing group The air blowing and water removing that the downward pelletizing of part (42) carries out the material grain of pelletizing completion is dry.