CN102873874A - Automation system of ball centre molding and method thereof - Google Patents
Automation system of ball centre molding and method thereof Download PDFInfo
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- CN102873874A CN102873874A CN2011101973404A CN201110197340A CN102873874A CN 102873874 A CN102873874 A CN 102873874A CN 2011101973404 A CN2011101973404 A CN 2011101973404A CN 201110197340 A CN201110197340 A CN 201110197340A CN 102873874 A CN102873874 A CN 102873874A
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Abstract
The invention provides an automation system of ball centre molding and a method thereof. The automation system mainly comprises a green body module, a molding module and an automated conveying module. Specifically, the automated conveying module is movably arranged between the green body module and the molding module, and is provided with a conveying body, a plurality of channels passing through the conveying body and an ejection structure. The inner diameters of the channels are greater than the diameters of green body ball centers. Thereby, the ejection structure of the automated conveying module can make the green body ball centers broken away from the green body module and convey the green body ball centers into the molding module so as to press them into a plurality of spherical ball centers.
Description
Technical field
The present invention relates to a kind of automated system and method thereof, especially refer to a kind of automated system and method thereof of centre of sphere moulding.
Background technology
The centre of sphere manufacture of general golf, that rubber/plastic raw materials with high unit price utilizes one group of germule moulding pressing to inject in the mould, to obtain required weight and size, this is ball material germule, its shape is not ball-shaped, again a plurality of ball material germules are positioned among one group of ball embryo forming mould with manual type afterwards, this ball embryo forming mould generally is to be installed in the rubber and plastic heat pressing forming machines, utilize this board to give hot briquetting, make germule be for conversion into one and possess predetermined elasticity, the ball-shaped centre of sphere of intensity, carry out follow-up processing according to the requirement of different size more afterwards, to make a golf.Yet, leading portion is produced in the processing procedure of ball material germule, to send into the ball material germule that the germule shaping mould forms with artificial feeding, because the germule centre of sphere of a part can attach to the semi-spherical grooves place of patrix bottom surface or in the semi-spherical grooves place of counterdie end face during die sinking, and be not easy to separate, after this moment, the operator must utilize instrument that more than germule centre ofs sphere are pushed away each semi-spherical grooves place and collection, by artificial follow-up these germule centre ofs sphere are arranged in the shaping mould again, the effort that said process is suitable, and it is also quite time-consuming that each pushes away these germule centre ofs sphere, each board production every day thousands of even up to ten thousand the rubber centre ofs sphere, operating process repeatedly, cause operator's upper white elephant of working, waste time and energy, increase operator's burden and personnel's turnover rate.For this reason, the present invention proposes a kind of reasonable in design and effectively improve automated system and the method thereof of the centre of sphere moulding of defects.
Summary of the invention
Main purpose of the present invention is to provide a kind of and can effectively saves the processing procedure time, reduces the automated system of the centre of sphere moulding of human cost and the centre of sphere that can in a large number production spherical shape.
In order to reach above-mentioned purpose, the invention provides a kind of automated system and method thereof of centre of sphere moulding, the automated system of this centre of sphere moulding comprises: a germule module, a molding piece and an automation conveyor module; The germule module has a plurality of the first depressions and a plurality of the second depression corresponding to these the first depressions, and the germule module is in order to a plurality of germule centre ofs sphere of moulding; Forming module has a plurality of upper die cavitys and a plurality of lower die cavity corresponding to die cavity on these, and forming module is in order to be shaped to these germule centre ofs sphere in the centre of sphere of a plurality of spherical shape; The automation conveyor module is arranged between germule module and the forming module movably, the automation conveyor module has one and carries body, a plurality of passage and ejecting structure that is arranged in this conveying body, and the internal diameter of these passages is greater than the diameter of these germule centre ofs sphere; By this, the ejecting structure of automation conveyor module can break away from these germule centre ofs sphere in the germule module, and carries these germule centre ofs sphere to suppress a plurality of ball-shaped centre ofs sphere of formation to forming module.
The automatic mode of this centre of sphere moulding may further comprise the steps: one prepares step, germule centre of sphere formation step and a supplying step; Preparation process provides a germule module, a molding piece and is arranged at the automation conveyor module between this germule module and this forming module movably, this germule module has a plurality of the first depressions and a plurality of second depression of relatively folding, and this forming module has a plurality of upper die cavity and a plurality of lower die cavity of relatively folding; It is that a raw material is delivered between these first depressions and these the second depressions to produce a plurality of germule centre ofs sphere that the germule centre of sphere forms step; Supplying step is to make one to have a conveying body, a plurality of passage of this conveying body and close these germule centre ofs sphere of automation conveyor module of an ejecting structure of being arranged in, and each germule centre of sphere is entered in the passage corresponding with it, and utilize this ejecting structure that these germule centre ofs sphere are broken away from this germule module, and carry these germule centre ofs sphere to this forming module, the internal diameter of above-mentioned these passages is greater than the diameter of these germule centre ofs sphere; It then is the centre of sphere that these germule centre ofs sphere is shaped to a plurality of spherical shape in forming module that the centre of sphere forms step.
The present invention has following useful effect:
Utilize an automation conveyor module that a plurality of germule centre ofs sphere are transported to the centre of sphere that forming module is shaped to a plurality of spherical shape from the germule module, ease of use promotes, shorten man-hour, reduce the advantages such as human cost and increase production efficiency therefore have.
Because the automation conveyor module has a plurality of passage and ejecting structures that correspond respectively to the germule centre of sphere, enter these passages and utilize this ejecting structure to support these germule centre ofs sphere by these germule centre ofs sphere, guarantee that these germule centre ofs sphere firmly are transported to forming module from the germule module.
In order further to understand feature of the present invention and technology contents, see also following about detailed description of the present invention and accompanying drawing, yet accompanying drawing only provide with reference to and the explanation usefulness, the present invention is limited.
Description of drawings
Fig. 1 is the schematic perspective view of the automated system of centre of sphere moulding of the present invention;
Fig. 2 A is the schematic diagram of the first embodiment of automation conveyor module of the present invention;
Fig. 2 B is the cutaway view of the first embodiment of automation conveyor module of the present invention;
Fig. 3 A is the action schematic diagram () of the automated system of centre of sphere moulding of the present invention;
Fig. 3 B is the action schematic diagram (two) of the automated system of centre of sphere moulding of the present invention;
Fig. 3 C is the action schematic diagram (three) of the automated system of centre of sphere moulding of the present invention;
Fig. 3 D is the action schematic diagram (four) of the automated system of centre of sphere moulding of the present invention;
Fig. 3 E is the action schematic diagram (five) of the automated system of centre of sphere moulding of the present invention;
Fig. 3 F is the action schematic diagram (six) of the automated system of centre of sphere moulding of the present invention;
Fig. 3 G is the action schematic diagram (seven) of the automated system of centre of sphere moulding of the present invention;
Fig. 4 A is the schematic diagram of the second embodiment of automation conveyor module of the present invention;
Fig. 4 B is the cutaway view of the second embodiment of automation conveyor module of the present invention;
Fig. 5 A is the schematic diagram of the 3rd embodiment of automation conveyor module of the present invention; And
Fig. 5 B is the cutaway view of the 3rd embodiment of automation conveyor module of the present invention.
Wherein, description of reference numerals is as follows:
The automated system of 100 centre of sphere moulding
1 germule module
11 first flexible moulds
12 second flexible moulds
12a the first depression
The 12b raw material tank
13 fixed moulds
13a the second depression
2 forming modules
21 molds
The upper die cavity of 21a
22 bed dies
Die cavity under the 22a
23 heaters
3 automation conveyor modules
31 carry body
32 passages
33 ejecting structures
331 drawplate type ejecting structures
The 331a supporting member
332 vapour-pressure type ejecting structures
The 332a pneumatic cylinder
The 332b piston rod
333 linkage type ejecting structures
333a the first holder
333b the second holder
The M raw material
The SB germule centre of sphere
The internal diameter of L1 passage
The diameter of the L2 germule centre of sphere
The E1 electrodeposited coating
The specific embodiment
The automated system of centre of sphere moulding provided by the present invention and method thereof can be widely used in all kinds of centre ofs sphere and make moulding, are not limited to hereinafter described centre of sphere style.
See also Fig. 1, the invention provides a kind of automated system 100 and method thereof of centre of sphere moulding; As shown in Figure 1, automated system 100 includes a germule module 1, a molding piece 2 and is arranged at the automation conveyor module 3 between germule module 1 and the forming module 2 movably.Germule module 1 has a plurality of the first depression 12a and a plurality of the second depression 13a corresponding to these first depressions 12a, germule module 1 is separated or is made up by these first depressions 12a and these second depressions 13a's, and the raw material M that will pour in these the first depression 12a and the formed accommodation space of these second depressions 13a (not label) is shaped to a plurality of germule centre of sphere SB; Automation conveyor module 3 has one and carries body 31, a plurality of passage 32 and ejecting structure 33 of carrying body 31 that be arranged in, and the internal diameter of these passages 32 is greater than the diameter of these germule centre ofs sphere SB, therefore, automation conveyor module 3 can break away from these germule centre ofs sphere SB and be delivered to a plurality of ball-shaped centre of sphere (not shown) of further compacting formation in the forming module 2 in germule module 1 by the action of its ejecting structure 33.
Because automated system 100 of the present invention can utilize an automation conveyor module 3 that a plurality of germule centre of sphere SB are transported to the centre of sphere that is shaped to a plurality of spherical shape in the forming module 2 from germule module 1, ease of use promotes, shorten man-hour, reduce the advantages such as human cost and increase production efficiency therefore have; In addition, automation conveyor module 3 can be resisted against germule centre of sphere SB by its ejecting structure 33, firmly is transported to forming module 2 from germule module 1 therefore can guarantee germule centre of sphere SB.
The first specific embodiment of the present invention below will be described in detail in detail, see also Fig. 1, Fig. 2 A and Fig. 2 B, Fig. 1 is the schematic perspective view of the automated system of centre of sphere moulding of the present invention, Fig. 2 A is the schematic diagram of the first embodiment of automation conveyor module of the present invention, and Fig. 2 B then is the cutaway view of the first embodiment of automation conveyor module of the present invention; As shown in Figure 1, suitable adjustment can be done with actual state in germule module 1 in the automated system 100 of the present invention and the number of molds of forming module 2 and position, in this specific embodiment, germule module 1 from top to bottom sequentially can include one first flexible mould 11, one second flexible mould 12 and a fixed mould 13, and forming module 2 then from top to bottom sequentially can include a mold 21 and a bed die 22.Because the second flexible mould 12 is provided with a plurality of the first depression 12a, and fixed mould 13 is provided with a plurality of the second depression 13a, therefore can be by driving the relative displacement of the first flexible mould 11 and the second flexible mould 12, raw material M is entered by in these the first depression 12a and the formed accommodation space of these second depressions 13a, and form a plurality of germule centre of sphere SB.It is worth mentioning that, germule module 1 also includes a plurality of electrodeposited coating E1, and these electrodeposited coatings E1 can take shape in respectively in these first depressions 12a or in these second depressions 13a, make these germule centre ofs sphere SB that produces selectively stay in these the first depression 12a or these second depressions 13a.
Please arrange in pairs or groups and consult Fig. 1, Fig. 2 A and Fig. 2 B, automation conveyor module 3 is in order to take off a plurality of germule centre of sphere SB and be delivered in the forming module 2 in germule module 1.Automation conveyor module 3 can have one and carry body 31, a plurality of passage 32 and ejecting structure 33 of carrying body 31 that be arranged in, in this specific embodiment, shown in Fig. 2 A and Fig. 2 B, the ejecting structure 33 of automation conveyor module 3 can be one and is arranged at the drawplate type ejecting structure 331 of carrying in the body 31.Drawplate type ejecting structure 331, can include a plurality of supporting member 331a that correspond respectively to these passages 32, can be by drawplate type ejecting structure 331 and the relative displacement of carrying body 31, make these supporting members 331a against or break away from these germule centre ofs sphere (such as Fig. 1), and then clamping and discharge these germule centre ofs sphere.In this specific embodiment, drawplate type ejecting structure 331 is equipped with a plurality of ducts corresponding to these passages 32 (not label), and these supporting members 331a is the ring-side wall in these ducts, and the internal diameter L3 in these ducts is slightly larger than the internal diameter L1 of these passages 32.Therefore, when drawplate type ejecting structure 331 moved a predeterminable range with respect to conveying body 31, the ring-side wall in these ducts can be resisted against these germule centre ofs sphere, and these germule centre ofs sphere are broken away from germule module 1.
Please again consult Fig. 1, the mold 21 of forming module 2 is provided with a plurality of upper die cavity 21a, and bed die 22 is provided with a plurality of lower die cavity 22a; Wherein, mold 21 and bed die 22 corresponding settings, and mold 21 also can be connected with respectively a heater 23 with bed die 22, therefore when these germule centre ofs sphere SB carries by automation conveyor module 3 and is released into the bed die 22 of forming module 2, can be by driving the relative displacement of mold 21 and bed die 22, being heated these germule centre ofs sphere SB also compressing is a plurality of ball-shaped centre of sphere (not shown).
It should be noted that, the specification of the germule module 1 in the automated system 100 of the present invention, forming module 2 and automation conveyor module 3 is consistent, more specifically, the specification of the passage 32 of automation conveyor module 3 and quantity corresponds to these first depressions 12a, these second depressions 13a, specification and the quantity of die cavity 21a and these lower die cavity 22a on these, therefore these germule centre ofs sphere SB is carried between germule module 1 and forming module 2 by automation conveyor module 3.
In addition, automated system 100 of the present invention also includes one can control germule module 1, the power unit (not shown) of forming module 2 and 3 actions of automation conveyor module, therefore this power unit not only can drive germule module 1 these first depressions 12a and the second depression 13a are bonded to each other or separate, this power unit also can drive automation conveyor module 3 and travel to and fro between between germule module 1 and the forming module 2, and the ejecting structure 33 of auto-control conveyor module 3 optionally against or break away from the germule centre of sphere SB (such as Fig. 1) corresponding with it, this power unit also can drive forming module 2 and die cavity 21a and these times die cavity 22a are bonded to each other or separate.
Moreover, automation conveyor module 3 can be automatically positioned in germule module 1 between these the first depression 12a and these the second depressions 13a, as utilize a detecting unit (not shown) to detect the relative position of automation conveyor module 3 and germule module 1, these passages 32 of automation conveyor module 3 can accurately be located with these the first depression 12a and these second depressions 13a; For instance, this detecting unit can be image capture unit and catches image or visual sense automatic contraposition device, but not subject to the limits, similarly, above-mentioned detecting unit also can be used on automation conveyor module 3 is automatically positioned on these between die cavity 21a and these the lower die cavity 22a.
The automatic mode of centre of sphere moulding of the present invention below will be described, it may further comprise the steps, and sees also the continuous action schematic diagram shown in Fig. 1 and Fig. 3 A to Fig. 3 G; As shown in Figure 1, at first step 1 is one to prepare step, and it mainly provides a germule module 1, a molding piece 2 and to be arranged at movably automation conveyor module 3 between germule module 1 and the forming module 2; Germule module 1 has a plurality of the first depression 12a and a plurality of second depression 13a of relatively folding, and forming module 2 then has a plurality of upper die cavity 21a and a plurality of lower die cavity 22a of relatively folding; Wherein, the detailed structure of germule module 1, forming module 2 and automation conveyor module 3 can be described with reference to preamble.
Step 2 is that a germule centre of sphere forms step, and shown in Fig. 3 A to 3B, this germule centre of sphere forms step one raw material M is delivered between these the first depression 12a and these the second depressions 13a, to produce a plurality of germule centre of sphere SB.In this specific embodiment, raw material M is placed in first a raw material tank 12b who is communicated in these second depressions 13a, because the first flexible mould 11 is corresponding to raw material tank 12b, therefore can be by driving the relative displacement of the first flexible mould 11 and the second flexible mould 12, raw material M is entered in these the second depression 13a and the formed accommodation space of these first depressions 12a (not label) and form a plurality of germule centre of sphere SB; It should be noted that in this specific embodiment, shown in Fig. 3 B, owing to a plurality of electrodeposited coating E1 take shape in these second depressions 13a, therefore when the second flexible mould 12 separated with fixed mould 13, these germule centre ofs sphere SB stayed in these first depressions 12a.
Shown in Fig. 3 F and 3G, when automation conveyor module 3 carries these germule centre ofs sphere SB to forming module 2, and when being automatically positioned on these between die cavity 21a and these the lower die cavity 22a, each passage 32 of the conveying body 31 of automation conveyor module 3 can be corresponding to each lower die cavity 22a, then, ejecting structure 33 breaks away from these germule centre ofs sphere SB, these germule centre ofs sphere SB is discharged among these these lower die cavity 22a corresponding with it prepare moulding.At this moment, automation conveyor module 3 can move in the germule module 1 again, to carry out the supplying step of next circulation.
Step 4 is that a centre of sphere forms step, forming module 2 is by driving the relative displacement of mold 21 and bed die 22, a plurality of germule centre of sphere SB in these lower die cavity 22a heats also compressing, these germule centre ofs sphere SB is transformed into possess predetermined elasticity, the ball-shaped centre of sphere (not shown) of intensity.
In sum, because automation conveyor module 3 is constantly travelled to and fro between between germule module 1 and the forming module 2, fast and efficiently a large amount of germule centre of sphere SB constantly is delivered in the forming module 2 from germule module 1, therefore can significantly promote the output of the spherical shape centre of sphere, carry out follow-up processing according to the requirement of different size more afterwards, to make golf.In addition, automation conveyor module 3 can replace the waste of traditional manpower, can make automated system 100 of the present invention have the time of more production products, and operating efficiency is promoted efficiently.
See also Fig. 4 A and Fig. 4 B, Fig. 4 A is the schematic diagram of the second embodiment of automation conveyor module of the present invention, and Fig. 4 B then is the cutaway view of the second embodiment of automation conveyor module of the present invention; This second embodiment place different from above-mentioned the first embodiment is, the ejecting structure 33 of automation conveyor module 3 can be a vapour-pressure type ejecting structure 332, and it can include at least one pneumatic cylinder 332a and a plurality of piston rod 332b that is connected in above-mentioned pneumatic cylinder 332a; Wherein, these piston rods 332b corresponds respectively to these passages 32, and relative position and the quantity of piston rod 332b and pneumatic cylinder 332a are not limited, can be the corresponding piston rod 332b of a pneumatic cylinder 332a or the corresponding a plurality of piston rod 332b of pneumatic cylinder 332a, for instance, when a pneumatic cylinder 332a was arranged at adjacent four passages 32 and centers on the conveying body 31 that forms, a pneumatic cylinder 332a can control the action of four piston rod 332b simultaneously; In this specific embodiment, one pneumatic cylinder 332a is corresponding to a piston rod 332b, therefore can be by driving a plurality of piston rod 332b, make these piston rods 332b simultaneously against or break away from the germule centre of sphere corresponding with it, and then clamping and discharge these germule centre ofs sphere SB (such as Fig. 1).
See also Fig. 5 A and Fig. 5 B, Fig. 5 A is the schematic diagram of the 3rd embodiment of automation conveyor module of the present invention, and Fig. 5 B then is the cutaway view of the 3rd embodiment of automation conveyor module of the present invention; Originally the 3rd embodiment place different from above-mentioned the first embodiment is, the ejecting structure 33 of automation conveyor module 3 can be a linkage type ejecting structure 333, and it can include one first holder 333a and one second holder 333b; Wherein, the first holder 333a and the second holder 333b are crisscross arranged.In this specific embodiment, shown in Fig. 5 A, the first holder 333a and the second holder 333b all have a plurality of comb structures, more specifically, the both sides of each row's passage 32 are centered on by one of them broach of one of them broach of the first holder 333a and the second holder 333b, therefore the mode that linkage type ejecting structure 333 can move and reset by the first holder 333a and the second holder 333b two directions towards the opposite, and make the first holder 333a and the second holder 333b optionally against or break away from the relative both sides of corresponding germule centre of sphere with it, and then clamping and discharge these germule centre ofs sphere SB (such as Fig. 1), the benefit of the present embodiment is, ejecting structure 33 is clamped on respectively the relative dual-side of these germule centre ofs sphere SB, therefore can stably these germule centre ofs sphere SB be delivered in the forming module 2 (such as Fig. 1).
The 3rd embodiment (such as Fig. 5 A and Fig. 5 B) of the second embodiment of above-mentioned automation conveyor module 3 (such as Fig. 4 A and Fig. 4 B) and automation conveyor module 3 can be applicable to the automatic mode of aforementioned centre of sphere moulding equally.
It should be noted that, the ejecting structure 33 of the various variation aspects of above-mentioned automation conveyor module 3 all only merely is resisted against a side (such as Fig. 2 A and Fig. 4 A) or the relative dual-side (such as Fig. 5 A) of these germule centre ofs sphere SB, because ejecting structure 33 is little with the contact area of these germule centre ofs sphere SB, does not injure the quality of these germule centre ofs sphere SB therefore can guarantee these germule centre ofs sphere SB in the process of transporting.
In sum, the automated system of centre of sphere moulding of the present invention and method thereof have advantages of following:
1. the automatic mode of centre of sphere moulding of the present invention, it utilizes an automation conveyor module that a plurality of germule centre ofs sphere are transported to the centre of sphere that forming module is shaped to a plurality of spherical shape from the germule module efficiently, and ease of use promotes, shorten man-hour, reduce the advantages such as human cost and increase production efficiency therefore have.
2. the automated system of centre of sphere moulding of the present invention, because its automation conveyor module has a plurality of passage and ejecting structures that correspond respectively to the germule centre of sphere, enter these passages and utilize this ejecting structure to support these germule centre ofs sphere by these germule centre ofs sphere, guarantee that these germule centre ofs sphere firmly are transported to forming module from the germule module.
3. the automated system of centre of sphere moulding of the present invention, the ejecting structure of its automation conveyor module are resisted against merely a side of these germule centre ofs sphere or relative dual-side, do not injure the quality of these germule centre ofs sphere therefore can guarantee these germule centre ofs sphere in the process of transporting.
The above is preferred embodiment of the present invention only, is not be used to limiting to scope of patent protection of the present invention, therefore the equivalence that all utilizations specification of the present invention and accompanying drawing content are done changes, all in like manner all be contained in the scope of the present invention, hereby statement.
Claims (10)
1. the automatic mode of a centre of sphere moulding is characterized in that, may further comprise the steps:
One prepares step, it provides a germule module, a molding piece and to be arranged at movably automation conveyor module between this germule module and this forming module, this germule module has a plurality of the first depressions and a plurality of second depression of relatively folding, and this forming module has a plurality of upper die cavity and a plurality of lower die cavity of relatively folding;
The one germule centre of sphere forms step, and it delivers between described the first depression and described the second depression raw material to produce a plurality of germule centre ofs sphere;
One supplying step, this automation conveyor module has one and carries body, a plurality of passage and ejecting structure that is arranged in this conveying body, this automation conveyor module is near the described germule centre of sphere, each germule centre of sphere is entered in the passage corresponding with it, and utilize this ejecting structure that the described germule centre of sphere is broken away from this germule module, and carry the described germule centre of sphere to this forming module, the internal diameter of described passage is greater than the diameter of the described germule centre of sphere;
One centre of sphere forms step, and it is shaped to the described germule centre of sphere centre of sphere of a plurality of spherical shape in this forming module.
2. the automatic mode of centre of sphere moulding according to claim 1, it is characterized in that: in this supplying step, this automation conveyor module utilizes a plurality of supporting members of a drawplate type ejecting structure to be resisted against respectively the described germule centre of sphere, makes the described germule centre of sphere from this germule module disengaging and is clamped on this automation conveyor module.
3. the automatic mode of centre of sphere moulding according to claim 1, it is characterized in that: in this supplying step, this automation conveyor module utilizes a plurality of piston rods of a vapour-pressure type ejecting structure to be resisted against respectively the described germule centre of sphere, makes the described germule centre of sphere from this germule module disengaging and is clamped on this automation conveyor module.
4. the automatic mode of centre of sphere moulding according to claim 1, it is characterized in that: in this supplying step, this automation conveyor module utilize one first holder of a linkage type ejecting structure and one second holder to each other near or away from, make the respectively not homonymy of the described germule centre of sphere of clamping of this first holder and this second holder, make the described germule centre of sphere from this germule module disengaging and be clamped on this automation conveyor module.
5. the automatic mode of centre of sphere moulding according to claim 1, it is characterized in that: in this pressing step, this forming module also comprises a heater, makes that the described germule centre of sphere is hot-forming to be the centre of sphere of a plurality of spherical shape.
6. the automated system of a centre of sphere moulding is characterized in that, comprising:
One germule module, it has a plurality of the first depressions and a plurality of the second depression corresponding to described the first depression, and this germule module is in order to a plurality of germule centre ofs sphere of moulding;
A molding piece, it has a plurality of upper die cavitys and a plurality of lower die cavity corresponding to described upper die cavity, and this forming module is in order to be shaped to the described germule centre of sphere in the centre of sphere of a plurality of spherical shape; And
One automation conveyor module, it is arranged between this germule module and this forming module movably, this automation conveyor module has one and carries body, a plurality of passage and ejecting structure that is arranged in this conveying body, and the internal diameter of described passage is greater than the diameter of the described germule centre of sphere;
Thus, the ejecting structure of this automation conveyor module and carries the compacting to this forming module of the described germule centre of sphere to form a plurality of ball-shaped centre ofs sphere so that the described germule centre of sphere breaks away from this germule module.
7. the automated system of centre of sphere moulding according to claim 6, it is characterized in that: this ejecting structure is a drawplate type ejecting structure, it comprises a plurality of supporting members that correspond respectively to described passage, each supporting member can against or break away from the germule centre of sphere corresponding with it.
8. the automated system of centre of sphere moulding according to claim 6, it is characterized in that: this ejecting structure is a vapour-pressure type ejecting structure, it comprises at least one pneumatic cylinder and a plurality of piston rod that is connected in this at least one pneumatic cylinder, described piston rod corresponds respectively to described passage, each piston rod can against or break away from the germule centre of sphere corresponding with it.
9. the automated system of centre of sphere moulding according to claim 6, it is characterized in that: this ejecting structure is a linkage type ejecting structure, it comprises one first holder and one second holder, this first holder and this second holder are crisscross arranged, this first holder and this second holder can be simultaneously against or break away from the described germule centre of sphere.
10. the automated system of centre of sphere moulding according to claim 6, it is characterized in that: this germule module also includes a plurality of electrodeposited coatings, and described electrodeposited coating takes shape in respectively in described the first depression or in described the second depression.
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN110871528A (en) * | 2019-11-27 | 2020-03-10 | 六安丰恺尼机电科技有限公司 | Injection molding and pressure injection molding process of plastic particles |
| CN112247456A (en) * | 2020-11-12 | 2021-01-22 | 苏州德拉乐电梯有限公司 | Fixing device for metal product welding |
| CN112848043A (en) * | 2020-12-25 | 2021-05-28 | 湖南登科材料科技有限公司 | Simple preparation system for engineering plastics |
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| JPH0649339B2 (en) * | 1988-07-19 | 1994-06-29 | ナガセケンコー株式会社 | Method for producing partially colored hollow rubber balls |
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| CN201380566Y (en) * | 2008-12-31 | 2010-01-13 | 宇荣高尔夫科技股份有限公司 | Centre molding mould of golf ball |
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN110871528A (en) * | 2019-11-27 | 2020-03-10 | 六安丰恺尼机电科技有限公司 | Injection molding and pressure injection molding process of plastic particles |
| CN112247456A (en) * | 2020-11-12 | 2021-01-22 | 苏州德拉乐电梯有限公司 | Fixing device for metal product welding |
| CN112848043A (en) * | 2020-12-25 | 2021-05-28 | 湖南登科材料科技有限公司 | Simple preparation system for engineering plastics |
Also Published As
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|---|---|
| CN102873874B (en) | 2014-08-20 |
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