A kind of bottle embryo pelletizing mixing feed machine
Technical field
The present invention relates to bottle embryo injection molding art, more particularly, to a kind of bottle embryo pelletizing mixing feed machine.
Background technology
Bottle embryo be PET bottle molding before blank, it is not toxic, air-tightness is good, do not fall broken, transparency height, and can be with
It is sealed with general plastic bottle closure, is commonly used to the packaging of beverage, drinks especially mineral water class and amenities etc..In bottle embryo
Production process in, because blow bottle tension it is uneven or production transmission process in be scratched wait various factors, many flaws can be generated
Defective product utilizes, while these faulty materials are not contaminated also because the raw material of bottle embryo is repeatable, if by this batch of faulty materials immediately
It recycles, the utilization rate for greatly improving raw material is reduced to the loss of raw material, so as to economize on resources and reduce cost.
Invention content
In view of the deficiencies of the prior art, the present invention provides a kind of bottle embryo pelletizing mixing feed machine, in the same of injection molding machine production
When, the faulty materials generated in production process pelletizing mixing feed machine-cut directly disclosed by the invention is cut into it is granular, then
The injection molding processes of next bottle embryo are mixed and direct plungeed into raw material again, so as to improve the utilization rate of raw material,
It is effective to economize on resources and reduce cost.
A kind of bottle embryo pelletizing mixing feed machine disclosed by the invention, including pelletizing component and batch mixing component, pelletizing component
Discharge end connect with the feed end of batch mixing component;Wherein, pelletizing component includes the first casing, the first cutting assembly, the second machine
Shell, transmission assembly and the second cutting assembly;First cabinet top is equipped with first charging aperture, interior to be equipped with the first cutting chamber, bottom
Portion is equipped with the first discharge port;First charging aperture and the first discharge port are connected with the first cutting chamber;First cutting assembly is set on first
Cutting chamber;Second casing one end is equipped with second charging aperture, interior to be equipped with the second cutting chamber, and the other end is equipped with the second discharge port;The
Two feed inlets are docked with the first discharge port;Transmission assembly is set on the second cutting chamber, and one end corresponds to second charging aperture, another
End corresponds to the second discharge port;Second cutting assembly is set on the second cutting chamber, and positioned at the top of transmission assembly;Batch mixing component packet
Include mixer and rabbling mechanism;Mixer be equipped with third feed inlet and the 4th feed inlet, bottom be equipped with third discharge port, the 4th
Feed inlet is connect with the second discharge port;Rabbling mechanism is set on mixer.
Further, the first cutting assembly includes multiple first cutter disc groups and multiple first motors, the first cutter disc groups are set on
First cutting chamber, corresponding to first charging aperture;First cutter disc groups are connected to the output terminal of the first motor.
Further, the first cutting assembly includes four the first cutter disc groups and four the first motors, four the first cutter disc groups
The indoor four direction of the first cutting is respectively arranged on, the cut direction of four the first cutter disc groups is vertical with horizontal direction.
Further, the connecting portion of the first cutting chamber of the first casing and the first discharge port is the channel of arc.
Further, transmission assembly includes conveyer belt and the second motor, and conveyer belt one end corresponds to second charging aperture, another
End corresponds to the second discharge port;Conveyer belt is connected to the output terminal of the second motor.
Further, the second cutting assembly includes the second cutter disc groups and third motor;Stent, branch are equipped in second cutting chamber
Frame is located at the top of conveyer belt;Third motor is set on stent;Second cutter disc groups are connected to the output terminal of third motor, and the second knife
Disk group corresponds to conveyer belt, and cut direction is vertical with horizontal direction.
Further, the second discharge port of the second casing is in funnel-form.
Further, rabbling mechanism includes blender and the 4th motor, and blender is helical form, in agitator tank, is stirred
Mix the output terminal that device is connected to the 4th motor.
Further, hole position regulating mechanism is further included, hole position adjustment structure includes bottom plate, support base and two sliding blocks, bottom
Plate is equipped with the 4th discharge port and the 5th discharge port, and support base is set on bottom plate and connects the bottom end of mixer, and support base is equipped with
Through-hole, through-hole activity correspond to the 4th discharge port and the 5th discharge port, and two sliding blocks are located at the both sides of bottom plate and support base respectively, single
One end of a sliding block is slidably connected bottom plate, and the other end is fixedly connected with support base.
Further, support base is equipped with knob.
Compared with prior art, the present invention can be obtained including following technique effect:
The pelletizing mixing feed machine of the application increases pelletizing component, in injection bottle embryo by the feed end in batch mixing component
While, by secondary cut of the faulty materials generated in production process by the progress of pelletizing component axially and radially, then will cutting
The regenerated particle of gained is used for the injection step of next bottle embryo with raw material after mixing by the mixer in batch mixing component
In.The present invention has directly recycled the faulty materials generated in production process during production, quickly and easily improves
The utilization rate of raw material thereby reduces production cost.
Description of the drawings
Attached drawing described herein is used for providing further understanding of the present application, forms the part of the application, this Shen
Illustrative embodiments and their description please do not form the improper restriction to the application for explaining the application.In the accompanying drawings:
Fig. 1 is the stereogram of bottle embryo pelletizing mixing feed machine in the present embodiment;
Fig. 2 is the partial schematic diagram of pelletizing component;
Fig. 3 is the explosive view of batch mixing component and hole position regulating mechanism;
Fig. 4 is the schematic diagram of mixer;
Fig. 5 is the schematic diagram of rabbling mechanism.
Reference sign
1- pelletizings component, 2- batch mixings component, 3- holes position regulating mechanism;
The first casings of 11-, the first cutting assemblies of 12-, the second casings of 13-, 14- transmission assemblies, the second cutting assemblies of 15-,
21- mixers, 22- rabbling mechanisms, 31- bottom plates, 32- support bases, 33- sliding blocks;
111- first charging apertures, the first cutting chambers of 112-, the first discharge ports of 113-, 114- channels, the first cutter disc groups of 121-,
The first motors of 122-, 131- second charging apertures, the second cutting chambers of 132-, the second discharge ports of 133-, 134- stents, 141- transmission
Band, the second motors of 142-, the second cutter disc groups of 151-, 152- thirds motor, 211- thirds feed inlet, the 4th feed inlets of 212-,
213- thirds discharge port, 221- blenders, the 4th motors of 222-, the 4th discharge ports of 311-, the 5th discharge ports of 312-, 321- lead to
Hole, 322- knobs.
Specific embodiment
The multiple embodiments for the present invention being disclosed with schema below, as clearly stated, the details in many practices
It will be explained in the following description.It should be appreciated, however, that the details in these practices is not applied to limit the present invention.Also
It is to say, in some embodiments of the present invention, the details in these practices is non-essential.In addition, for the sake of simplifying schema,
Some known usual structures will be painted it in a manner of simply illustrative in the drawings with component.
In addition, in the present invention such as relating to the description of " first ", " second " etc. be only used for description purpose, not especially censure
The meaning of order or cis-position, also non-to limit the present invention, the component described just for the sake of difference with same technique term
Or operation, and it is not intended that indicating or implying its relative importance or the implicit number for indicating indicated technical characteristic
Amount." first " is defined as a result, at least one this feature can be expressed or be implicitly included to the feature of " second ".It is in addition, each
Technical solution between a embodiment can be combined with each other, but must can be implemented as base with those of ordinary skill in the art
Plinth will be understood that the combination of this technical solution is not present when the combination appearance of technical solution is conflicting or can not realize,
Also not the present invention claims protection domain within.
A kind of bottle embryo pelletizing mixing feed machine provided by the invention while injection molding machine is molded production bottle embryo, will produce
The flaw bottle embryo recycling generated in the process, the regenerated particle as obtained by the present invention by bottle embryo progress secondary cut are mixed with raw material
It is directly put into operation after conjunction.Please refer to Fig.1 and Fig. 2, Fig. 1 be the present embodiment in bottle embryo pelletizing mixing feed machine stereogram, Fig. 2
Partial schematic diagram for pelletizing component.As depicted in figs. 1 and 2, the present invention includes pelletizing component 1 and batch mixing component 2, pelletizing component
1 discharge end is connect with the feed end of batch mixing component 2.
Wherein, pelletizing component 1 includes the first casing 11, the first cutting assembly 12, the second casing 13, transmission assembly 14 and the
Two cutting assemblies 15, the first cutting assembly 12 are set in the first casing 11, and 14 and second cutting assembly 15 of transmission assembly is set on the
In two casings 13, the first casing 11 is perpendicular to one end of the second casing 13.
First casing, 11 top is equipped with first charging aperture 111, interior to be equipped with the first cutting chamber 112, and bottom is equipped with first
Discharge port 113,111 and first discharge port 113 of first charging aperture are connected with the first cutting chamber 112.First cutting assembly 12 is set on
In first cutting chamber 112, corresponding to first charging aperture 111, including multiple first cutter disc groups 121 and multiple first motors 122.
Four the first cutter disc groups 121 and four the first motors 122 are preferably in the present embodiment, every one first cutter disc groups 121 are connected to
The output terminal of one the first motor 122.Four the first cutter disc groups 121 include multiple be fixed at a certain distance in same rotation axis
Cutterhead so that each group of cutter disc groups can be by flaw bottle embryo along its axially cutting one group of parallel linear incision.Every one first knife
Spacing setting between multiple cutterheads of disk group 121 is corresponding with the specification size of raw material particle.Four the first cutter disc groups 121
It is divided into the first cutting chamber 112 in cross, centre surrounds the cutting channel of a vertical direction, and the upper end of cutting channel corresponds to
First charging aperture 111.In production process, flaw bottle embryo is put into the first cutting chamber 112 vertically by first charging aperture 111, by
In the flaw bottle embryo gravity of itself, flaw bottle embryo is just fallen in the cutting channel surrounded in four the first cutter disc groups 121.
At this point, four the first motors 122 drive four the first cutter disc groups 121 to rotate simultaneously respectively, axially cutting along flaw bottle embryo should
Bottle embryo cuts several groups of linear incisions with the week of flaw bottle embryo.Further, the first cutting chamber 112 and the first discharge port
113 connecting portion is the channel 114 of arc, and the flaw bottle embryo after the first cutter disc groups 121 are cut in an axial direction is because of the weight of itself
Power effect is fallen, and the first discharge port 113 is slided to by the channel 114 of arc.
Second casing 13 and 11 one end connected vertically of the first casing are equipped with second charging aperture 131, interior to be cut equipped with second
Room 132 is cut, the other end is equipped with the second discharge port 133, and wherein second charging aperture 131 is docked with the first discharge port 113, the second charging
131 and second discharge port 133 of mouth is connected with the second cutting chamber 132, and stent 134 is additionally provided in the second casing.Transmission assembly 14 is set
In in the second cutting chamber 132, including 141 and second motor 142 of conveyer belt, 141 one end of conveyer belt corresponds to second charging aperture
131, the other end corresponds to the second discharge port 133, and conveyer belt 141 is connected to the output terminal of the second motor 142.Stent 134 is set on
The top of conveyer belt 141.Second cutting assembly 15 is set on the second cutting chamber 132, including the second cutter disc groups 151 and third motor
152, third motor 152 is set on stent 134, and the second cutter disc groups 151 are connected to the output terminal of third motor 152 and corresponding to transmission
Band 141, the second cutter disc groups 151 include multiple cutterheads being fixed at a certain distance in same rotation axis so that the second cutter disc groups
151 can radially cut flaw bottle embryo at one group of parallel notch.Spacing between multiple cutterheads of second cutter disc groups 151 is set
It puts corresponding with the specification size of raw material particle.Channel 114 of the flaw bottle embryo through arc slides, and is slided from the first discharge port 113
Enter second charging aperture 131, fall on conveyer belt 141, flaw bottle embryo is changed into horizontal positioned by initial vertical state.Second electricity
Machine 142 drives conveyer belt 141 to move, and flaw bottle embryo is moved from second charging aperture 131 to the second discharge port 133.When flaw bottle
When embryo is moved to the second 151 lower section of cutter disc groups, third motor 152 drives the second cutter disc groups 151 to rotate, along the radial direction of flaw bottle embryo
Cutting, is cut into flaw bottle embryo granular.By the first cutter disc groups 121 and the second cutter disc groups 151 respectively to flaw bottle embryo into
The secondary cut of row axially and radially, the communicated band 141 of granular regenerated particle of gained are transported to the second discharge port 133.It is excellent
Selection of land, in order to which regenerated particle more smoothly falls without being deposited at the second discharge port 133, the second discharge port 133 is designed as leaking
It is bucket-shaped.
Incorporated by reference to Fig. 1 and Fig. 3 to Fig. 5, Fig. 3 is the explosive view of batch mixing component and hole position regulating mechanism, and Fig. 4 is mixer
Schematic diagram, Fig. 5 is the schematic diagram of rabbling mechanism, and as shown in Fig. 1 and Fig. 3 to Fig. 5, batch mixing component 2 includes mixer 21 and stirring
Mechanism 22, mixer 21 be equipped with 211 and the 4th feed inlet 212 of third feed inlet, bottom be equipped with third discharge port 213, the 4th
Feed inlet 212 is docked with the second discharge port 133, and the raw material for being molded bottle embryo put into mixer 21 from third feed inlet 211
Interior, regenerated particle is entered by the 4th feed inlet 212 in mixer 21 to be mixed with raw material.Rabbling mechanism 22 is set on mixer 21
Interior, including 221 and the 4th motor 222 of blender, blender 221 is connected to the output terminal of the 4th motor 222.Preferably, it is
Fully raw material and regenerated particle are sufficiently mixed uniformly, the shape of blender 221 is designed as helical form.4th motor 222
Blender 221 is driven to operate, raw material are uniformly mixed with regenerated particle, the mangcorn used as lower one of Shooting Technique
Son.
Further, the invention also includes hole position regulating mechanism 3, hole position adjustment structure 3 includes bottom plate 31,32 and of support base
Two sliding blocks 33, bottom plate 31 are equipped with the 4th discharge port 311 and the 5th discharge port 312, and support base 32 is set on bottom plate 31 and connects
The bottom end of mixer 21 is connect, support base 32 is equipped with through-hole 321, corresponding 4th discharge port 311 of 321 activity of through-hole and the 5th discharge port
312, two sliding blocks 33 are located at the both sides of bottom plate 31 and support base 32 respectively, and one end of single sliding block 33 is slidably connected bottom plate 31,
The other end is fixedly connected with support base 32.When the present invention works, through-hole 321 is connected with the 4th discharge port 311, and stuff and other stuff is through the
Four discharge ports 311 enter lower one of injection molding processes.Support base 32 is additionally provided with a knob 322, when the present invention is stopped,
Knob 322 is pulled, the mixing mechanism 2 for making support base 32 and being fixed on support base 32 slides together along bottom plate 31, support base
32 through-hole 321 is docked with the 5th discharge port 312.The remaining stuff and other stuff being stored in the mixer 21 of mixing mechanism 2 is led to
It crosses the 5th discharge port 312 to take out, empties mixer 21, in case next time, production was used.
Specifically, in the production process of bottle embryo, the flaw of shipment requirement cannot be met by inevitably resulting from some
Product.Bottle embryo pelletizing mixing feed machine provided by the invention, while bottle embryo is produced, by the unpolluted flaw bottle embryo in this part
It recycles immediately.First, flaw bottle embryo is vertically put into the first cutting chamber 112, flaw bottle by worker from first charging aperture 111
Embryo falls into the cutting channel being made of four the first cutter disc groups 121, is driven through the first motor 122 because of the gravity of itself
First cutter disc groups 121 carry out first time cutting along the axial of the body of flaw bottle embryo.Flaw after vertical cutting for the first time
Bottle embryo continues to drop downward into the channel 114 of arc, is slid by channel 114 to the first discharge port 113, by with the first discharge port
The second charging aperture 131 of 113 docking is slided on conveyer belt 141.It is placed on conveyer belt 141 at this point, flaw bottle embryo is horizontal.
Second motor 142 drives conveyer belt 141, and conveyer belt 141 transports flaw bottle embryo to third discharge port 213, by way of the second cutterhead
Group 151, third motor 152 drive the second cutter disc groups 151 to rotate, and radial cuts are carried out to flaw bottle embryo.By axially and radially
The flaw bottle embryo of cutting twice is cut into similar with specifications of raw materials, evengranular regenerated particle.Evengranular regeneration
Particle can effectively avoid because granular size differs, and dry uneven heating is even and form showing for white haze before being molded for new bottle embryo
As.The 4th feed inlet 212 through being connect with third discharge port 213 is fallen into mixer 21 regenerated particle due to gravity, with
This simultaneously, raw material are sent into mixer 21 by worker from third feed inlet 211.Drive blender 221 right by the 4th motor 222 again
Raw material and regenerated particle in mixer 21 are mixed, and stuff and other stuff after mixing will be used as raw material supply lower together
Injection step uses.
To sum up, bottle embryo pelletizing mixing feed machine provided by the present invention will generate in the production process of bottle embryo in production
Flaw bottle embryo directly recycle, by blank component these flaw bottle embryos are carried out with cutting twice axially and radially successively, then
The regenerated particle for cutting gained is mixed with the raw material put into, mixed stuff and other stuff is used for the injection of new bottle embryo.
The present invention is during bottle embryo is produced, the faulty materials that generate during direct remanufacture, put into production at once after processing from
And reduce the loss of raw material, the utilization rate of raw material is improved, production cost is reduced while economizing on resources.
Upper is only embodiments of the present invention, is not intended to restrict the invention.To those skilled in the art,
The invention may be variously modified and varied.All any modifications made in spirit and principles of the present invention, equivalent replacement,
Improve etc., it should all be included within scope of the presently claimed invention.