CN100548617C - The processing method of forming composite area of high-molecule embryonic plant and mould thereof - Google Patents
The processing method of forming composite area of high-molecule embryonic plant and mould thereof Download PDFInfo
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- CN100548617C CN100548617C CNB2006100832573A CN200610083257A CN100548617C CN 100548617 C CN100548617 C CN 100548617C CN B2006100832573 A CNB2006100832573 A CN B2006100832573A CN 200610083257 A CN200610083257 A CN 200610083257A CN 100548617 C CN100548617 C CN 100548617C
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Abstract
A kind of processing method of forming composite area of high-molecule embryonic plant and mould thereof, system is by mould first and second germule of difference molding in the not isotype chamber of this mould inside, and make the shape of this germule respectively have one one or the identical shape of his with predetermined moulding product shape respectively, continue it, will be respectively this separately independently first, second germule be contained in a molding chamber according to its pairing one one or his shape, also along predetermined direction relative bonding, this first and second germule is molded as predetermined moulding product and incite somebody to action respectively by this shaping mould chamber each other.
Description
Technical field
The present invention is relevant with the polymer shaping process technology, particularly about a kind of processing method of forming composite area of high-molecule embryonic plant.
Background technology
The inventor is in the hot-die material feeding of preceding No. 200610065800.7 compound region polymer of inventing ' disclosed technology contents in the method, system separates into the different raw materials of forming of permission by the suitable structure that separates with single mould chamber, inject the different spaces of the same mould chamber that has been separated separately, remove these after the material feeding of waiting is finished again and separate member, and the pressure that sees through matched moulds makes the different material that has injected produce moving of a little side direction, in order to fill up the space that member is left over that separates that this is moved out of.
Only, the technology contents of opening in inventor's discovery has higher accuracy of manufacture requirement, specifically, how to control the raw material that has injected to be flowed to opposite to each other this is left over the space under the matched moulds state and fill up, system relates to the number that injects material quantity, the control of raw material flow coefficient, the hot-die temperature, whether air detaches or the like factor, all this kind has suitable influence for moulding product quality, therefore, on the result, the easy generation when the accuracy of manufacture is not enough of the bright case of last exploitation is distinguished raw material again and this can't be left over the space to each other and fill up fully, or because of its be flowing in guided down the irregular state of the contact interface that produces, and have influence on the outward appearance of shaped article, cause the difficulty on the quality keyholed back plate.
Summary of the invention
Main purpose of the present invention is, a kind of processing method of forming composite area of high-molecule embryonic plant is provided, and it can reach the required multiple plot structure that possesses of product properly under the low requirement of creating conditions.
Another object of the present invention then is, a kind of processing method of forming composite area of high-molecule embryonic plant is provided, and it can guarantee the homogeneity of shaped article quality, to reach the high product yield.
For reaching above-mentioned purpose, the processing method of forming composite area of a kind of high-molecule embryonic plant of the present invention includes following key step:
A, take a mould; This mould has one first mould chamber, one second mould chamber, system is separated by with this first mould chamber and comes, and the first butt joint wall that this first mould chamber, one side room wall is formed is parallel each other with the second butt joint wall that this second mould chamber, one side room wall forms, one the 3rd mould chamber, it is shaped as the respectively combination of this first, second mould chamber shape;
B, this mould is positioned on the one first matched moulds state, and forms each other separately independently respectively this first, second mould chamber in this mould inside;
C, the different raw materials of forming of tool are contained in respectively in this first, second mould chamber respectively, and are molded as first and second germule, and make this germule respectively respectively with the reason moulding respectively should correspondence mould chamber the butt joint wall form the jointing end face that can dock mutually;
D, this mould is positioned on the one second matched moulds state, forms this 3rd mould chamber, make simultaneously that respectively this first, second germule of institute's molding is placed on the position corresponding with shape own in the 3rd mould chamber in this c step, and dock in opposite directions with this butt joint end face respectively;
E, make respectively this first, second germule in the 3rd mould chamber through the chemical reaction program, in order to the identical shape of molded and shaped and predetermined moulding product shape.
Be used for the mould of the processing method of forming composite area of described high-molecule embryonic plant, include:
One patrix has a upper plate body, a downward opening upper mould cave;
One counterdie is positioned at the below of this patrix, has a lower plate body, an opening following die cavity up;
One extensible middle mould between respectively between this upper and lower mould, has plate body in;
One first mould chamber, when this patrix with should in mould is superimposed each other when amplexiforming, mould sealing is formed in this because of openend is subjected to by this upper mould cave;
One second mould chamber, when mould in this and this counterdie is superimposed each other when amplexiforming, mould sealing is formed in this because of openend is subjected to by this time die cavity;
One the 3rd mould chamber, after mould shifts out in this, when this patrix and this counterdie is superimposed each other when amplexiforming, respectively this upper and lower die cavity dock toward each other form;
Should more include shadow die cavity on by middle mould, a corresponding shape of tool and this upper mould cave shape, and be arranged with on the downside end face of plate body in this, shadow fill block once, have a shape of this time die cavity identical and complementary shape, and extended on the downside end face that is based in middle plate body along going up shadow die cavity one side cave wall, thereby when should in mould and this counterdie is superimposed when amplexiforming, make his open butt joint of shadow die cavity and this time die cavity on this, and this time shadow fill block is placed among an one of this time die cavity, form this second mould chamber, shadow die cavity once, the shape that tool is identical with this counterdie fill block, be arranged with on the upside end face of plate body in this, shadow fill block on one, tool is gone up the identical shape of shadow die cavity with this, and is based on the upside end face of plate body in this along the one side cave wall extension of this time shadow die cavity, thereby when should in mould and this patrix is superimposed when amplexiforming, make his open butt joint of this time shadow die cavity and this upper mould cave, and shadow fill block on this is placed among an one of this upper mould cave, form this first mould chamber.
Below, lift a preferred embodiment of the present invention now, and cooperate graphic being described further.
Description of drawings
Fig. 1: the manufacturing process schematic diagram that is a preferred embodiment of the present invention.
Fig. 2: be the plane of a preferred embodiment of the present invention along a-a direction among Fig. 1.
Fig. 3: be the plane of a preferred embodiment of the present invention along b-b direction among Fig. 1.
Fig. 4: be that a preferred embodiment of the present invention is with regard to the partial enlarged drawing partly of c among Fig. 1.
Fig. 5: the stereo appearance figure that is the tool compound region polymer moulding product made with embodiment that the present invention is taken off.
The specific embodiment
See also shown in each figure, the processing method of forming composite area of the high-molecule embryonic plant that provides system discloses the multiple district sole in order to the different composition densities of forming device in a preferred embodiment of the present invention.
Particularly, it has comprised following step:
A, take a mould 10.
This mould 10 is made up of mould 12, a counterdie 13, one first mould chamber 14, one second mould chamber 15 and one the 3rd mould chamber 16 in the patrix 11.
Further, this patrix 11 has a upper plate body 111, one downward opening upper mould caves 112 and is arranged with on the lower side panel face of this upper plate body 111.
This counterdie 13 is positioned at the below of this patrix 11, and has 132 of a lower plate body 131, one openings following die cavitys up and be arranged with on the epipleural face of this lower plate body 131.
Should in 12 of moulds with the mode that can be moved out of be located in respectively should on, counterdie 11, between 13, has plate body 121 in, shadow die cavity 122 on one, a corresponding shape of tool and this upper mould cave 112 shapes, and be arranged with on the downside end face of plate body 121 in this, once the shadow fill block 123, have a shape of this time die cavity 132 identical and complementary shape, and extended on the downside end face that is based in middle plate body 121 along going up shadow die cavity 122 1 side cave walls, thereby during with mould 12 and these counterdie 13 superimposed amplexiforming in being somebody's turn to do, must make his open butt joint of shadow die cavity on this 122 and this time die cavity 132, and this time shadow fill block 123 is placed among an one of this time die cavity 132, to form this second mould chamber 15, once the shadow die cavity 124, the shape that tool and this time shadow fill block 123 are identical, be arranged with on the upside end face of plate body 121 in this, shadow fill block 125 on one, the shape that tool is identical with going up shadow die cavity 112, and be based on the upside end face of plate body 121 in this along the 124 1 side cave walls extensions of this time shadow die cavity, during with mould 12 and these patrix 11 superimposed amplexiforming in being somebody's turn to do, must make his open butt joint of this time shadow die cavity 124 and this upper mould cave 112, and shadow fill block 125 on this is placed among an one of this upper mould cave, to form this first mould chamber 14; And wherein, be positioned on the lateral mass wall of this time shadow fill block 123 of the extension of shadow die cavity 122 1 side cave walls and edge on this and be positioned at two butt joint walls 126,127 on the lateral mass wall that to go up shadow fill block 125 of extension on this time shadow die cavity 124 1 side cave walls and edge, that is the inclined-plane that is to complementation, and the angle [alpha] that tilts is then less than 10 degree angles.
The 3rd mould chamber 16, after mould in this 12 is moved out of, at this patrix 11 and this counterdie 13 is superimposed each other amplexiforms between the end face, that is by this upper and lower die cavity 112,132 respectively dock toward each other form, its shape then shape with predetermined moulding product is identical.
B, make respectively should go up, in and self correspondence of counterdie 11,12,13 is spliced and this mould 10 is positioned under the one first matched moulds state.
C, will have different first, second raw materials of forming and inject respectively this first, second mould chamber 14,15 via suitable material injecting device respectively, to provide difform first and second germule 17,18 by these first, second mould chamber 14,15 moldings respectively, more accurate theory, respectively the respective shape of this first, second germule 17,18 is corresponding to one one of the 3rd mould chamber 16 shapes or his one, and corresponding to the butt joint wall 126,127 that respectively should tilt, making respectively, 17,18 fens other sides of this first, second germule are molded as corresponding inclination jointing end face 171,181.
D, shift out mould 12 in this, and respectively this first, second germule 17,18 that makes molding is respectively attached on this upper and lower die cavity 112,132 respectively.
E, make self superimposed amplexiforming of this patrix 11 and this counterdie 13, and make respectively this upper and lower die cavity 112,132 docks formation the 3rd mould chamber 16 simultaneously, at the same time, respectively this first, second germule 17,18 attached to it also is contained in the 3rd mould chamber 16, and with this jointing end face 171,181 respectively each other side direction in abutting connection with applying.
F, continue it, make again this first, second germule 17,18 respectively in the 3rd shaping mould chamber 16 through the chemical reaction program of correspondence and be molded into finished product with reservation shape.
By above-mentioned method, the present invention can via make respectively this first, second germule 17,18 is identical with the finished form of predetermined moulding in combination back in shape, and make respectively this first, second germule 17,18 jointing end faces 171 that are being adjacent to each other, 181 have and are easy to engage and keep inclined-plane state closely, the feasible polymer shaping product of distinguishing again with the made tool of this method 20, in district and interval is respectively obviously can divide and be bonded to each other closely, case is deposited the technical improved part that waits before taking off on improving according to this, so that the manufacturing of tool compound region polymer moulding product can be done under requiring low creating conditions, and keeping stable quality.
Claims (7)
1, a kind of processing method of forming composite area of high-molecule embryonic plant includes following key step:
A, take a mould; This mould has one first mould chamber, one second mould chamber, be to be separated by with this first mould chamber to come, and the first butt joint wall that this first mould chamber, one side room wall is formed is parallel each other with the second butt joint wall that this second mould chamber, one side room wall forms, one the 3rd mould chamber, it is shaped as the respectively combination of this first, second mould chamber shape;
B, this mould is positioned on the one first matched moulds state, and in this mould inside form separately independently this first with this second mould chamber;
C, the different raw materials of forming of tool are contained in respectively in this first, second mould chamber respectively, and are molded as first and second germule, and make respectively that this germule forms the jointing end face that can dock mutually by the butt joint wall of corresponding mould chamber respectively;
D, this mould is positioned on the one second matched moulds state, forms the 3rd mould chamber, make simultaneously that respectively this first, second germule of institute's molding is placed on the position corresponding with shape own in the 3rd mould chamber in this c step, and dock in opposite directions with this jointing end face respectively;
E, make respectively this first, second germule in the 3rd mould chamber through the chemical reaction program, in order to the identical shape of molded and shaped and predetermined moulding product shape.
2, according to the processing method of forming composite area of the described high-molecule embryonic plant of claim 1, it is characterized in that: respectively the jointing end face of this first, second germule is the inclined-plane of corresponding complementary.
3, according to the processing method of forming composite area of the described high-molecule embryonic plant of claim 2, it is characterized in that: respectively the angle of inclination of this first, second germule jointing end face is less than 10 degree.
4, a kind of mould that is used for the processing method of forming composite area of the described high-molecule embryonic plant of claim 1 includes:
One patrix has a upper plate body, a downward opening upper mould cave;
One counterdie is positioned at the below of this patrix, has a lower plate body, an opening following die cavity up;
One extensible middle mould between respectively between this upper and lower mould, has plate body in;
One first mould chamber, when this patrix with should in mould is superimposed each other when amplexiforming, mould sealing is formed in this because of openend is subjected to by this upper mould cave;
One second mould chamber, when mould in this and this counterdie is superimposed each other when amplexiforming, mould sealing is formed in this because of openend is subjected to by this time die cavity;
One the 3rd mould chamber, after mould shifts out in this, when this patrix and this counterdie is superimposed each other when amplexiforming, respectively this upper and lower die cavity dock toward each other form;
It is characterized in that:
Should more include shadow die cavity on by middle mould, a corresponding shape of tool and this upper mould cave shape, and be arranged with on the downside end face of plate body in this, shadow fill block once, it is identical and must be complementary shape with an one of this time die cavity to have a shape with this time die cavity, and extended on the downside end face that is based in middle plate body along going up shadow die cavity one side cave wall, thereby when should in mould and this counterdie is superimposed when amplexiforming, make his open butt joint of shadow die cavity and this time die cavity on this, and this time shadow fill block is placed among an one of this time die cavity, form this second mould chamber, shadow die cavity once, the shape that tool is identical with this counterdie fill block, be arranged with on the upside end face of plate body in this, shadow fill block on one, tool is gone up the identical shape of shadow die cavity with this, and be based on the upside end face of plate body in this along the one side cave wall extension of this time shadow die cavity, thereby when should in mould and this patrix is superimposed when amplexiforming, make his open butt joint of this time shadow die cavity and this upper mould cave, and shadow fill block on this is placed among an one of this upper mould cave, form this first mould chamber.
5, according to the described mould of claim 4, it is characterized in that: mould is positioned on the lateral mass wall of this time shadow fill block of the extension of shadow die cavity one side cave wall and edge on this in this, and be positioned at two butt joint walls on the lateral mass wall that should go up the shadow fill block of extension on this time shadow die cavity one side cave wall and edge, be parallel correspondence each other.
6, according to the described mould of claim 5, it is characterized in that: respectively this butt joint wall is the inclined-plane.
7, according to the described mould of claim 6, it is characterized in that: respectively the angle of inclination of this butt joint wall is less than 10 degree.
Priority Applications (1)
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CNB2006100832573A CN100548617C (en) | 2006-06-01 | 2006-06-01 | The processing method of forming composite area of high-molecule embryonic plant and mould thereof |
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CNB2006100832573A CN100548617C (en) | 2006-06-01 | 2006-06-01 | The processing method of forming composite area of high-molecule embryonic plant and mould thereof |
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CN101081537A CN101081537A (en) | 2007-12-05 |
CN100548617C true CN100548617C (en) | 2009-10-14 |
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CN112956781B (en) * | 2021-02-03 | 2022-04-01 | 广州增威胶业有限公司 | Exposed cloth anti-slip sole and preparation method thereof |
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Granted publication date: 20091014 Termination date: 20110601 |