The present invention relates to a mold for molding a lens with high concentricity.
Molds are widely used for manufacturing optical articles, such as light guide plates, lenses, and etc. Referring to
In a typical glass lens molding process, the second mold part 3 is inserted into the bushing 4, and then a glass preform 6 is placed on the molding surface of the second mold part 3. The first mold part 2 is then inserted into the bushing 4 to press (i.e. force the glass to a certain shape) the glass preform 6 by an oil press 7, thereby obtaining a predetermined glass lens.
However, during design or assembly, discrepancies may occur between the position of the first mold part 2 and the position of the second mold part 3, resulting corresponding discrepancies in the finished article.
Therefore, a mold that overcomes the above-described problems is desired.
Many aspects of the present mold can be better understood with reference to the following drawings. The components in the drawings are not necessarily drawn to scale, the emphasis instead being placed upon clearly illustrating the principles of the present mold. Moreover, in the drawings, like reference numerals designate corresponding parts throughout the several views.
Referring to
Referring to
The first base 11 and the first main body 12 are cylinder shaped. The top surface of the first base 11 defines a first supporting surface 110. The first main body 12 is disposed on the first supporting surface 110. The diameter of the first main body 12 is smaller than the diameter of the first base 11. The first guiding portion 15 protrudes out from the end face 120 of the distal end of the first main body 12. In the present embodiment, the first guiding portion 15 includes a cylinder shaped body 13 and a frustoconical body 14 integrally formed with the cylinder shaped body 13. The top surface of the frustoconical body 14 defines a resist surface 140. A cylinder shaped recess 141 is defined in the surface 140. The bottom surface of the recess 141 includes a periphery portion 1412 and a central portion (not labeled). The bottom surface of the recess 141 defines a first molding surface 1411 in the central portion thereof. In the present embodiment, the first molding surface 1411 is an aspherical concave surface. The periphery portion 1412 of the bottom surface of the recess 141 surrounds the first molding surface 1411. Preferably, the first molding surface 1411, the first guiding portion 15, the first main body 12 and the first base 11 are coaxially joined together.
Referring to
The second base 21 and the second main body 22 are cylinder shaped. The second main body 22 is disposed on the base 21. The diameter of the second main body 22 is smaller than the diameter of the second base 21. The second main body 22 has an end face 200 defined at one end opposite to the second base 21 and a guiding chamber 25 defined in the end face 220. The guiding chamber 25 is configured to be mated with the first guiding portion 15. The bottom surface of the guiding chamber 25 includes a periphery portion 240 and a central portion (not labeled). The bottom surface of the guiding chamber 25 defines a second molding surface 2410 spatially corresponding to the first molding surface 1411. In the present embodiment, the second molding surface is 2410 is an aspherical concave surface. The periphery portion 240 of the bottom surface of the guiding chamber 25 surrounds the second molding surface 2410. When the first guiding portion 15 inserts into the guiding chamber 25, the periphery portion 240 resists on the resist surface 140. The first molding surface 1411 and the second molding surface 2410 cooperatively define a molding chamber 40 therebetween.
It is understood that, the body 14 of the first guiding portion 15 can be truncated pyramidal shaped. The body 13 of the first guiding portion 15 can be prism shaped.
An optical article such as a glass lens may be manufactured by the mold 100 by following process.
Firstly, referring to
Secondly, referring to
Thirdly, referring to
Fourthly, the glass preform 50 is heated and pressed, thereby obtaining a desired glass lens(not shown). When the first guiding portion 15 inserts into the guiding chamber 25, the frustoconical body 14 of the first guiding portion 15 is firstly inserted into the guiding chamber 25, then the rest of the first guiding portion 15 is guided into the guiding chamber 25 until the periphery portion 240 of the guiding chamber 25 contacts the resist surface 140 of the frustoconical body 14. Therefore, in the process of pressing the glass preform 50, the first mold part 10 and the second mold part 20 can obtain a low discrepancy between the positions of the first guiding portion 15 and the guiding chamber 25, giving a high concentricity to the final product.
Finally, after being cooled and de-molding, a predetermined glass lens is obtained.
The obtained glass lens has a first surface and a second surface (not shown). The first surface of the glass lens is formed by the first molding surface 1411 of the first mold part 10, and the second surface of the glass lens is formed by the second molding surface 2410 of the second mold part 20. Because of the high concentricity between the first guiding portion 15 and the guiding chamber 25, the mold 100 can also make a lot of glass lenses with high concentricity. In a condition of the satisfying eccentricity of the mold 100, excellent quality optical articles with low eccentricity or high concentricity can be manufactured.
It is believed that the present embodiments and their advantages will be understood from the foregoing description, and it will be apparent that various changes may be made thereto without departing from the spirit and scope of the invention or sacrificing all of its material advantages, the examples hereinbefore described merely being preferred or exemplary embodiments of the invention.
Number | Date | Country | Kind |
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200710203557.5 | Dec 2007 | CN | national |
This application is related to commonly-assigned copending application Ser. No. 11/434,377, entitled “press-molding mold”. Disclosures of the above-identified application are incorporated herein by reference.