CN109159409A - A kind of bottle blowing machine - Google Patents
A kind of bottle blowing machine Download PDFInfo
- Publication number
- CN109159409A CN109159409A CN201811128829.4A CN201811128829A CN109159409A CN 109159409 A CN109159409 A CN 109159409A CN 201811128829 A CN201811128829 A CN 201811128829A CN 109159409 A CN109159409 A CN 109159409A
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- group
- bottle
- heating
- fixedly connected
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- 238000007664 blowing Methods 0.000 title claims abstract description 59
- 238000010438 heat treatment Methods 0.000 claims abstract description 175
- 210000001161 mammalian embryo Anatomy 0.000 claims abstract description 172
- 238000000465 moulding Methods 0.000 claims abstract description 45
- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 claims abstract description 24
- 238000007493 shaping process Methods 0.000 claims description 28
- 230000001360 synchronised effect Effects 0.000 claims description 17
- 230000033001 locomotion Effects 0.000 claims description 16
- 238000003860 storage Methods 0.000 claims description 9
- 230000002459 sustained effect Effects 0.000 claims description 9
- 238000003780 insertion Methods 0.000 claims description 5
- 230000037431 insertion Effects 0.000 claims description 5
- 239000000203 mixture Substances 0.000 claims description 4
- 238000004891 communication Methods 0.000 claims description 3
- 230000007423 decrease Effects 0.000 claims description 3
- 239000004744 fabric Substances 0.000 claims description 2
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 2
- 238000004519 manufacturing process Methods 0.000 abstract description 17
- 238000001746 injection moulding Methods 0.000 abstract description 16
- 239000002918 waste heat Substances 0.000 abstract description 5
- 238000005265 energy consumption Methods 0.000 abstract description 4
- 239000007789 gas Substances 0.000 description 14
- 238000012546 transfer Methods 0.000 description 11
- 238000010586 diagram Methods 0.000 description 6
- 230000007246 mechanism Effects 0.000 description 6
- 238000000034 method Methods 0.000 description 6
- 230000001681 protective effect Effects 0.000 description 6
- 239000000463 material Substances 0.000 description 5
- 238000012423 maintenance Methods 0.000 description 4
- 230000008569 process Effects 0.000 description 4
- 238000005086 pumping Methods 0.000 description 4
- 210000002257 embryonic structure Anatomy 0.000 description 3
- 238000005516 engineering process Methods 0.000 description 3
- 238000003032 molecular docking Methods 0.000 description 3
- 230000008901 benefit Effects 0.000 description 2
- 230000008859 change Effects 0.000 description 2
- 230000033228 biological regulation Effects 0.000 description 1
- 230000015556 catabolic process Effects 0.000 description 1
- 238000001816 cooling Methods 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 230000006872 improvement Effects 0.000 description 1
- 238000002347 injection Methods 0.000 description 1
- 239000007924 injection Substances 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 230000009191 jumping Effects 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 239000002994 raw material Substances 0.000 description 1
- 230000000630 rising effect Effects 0.000 description 1
- 238000004513 sizing Methods 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
- 239000000243 solution Substances 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C49/00—Blow-moulding, i.e. blowing a preform or parison to a desired shape within a mould; Apparatus therefor
- B29C49/42—Component parts, details or accessories; Auxiliary operations
- B29C49/64—Heating or cooling preforms, parisons or blown articles
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C49/00—Blow-moulding, i.e. blowing a preform or parison to a desired shape within a mould; Apparatus therefor
- B29C49/02—Combined blow-moulding and manufacture of the preform or the parison
- B29C49/06—Injection blow-moulding
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C49/00—Blow-moulding, i.e. blowing a preform or parison to a desired shape within a mould; Apparatus therefor
- B29C49/42—Component parts, details or accessories; Auxiliary operations
- B29C49/70—Removing or ejecting blown articles from the mould
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C49/00—Blow-moulding, i.e. blowing a preform or parison to a desired shape within a mould; Apparatus therefor
- B29C49/42—Component parts, details or accessories; Auxiliary operations
- B29C49/78—Measuring, controlling or regulating
- B29C49/786—Temperature
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C49/00—Blow-moulding, i.e. blowing a preform or parison to a desired shape within a mould; Apparatus therefor
- B29C49/02—Combined blow-moulding and manufacture of the preform or the parison
- B29C2049/023—Combined blow-moulding and manufacture of the preform or the parison using inherent heat of the preform, i.e. 1 step blow moulding
Landscapes
- Engineering & Computer Science (AREA)
- Manufacturing & Machinery (AREA)
- Mechanical Engineering (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Apparatus Associated With Microorganisms And Enzymes (AREA)
Abstract
The present invention provides a kind of bottle blowing machines, including control module, heating group, stretching group, molding group and pedestal;The bottle blowing machine further includes set of jaws and rotation group;The temperature at each position of bottle embryo can accurately be controlled by the heating group, so that the temperature at each position of bottle embryo reaches most preferably, to improve the quality of bottle after bottle blowing moulding, entire production process realizes full-automation, and efficiency greatly improves;And can use the bottle embryo that the heating group completes rigid injection molding and heated in time, it can use the waste heat of bottle embryo, save the energy consumption for heating bottle embryo before blowing bottle.
Description
[technical field]
The present invention relates to bottle manufacturing technology, especially a kind of bottle blowing machine.
[background technique]
Plastic raw materials all or two-step bottle blowing machine, i.e., first must be made into bottle embryo, then again by major part bottle blowing machine at present
It is blown.The process of bottle embryo blowing first heats bottle embryo, and then bottle embryo is put into the type chamber of molding die, then molding die
The stretch rod of the stretching group of top protrudes into bottle embryo, and compressed gas is blown into bottle embryo from the insufflation channel inside stretch rod and is carried out
Blow bottle.And most of injection molding bottle embryo and blown bottle are shared out the work and helped one another by obstructed producer, such production method makes bottle
Embryo, which needs to transport Chui Ping factory after being molded by, to carry out blowing bottle, and whole process needs wasting manpower and material resources to transport, while by
In be just molded by come bottle embryo be there is certain residual temperature, however by transport after, bottle embryo can cool down, arrive Chui Ping factory when, need
Heating bottle embryo is re-started, general common bottle blowing machine is all to bake bottle embryo using the heating system of overlength, to reach material
Fusing point, then blow bottle, time-consuming in this way and consumes energy very much, and production efficiency is low, at high cost, while being just molded by have residual temperature
The waste heat of bottle embryo be wasted, energy-saving and emission-reduction that this and present country advocate are disagreed, and economic benefit is small.
Because bottle embryo has just been molded by have temperature, blown if being reheated to meet from the state of cooling by original bottle embryo
The temperature that bottle requires, then same heating time heating power, time and temperature meeting for being just molded by the bottle embryo come
More than the temperature of requirement, so that the quality of bottle is blown in influence, therefore, existing heating group, which can not meet such heating function, to be needed
It asks.
In addition, due to the shape at each position of the bottle of bottle embryo blowing be not it is the same so that bottle embryo each position
Temperature requirement is inconsistent, and most of PP bottle bottle blowing machine sold on existing market is all to heat bottle embryo using multiple heater boxes, whole
Body uses unified heating temperature, so that the inside and outside uneven heating of bottle embryo is even when heating, is unable to each position of accuracy controlling bottle embryo
Temperature, influence the quality of bottle.
[summary of the invention]
It, can be to each position of bottle embryo the invention reside in a kind of bottle blowing machine is provided to overcome defect existing for existing equipment
Temperature accurately adjusted, improve the quality of product, saved the energy, while to realize to being just molded by the bottle embryo come
The utilization of waste heat provides condition.
The present invention is implemented as follows: a kind of bottle blowing machine, including control module, heating group, stretching group, molding group and base
Seat;The molding group includes die holder and shaping mould group;The shaping mould group is erected in the die holder, and the die holder is fixedly connected
In the top surface of the pedestal;The stretching group includes telescopic rod, is provided with inlet channel in the telescopic rod, the heating group and
Moulding composition is not erected on the pedestal, and the stretching group is erected at the surface of the molding group, and the telescopic rod can rise
The type of the insertion shaping mould group of drop is intracavitary;The stretching group and moulding composition are not communicatively coupled to the control module;
The bottle blowing machine further includes set of jaws and rotation group;
The heating group includes a plurality of heating members that can slide up and down;The control is communicatively coupled to per the heating member
Module;The heating group is erected on the pedestal;And the heating group is located at the front of the molding group;
The rotation group includes that several rotate embryo heads and the clamping device equal with the rotation embryo head quantity, described
The quantity of the quantity and the type chamber that rotate embryo head corresponds;Per the rotation embryo head, one-to-one correspondence is connected to a clamping
Device, per the top for being set up in the heating group that the rotation embryo head can be gone up and down, and all rotation embryo heads are realized together
Rotary motion is walked, while per the rotation embryo head after decline and the heating member is opposite and with a spacing, the spacing is greater than
The maximum radius of bottle embryo;
The set of jaws includes an at least clamping jaw module, and the quantity with the rotation embryo head is provided with per the clamping jaw module
Mechanical grip is corresponded, and all mechanical grips are communicatively coupled to the control module;It is real per the clamping jaw module
Existing horizontal front and back longitudinal movement and horizontal left and right transverse shifting;The set of jaws is erected at the same of the molding group and heating group
Side and the respectively higher than described heating group and molding group.
Further, the heating group further includes reflective box, heating member installs case and the heating member quantity is equal consolidates
Fixed rack group, two fans, air extractor, heater box support frame and reflective box support frame;
The right end of the heating member installs case is opening, and the left end of the heating member installs case is equipped with the installation of the first fan
Hole, the left end of the heating member installs case also symmetrically offers two first vertical chutes, and runs through per first vertical chute
The left end of the heating member installs case, the left end of the heating member installs case are also convexly equipped with two fixed blocks, and two fixed blocks are high
Spend equal and front and back longitudinal direction that is being located at first fan mounting holes two sides;It is perpendicular that one second is offered on per the fixed block
Straight runner, second vertical chute run through the front and back longitudinal direction both ends per the fixed block;One fan is mounted on described
In one fan mounting holes;The heating member installs case is mounted on the heater box support frame;
It include two sliding blocks, two levels and contour fixed link and two first bolts per the fixed bracket group;Every institute
It states sliding block and offers a screw hole, one end per the fixed link is convexly equipped with buckle, every two level and the contour fixed link
The other end correspond and pass perpendicularly through two first vertical chutes, latter a pair outward inside the heating member installs case
Two sliding blocks should be fixedly connected on;The two first bolt one-to-one correspondence correspond after two second vertical chutes
Lock two screw holes;
Two buckles positioned at sustained height are removably horizontally caught in along front and back longitudinal direction per the heating member;
The reflective box left end is opening, and the reflective box right end is equipped with the second fan mounting holes, in the reflective box
Being arranged side by side has a plurality of reflecting plates, and the reflective box is fixedly connected on the reflective box support frame;Another fan peace
In second fan mounting holes;The heater box support frame, reflective box support frame are respectively fixedly connected in the pedestal
Top surface, and the opening of the reflective box and the opening of the heating member installs case are arranged in parallel in opposite directions, and the reflective box
There is a spacing distance between the heating member installs case, the spacing distance is greater than the maximum gauge of bottle embryo;The pumping dress
The lower section for being set up in the reflective box is set, and the air entry of the air extractor is connected to the spacing distance;Two fans
It is communicatively coupled to the control module respectively.
Further, the heating group further includes auxiliary support plate and the first cylinder;First cylinder is fixedly connected on
The top of the reflective box, and the piston rod of first cylinder along left and right, transversely and horizontally arrange by direction, the auxiliary support plate
It is fixedly connected on the piston rod of first cylinder;First cylinder is communicatively coupled to the control module;The auxiliary branch
The height of fagging is lower than the height that bottle embryo after bottle embryo is clamped per the mechanical grip.
Further, the heater box support frame includes two first firm bankings and two first upright sliding bars;Two described
What one upright sliding bar one-to-one correspondence can slide up and down is connected to two first firm bankings;The heating member installs case can be overturn
Be connected on two first upright sliding bars, and two first upright sliding bars are along front and back longitudinal direction horizontal linear interval cloth
It sets;
The reflective box support frame includes including two second firm bankings and two second upright sliding bars;Two described second is vertical
What slide bar one-to-one correspondence can slide up and down is connected to two second firm bankings;The reflective box is fixedly connected on two described
On two upright sliding bars, and two second upright sliding bars are along front and back longitudinal direction horizontal linear arranged for interval.
Further, the heater box support frame further includes four the second bolts, four the first nuts and four third spiral shells
Bolt;Lower end per the fixed block is also provided with two first bolts hole;Upper end per first upright sliding bar offers two the
Two bolts hole;Include the first fixed plate and first sleeve per first firm banking, is also opened up per the first sleeve side
There are two third bolts hole;The top surface of the pedestal is fixedly connected on per first fixed plate;One by one per the first sleeve
The corresponding top surface for being fixedly connected on first fixed plate;Two first upright sliding bars correspond the set that can be slided up and down
Set on two first sleeves, four third bolts hole then are locked by two institutes with four third bolt one-to-one correspondence
State the locking of the first upright sliding bar;Four the second bolt one-to-one correspondence sequentially pass through four second bolts hole, four institutes
It states after the first bolt hole respectively with first nut check;
The reflective box support frame further includes four the 4th bolts;It further include the second fixed plate per second firm banking
With the second casing;Side per second casing is also provided with two the 4th bolts hole;It is fixed per second fixed plate to connect
It is connected to the top surface of the pedestal, the top surface for being fixedly connected on second fixed plate is corresponded per second casing;Two
What the second upright sliding bar one-to-one correspondence can slide up and down is sheathed on two second casings, then with four the 4th spiral shells
Bolt one-to-one correspondence locks two second upright sliding bars after locking four the 4th bolts hole.
Further, there are three the clamping jaw modules;The quantity of the rotation embryo head is two;Per the clamping jaw module packet
Two mechanical grips are included, and two mechanical grips are horizontally disposed in a straight line along front and back longitudinal direction;The quantity of the type chamber
It is two;The center of the two type chambers is away from the center for being equal to two mechanical grips being located on the same clamping jaw module
Away from;
The die holder includes bottom plate, left and right support plate and the top plate for constituting rectangular frame structure;
The set of jaws further include the first driving motor, three the second cylinders, a synchronous belt, first pulley, the second belt wheel,
Clamping jaw fixing seat, air cylinder fixed plate and connection fixture;
The clamping jaw fixed seating is set to the top plate;Being connected to for the air cylinder fixed plate energy front and back longitudinal sliding motion is described
The bottom of clamping jaw fixing seat;Three second cylinders are fixedly connected on the bottom of the air cylinder fixed plate, and in front of a straight line
After be longitudinally arranged, and the center of two neighboring second cylinder is away from being equal to the center of the heating group and shaping mould group away from simultaneously
Piston rod per second cylinder is transversely and horizontally arranged along left and right;Per the clamping jaw module, one-to-one correspondence is fixedly connected on an institute
State the piston rod of the second cylinder;The top of the shaping mould group and the top of the heating group are located at sustained height;Described in three
Clamping jaw module is located at sustained height, and is higher than the top of the shaping mould group;Three second cylinders also communicate to connect respectively
In the control module;
First driving motor is fixedly connected on the top plate, and the output shaft horizontal cross of first driving motor
Arrangement;The first pulley is fixedly connected on the output shaft of first driving motor;The connection that second belt wheel is able to rotate
In the top plate;The synchronous belt is sheathed on the first pulley and the second belt wheel, and the top plate passes through the synchronous belt
Inner cavity;The connection fixture is fixedly connected on the synchronous belt;The connection fixture is also respectively fixedly connected in the gas
Cylinder fixed plate;First driving motor is also communicatively coupled to the control module.
Further, the rotation group further includes a driving motor module, a third cylinder, the first supporting element, second
Support member and the connecting rod equal with the rotation embryo head quantity;
The second driving motor module includes the second driving motor, chain, the first driving gear and and the rotation
The first equal driven gear of embryo head quantity;Second driving motor is fixedly connected on second supporting element, and described
The output shaft of two driving motors state in a vertical shape;First driving gear is fixedly connected on the output of second driving motor
Axis;
It is revolvable per the connecting rod to be connected to second supporting element, and all connecting rods are in front and back longitudinal direction
Direction is linearly arranged, while every connecting rod state in a vertical shape;Bottom end per the connecting rod, which corresponds, to be fixedly connected
In the top of a rotation embryo head, per first driven gear, one-to-one correspondence is fixedly connected in a connecting rod;
The chain is sheathed on first driving gear and all first driven gears;
The third cylinder is fixedly connected on first supporting element, and the piston rod of the third cylinder is in a vertical shape
State;The piston rod of the third cylinder is fixedly connected on second supporting element, and first supporting element is fixedly connected on described
Top plate;Second driving motor is communicatively coupled to the control module.
It further, further include heating lamp tube controller, the heating member is heating fluorescent tube, per the heating member communication link
It is connected to the heating lamp tube controller, the heating lamp tube controller is communicatively coupled to the control module.
Further, the bottle blowing machine further includes at least one storage cylinder;Per the storage cylinder and the inlet channel gas
The connection of close property.
It further, is O-ring seal per the clamping device, per the clamping device, one-to-one correspondence is sheathed on described in one
Embryo head is rotated, and is less than the internal diameter of bottle preform mouth per the maximum outside diameter of the rotation embryo head, the outer diameter per the clamping device is greater than
The internal diameter of bottle preform mouth;The control module is PLC controller.
The present invention has the advantages that the present invention provides a kind of bottle blowing machine, including control module, heating group, stretching group, molding
Group and pedestal;The bottle blowing machine further includes set of jaws and rotation group;It can be to each position of bottle embryo by the heating group
Temperature is accurately controlled, so that the temperature at each position of bottle embryo reaches most preferably, so that the quality of bottle after bottle blowing moulding is improved,
Entire production process realizes full-automation, and efficiency greatly improves, while rigid injection molding can also be completed by the heating group
Bottle embryo is heated in time, can use the waste heat of bottle embryo, saves the energy consumption that bottle embryo is heated before blowing bottle.
[Detailed description of the invention]
The present invention is further illustrated in conjunction with the embodiments with reference to the accompanying drawings.
Fig. 1 is the structural schematic diagram of bottle production system of the present invention.
Fig. 2 is the main view of bottle blowing machine of the present invention.
Fig. 3 is the top view of bottle blowing machine of the present invention.
Fig. 4 is the rearview of bottle blowing machine of the present invention.
Fig. 5 is the C-C cross-sectional view of Fig. 3.
Fig. 6 is that bottle blowing machine of the present invention removes the top view after protective plate.
Fig. 7 is that bottle blowing machine of the present invention removes the rearview after protective plate.
Fig. 8 is that bottle blowing machine of the present invention removes the right view after protective plate.
Fig. 9 is that bottle blowing machine of the present invention removes the perspective view after protective plate.
Figure 10 is the structural schematic diagram of heating member installs case rollover states of the present invention.
Figure 11 is structural schematic diagram when heating member installs case of the present invention is not overturn.
Figure 12 is the structural schematic diagram of reflective box of the present invention and air extractor.
Figure 13 is the structural schematic diagram of heating group of the present invention.
Figure 14 and Figure 15 is the perspective view of rotation group of the present invention.
Figure 16 is the top view of rotation group of the present invention.
Figure 17 is the main view of rotation group of the present invention.
Figure 18 is the bottom view of rotation group of the present invention.
Figure 19 is the side view of rotation group of the present invention.
Figure 20 is the structural schematic diagram of clamping jaw module of the present invention and clamping jaw fixing seat.
Figure 21 is the top view of set of jaws of the present invention.
Figure 22 is the main view of set of jaws of the present invention.
Figure 23 is the bottom view of set of jaws of the present invention.
Figure 24 is the embodiment one of driving motor module of the present invention.
Figure 25 is the embodiment two of driving motor module of the present invention.
Figure 26 is the perspective view of stretching group of the present invention.
Figure 27 is the perspective view after rotation group of the present invention, stretching group and top plate are removed.
Figure 28 is the side view of Figure 27.
Figure 29 is the main view of Figure 27.
Figure 30 is the top view of Figure 27.
Figure 31 is the rearview of Figure 27.
Figure 32 is the perspective view of molding group of the present invention.
Figure 33 is the top view of molding group of the present invention.
Figure 34 is the main view of molding group of the present invention.
Figure 35 is the bottom view of molding group of the present invention.
In figure: 100, injection molding machine;200, transfer device;201, the second mechanical grip;300, bottle blowing machine;310, heating group;
311, heating member;312, reflective box;3121, the second fan mounting holes;3122, reflecting plate;313, heating member installs case;3131,
First fan mounting holes;3132, the first vertical chute;3133, fixed block;31331, the second vertical chute;314, fixed bracket
Group;3141, sliding block;3142, fixed link;31421, it buckles;3143, the first bolt;315, two fan;316, air extractor;
317, heater box support frame;3171, the first firm banking;31711, the first fixed plate;31712, first sleeve;31713, third
Bolt hole;3172, the first upright sliding bar;3173, the second bolt;3174, the first nut;3175, third bolt;31332, first
Bolt hole;31721, the second bolt hole;318, reflective box support frame;3181, the second firm banking;31811, the second fixed plate;
31812, the second casing;3182, the second upright sliding bar;3183, the 4th bolt;319, auxiliary support plate;3191, half curved opening
Slot;3101, the first cylinder;320, molding group;321, die holder;3211, bottom plate;3212, left support plate;3213, right support plate;
3214, top plate;322, shaping mould group;3221, type chamber;3222, open-close module;3223, crank link mechanism;3224, third is driven
Dynamic motor;330, pedestal;340, rotation group;341, embryo head is rotated;342, clamping device;343, driving motor module;3431,
Two driving motors;3432, the first driving gear;3433, the first driven gear;344, third cylinder;345, the first supporting element;
346, the second supporting element;347, connecting rod;348, guide sleeve;349, contact roller;350, stretching group;351, telescopic rod;3511, into
Gas channel;352, the 4th driving motor;353, rack gear;354, second gear;355, stretching group fixed frame;360, set of jaws;
361, clamping jaw module;3611, mechanical grip;362, the first driving motor;363, the second cylinder;364, synchronous belt;365, first
Belt wheel;366, the second belt wheel;367, clamping jaw fixing seat;368, air cylinder fixed plate;369, connection fixture;370, storage cylinder;
380, protective plate;400, control module;500, bottle.
[specific embodiment]
It please refers to Fig.1 to Fig.3 shown in 5, the present invention provides a kind of bottle blowing machine, in a specific embodiment: bottle production system
System includes control module including injection molding machine 100, transfer device 200 and bottle blowing machine of the present invention 300, the bottle blowing machine
400, heating group 310, stretching group 350, molding group 320 and pedestal 330;The molding group 320 includes die holder 321 and shaping mould
Group 322;The shaping mould group 322 is erected in the die holder 321, and the die holder 321 is fixedly connected on the top of the pedestal 330
Face;The stretching group 350 includes telescopic rod 351, is provided with inlet channel 3511, the heating group 310 in the telescopic rod 351
It being respectively erected on the pedestal 330 with molding group 320, the stretching group 350 is erected at the surface of the molding group 320,
In the type chamber 3221 for the insertion shaping mould group 322 that the telescopic rod 351 can be gone up and down, when use, the set of jaws 360 was by bottle
Embryo clips to immediately below the telescopic rod 351, is then protruded into bottle embryo by the telescopic rod 351 and clamps bottle embryo, for example, can
To be arranged an O-ring seal in the telescopic rod 351 insertion bottle embryo lumen portion, the outer diameter of O-ring seal is greater than bottle embryo
Internal diameter, the set of jaws 360 are unclamped, and the telescopic rod 351 drops to 3221 position of type chamber with bottle embryo, then the shaping mould
322 molding of group, gas is blown into bottle embryo from the inlet channel 3511 and carries out blowing bottle, by the type chamber 3221 to bottle 500 into
Row sizing;The stretching group 350 and molding group 320 are communicatively coupled to the control module 400 respectively, and described 400 pieces of control mould
It is also communicatively coupled to the injection molding machine 100 and transfer device 200 respectively;The transfer device 200 is arranged in the injection molding machine
Between 100 and bottle blowing machine 300, for example, the transfer device 200 is that existing manipulator 200, manipulator 200 are installed on the market
Between the injection molding machine 100 and bottle blowing machine 300, the bottle embryo of 100 injection formed of injection molding machine can be clamped, be then transferred into described
Bottle blowing machine 300 is by 360 clamping jaw of set of jaws of the bottle blowing machine 300;It is realized and is automatically controlled by the control module 400;
The bottle blowing machine 300 further includes set of jaws 360 and rotation group 340;
The heating group 310 includes a plurality of heating members 311 that can slide up and down, and can be slided per about 311 heating member
It is dynamic, allow to adjust the position per the heating member 311, and then each position of corresponding bottle embryo, it is each for accurate control bottle embryo
The temperature at a position provides condition;It is communicatively coupled to the control module 400 per the heating member 311, passes through the control mould
Block 400 controls heating time and heating power per the heating member 311, to finally realize the temperature to each position of bottle embryo
It is accurately controlled, a bottle quality is blown in raising;The heating group 310 is erected on the pedestal 330;And described heating group 310
In the front of the molding group 320, the front that heating group 310 is located at molding group 320 meets production technology sequence requirement, so that raw
The mobile distance of production process set of jaws 360 is shorter, saves the time, improves production efficiency;
The rotation group 340 includes several rotation embryo heads 341 and the clamping dress equal with the rotation embryo head quantity
342 are set, the quantity of the rotation embryo head 341 and the quantity of the type chamber 3221 correspond;One by one per the rotation embryo head 341
It is correspondingly connected to a clamping device 342, is clamped bottle embryo by clamping device 342, is revolved by every rotation embryo head 341
It rotates into and clamping device 342 and bottle embryo is driven to rotate, so that each position is heated more evenly when heating bottle embryo, improve bottle embryo temperature
Spend the precision and convenience of control;Per the top for being set up in the heating group 310 that the rotation embryo head 341 can be gone up and down, and institute
The rotation embryo head 341 having realizes synchronous rotary movement, the bottle embryo that synchronous rotary enables every clamping device 342 to clamp
It is synchronous to carry out temperature regulation, guarantee that heating can be completed at the same time with each bottle embryo once heated, improves production efficiency, simultaneously
Temperature is excessively high too long or heating time is inadequate for the bottle embryo heating prevented, and temperature is too low, guarantees the quality of production;Every institute simultaneously
It states after rotation embryo head 341 declines and the heating member 311 is opposite and has a spacing, the spacing is greater than maximum half of bottle embryo
Diameter, so that bottle embryo will not encounter heating member 311;
The set of jaws 360 includes an at least clamping jaw module 361, is provided with and the rotation per the clamping jaw module 361
The quantity of embryo head 341 corresponds mechanical grip 3611, and all mechanical grips 3611 are communicatively coupled to the control
Module 400 is realized and is automatically controlled;The longitudinal movement of level front and back and horizontal left and right transverse shifting are realized per the clamping jaw module 361;
The set of jaws 360 is erected at the same side of the molding group 320 and heating group 310 and respectively higher than described 310 He of heating group
Molding group 320, while the height of the set of jaws 360 is lower than the height per the rotation embryo head 341.
In one embodiment, such as: the shaping mould group 322 include two symmetrical open-close modules 3222, two symmetrically
Crank link mechanism 3223 and two third driving motors 3224, the crank link mechanism 3223 corresponds symmetrical connection
The crank link mechanism is connected in the output shaft of two open-close modules 3222, the two third driving motors 3224
3223;The two third driving motors 3223 are also communicatively coupled to the control module 400, two crank link mechanisms 3223
It is also attached to the die holder 321, is opened up per the open-close module 3222 there are two type chamber 3221.Pass through the control module 400
It controls the two third driving motors 3224 and then two crank link mechanisms 3223 is driven to move, to realize two foldings
The die sinking of mold 3222 or die closing.Certain molding group 320 can also use the molding die of existing other bottle blowing machines, here
No longer illustrate.
Such as: the stretching group 350 further includes the 4th driving motor 352, rack gear 353 and engages with the rack gear 353
Second gear 354, stretching group fixed frame 355;4th driving motor 352 is fixedly connected on the stretching group fixed frame
355, the second gear 354 is fixedly connected on the output shaft of the 4th driving motor 352, on the vertical energy of the rack gear 353
Lower slider is connected to the stretching group fixed frame 355, and the telescopic rod 351 is fixedly connected on the rack gear 353;To pass through
Moving up and down to drive moving up and down for the telescopic rod 351 for rack gear 353, is arranged a solenoid valve in the inlet channel,
Solenoid valve is connected to the control module 400, by the control module 400 control the leading to of gas, is closed, realizes to automatically control and blow
Gas.Certain stretching group 350 can also use other existing stretching devices, here no longer illustrate.
Working principle: the opening and closing mould of the shaping mould group 322, the rotation group are controlled by the control module 400
340 oscilaltion and the heating power and the fortune of heating time, set of jaws 360 for rotating the rotation of embryo head 341, heating group 310
Dynamic rail mark, the oscilaltion of stretching group 350 and inlet channel 3511 being opened or closing, and the quantity with the clamping jaw module 361 is
For one;The motion profile of improvement moving device 200 and clamping jaw module 361 is previously set in the control module 400, sets in advance
Heating time and the heating power or identical or different for setting each heating member 311, by the inlet channel of the telescopic rod 351
3511 air-tightness are connected to a gas source, for example, by using air compressor as gas source;Pass through 100 injection moulding bottle of injection molding machine
Embryo, then by the transfer device 200 by be just molded by come bottle embryo be transferred to the clamping jaw module 361 and dock, institute
The movement of 361 forward horizontal of clamping jaw module is stated, is then clamped bottle embryo by the mechanical grip 3611, the rear clamping jaw module
361 backward horizontal movement to and the just opposite position of the heating group 320, the clamping jaw module 361 clamp bottle embryo water to the right again
It is flat to move to 320 top of heating group, and the underface of the rotation group, so that each bottle preform mouth and every rotation embryo head
341 is just opposite, and then the rotation group 340 declines, and is corresponded by every clamping device 342 and clamps bottle embryo, then
The clamping jaw module 361 bounces back to the left, and the rear rotation group 340 continues to decline, so that bottle embryo and the heating member 311 are opposite,
Then it controls each heating member 311 by the control module 400 to be heated by the power and time that are previously set, while every
The rotation embryo head 341 synchronizes rotary motion so that heating more evenly, etc. bottle embryos heating after the completion of, the rotation group 340
Rise, then clamping jaw module 361, which moves right, clamps bottle embryo, and the rotation group 340 continues to rise, the clamping device 342
Bottle embryo is unclamped, is bounced back to the left followed by the clamping jaw module 361, then clamping jaw module 361 moves backward to and the molding group
320 just opposite positions, then clamping jaw module 361 moves right, and bottle embryo is moved to the top of shaping mould group 322, shaping mould
322 die sinking of group, the telescopic rod 351 of the rear stretching group 350 move down inside insertion bottle embryo, the following clamping jaw module 361 to
Left retraction, then the telescopic rod 351 continues to move down, so that bottle embryo and the type chamber 3221 correspond, then shaping mould group
322 moldings, then open air compressor, connect source gas from the inlet channel 3511 into bottle embryo blow bottle at
Type, past form die group 322 to be formed are opened, and the telescopic rod 351 drives bottle 500 to move up, and rear clip-claw module 361 is moved to right bottle
Son 500 is clamped, and the telescopic rod 351 continues to rise and bottle 500 separates, and then clamping jaw module bounces back to the left, rear clip-claw module
It moves backward, by the transport of bottle 500 to storing apparatus or other docking facilities, mechanical grip 3611 unclamps bottle 500, finally
Clamping jaw module 361, which is moved forward to, blows a bottle process with what the position of the transfer device 200 docking carried out next group of bottle embryo.
Bottle 500 is integrated in a production system by the present invention from injection molding bottle embryo to bottle blowing moulding, reduces transportation cost,
And shorten the production cycle, while being heated in time using 310 pairs of bottle embryos that just injection molding has been completed of the heating group, it can use bottle
The waste heat of embryo saves the energy consumption that bottle embryo is heated before blowing bottle, and can be to each position of bottle embryo by the heating group 310
Temperature is accurately controlled, so that the temperature at each position of bottle embryo reaches most preferably, to improve the matter of bottle 500 after bottle blowing moulding
Amount, entire production process realize full-automation, and efficiency greatly improves.
Be embodied, a preferable embodiment: the heating group 310 further includes reflective box 312, heating member installs case
The 313 fixation bracket groups 314 equal with 311 quantity of heating member, two fans 315, air extractor 316, heater box support frame
317 and reflective box support frame 318;
The right end of the heating member installs case 313 is opening, and the left end of the heating member installs case 313 is equipped with the first wind
Mounting hole 3131 is fanned, the left end of the heating member installs case 313 also symmetrically offers two first vertical chutes 3132, and per described
First vertical chute 3132 runs through the left end of the heating member installs case 313, the left end also projection of the heating member installs case 313
There are two fixed blocks 3133, two 3133 height of fixed block are equal and are located at the front and back of first fan mounting holes 3131
Longitudinal two sides;One second vertical chute 31331 is offered on per the fixed block 3133, second vertical chute 31331 passes through
Wear the front and back longitudinal direction both ends per the fixed block 3133;One fan 315 is mounted in first fan mounting holes 3131,
Suction is carried out to be vented outwards;The heating member installs case 313 is mounted on the heater box support frame 317;
It include two sliding blocks, 3141, two levels and contour fixed link 3142 and two the per the fixed bracket group 314
One bolt 3143;A screw hole (not shown) is offered per the sliding block 3141, one end per the fixed link 3142 is convexly equipped with card
The other end of button 31421, the horizontal and contour fixed link 3142 of every two is corresponded from the heating member installs case 313
The inside passes perpendicularly through two first vertical chutes 3132 outward, and rear correspond is fixedly connected on two sliding blocks 3141;Two
First bolt 3143, which corresponds to correspond after two second vertical chutes 31331, locks two screw holes
(not shown);
Two cards positioned at sustained height are removably horizontally caught in along front and back longitudinal direction per the heating member 311
Button 31421 facilitates each heating member of maintenance per the dismountable mounting means of the heating member 311, and such as needing to change only need to be by correspondence
The heating member 311 of damage replace, maintenance cost is low.Height by adjusting the fixed bracket group 314 is adjusted
The height of each heating member 311, so that each heating member 311 heats bottle embryo different parts, it is each position temperature of bottle embryo
The accurate control offer condition of degree.
312 left end of reflective box is opening, and 312 right end of reflective box is equipped with the second fan mounting holes 3121, institute
It states to be arranged side by side in reflective box 312 and has a plurality of reflecting plates 3122, heating member 311 can be dissipated by the reflecting plate 3122
The heat of hair is recycled, and then reduces energy consumption;The reflective box 312 is fixedly connected on the reflective box support frame
318;Another fan 315 is mounted in second fan mounting holes 3121, and the bottle embryo into spacing distance is blown;It is described
Heater box support frame 317, reflective box support frame 318 are respectively fixedly connected in the top surface of the pedestal 330, and the reflective box
312 opening and the opening of the heating member installs case 313 are arranged in parallel in opposite directions, and the reflective box 312 and the heating
Have a spacing distance between part installs case 313, the spacing distance is greater than the maximum gauge of bottle embryo, make it possible to accommodate bottle embryo into
Row heating, and bottle embryo is made not encounter heating member installs case 313 and reflective box 312 in lifting process;The air extractor 316
It is set up in the lower section of the reflective box 312, and the air entry of the air extractor 316 is connected to the spacing distance;Described in two
Fan 315 is communicatively coupled to the control module 400 respectively, realizes the switch and watt level for automatically controlling fan 315, side
Just air-flow is controlled, to achieve the purpose that accurately to control bottle embryo temperature.When production, the air extractor 316 opens pumping
It can be not connected to the control module 400, be kept on all pumping, worker closes again when stoppings being waited to produce, can also be by the pumping
Device of air is connected to the control module 400, is automatically controlled and is opened or closed by the control module 400.
It since heat normal condition is toward rising, and rotates embryo head 341 and is generally plastic part, be heated and be easy to accelerate always
Change, shorten the working life, therefore the fan 315 by being mounted on the heating member installs case 313 carries out suction and is vented outwards, and pacifies
Fan 315 mounted in the reflective box 312 is blown to bottle embryo, and the air extractor 316 is evacuated, to realize air-flow from adding
Heat group 319 top is downwardly into, and from reflective box 312 fan 315 enter, then from air extractor 316 and it is described plus
Fan 315 in warmware installs case 313 is discharged, and the final influence for reducing heat to rotation embryo head 341 increases rotation embryo head 341
Service life.In specific implementation, existing equipment on the market can be used in air extractor 316, and materials are convenient.
The heating group 310 further includes auxiliary support plate 319 and the first cylinder 3101;First cylinder 3101 is fixed to be connected
It is connected to the top of the reflective box 312, and the piston rod of first cylinder 3101 along left and right transversely and horizontally arrange by direction, it is described
Auxiliary support plate 319 is fixedly connected on the piston rod of first cylinder 3101;First cylinder 3101 is communicatively coupled to institute
State control module 400;The height of the auxiliary support plate 319 is lower than the height that bottle embryo after bottle embryo is clamped per the mechanical grip 3611
Degree carries out Auxiliary support by the load support plate 319, so that being easier to be inserted into bottle embryo per the rotation embryo head 341.Example
Such as, half equal curved opening slot 3191 of 341 quantity of embryo head can also be opened up and rotate in 319 left end of auxiliary support plate,
The maximum gauge of each half curved opening slot 3191 is less than the maximum gauge of bottle embryo, to pass through half curved opening slot 3191 for bottle
Embryo blocks, and carries out Auxiliary support, the clamping device 342 is facilitated to be clamped bottle embryo.Institute is controlled by the control module 400
The flexible of the first cylinder 3101 is stated, is moved to 310 top of heating group, rotation group 340 when mechanical grip 3611 clips bottle embryo
Lower section when, first cylinder 3101 stretches out, and the auxiliary support plate 319 is located at the beneath of bottle embryo, progress Auxiliary support, or
Person makes curved opening slot 3191 block bottle embryo progress Auxiliary support, is more convenient clamping device 342 and clamps bottle embryo.
The heater box support frame 317 includes two first firm bankings 3171 and two first upright sliding bars 3172;Described in two
What the first upright sliding bar 3172 one-to-one correspondence can slide up and down is connected to two first firm bankings 3171, allows to adjust
The height of heating member installs case 313, for example, heating member installs case 313 and shaping mould group 322 are contour in a specific embodiment,
Facilitate set of jaws 360 mobile, when preventing to collide, while to dock bottle embryo, position precision is higher, it is easier to control;Institute
That states that heating member installs case 313 can overturn is connected on two first upright sliding bars 3172, when heating member 311 breaks down
When, heating member installs case 313 only need to be overturn to the left, can be carried out breakdown maintenance, be facilitated operation, and two first upright sliding bars
3172 along front and back longitudinal direction horizontal linear arranged for interval;
The reflective box support frame 318 includes including two second firm bankings 3181 and two second upright sliding bars 3182;Two
What the one-to-one correspondence of the second upright sliding bar 3182 can slide up and down is connected to two second firm bankings 3181, facilitates adjusting
The height of each reflecting plate 3122 keeps itself and heating member 311 opposite;It is perpendicular that the reflective box 312 is fixedly connected on two described second
On straight slide bar 3182, and two second upright sliding bars 3182 are along front and back longitudinal direction horizontal linear arranged for interval.
The heater box support frame 317 further includes four the second bolts, 3173, four the first nuts 3174 and four thirds
Bolt 3175;Lower end per the fixed block 3133 is also provided with two first bolts hole 31332;Per first upright sliding bar
3172 upper end offers two second bolts hole 31721;It include 31711 He of the first fixed plate per first firm banking 3171
First sleeve 31712 is also provided with two third bolts hole 31713 per 31712 side of first sleeve;It is solid per described first
Fixed board 31711 is fixedly connected on the top surface of the pedestal 330;Per the first sleeve 31712, one-to-one correspondence is fixedly connected on one
The top surface of first fixed plate 31711;What two one-to-one correspondence of first upright sliding bars 3172 can slide up and down is sheathed on two
Then the first sleeve 31712 locks four third bolts hole with four one-to-one correspondence of third bolt 3175
31713 lock two first upright sliding bars 3172;Four one-to-one correspondence of the second bolt 3173 sequentially pass through four institutes
It is locked respectively with first nut 3174 after stating 31721, four first bolts hole 31332 of the second bolt hole;When need
When carrying out overturning maintenance, the second bolt 3173 described in upper and lower two groups need to only be removed wherein height it is one group equal described in second
Bolt 3173 is that rotary shaft is rotated with another group of the second bolt 3173, is convenient for changing the heating member 311, without
When rotation, the second bolt 3173 described in two groups is all locked, can prevent to overturn, also to lock simultaneously stronger.
The reflective box support frame 318 further includes four the 4th bolts 3183;It is also wrapped per second firm banking 3181
Include the second fixed plate 31811 and the second casing 31812;Side per second casing 31812 is also provided with two the 4th spiral shells
Keyhole (not shown);The top surface of the pedestal 330 is fixedly connected on per second fixed plate 31811, per second casing
31812 correspond the top surface for being fixedly connected on second fixed plate 31811;Two second upright sliding bars 3182 are one by one
Two second casings 31812 are sheathed on to what should be able to be slided up and down, are then corresponded with four the 4th bolts 3183
Two second upright sliding bars 3182 are locked after locking four the 4th bolts hole (not shown).
Storing apparatus is placed for receiving the bottle 500 blown at the rear of the molding group 320;The clamping jaw module
There are three 361, three realizations of clamping jaw module 361 are moved synchronously, the working method of three clamping jaw modules 361: described
Control module 400 controls three clamping jaw modules 361 and travels forward, clamping jaw module 361 and transfer device 200 docking of foremost,
Bottle embryo is clamped, a clamping jaw module 361 moves right repeatedly, and intermediate clamping jaw module 361 is moved in the heating group 310
Side and rotation group 340 are docked, and the bottle embryo that heating is completed are clamped, rearmost clamping jaw module 361 is moved to shaping mould group
322 tops, the bottle 500 blow is clamped, and three while clamping jaw module 361 bounce back to the left, repeatedly after a clamping jaw module 361
It moves back, the clamping jaw module 361 and heating group 310 of forefront are opposite, and intermediate clamping jaw module 361 and shaping mould group 322 are opposite, finally
The clamping jaw module 361 in face is opposite with the storing apparatus of bottle 500 is received, and a clamping jaw module 361 moves right repeatedly, foremost
Clamping jaw module 361 and rotation group 340 are docked, and bottle embryo is heated, and intermediate clamping jaw module 361 and molding group 320 are docked, into
Row blows bottle, and the bottle 500 blown is unclamped, fallen into storing apparatus by rearmost clamping jaw module 361, last three clamping jaw moulds
Block 361 bounce back, and so on reciprocation cycle processed, carry out circulation rotation by three clamping jaw modules 361, further mention
High efficiency;The quantity of the rotation embryo head 341 is two;It include two mechanical grips 3611 per the clamping jaw module 361,
So that can once carry out the blowing of two bottle embryos, in other embodiments, there can also be other quantity, to improve production
Efficiency;And two the mechanical grip 3611 along front and back longitudinal direction in a straight line it is horizontally disposed;The quantity of the type chamber 3221 is
Two;The center of the two type chambers 3221 is away from two mechanical grips being equal on the same clamping jaw module 361
3611 center away from;The longitudinal centre line of the type chamber 3221 and the center line of the spacing distance are located along the same line, and protect
Demonstrate,prove the accuracy of movement position.
The die holder 321 include constitute the bottom plate 3211 of rectangular frame structure, left support plate 3212, right support plate 3213 with
And top plate 3214;
The set of jaws 360 further includes 362, three the second cylinders 363 of the first driving motor, a synchronous belt 364, first band
Take turns the 365, second belt wheel 366, clamping jaw fixing seat 367, air cylinder fixed plate 368 and connection fixture 369;In specific implementation,
The quantity of the connection fixture 369 can be one, be also possible to two, can also there is other quantity.
The clamping jaw fixing seat 367 is sheathed on the top plate 3214;The 368 energy front and back longitudinal sliding motion of air cylinder fixed plate
It is connected to the bottom of the clamping jaw fixing seat 367;Three second cylinders 363 are fixedly connected on the air cylinder fixed plate 368
Bottom, and in being longitudinally arranged before and after a straight line, and the center of two neighboring second cylinder 363 is away from being equal to the heating group
310 and shaping mould group 322 center away from, while per second cylinder 363 piston rod along left and right transversely and horizontally arrange;Every institute
It states clamping jaw module 361 and corresponds the piston rod for being fixedly connected on second cylinder 363;The top of the shaping mould group 322
End and the top of the heating group 310 are located at sustained height;Three clamping jaw modules 361 are located at sustained height, and are higher than institute
State the top of shaping mould group 322;Three second cylinders 363 are also communicatively coupled to the control module 400 respectively, pass through institute
It states three second cylinders 363 of control of control module 400 and synchronizes left and right stretching motion, realize and automatically control;
First driving motor 362 is fixedly connected on the top plate 3214, and the output of first driving motor 362
Axis horizontal cross arrangement;The first pulley 365 is fixedly connected on the output shaft of first driving motor 362;Described second
What belt wheel 366 was able to rotate is connected to the top plate 3214;The synchronous belt 364 is sheathed on the first pulley 365 and the second band
Wheel 366, and the top plate 3214 passes through the inner cavity of the synchronous belt 364;The connection fixture 369 is fixedly connected on described same
Walk band 364;The connection fixture 369 is also respectively fixedly connected in the air cylinder fixed plate 368, to realize three described the
Two synchronizing for cylinder 363 move forward and backward;First driving motor 362 is also communicatively coupled to the control module 400, passes through institute
It states before and after control module 400 controls the realization of driving motor 362 three second cylinders 363 of automatic control and moves synchronously.
The rotation group 340 further includes a driving motor module 343, a third cylinder 344, the first supporting element 345, second
Supporting element 346 and the connecting rod 347 equal with rotation 341 quantity of embryo head;
The second driving motor module 343 includes the second driving motor 3431, chain (not shown), the first driving gear
3432 and with equal the first driven gear 3433 of rotation 341 quantity of embryo head;Second driving motor 3431 is fixed
It is connected to second supporting element 346, and the output shaft state in a vertical shape of second driving motor 3431;Described first actively
Gear 3432 is fixedly connected on the output shaft of second driving motor 3431;
Second supporting element 346, and all connecting rods 347 are connected to per the connecting rod 347 is revolvable
In front and back, longitudinal direction is linearly arranged, while per the connecting rod 347 state in a vertical shape;Bottom end per the connecting rod 347
The top for being fixedly connected on a rotation embryo head 341 is corresponded, corresponds and fixes per first driven gear 3433
It is connected in a connecting rod 347;In a particular embodiment, it can also increase by a guide sleeve 348, guide sleeve 348 is fixed to be connected
Guide sleeve 348 will be passed through per the connecting rod by being connected to first supporting element 345, be oriented to.
The chain (not shown) is sheathed on first driving gear 3432 and all first driven gears
3433, to realize the synchronous rotary movement of each rotation embryo head 341;It, can also be on the outside of chain in a specific embodiment
Increase contact roller 349, to adjust the elasticity of chain, prevents phenomena such as jumping tooth.
The third cylinder 344 is fixedly connected on first supporting element 345, and the piston rod of the third cylinder 344
State in a vertical shape;The piston rod of the third cylinder 344 is fixedly connected on second supporting element 346, first supporting element
345 are fixedly connected on the top plate 3214;Second driving motor 3431 is communicatively coupled to the control module 400, passes through
The control module 400 controls second driving motor 3431 and rotates, and then each rotation embryo head 341 is driven to carry out together
Step rotation.
It further include heating lamp tube controller (not shown), the heating member 311 is heating fluorescent tube 311, in specific implementation
Heating lamp tube controller (not shown) and heating fluorescent tube 311 can directly buy set of product in the market and directly use, often
The heating member 311 is communicatively coupled to the heating lamp tube controller (not shown), the heating lamp tube controller (not shown)
It is communicatively coupled to the control module 400, the control module 400 controls the heating lamp tube controller (not shown) and then adjusts
Heating power and the heating time of each heating member 311 are saved, automatic, accurate control is realized, guarantees each spot temperature of bottle embryo
Accuracy blows a bottle quality to improve.In specific implementation, for example, it is described heating lamp tube controller (not shown) model
SCR-Jk3PS-48060。
The bottle blowing machine 300 further includes at least one storage cylinder 370;Per the storage cylinder 370 and the inlet channel
The connection of 3511 air-tightness, a gas source is connected to per the storage cylinder 370, stores compressed gas by the storage cylinder 370,
Guarantee has enough gas when blowing bottle.
It is O-ring seal 342 per the clamping device 342, per the clamping device 342, one-to-one correspondence is sheathed on described in one
Embryo head 341 is rotated, and is less than the internal diameter of bottle preform mouth per the maximum outside diameter of the rotation embryo head 341, so that rotation embryo head 341 can be with
It protrudes into bottle embryo, the outer diameter per the clamping device 342 is greater than the internal diameter of bottle preform mouth, due to using O-ring seal 342, tool
Flexible, when so that rotation embryo head 341 being extended downwardly into bottle embryo, the O-ring seal 342 can also be squeezed by pressure influence
It inside bottle embryo, and is opened in the raw in bottle embryo from new, at this time since the diameter of the O-ring seal 342 is greater than bottle
The internal diameter of embryo mouth is blocked bottle embryo by the O-ring seal 342, so that bottle embryo will not fall off from the rotation embryo head 341,
Similarly, rotation embryo head 341 rises after the completion of heating, is influenced to rotate embryo head 341 and the O-ring seal 342 from bottle embryo by pulling force
Interior pull-out, and then separated with bottle embryo;For example, the part that the telescopic rod 351 is inserted into bottle embryo can also use O-ring seal conduct
Clamping device.In specific implementation, in another example, the control module 400 is PLC controller 400, and PLC controller 400 is general
Technology can directly be bought on the market, and materials are convenient, and the transfer device 200 is manipulator 200, and manipulator 200 can also be adopted
With existing manipulator 200 on the market, draw materials and easy to use;Second mechanical grip 201 is installed on the manipulator 200,
And the quantity and position of the quantity of second mechanical grip 201 and the mechanical grip 3611 on every clamping jaw module 361
It is identical to set relationship;The control module 400 is communicatively coupled to per second mechanical grip 201.
In specific implementation, the mechanical grip 361 and the second mechanical grip 201 are using pneumatic machinery folder on the market
Pneumatic machinery clamping jaw is connected gas source when use, is then controlled by the control module 400 by pawl.
Protective plate 380 can also be arranged in the top surface surrounding of the pedestal 330.
Injection molding machine 100 is using existing injection molding machine on the market, and transfer device 200 is using existing manipulator on the market, example
For example six axis robot, by PLC controller that the included control system of connection bottle blowing machine and injection molding machine, transfer device is included
Control system connects, and realizes that three communicates with each other, is uniformly controlled.
Although specific embodiments of the present invention have been described above, those familiar with the art should be managed
Solution, we are merely exemplary described specific embodiment, rather than for the restriction to the scope of the present invention, it is familiar with this
The technical staff in field should be covered of the invention according to modification and variation equivalent made by spirit of the invention
In scope of the claimed protection.
Claims (10)
1. a kind of bottle blowing machine, including control module, heating group, stretching group, molding group and pedestal;The molding group includes die holder
With shaping mould group;The shaping mould group is erected in the die holder, and the die holder is fixedly connected on the top surface of the pedestal;It is described
Stretching group includes telescopic rod, and inlet channel is provided in the telescopic rod, and the heating group and moulding composition are not erected at described
On pedestal, the stretching group is erected at the surface of the molding group, the insertion that the telescopic rod can the be gone up and down shaping mould group
Type it is intracavitary;The stretching group and moulding composition are not communicatively coupled to the control module;
It is characterized by: the bottle blowing machine further includes set of jaws and rotation group;
The heating group includes a plurality of heating members that can slide up and down;The control mould is communicatively coupled to per the heating member
Block;The heating group is erected on the pedestal;And the heating group is located at the front of the molding group;
The rotation group includes several rotation embryo heads and the clamping device equal with the rotation embryo head quantity, the rotation
The quantity of embryo head and the quantity of the type chamber correspond;Per the rotation embryo head, one-to-one correspondence is connected to a clamping dress
It sets, per the top for being set up in the heating group that the rotation embryo head can be gone up and down, and all rotation embryo heads are realized and synchronized
Rotary motion, while per the rotation embryo head after decline and the heating member is opposite and have a spacing, the spacing is greater than bottle
The maximum radius of embryo;
The set of jaws includes an at least clamping jaw module, is provided with per the clamping jaw module with the quantity of the rotation embryo head one by one
Corresponding mechanical grip, and all mechanical grips are communicatively coupled to the control module;Water is realized per the clamping jaw module
Flat front and back longitudinal movement and horizontal left and right transverse shifting;The set of jaws be erected at the same side of the molding group and heating group and
The respectively higher than described heating group and molding group.
2. a kind of bottle blowing machine as described in claim 1, it is characterised in that: the heating group further includes reflective box, heating member peace
Vanning fixation bracket group, two fans, air extractor, heater box support frame and the reflective box equal with the heating member quantity
Support frame;
The right end of the heating member installs case is opening, and the left end of the heating member installs case is equipped with the first fan mounting holes,
The left end of the heating member installs case also symmetrically offers two first vertical chutes, and per first vertical chute through described
The left end of heating member installs case, the left end of the heating member installs case are also convexly equipped with two fixed blocks, the two fixed block height phases
Deng and be located at the front and back longitudinal direction two sides of first fan mounting holes;It is vertical sliding that one second is offered on per the fixed block
Slot, second vertical chute run through the front and back longitudinal direction both ends per the fixed block;One fan is mounted on first wind
It fans in mounting hole;The heating member installs case is mounted on the heater box support frame;
It include two sliding blocks, two levels and contour fixed link and two first bolts per the fixed bracket group;Per the cunning
Block offers a screw hole, and one end per the fixed link is convexly equipped with buckle, every two level and the contour fixed link it is another
One end, which is corresponded, passes perpendicularly through two first vertical chutes outward inside the heating member installs case, rear to correspond admittedly
Surely two sliding blocks are connected to;The two first bolt one-to-one correspondence correspond after two second vertical chutes to be locked
Two screw holes;
Two buckles positioned at sustained height are removably horizontally caught in along front and back longitudinal direction per the heating member;
The reflective box left end is opening, and the reflective box right end is equipped with the second fan mounting holes, in the reflective box side by side
It is provided with a plurality of reflecting plates, the reflective box is fixedly connected on the reflective box support frame;Another fan is mounted on
In second fan mounting holes;The heater box support frame, reflective box support frame are respectively fixedly connected in the top of the pedestal
Face, and the opening of the reflective box and the opening of the heating member installs case are arranged in parallel in opposite directions, and the reflective box and institute
Stating has a spacing distance between heating member installs case, the spacing distance is greater than the maximum gauge of bottle embryo;The air extractor frame
Set on the lower section of the reflective box, and the air entry of the air extractor is connected to the spacing distance;The two fan difference
It is communicatively coupled to the control module.
3. a kind of bottle blowing machine as claimed in claim 2, it is characterised in that: the heating group further includes auxiliary support plate and first
Cylinder;First cylinder is fixedly connected on the top of the reflective box, and the piston rod of first cylinder is lateral along left and right
Horizontal direction arrangement, the auxiliary support plate are fixedly connected on the piston rod of first cylinder;The first cylinder communication link
It is connected to the control module;The height of the auxiliary support plate is lower than the height that bottle embryo after bottle embryo is clamped per the mechanical grip.
4. a kind of bottle blowing machine as claimed in claim 2, it is characterised in that: the heater box support frame includes two first fixed bottoms
Seat and two first upright sliding bars;It is fixed that the two first upright sliding bars one-to-one correspondence can slide up and down is connected to two described first
Pedestal;What the heating member installs case can be overturn is connected on two first upright sliding bars, and two first upright sliding bars
Along front and back longitudinal direction horizontal linear arranged for interval;
The reflective box support frame includes including two second firm bankings and two second upright sliding bars;Two second upright sliding bars
What one-to-one correspondence can slide up and down is connected to two second firm bankings;It is perpendicular that the reflective box is fixedly connected on two described second
On straight slide bar, and two second upright sliding bars are along front and back longitudinal direction horizontal linear arranged for interval.
5. a kind of bottle blowing machine as claimed in claim 4, it is characterised in that: the heater box support frame further includes four the second spiral shells
Bolt, four the first nuts and four third bolts;Lower end per the fixed block is also provided with two first bolts hole;Per described the
The upper end of one upright sliding bar offers two second bolts hole;It include the first fixed plate and first set per first firm banking
Pipe is also provided with two third bolts hole per the first sleeve side;The base is fixedly connected on per first fixed plate
The top surface of seat;The top surface for being fixedly connected on first fixed plate is corresponded per the first sleeve;Two described first is perpendicular
What straight slide bar one-to-one correspondence can slide up and down is sheathed on two first sleeves, is then corresponded with four third bolts
Four third bolts hole are locked to lock two first upright sliding bars;Four the second bolt one-to-one correspondence are successively worn
It crosses after four second bolts hole, four first bolts hole respectively with first nut check;
The reflective box support frame further includes four the 4th bolts;It further include the second fixed plate and the per second firm banking
Two casings;Side per second casing is also provided with two the 4th bolts hole;It is fixedly connected on per second fixed plate
The top surface of the pedestal corresponds the top surface for being fixedly connected on second fixed plate per second casing;Described in two
What the second upright sliding bar one-to-one correspondence can slide up and down is sheathed on two second casings, then with four the 4th bolts one
One correspondence locks two second upright sliding bars after locking four the 4th bolts hole.
6. a kind of bottle blowing machine as claimed in claim 3, it is characterised in that: there are three the clamping jaw modules;The rotation embryo head
Quantity be two;It include two mechanical grips per the clamping jaw module, and two mechanical grips are in along front and back longitudinal direction
One straight line is horizontally disposed;The quantity of the type chamber is two;The center of the two type chambers is away from equal to positioned at the same clamping jaw mould
The center of two mechanical grips on block away from;
The die holder includes bottom plate, left and right support plate and the top plate for constituting rectangular frame structure;
The set of jaws further includes the first driving motor, three the second cylinders, a synchronous belt, first pulley, the second belt wheels, clamping jaw
Fixing seat, air cylinder fixed plate and connection fixture;
The clamping jaw fixed seating is set to the top plate;The air cylinder fixed plate energy front and back longitudinal sliding motion is connected to the clamping jaw
The bottom of fixing seat;Three second cylinders are fixedly connected on the bottom of the air cylinder fixed plate, and in vertical before and after a straight line
To arrangement, and the center of two neighboring second cylinder is away from being equal to the center of the heating group and shaping mould group away from while every institute
The piston rod for stating the second cylinder is transversely and horizontally arranged along left and right;Per the clamping jaw module, one-to-one correspondence is fixedly connected on one described the
The piston rod of two cylinders;The top of the shaping mould group and the top of the heating group are located at sustained height;Three clamping jaws
Module is located at sustained height, and is higher than the top of the shaping mould group;Three second cylinders are also communicatively coupled to institute respectively
State control module;
First driving motor is fixedly connected on the top plate, and the output shaft horizontal cross cloth of first driving motor
It sets;The first pulley is fixedly connected on the output shaft of first driving motor;What second belt wheel was able to rotate is connected to
The top plate;The synchronous belt is sheathed on the first pulley and the second belt wheel, and the top plate passes through the interior of the synchronous belt
Chamber;The connection fixture is fixedly connected on the synchronous belt;The connection fixture is also respectively fixedly connected in the cylinder
Fixed plate;First driving motor is also communicatively coupled to the control module.
7. a kind of bottle blowing machine as claimed in claim 6, it is characterised in that: the rotation group further include a driving motor module,
One third cylinder, the first supporting element, the second supporting element and the connecting rod equal with the rotation embryo head quantity;
The second driving motor module includes the second driving motor, chain, the first driving gear and and the rotation embryo head
The first equal driven gear of quantity;Second driving motor is fixedly connected on second supporting element, and described second drives
The output shaft state in a vertical shape of dynamic motor;First driving gear is fixedly connected on the output shaft of second driving motor;
It is connected to second supporting element per the connecting rod is revolvable, and all connecting rods are in front and back longitudinal direction
Linearly arrangement, while per connecting rod state in a vertical shape;Bottom end per the connecting rod, which corresponds, is fixedly connected on one
The top of the rotation embryo head, per first driven gear, one-to-one correspondence is fixedly connected in a connecting rod;
The chain is sheathed on first driving gear and all first driven gears;
The third cylinder is fixedly connected on first supporting element, and the piston rod state in a vertical shape of the third cylinder;Institute
The piston rod for stating third cylinder is fixedly connected on second supporting element, and first supporting element is fixedly connected on the top plate;
Second driving motor is communicatively coupled to the control module.
8. a kind of bottle blowing machine as described in claim 1, it is characterised in that: further include heating lamp tube controller, the heating member
To heat fluorescent tube, the heating lamp tube controller, the heating lamp tube controller communication link are communicatively coupled to per the heating member
It is connected to the control module.
9. a kind of bottle blowing machine as described in claim 1, it is characterised in that: the bottle blowing machine further includes at least one storage cylinder;
Every storage cylinder is connected to the inlet channel air-tightness.
10. a kind of bottle blowing machine as described in claim 1, it is characterised in that: be O-ring seal, every institute per the clamping device
It states clamping device one-to-one correspondence and is sheathed on a rotation embryo head, and be less than bottle preform mouth per the maximum outside diameter of the rotation embryo head
Internal diameter, the outer diameter per the clamping device are greater than the internal diameter of bottle preform mouth;The control module is PLC controller.
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CN201811128829.4A CN109159409B (en) | 2018-09-27 | 2018-09-27 | Bottle blowing machine |
Applications Claiming Priority (1)
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CN201811128829.4A CN109159409B (en) | 2018-09-27 | 2018-09-27 | Bottle blowing machine |
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CN109159409A true CN109159409A (en) | 2019-01-08 |
CN109159409B CN109159409B (en) | 2024-07-26 |
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CN201811128829.4A Active CN109159409B (en) | 2018-09-27 | 2018-09-27 | Bottle blowing machine |
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Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TW473426B (en) * | 2000-11-30 | 2002-01-21 | Yuan-Chi Jang | Blowing molding machine with secondary heating stretch |
WO2004007173A1 (en) * | 2002-07-12 | 2004-01-22 | Dong Guan Founder Machinery Co., Ltd. | The supply-parison device of blowing-bottle machine |
CN101850605A (en) * | 2010-05-26 | 2010-10-06 | 广州晶品包装机械有限公司 | Energy-saving linear bottle blowing machine |
CN208978247U (en) * | 2018-09-27 | 2019-06-14 | 全冠(福建)机械工业有限公司 | A kind of bottle blowing machine |
-
2018
- 2018-09-27 CN CN201811128829.4A patent/CN109159409B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TW473426B (en) * | 2000-11-30 | 2002-01-21 | Yuan-Chi Jang | Blowing molding machine with secondary heating stretch |
WO2004007173A1 (en) * | 2002-07-12 | 2004-01-22 | Dong Guan Founder Machinery Co., Ltd. | The supply-parison device of blowing-bottle machine |
CN101850605A (en) * | 2010-05-26 | 2010-10-06 | 广州晶品包装机械有限公司 | Energy-saving linear bottle blowing machine |
CN208978247U (en) * | 2018-09-27 | 2019-06-14 | 全冠(福建)机械工业有限公司 | A kind of bottle blowing machine |
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