CN110142890A - A kind of high molecular material for preparing is with efficient pelletizer - Google Patents

Abstract

The invention discloses a kind of high molecular materials for preparing with efficient pelletizer; including support base; the support base upper surface is fixedly connected with two pieces of supporting blocks; a processing case is provided on the upside of the supporting block; a revolution space is provided in the processing case; it is provided with a shaping mechanism in the revolution space, a driving chamber is provided in the revolution space right end wall, a driving mechanism is provided in the driving chamber；In present invention work, the device passes through mechanical transmission, the step of reducing manual operation by workers, to alleviate the workload of worker, be conducive to improve work task efficiency, the device can automatic high-efficiency batch by high molecular material automatic moulding at particle, reduce the manual operation of worker, to improve working efficiency, to improve yield, which will stir and is put in one with molding, pass through the cooperation between machinery, compared to existing equipment, reduce the usage amount of equipment, to reduce costs.

Description

A kind of high molecular material for preparing is with efficient pelletizer

Technical field

The present invention relates to technical field of high polymer material preparation, specially a kind of to prepare high molecular material efficiently granulation Machine.

Background technique

High molecular material is also referred to as polymer material, then (is helped equipped with other additives using high-molecular compound as matrix Agent) material that is constituted, currently, the demand of high molecular material is very huge, high molecular material manufacturing device at this stage, also It needs manual operation control to be molded into the taking-up storage of particle, significantly increases the workload of worker, and be unfavorable for improving life It produces, and some automation high molecular material manufacturing devices need stirring and molding equipment being used separately two machines mostly at this stage Tool is operated, and while increasing operating procedure, is increased production cost, is unfavorable for polymer material molding into particle.

Summary of the invention

The efficient pelletizer of high molecular material is prepared the purpose of the present invention is to provide a kind of, to solve above-mentioned background technique The problem of middle proposition.

To achieve the above object, the invention provides the following technical scheme: a kind of prepare the efficient pelletizer of high molecular material, Including support base, the support base upper surface is fixedly connected with two pieces of supporting blocks, is additionally provided with a conveyer belt on the support base, It is provided with a containing box on the upside of the conveyer belt, is provided with a processing case on the upside of the supporting block, is provided in the processing case One revolution space is provided with a shaping mechanism in the revolution space, and the shaping mechanism includes forming blocks, the revolution space It is provided with a driving chamber in right end wall, a driving mechanism is provided in the driving chamber, the driving mechanism includes driving motor, The driving motor has been connected by power a drive shaft, and a drive block, the drive block are rotatably connected on the drive shaft axis body Left side is provided with a driving gear, and first connecting rod, the driving gear upper end are slidably connected in the driving gear lower end The second connecting rod is inside slidably connected, the driving, which is stepped up in end, is provided with a driver slot, and a left side is provided in the driver slot End is located at the third connecting rod in the driving chamber, is provided with a pushing mechanism, the promotion machine in the driving chamber upper end wall Structure includes push chamber, and a rotation chamber is provided in the push chamber right end wall, and it is mobile that one is provided in the push chamber upper end wall Chamber is provided with a mobile bar in the mobile cavity, a recirculation hole is provided in the mobile bar, is set in the recirculation hole right end wall It is equipped with a through hole, is provided with the catch bar that a left end is located in the revolution space in the push chamber, before the rotation chamber It is rotatably connected to a rotation axis between aft bulkhead, a rotating bar is provided in the rotation axis, the mobile bar right end is provided with the right side End is located at the first intracavitary mandril of the rotation, and right end is provided in the push chamber and is located at the second intracavitary top of the rotation Bar is provided with a rabbling mechanism in the mobile cavity upper end wall, and the rabbling mechanism includes stir chamber, setting in the stir chamber There is an agitating shaft, be provided with a lifting chamber in the stir chamber right end wall, the lifting is intracavitary to be provided with a lifting motor, described Lifting motor has been connected by power a lifting shaft, is provided with the first belt pulley on the lifting shaft axis body, under first belt pulley Side is provided with an elevating lever, and the elevating lever left end is fixedly connected with a gag lever post, and lifting chamber left end wall is provided with a limit Position plate, is provided with a press mechanism in the wall of the revolution space left end, and the press mechanism includes rotating drum, and the rotating drum is left It is provided with a pushing chamber in end wall, is provided with a pushing slot in the pushing chamber upper end wall, a tooth is provided in the rotating drum Stick, rack gear block upper end are provided with a spring groove, and a right end is provided in the spring groove and is located in the revolution space Pouring weight.

Preferably, the shaping mechanism includes forming blocks, a forming blocks, the molding are provided in the revolution space Block left and right ends are symmetrically fixedly connected with a rotary shaft, and the left side rotary shaft left end is located in the rotating drum, described in right side Rotary shaft right end is located in the driving chamber, and the left side rotary shaft left end is fixedly connected with half gear, the right side rotation Axis right end is fixedly connected with a rotation gear, and the flowing groove of a connection revolution space, the flowing are provided in the forming blocks A spring compartment is symmetrically arranged in slot left hand end wall, the spring compartment upper end wall is fixedly connected with a compressed spring, described Compressed spring lower end is fixedly connected with a confinement block, and the confinement block lower end is fixedly connected with a lower end and is located at the revolution space Interior limitation bar, two limitation bar lower ends are fixedly connected with a pressing plate, and connection institute is provided in the flowing groove lower end wall Eight molding holes of flowing groove Yu the revolution space are stated, the pressing plate upper surface is fixedly connected with upper end and is located at the molding hole Eight interior push-off pins.

Preferably, the driving mechanism includes driving motor, the driving chamber right end wall is fixedly connected with driving electricity Machine, the driving motor left side have been connected by power a drive shaft, a drive block, institute are rotatably connected on the drive shaft axis body The driving gear being provided on the left of drive block with drive shaft key connection is stated, slidably connects the first company in the driving gear lower end Extension bar slidably connects the second connecting rod in the driving gear upper end, and the driving gear left side is fixedly connected with first Link block, first link block left end are fixedly connected with an arc block, and the driving is stepped up to be provided with described in a connection in end The driver slot of driving chamber, the electromagnetism slot of the connection driver slot is provided in the driver slot upper end wall, and the electromagnetism slot is left End wall is fixedly connected with an electromagnet, and a left end is provided in the driver slot and is located in the driving chamber and connects with described second The third connecting rod of extension bar right end contact, slidably connects a lower end in the electromagnetism slot and is fixedly connected with the third connecting rod Magnet plunger, the driving chamber aft bulkhead is fixedly connected with a fixed block, and the fixed block is run through in second connecting rod left end And be slidably connected with the fixed block, the fixation being fixedly connected with the driving chamber aft bulkhead is provided on the left of the fixed block Plate, the fixed plate right end is fixedly connected with the fixed spring that a right end is fixedly connected with second connecting rod left end, described First connecting rod left end is fixedly connected with the rotation gear.

Preferably, the pushing mechanism includes push chamber, lower end wall connection is provided in the driving chamber upper end wall The push chamber of the driving chamber is provided with a rotation chamber in the push chamber right end wall, is provided in the push chamber upper end wall One mobile cavity, on the left of the mobile cavity upper end wall in be provided with the shifting chute of the connection mobile cavity, the shifting chute right end Wall is provided with a translation slot, and a mobile bar is provided in the mobile cavity, and the connection of about one end wall is provided in the mobile bar The recirculation hole of the mobile cavity is provided with the through hole that about one end wall is connected to the mobile cavity in the recirculation hole right end wall, The mobile bar right end is provided with right end and is located at the first intracavitary mandril of the rotation, and the mobile bar right end is fixedly connected with one The mobile spring that right end is fixedly connected with the mobile cavity right end wall, the mobile bar left end are fixedly connected with a upper end and are located at institute State the 4th connecting rod in shifting chute, the 4th connecting rod upper end is fixedly connected with that a right end is located in the translation slot Two link blocks are provided with the connecting hole that about one end wall is connected to the translation slot in second link block；

Wherein, the catch bar that a left end is located in the revolution space is provided in the push chamber, the catch bar left end is solid Surely it is connected with a slide block, the support slot of the connection push chamber is provided in the push chamber lower end wall left side, it is described to push away Lever right end lower end surface is fixedly connected with the support rod that a lower end is located in the support slot, and the support slot lower end wall is fixed to be connected It is connected to the support spring that a upper end is fixedly connected with the support rod, a limited block is slidably connected in the push chamber, it is described Limited block upper surface is fixedly connected with the reset spring that a upper end is fixedly connected with the catch bar, and sliding connects in the limited block Be connected to the translation bar that a lower end is located in the driving chamber, the translation bar upper end through the catch bar and with the catch bar It is slidably connected, the arc groove that a front and back end wall is connected to the driving chamber, first connection is provided in the translation bar lower end Block left end is located in the arc groove, and the limited block right end is fixedly connected with a right end and is located at the second intracavitary top of the rotation Bar is rotatably connected to a rotation axis between end wall before and after the rotation chamber, a rotating bar, the rotation is provided in the rotation axis Pass through torsionspring connection (not shown) between bar and the rotation axis.

Preferably, the rabbling mechanism includes stir chamber, a stir chamber is provided in the mobile cavity upper end wall, it is described It is provided with a belt space in stir chamber upper end wall, a upper end is provided in the stir chamber and is located at stirring in the belt space Axis is mixed, the agitating shaft upper end is fixedly connected with the second belt pulley, and the connection external world is provided on the left of the stir chamber upper end wall The feeding inlet in space, the feeding inlet run through the translation slot, and the agitating shaft lower end is fixedly connected with half paddle, described to stir It mixes and is provided with one in chamber lower end wall through end wall above and below the mobile cavity and the connecting pipe of the connection revolution space, the company Lower end of threading a pipe is fixedly connected with a hose, and a lifting chamber, the lifting chamber upper end wall are provided in the stir chamber right end wall It is fixedly connected with a lifting motor, the lifting motor has been connected by power a lifting shaft, has been fixedly connected on the lifting shaft axis body There is the first belt pulley, first belt pulley is connect with the second belt pulley by belt, is provided on the downside of first belt pulley The elevating lever connecting with the lifting shaft threaded engagement, the elevating lever lower end is through the lifting chamber lower end wall and is located at described In mobile cavity, the elevating lever left end is fixedly connected with a gag lever post, and lifting chamber left end wall is provided with a limit plate, described The rotation slot that an aft bulkhead is connected to the lifting chamber with lower end wall is provided in limit plate lower end, rotation slot left end wall is solid Surely it is connected with a driven shaft, a lower end is rotatably connected on the driven shaft and is located at the intracavitary follower plate of the lifting.

Preferably, the press mechanism includes rotating drum, right end wall company is provided in the wall of the revolution space left end Lead to the rotating drum of the revolution space, it is provided with a pushing chamber in the wall of the rotating drum left end, is set in the pushing chamber upper end wall It is equipped with the connection pushing slot for pushing chamber, the pushing chamber lower end wall is fixedly connected with pressing spring, the pushing bullet Spring upper end is fixedly connected with a lower lock block, and the lower lock block right end is fixedly connected with the top that a right end is located in the rotating drum Plate, the lower lock block upper end are fixedly connected with the down-pressed pole in pushing slot described in a upper end Norwegian, rotating drum left end wall It is provided with a spring cavity, the spring cavity lower end wall is fixedly connected with an adjustable spring, and the adjustable spring upper end is fixedly connected There is a spring block, the spring block right end is fixedly connected with the third link block that a right end is located in the rotating drum, the rotation Turn the intracavitary rack gear block for being provided with a upper end and being fixedly connected with the third link block, rack gear block upper end is provided with a upper end Wall is connected to the spring groove of the rotating drum with right end wall, and a right end is provided in the spring groove and is located in the revolution space Pouring weight；

Wherein, the spring groove lower end wall is fixedly connected with the connecting spring that a upper end is fixedly connected with the pouring weight, the rotation Turn the accommodating groove that chamber upper end wall is provided with the connection rotating drum, pouring weight left end upper surface is fixedly connected with upper end position Trapezoid block in the accommodating groove is provided with the receiving slit that a left end wall is connected to the accommodating groove in the trapezoid block, described It is provided with the translation chamber of the connection pushing slot Yu the accommodating groove in the wall of accommodating groove left end, is set in the translation chamber upper end wall It is equipped with the connection translation chamber driven slot, the intracavitary bilateral symmetry of translation slidably connects a trapeze bar, two institutes in left and right It states trapeze bar to be located in the pushing chamber and the accommodating groove far from the one end at the translation chamber center, right side is described trapezoidal Bar left end is fixedly connected with the 5th connecting rod, and the connection that a right end wall is connected to the translation chamber is provided in the trapeze bar of right side Slot, link slot left end wall are fixedly connected with a limited spring, the 5th connecting rod left end be located in the link slot and It is fixedly connected with the limited spring, slidably connects what a lower end was fixedly connected with the right side trapeze bar in the driven slot Slave Block, the driven slot right end wall are fixedly connected with the driven spring that a left end is fixedly connected with the Slave Block, right side institute Trapeze bar is stated to be located in the receiving slit.

In conclusion it is convenient to operate the medicine have the advantages that present apparatus structure is simple, which passes through mechanical biography The step of moving, reducing manual operation by workers is conducive to improve work task efficiency to alleviate the workload of worker, The device can automatic high-efficiency batch by high molecular material automatic moulding at particle, the manual operation of worker is reduced, to mention High working efficiency, to improve yield, which will stir and is put in one with molding, by the cooperation between machinery, compared to existing Some equipment, reduces the usage amount of equipment, to reduce costs.

Detailed description of the invention

It, below will be to embodiment or existing in order to illustrate more clearly of inventive embodiments or technical solution in the prior art Attached drawing needed in technical description is briefly described, it should be apparent that, the accompanying drawings in the following description is only to invent Some embodiments for those of ordinary skill in the art without creative efforts, can also basis These attached drawings obtain other attached drawings.

Fig. 1 is the schematic view of the front view of high molecular material manufacturing device entirety complete section of the present invention；

Fig. 2 is the main view enlarged structure schematic diagram of high molecular material manufacturing device driving mechanism partial cutaway of the present invention；

Fig. 3 is the main view enlarged structure schematic diagram of high molecular material manufacturing device press mechanism partial cutaway of the present invention；

Fig. 4 is the main view enlarged structure schematic diagram of high molecular material manufacturing device rabbling mechanism partial cutaway of the present invention；

Fig. 5 is the main view enlarged diagram that structure partial cuts open at high molecular material manufacturing device fixed plate of the present invention；

Fig. 6 is the main view enlarged diagram that structure partial cuts open at high molecular material manufacturing device forming blocks of the present invention.

Specific embodiment

All features disclosed in this specification or disclosed all methods or in the process the step of, in addition to mutually exclusive Feature and/or step other than, can combine in any way.

Any feature disclosed in this specification (including any accessory claim, abstract and attached drawing), except non-specifically chatting It states, can be replaced by other alternative features that are equivalent or have similar purpose.That is, unless specifically stated, each feature is only It is an example in a series of equivalent or similar characteristics.

Fig. 1-6 is please referred to, a kind of embodiment provided by the invention: a kind of to prepare the efficient pelletizer of high molecular material, packet Support base 1 is included, 1 upper surface of support base is fixedly connected with two pieces of supporting blocks 2, is additionally provided with a transmission on the support base 1 Band 9 is provided with a containing box 5 on the upside of the conveyer belt 9, a processing case 63, the processing case is provided on the upside of the supporting block 2 It is provided with a revolution space 67 in 63, a shaping mechanism 10 is provided in the revolution space 67, the shaping mechanism 10 includes Forming blocks 31 are provided with a driving chamber 22 in the 67 right end wall of revolution space, are provided with a driving machine in the driving chamber 22 Structure 23, the driving mechanism 23 include driving motor 24, and the driving motor 24 has been connected by power a drive shaft 20, the driving It is rotatably connected to a drive block 86 on 20 axis body of axis, a driving gear 85, the sliding tooth are provided on the left of the drive block 86 It takes turns and slidably connects first connecting rod 93 in 85 lower ends, slidably connect the second connecting rod 21 in 85 upper end of driving gear, The driving is provided with a left end and is located at the driving chamber 22 across a driver slot 91 is provided in 86 upper ends in the driver slot 91 Interior third connecting rod 90, a pushing mechanism 25 is provided in 22 upper end wall of driving chamber, and the pushing mechanism 25 includes pushing away Chamber 38 is moved, is provided with a rotation chamber 33 in the 38 right end wall of push chamber, it is mobile that one is provided in 38 upper end wall of push chamber Chamber 69 is provided with a mobile bar 68 in the mobile cavity 69, a recirculation hole 65, the recirculation hole is provided in the mobile bar 68 It is provided with a through hole 51 in 65 right end walls, a left end is provided in the push chamber 38 and is located at pushing away in the revolution space 67 Lever 39 is rotatably connected to a rotation axis 30 between the 33 front and back end wall of rotation chamber, is provided with a rotation in the rotation axis 30 Bar 32,68 right end of mobile bar are provided with right end in first mandril 34 rotated in chamber 33, the push chamber 38 It is provided with the second mandril 28 that right end is located in the rotation chamber 33, is provided with a rabbling mechanism in 69 upper end wall of mobile cavity 51, the rabbling mechanism 51 includes stir chamber 53, is provided with an agitating shaft 54,53 right end of stir chamber in the stir chamber 53 It is provided with a lifting chamber 26 in wall, a lifting motor 49 is provided in the lifting chamber 26, the lifting motor 49 is connected by power There is a lifting shaft 57, the first belt pulley 46 is provided on 57 axis body of lifting shaft, is provided on the downside of first belt pulley 46 One elevating lever 42,42 left end of elevating lever are fixedly connected with a gag lever post 48, and the 57 left end wall of lifting chamber is provided with a limit Position plate 50, a press mechanism 70 is provided in the 67 left end wall of revolution space, and the press mechanism 70 includes rotating drum 81, institute It states and is provided with a pushing chamber 80 in 81 left end wall of rotating drum, be provided with a pushing slot 98 in 80 upper end wall of pushing chamber, it is described A rack gear block 73 is provided in rotating drum 81,73 upper end of rack gear block is provided with a spring groove 92, sets in the spring groove 92 It is equipped with the pouring weight that a right end is located in the revolution space 67.

Valuably, the shaping mechanism 10 includes forming blocks 31, is provided with a forming blocks 31, institute in the revolution space 67 It states 31 left and right ends of forming blocks and is symmetrically fixedly connected with a rotary shaft 75, left side 75 left end of rotary shaft is located at the rotating drum In 81, right side 75 right end of rotary shaft is located in the driving chamber 22, and left side 75 left end of rotary shaft is fixedly connected with one Half gear 74, right side 75 right end of rotary shaft are fixedly connected with a rotation gear 16, are provided with a company in the forming blocks 31 Lead to the flowing groove 11 of revolution space 67, a spring compartment 3 is symmetrically arranged in 11 left hand end wall of flowing groove, the spring is empty Between 3 upper end walls be fixedly connected with a compressed spring 4,4 lower end of compressed spring is fixedly connected with a confinement block 6, the limitation 6 lower end of block is fixedly connected with the limitation bar 13 that a lower end is located in the revolution space 67, and two 13 lower ends of limitation bar are solid Surely it is connected with a pressing plate 8, the connection flowing groove 11 and the revolution space 67 are provided in 11 lower end wall of flowing groove Eight molding holes 7,8 upper surface of pressing plate are fixedly connected with eight push-off pins 12 that upper end is located in the molding hole 7.

Valuably, the driving mechanism 23 includes driving motor 24, and the 22 right end wall of driving chamber is fixedly connected with a drive Dynamic motor 24,24 left side of driving motor has been connected by power a drive shaft 20, has been rotatablely connected on 20 axis body of drive shaft There is a drive block 86, the driving gear 85 being keyed with drive shaft 20, the driving gear are provided on the left of the drive block 86 First connecting rod 93 is slidably connected in 85 lower ends, slidably connects the second connecting rod 21, institute in 85 upper end of driving gear It states driving 85 left side of gear and is fixedly connected with the first link block 84,87 left end of the first link block is fixedly connected with an arc Block 83, the driving is across the driver slot 91 for being provided with the connection driving chamber 22 in 86 upper ends, 91 upper end wall of driver slot It is inside provided with the electromagnetism slot 88 of the connection driver slot 91, the 88 left end wall of electromagnetism slot is fixedly connected with an electromagnet 87, It is provided with a left end in the driver slot 91 and is located at the contacted in the driving chamber 22 and with 21 right end of the second connecting rod Three connecting rods 90 slidably connect the magnet plunger that a lower end is fixedly connected with the third connecting rod 90 in the electromagnetism slot 88 89,22 aft bulkhead of driving chamber is fixedly connected with a fixed block 19, and the fixed block is run through in 21 left end of the second connecting rod It 19 and is slidably connected with the fixed block 21, is provided on the left of the fixed block 19 and is fixedly connected with 22 aft bulkhead of driving chamber Fixed plate 17,17 right end of fixed plate is fixedly connected with a right end and consolidates with what 21 left end of the second connecting rod was fixedly connected Determine spring 18,93 left end of first connecting rod is fixedly connected with the rotation gear 16.

Valuably, the pushing mechanism 25 includes push chamber 38, is provided with a lower end wall in 22 upper end wall of driving chamber It is connected to the push chamber 38 of the driving chamber 22, is provided with a rotation chamber 33, the push chamber 38 in the 38 right end wall of push chamber It is provided with a mobile cavity 69 in upper end wall, the shifting of the connection mobile cavity 69 is provided in 69 upper end wall of the mobile cavity left side Dynamic slot 62, the 62 right end wall of shifting chute is provided with a translation slot 57, a mobile bar 68 is provided in the mobile cavity 69, described The recirculation hole 65 that about one end wall is connected to the mobile cavity 69, setting in the 65 right end wall of recirculation hole are provided in mobile bar 68 There is about one end wall to be connected to the through hole 51 of the mobile cavity 69,68 right end of mobile bar is provided with right end and is located at the rotation The first mandril 34 in chamber 33,68 right end of mobile bar are fixedly connected with a right end and the fixed company of the 69 right end wall of mobile cavity The mobile spring 36 connect, 68 left end of mobile bar are fixedly connected with the 4th connecting rod that a upper end is located in the shifting chute 62 61,61 upper end of the 4th connecting rod is fixedly connected with the second link block 60 that a right end is located in the translation slot 57, described The connecting hole 59 that about one end wall is connected to the translation slot 57 is provided in second link block 60；

Wherein, the catch bar 39 that a left end is located in the revolution space 67, the catch bar are provided in the push chamber 38 39 left ends are fixedly connected with a slide block 40, are provided with the connection push chamber 38 in 38 lower end wall of the push chamber left side Support slot 14, the 39 right end lower end surface of catch bar are fixedly connected with the support rod 37 that a lower end is located in the support slot 14, 14 lower end wall of support slot is fixedly connected with the support spring 15 that a upper end is fixedly connected with the support rod 37, the promotion A limited block 27 is slidably connected in chamber 38,27 upper surface of limited block is fixedly connected with a upper end and the catch bar 39 is solid Surely the reset spring 29 connected slidably connects the translation bar that a lower end is located in the driving chamber 22 in the limited block 27 35,35 upper end of translation bar is slidably connected through the catch bar 39 and with the catch bar 39,35 lower end of translation bar It is inside provided with the arc groove 82 that a front and back end wall is connected to the driving chamber 22, first link block, 84 left end is located at the arc In slot 82,27 right end of limited block be fixedly connected with a right end be located at it is described rotation chamber 33 in the second mandril 28, described turn It is rotatably connected to a rotation axis 30 between dynamic 33 front and back end wall of chamber, a rotating bar 32, the rotation are provided in the rotation axis 30 Pass through torsionspring connection (not shown) between bar 32 and the rotation axis 30.

Valuably, the rabbling mechanism 51 includes stir chamber 53, is provided with a stir chamber in 69 upper end wall of mobile cavity 53, be provided with a belt space 56 in 53 upper end wall of stir chamber, be provided in the stir chamber 53 upper end be located at it is described Agitating shaft 54 in belt space 56,54 upper end of agitating shaft are fixedly connected with the second belt pulley 55, in the stir chamber 53 The feeding inlet 58 of a connection free surrounding space is provided on the left of end wall, the feeding inlet 58 runs through the translation slot 57, the stirring 54 lower end of axis is fixedly connected with half paddle 52, and one is provided in 53 lower end wall of stir chamber through about 69 mobile cavity The connecting pipe 64 of end wall and the connection revolution space 67,64 lower end of connecting pipe is fixedly connected with a hose 66, institute It states and is provided with a lifting chamber 26 in 53 right end wall of stir chamber, 26 upper end wall of lifting chamber is fixedly connected with a lifting motor 49, The lifting motor 49 has been connected by power a lifting shaft 57, is fixedly connected with the first belt pulley 46 on 57 axis body of lifting shaft, First belt pulley 46 is connect with the second belt pulley 55 by belt, is provided on the downside of first belt pulley 46 and the liter The elevating lever 42 of 47 threaded engagement of axis connection drops, and 42 lower end of elevating lever is through 26 lower end wall of lifting chamber and is located at described In mobile cavity 69,42 left end of elevating lever is fixedly connected with a gag lever post 48, and the 57 left end wall of lifting chamber is provided with a limit Position plate 50 is provided with an aft bulkhead in 50 lower end of limit plate and is connected to the rotation slot 45 for going up and down chamber 26 with lower end wall, The 45 left end wall of rotation slot is fixedly connected with a driven shaft 44, and a lower end is rotatably connected on the driven shaft 44 positioned at described Go up and down the follower plate 43 in chamber 26.

Valuably, the press mechanism 70 includes rotating drum 81, is provided with a right end in the 67 left end wall of revolution space Wall is connected to the rotating drum 81 of the revolution space 67, a pushing chamber 80, the pushing are provided in the 81 left end wall of rotating drum The connection pushing slot 98 for pushing chamber 80 is provided in 80 upper end wall of chamber, 80 lower end wall of pushing chamber is fixedly connected with one Lower pressing spring 79, lower 79 upper end of pressing spring are fixedly connected with a lower lock block 78, and 78 right end of lower lock block is fixedly connected with One right end is located at the top plate 77 in the rotating drum 81, under 78 upper end of lower lock block is fixedly connected with described in a upper end Norwegian Down-pressed pole 76 in indent 98, the 81 left end wall of rotating drum are provided with a spring cavity 71, and 71 lower end wall of spring cavity is fixed It is connected with an adjustable spring 72,72 upper end of adjustable spring is fixedly connected with a spring block 94, and 94 right end of spring block is solid Surely it is connected with the third link block 95 that a right end is located in the rotating drum 81, is provided with a upper end and institute in the rotating drum 81 The rack gear block 73 that third link block 95 is fixedly connected is stated, 73 upper end of the rack gear block is provided with a upper end wall and is connected to right end wall The spring groove 92 of the rotating drum 81 is provided with the pouring weight that a right end is located in the revolution space 67 in the spring groove 92 108；

Wherein, 98 lower end wall of spring groove is fixedly connected with the connecting spring that a upper end is fixedly connected with the pouring weight 108 109,81 upper end wall of rotating drum is provided with the accommodating groove 105 of the connection rotating drum 81, the 108 left end upper end of pouring weight Face is fixedly connected with the trapezoid block 107 that a upper end is located in the accommodating groove 105, is provided with a left end in the trapezoid block 107 Wall is connected to the receiving slit 106 of the accommodating groove 105, is provided with the connection pushing slot 98 in the 105 left end wall of accommodating groove With the translation chamber 100 of the accommodating groove 105, it is driven that the connection translation chamber 100 is provided in 100 upper end wall of translation chamber Slot 101, the interior bilateral symmetry of the translation chamber 100 slidably connect a trapeze bar 97, and two trapeze bars 97 in left and right are far from institute The one end for stating translation 100 center of chamber is located at the pushing chamber 98 in the accommodating groove 105, and the right side trapeze bar 97 is left End is fixedly connected with the 5th connecting rod 104, and a right end wall is provided in the trapeze bar 97 of right side and is connected to the translation chamber 100 Link slot 96, the 96 left end wall of link slot are fixedly connected with a limited spring 99, and 104 left end of the 5th connecting rod is located at institute It states in link slot 96 and is fixedly connected with the limited spring 99, slidably connect a lower end and right side in the driven slot 101 The Slave Block 102 that the trapeze bar 97 is fixedly connected, the 101 right end wall of driven slot be fixedly connected with a left end with it is described driven The driven spring 103 that block 102 is fixedly connected, the right side trapeze bar 97 are located in the receiving slit 106.

In the following, applicant will be high with reference to a kind of high molecular material for preparing of attached drawing 1-3 and the application described above To introduce in detail, the application is a kind of to prepare the high molecular material application method of efficient pelletizer to the concrete composition of effect pelletizer: Firstly, in the initial state, the stir chamber 53 is connected with free surrounding space, the through hole 41 be connected to the lifting chamber 26, The mobile cavity 69 and the push chamber 38, the driven spring 103 are in compressive state, remaining spring is in normal condition；

High molecular material raw material is added into stir chamber 53, lifting motor 49 works at this time, so that lifting shaft 47 is driven to rotate, from And the rotation of the first belt pulley 46 is driven, so that the rotation of the second belt pulley 55 is driven, to drive agitating shaft 54 to rotate, to make to stir Leaf 52 to be mixed to stir in stir chamber 53, while lifting shaft 47 rotates, elevating lever 42 is moved downward under the action of gag lever post 48, When elevating lever 42 drops to lower side, gag lever post 48 is contacted with follower plate 43, so that elevating lever 42 is made to lose limitation, thus with The rotation of lifting shaft 47 and rotate, after the completion of stirring, lifting motor 49 is inverted, under the action of follower plate 43 and limit plate 50 Elevating lever 42 rises, so that elevating lever 42 is resetted, 24 reverse operation of driving motor at this time, and so that drive shaft 20 is driven to rotate, To drive gear 85 to move right under the limitation of the second connecting rod 21, to drive translation bar 35 to move right, thus band Dynamic catch bar 39 is moved right with limited block 27, so that the second mandril 28 is driven to move right, so that rotating bar 32 is driven to rotate, To drive the first mandril 34 to move downward, so that mobile bar 68 be driven to move downward, mobile spring 36 is drawn high, recirculation hole 65 It is connected to the stir chamber 53 and revolution space 67, so that the object in stir chamber 53 be made to enter in forming blocks 31；

When the object in stir chamber 53 is flow to end, the positive work of driving motor 24, to drive drive shaft 20 to rotate, to drive Driving gear 85 moves downward, to drive catch bar 39 to move downward with limited block 27, to drive the second mandril 27 to the left Movement, thus under the action of torsionspring rotating bar 32 reset, thus make mobile spring 36 reset, thus make mobile bar 68 with First mandril 34 moves right the connection that stir chamber 53 Yu revolution space 67 is truncated, and through hole 41 is connected to the lifting chamber 26, the mobile cavity 69 and the push chamber 38, mobile bar 68 move right, so that the 4th connecting rod 61 be driven to connect with second Block 60 moves right, so that it is connected to free surrounding space with stir chamber 53, thus feed again into stir chamber 53, lifting motor 49 Task again to drive agitating shaft 54 to rotate again, while driving elevating lever 42 to decline so that lifting shaft 47 be driven to rotate, The decline of elevating lever 42 drives the decline of catch bar 39, since catch bar 39 has moved downward a distance, to make to push When bar 39 declines, slide block 40 is located at 11 upside of flowing groove, so that the decline of catch bar 39 makes slide block 40 positioned at described In flowing groove 11, the positive and negative work of driving motor 24 at this time, so that catch bar 39 and 40 side-to-side movement of slide block are driven, to make object In body uniform runner to molding hole 7；

After the object in molding hole 7 solidifies, driving motor 24 drives drive shaft 20 to rotate, so that driving gear 85 be driven to return to In situ, electromagnet 87 works at this time, so that magnet plunger 89 is driven to move downward, so that third connecting rod 90 is moved downward, from And the second connecting rod 21 is driven to move downward and separate with driving gear 85, the rotation of drive shaft 20 drives 85 turns of gear of driving It is dynamic, so that the transmission by first connecting rod 93 drives rotary teeth wheel 16 to rotate, to drive rotary shaft 75 and 31 turns of forming blocks Dynamic, left side rotary shaft 75 rotates, to drive the rotation of half gear 74, nibbles after half gear 74 rotates 90 degree with rack gear block 73 It closes, to decline in the rotation lower tooth stick 73 of half gear 74, adjustable spring 72 is compressed, weight with the rotation of rotary shaft 75 Block 108 is motionless under the action of right lateral trapezoidal bar 97, and connecting spring 109 is drawn high, when 75 corotation of rotary shaft is 180 degree dynamic Afterwards, the rotation of half gear 74 drives top plate 77 to move downward, to drive lower lock block 78 to move downward, to drive down-pressed pole 76 It moves downward, so that two trapeze bars 97 move downward under the action of driven spring 103, right lateral trapezoidal bar 97 leaves receiving slit 106, to make pouring weight 108 decline under the action of connecting spring 109 is with self weight, to move downward with dynamic pressure plate 8, thus band Dynamic push-off pin 12 moves downward, so that the high molecular material for being molded into particle be shifted onto containing box 5, rotary shaft 75 is continued to rotate Afterwards, half gear 74 is detached from rack gear block 73, so that rack gear block 73 be made to reset under the action of adjustable spring 72 with pouring weight 108, is revolved Press mechanism 70 resets after shaft 75 rotates 180 degree again, so that device restPoses.

The beneficial effects of the present invention are: present apparatus structure is simple, it is convenient to operate, which is reduced by mechanical transmission The step of manual operation by workers, is conducive to improve work task efficiency, which can to alleviate the workload of worker High molecular material automatic moulding at particle, is reduced the manual operation of worker by the batch of automatic high-efficiency, to improve work effect Rate, to improve yield, which will stir and be put in one with molding, by the cooperation between machinery, compared to existing equipment, Reduce the usage amount of equipment, to reduce costs.

The above, the specific embodiment only invented, but invent protection scope be not limited thereto, it is any without The change or replacement that creative work is expected are crossed, should all be covered within the protection scope of invention.Therefore, the protection scope of invention It should be determined by the scope of protection defined in the claims.

Claims (6)

1. a kind of prepare high molecular material efficient pelletizer, including support base, it is characterised in that: the support base upper surface is solid Surely two pieces of supporting blocks are connected with, a conveyer belt is additionally provided on the support base, is provided with a containing box on the upside of the conveyer belt, It is provided with a processing case on the upside of the supporting block, a revolution space, setting in the revolution space are provided in the processing case There is a shaping mechanism, the shaping mechanism includes forming blocks, and a driving chamber, the drive are provided in the revolution space right end wall Move it is intracavitary be provided with a driving mechanism, the driving mechanism includes driving motor, and the driving motor has been connected by power a driving Axis is rotatably connected to a drive block on the drive shaft axis body, is provided with a driving gear, the driving on the left of the drive block First connecting rod is slidably connected in gear lower end, slidably connects the second connecting rod, the drive in the driving gear upper end Dynamic step up in end is provided with a driver slot, and the third connection that a left end is located in the driving chamber is provided in the driver slot Bar is provided with a pushing mechanism in the driving chamber upper end wall, and the pushing mechanism includes push chamber, the push chamber right end wall It is inside provided with a rotation chamber, a mobile cavity is provided in the push chamber upper end wall, a mobile bar is provided in the mobile cavity, It is provided with a recirculation hole in the mobile bar, a through hole, setting in the push chamber are provided in the recirculation hole right end wall There is a left end to be located at the catch bar in the revolution space, is rotatably connected to a rotation axis, institute between end wall before and after the rotation chamber It states and is provided with a rotating bar in rotation axis, the mobile bar right end is provided with right end and is located at the first intracavitary mandril of the rotation, It is provided with right end in the push chamber and is located at the second intracavitary mandril of the rotation, is provided with one in the mobile cavity upper end wall and stirs Mechanism is mixed, the rabbling mechanism includes stir chamber, and an agitating shaft is provided in the stir chamber, is set in the stir chamber right end wall It is equipped with a lifting chamber, the lifting is intracavitary to be provided with a lifting motor, and the lifting motor has been connected by power a lifting shaft, described It is provided with the first belt pulley on lifting shaft axis body, is provided with an elevating lever, the elevating lever left end on the downside of first belt pulley It is fixedly connected with a gag lever post, lifting chamber left end wall is provided with a limit plate, is provided in the wall of the revolution space left end One press mechanism, the press mechanism include rotating drum, and a pushing chamber, the pushing chamber are provided in the wall of the rotating drum left end It is provided with a pushing slot in upper end wall, a rack gear block is provided in the rotating drum, rack gear block upper end is provided with a spring Slot is provided with the pouring weight that a right end is located in the revolution space in the spring groove.

2. a kind of high molecular material for preparing according to claim 1 is with efficient pelletizer, it is characterised in that: the molding machine Structure includes forming blocks, and a forming blocks are provided in the revolution space, and the forming blocks left and right ends are symmetrically fixedly connected with one Rotary shaft, the left side rotary shaft left end are located in the rotating drum, and the right side rotary shaft right end is located in the driving chamber, The left side rotary shaft left end is fixedly connected with half gear, and the right side rotary shaft right end is fixedly connected with a rotation gear, It is provided with the flowing groove of a connection revolution space in the forming blocks, is symmetrically arranged with a spring in the flowing groove left hand end wall Space, the spring compartment upper end wall are fixedly connected with a compressed spring, and the compressed spring lower end is fixedly connected with a limitation Block, the confinement block lower end are fixedly connected with the limitation bar that a lower end is located in the revolution space, under two limitation bars End is fixedly connected with a pressing plate, and eight of the connection flowing groove and the revolution space are provided in the flowing groove lower end wall Molding hole, the pressing plate upper surface are fixedly connected with eight push-off pins that upper end is located in the molding hole.

3. a kind of high molecular material for preparing according to claim 1 is with efficient pelletizer, it is characterised in that: the driving machine Structure includes driving motor, and the driving chamber right end wall is fixedly connected with a driving motor, and driving motor left side power connects It is connected to a drive shaft, a drive block is rotatably connected on the drive shaft axis body, the drive block left side is provided with and drive shaft The driving gear of key connection, slidably connects first connecting rod in the driving gear lower end, sliding in the driving gear upper end Dynamic to be connected with the second connecting rod, the driving gear left side is fixedly connected with the first link block, first link block left end It is fixedly connected with an arc block, the driver slot that the connection driving chamber is provided in end, the driver slot are stepped up in the driving The electromagnetism slot of the connection driver slot is provided in upper end wall, electromagnetism slot left end wall is fixedly connected with an electromagnet, institute It states and is provided with a left end in driver slot and is located at the third connecting rod contacted in the driving chamber and with the second connecting rod right end, The magnet plunger that a lower end is fixedly connected with the third connecting rod, the driving chamber aft bulkhead are slidably connected in the electromagnetism slot It is fixedly connected with a fixed block, second connecting rod left end is slidably connected through the fixed block and with the fixed block, institute It states and is provided with the fixed plate being fixedly connected with the driving chamber aft bulkhead on the left of fixed block, the fixed plate right end is fixedly connected with The fixed spring that one right end is fixedly connected with second connecting rod left end, the first connecting rod left end and the rotation gear It is fixedly connected.

4. a kind of high molecular material for preparing according to claim 1 is with efficient pelletizer, it is characterised in that: the promotion machine Structure includes push chamber, and the push chamber that a lower end wall is connected to the driving chamber, the promotion are provided in the driving chamber upper end wall It is provided with a rotation chamber in chamber right end wall, a mobile cavity is provided in the push chamber upper end wall, the mobile cavity upper end wall is left The shifting chute of the connection mobile cavity is provided in side, the shifting chute right end wall is provided with a translation slot, the mobile cavity It is inside provided with a mobile bar, the recirculation hole that about one end wall is connected to the mobile cavity, the circulation are provided in the mobile bar The through hole that about one end wall is connected to the mobile cavity is provided in the right end wall of hole, the mobile bar right end is provided with right end and is located at The first intracavitary mandril of the rotation, the mobile bar right end are fixedly connected with a right end and the fixed company of the mobile cavity right end wall The mobile spring connect, the mobile bar left end is fixedly connected with the 4th connecting rod that a upper end is located in the shifting chute, described 4th connecting rod upper end is fixedly connected with the second link block that a right end is located in the translation slot, sets in second link block It is equipped with the connecting hole that about one end wall is connected to the translation slot；

Wherein, the catch bar that a left end is located in the revolution space is provided in the push chamber, the catch bar left end is solid Surely it is connected with a slide block, the support slot of the connection push chamber is provided in the push chamber lower end wall left side, it is described to push away Lever right end lower end surface is fixedly connected with the support rod that a lower end is located in the support slot, and the support slot lower end wall is fixed to be connected It is connected to the support spring that a upper end is fixedly connected with the support rod, a limited block is slidably connected in the push chamber, it is described Limited block upper surface is fixedly connected with the reset spring that a upper end is fixedly connected with the catch bar, and sliding connects in the limited block Be connected to the translation bar that a lower end is located in the driving chamber, the translation bar upper end through the catch bar and with the catch bar It is slidably connected, the arc groove that a front and back end wall is connected to the driving chamber, first connection is provided in the translation bar lower end Block left end is located in the arc groove, and the limited block right end is fixedly connected with a right end and is located at the second intracavitary top of the rotation Bar is rotatably connected to a rotation axis between end wall before and after the rotation chamber, a rotating bar, the rotation is provided in the rotation axis Pass through torsionspring connection (not shown) between bar and the rotation axis.

5. a kind of high molecular material for preparing according to claim 1 is with efficient pelletizer, it is characterised in that: the blender Structure includes stir chamber, and a stir chamber is provided in the mobile cavity upper end wall, is provided with a belt in the stir chamber upper end wall Space is provided with the agitating shaft that a upper end is located in the belt space in the stir chamber, and the agitating shaft upper end is fixed to be connected It is connected to the second belt pulley, the feeding inlet of a connection free surrounding space is provided on the left of the stir chamber upper end wall, the feeding inlet is passed through The translation slot is worn, the agitating shaft lower end is fixedly connected with half paddle, is provided with one in the stir chamber lower end wall and runs through The connecting pipe of end wall and the connection revolution space above and below the mobile cavity, it is soft that the connecting pipe lower end is fixedly connected with one It manages, is provided with a lifting chamber in the stir chamber right end wall, the lifting chamber upper end wall is fixedly connected with a lifting motor, described Lifting motor has been connected by power a lifting shaft, and the first belt pulley, first belt are fixedly connected on the lifting shaft axis body Wheel is connect with the second belt pulley by belt, and first belt pulley downside is provided with to be connect with the lifting shaft threaded engagement Elevating lever, the elevating lever lower end is through the lifting chamber lower end wall and is located in the mobile cavity, and the elevating lever left end is solid Surely it is connected with a gag lever post, lifting chamber left end wall is provided with a limit plate, is provided with a rear end in the limit plate lower end Wall is connected to the rotation slot of the lifting chamber with lower end wall, and rotation slot left end wall is fixedly connected with a driven shaft, it is described from It is rotatably connected to a lower end on moving axis and is located at the intracavitary follower plate of the lifting.

6. a kind of high molecular material for preparing according to claim 1 is with efficient pelletizer, it is characterised in that: the lower press Structure includes rotating drum, and the rotating drum that a right end wall is connected to the revolution space is provided in the wall of the revolution space left end, it is described A pushing chamber is provided in the wall of rotating drum left end, described push is provided with the connection pushing for pushing chamber in chamber upper end wall Slot, the pushing chamber lower end wall are fixedly connected with pressing spring, and the pushing spring upper end is fixedly connected with a lower lock block, institute It states lower lock block right end and is fixedly connected with the top plate that a right end is located in the rotating drum, the lower lock block upper end is fixedly connected with one Down-pressed pole in pushing slot described in the Norwegian of upper end, rotating drum left end wall are provided with a spring cavity, the spring cavity lower end Wall is fixedly connected with an adjustable spring, and the adjustable spring upper end is fixedly connected with a spring block, and the spring block right end is fixed It is connected with the third link block that a right end is located in the rotating drum, a upper end is provided in the rotating drum and the third connects The rack gear block that block is fixedly connected is connect, rack gear block upper end is provided with the bullet that a upper end wall is connected to the rotating drum with right end wall Spring slot is provided with the pouring weight that a right end is located in the revolution space in the spring groove；

Wherein, the spring groove lower end wall is fixedly connected with the connecting spring that a upper end is fixedly connected with the pouring weight, the rotation Turn the accommodating groove that chamber upper end wall is provided with the connection rotating drum, pouring weight left end upper surface is fixedly connected with upper end position Trapezoid block in the accommodating groove is provided with the receiving slit that a left end wall is connected to the accommodating groove in the trapezoid block, described It is provided with the translation chamber of the connection pushing slot Yu the accommodating groove in the wall of accommodating groove left end, is set in the translation chamber upper end wall It is equipped with the connection translation chamber driven slot, the intracavitary bilateral symmetry of translation slidably connects a trapeze bar, two institutes in left and right It states trapeze bar to be located in the pushing chamber and the accommodating groove far from the one end at the translation chamber center, right side is described trapezoidal Bar left end is fixedly connected with the 5th connecting rod, and the connection that a right end wall is connected to the translation chamber is provided in the trapeze bar of right side Slot, link slot left end wall are fixedly connected with a limited spring, the 5th connecting rod left end be located in the link slot and It is fixedly connected with the limited spring, slidably connects what a lower end was fixedly connected with the right side trapeze bar in the driven slot Slave Block, the driven slot right end wall are fixedly connected with the driven spring that a left end is fixedly connected with the Slave Block, right side institute Trapeze bar is stated to be located in the receiving slit.