JP2005084328A - Plastic lens - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a plastic lens capable of attaining the cost reduction. <P>SOLUTION: The plastic lens 1 is constituted by integrally molding a lens part 3 in a light shielding lens frame 2 by insertion-molding. Since the lens part 3 is incorporated with the light shielding lens frame 2 by insertion-molding, centering of the center of a light incident control window 12 for the light shielding lens frame 2 and the optical axis L of the lens part 3 can be attained with extremely high accuracy, and the cost reduction is attained. Besides, an annular narrow part 14 taking the optical axis L as a center is arranged on the lens part 3, and protrusions 11 inserted into the narrow part 14 is arranged on the light shielding lens frame 2, then, such failures are prevented by the fitting of the recesses with the protrusions that the lens part 3 easily drops off the light shielding lens frame 2, and also, the displacement of the lens part 3 occurs in the light shielding lens frame 2 when in use. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention particularly relates to a plastic lens for use in a portable information terminal device such as a mobile phone or a digital camera.

  Conventionally, as a technology in such a field, there is JP-A-10-041492. The plastic lens described in this publication includes a plastic lens part and a cylindrical light-shielding lens frame for the purpose of protecting and shielding the lens part. A window is formed. Such a plastic lens is composed of two parts, a transparent lens part and an opaque light-shielding lens frame. The lens part is fitted into the light-shielding lens frame, and the light-incident surface of the lens part from the light-incident restriction window of the light-shielding lens frame. Is assembled to look out.

Japanese Patent Laid-Open No. 10-041492 JP 2002-290792 A

  However, since the above-described conventional plastic lens is assembled by fitting the lens portion into the light-shielding lens frame, it is extremely difficult to center the center of the light incident restriction window of the light-shielding lens frame and the optical axis of the lens portion. High processing accuracy is required for the lens frame and the lens portion, resulting in high costs. In particular, in the case of a plastic lens having a lens portion that is less than 5 mm in diameter, the extremely low assembling workability causes a high cost.

  An object of the present invention is to provide a plastic lens capable of reducing the cost.

  The plastic lens according to the present invention is a plastic lens formed by integrally molding a lens part in a light-shielding lens frame by insert molding, and the lens part is provided with an annular constriction part centering on the optical axis, The light-shielding lens frame is provided with a convex portion for forming a constricted portion, and a light incident restricting window is defined by the tip of the convex portion.

  This plastic lens is an invention premised on a product configured by integrally molding a lens portion in a light shielding lens frame by insert molding. Since the lens part is assembled to the light-shielding lens frame by insert molding, the centering of the light incident control window center and the optical axis of the lens part in the light-shielding lens frame is realized with extremely high accuracy, resulting in cost reduction. . Further, the lens portion is provided with an annular constriction centered on the optical axis, and the light-shielding lens frame is provided with a convex portion inserted into the constriction portion. It is possible to prevent the lens portion from being easily detached from the frame, and to prevent the lens portion from being displaced in the light shielding lens frame during use. And such a convex part is utilized also for the definition of a light entrance control window, and especially exhibits the effect excellent in the application to a small plastic lens with a lens part which is less than 10 mm in diameter. .

  Further, around the light incident surface of the lens portion, the light shielding lens frame is shielded from the end of the light incident surface of the lens portion continuously outward so as to be orthogonal to the optical axis. It is preferable that a surface is provided. At the time of insert molding, if a lens molding material adheres to the light-shielding lens frame around the light incident surface of the lens portion, light reflection occurs at this adhesion portion, which may cause an optical flare phenomenon. Therefore, the light shielding surface of the light shielding lens frame is continuously extended outward from the end of the light incident surface of the lens portion so as to be orthogonal to the optical axis. By adhering, even if light reflection occurs on the light shielding surface, the influence on the light incident surface can be extremely reduced.

  In addition, around the light incident surface of the lens unit, the light shielding lens frame has a predetermined inclination angle with respect to the optical axis and continuously extends outward from the end of the light incident surface of the lens unit. It is preferable that a surface is provided. At the time of insert molding, if a lens molding material adheres to the light-shielding lens frame around the light incident surface of the lens portion, light reflection occurs at this adhesion portion, which may cause an optical flare phenomenon. Therefore, the light shielding surface of the light shielding lens frame has a predetermined inclination angle with respect to the optical axis and continuously extends outward from the end of the light incident surface of the lens portion. By adhering, even if light reflection occurs on the light shielding surface, the influence on the light incident surface can be extremely reduced.

  In addition, around the light incident surface of the lens unit, the lens unit has an extended surface that continuously extends from the end of the light incident surface of the lens unit toward the light emitting surface side along the optical axis. It is preferable to be provided. At the time of insert molding, if a lens molding material adheres to the light-shielding lens frame around the light incident surface of the lens portion, light reflection occurs at this adhesion portion, which may cause an optical flare phenomenon. Therefore, the lens portion is provided with an extended surface extending continuously from the end of the light incident surface of the lens portion toward the light exit surface side along the optical axis. Even if the lens molding material adheres to the surface of the light-shielding lens frame in the vicinity of the light incident surface and light reflection occurs at this adhesion part, light can be incident. The influence on the surface can be extremely reduced.

  In addition, around the light incident surface of the lens unit, the lens unit has an extended surface extending outward from the end of the light incident surface of the lens unit so as to be orthogonal to the optical axis. Is preferably provided. At the time of insert molding, if a lens molding material adheres to the light-shielding lens frame around the light incident surface of the lens portion, light reflection occurs at this adhesion portion, which may cause an optical flare phenomenon. Therefore, the lens unit is provided with an extended surface extending outward from the end of the light incident surface of the lens unit so as to be orthogonal to the optical axis. Even if the lens molding material adheres to the surface of the light-shielding lens frame in the vicinity of the light incident surface, and reflection of light occurs, for example, The influence on the light incident surface can be extremely reduced.

  According to the present invention, the cost can be reduced.

  Hereinafter, preferred embodiments of a plastic lens according to the present invention will be described in detail with reference to the drawings. In the first to fourth embodiments, the same or equivalent components are denoted by the same reference numerals.

[First embodiment]
As shown in FIG. 1, the plastic lens 1 is used for portable information terminal devices such as a mobile phone and a digital camera, and has a small diameter of about 5 to 10 mm, and further miniaturization and higher accuracy are required. Yes. Such a plastic lens 1 includes a cylindrical light shielding lens frame 2 made of black plastic and a transparent plastic lens portion 3 loaded in the light shielding lens frame 2. The plastic lens 1 is formed by integrally molding a lens portion 3 in a light shielding lens frame 2 by insert molding.

  For example, after the light-shielding lens frame 2 is inserted into the lower mold part 5 of the mold 4 as an insert part, a transparent plastic material is injected into a cavity created by closing the mold of the upper mold part 6, and the molded product is molded into the mold. After curing in 4, the plastic lens 1 is taken out by mold opening. In order to satisfy simultaneously the necessity of molding the light incident surface (lens effective surface) 3a of the lens unit 3 with extremely high accuracy and the flexibility to cope with the design change of the light incident surface (lens effective surface) 3a. The mold 4 employs a lens piece 7.

  At the upper end of the light-shielding lens frame 2 loaded in the mold 4, an annular convex portion 11 that projects in the horizontal direction from the outside to the inside is provided. On the upper end side of the light shielding lens frame 2, a circular light incidence restriction window 12 is defined by the tip of the convex portion 11, and on the base end side of the light shielding lens frame 2, a circular opening 13 is formed. . As a result of using such a light-shielding lens frame 2 as an insert part, a constricted portion 14 is formed in the lens portion 3 by the convex portion 11 of the light-shielding lens frame 2. When the plastic lens 1 is viewed as a product, the lens portion 3 is provided with an annular constriction portion 14 centered on the optical axis L, and the convex portion 11 is reliably loaded in the constriction portion 14. The light incident surface 3 a of the lens unit 3 is formed so as to bulge outward from the convex part 11.

  As the plastic lens 1 having such a configuration is smaller, the use of insert molding is more effective. For example, when the lens part and the light-shielding lens frame are separately molded and assembled using tweezers etc., it is difficult to insert the convex part of the light-shielding lens frame into the constricted part of the lens part. Even so, it is difficult to confirm whether or not the convex portion is firmly inserted in the constricted portion. In addition, it is extremely difficult to align the center of the light entrance restriction window in the light shielding lens frame with the optical axis of the lens unit.

  On the other hand, since the plastic lens 1 of the present invention is produced by integrally molding the light-shielding lens frame 2 and the lens portion 3 by insert molding, the center of the light incident restriction window 12 of the light-shielding lens frame 2 and the lens portion 3 are formed. The centering with the optical axis L is realized with extremely high accuracy, resulting in cost reduction. Further, the cooperation of the constricted portion 14 on the lens portion 3 side and the convex portion 11 on the light shielding lens frame 2 side makes it difficult for the lens portion 3 to drop off from the light shielding lens frame 2, and in use, within the light shielding lens frame 2. The lens unit 3 is also prevented from being displaced.

  Furthermore, when insert molding is performed, if a lens molding material adheres to the light-shielding lens frame 2 around the light incident surface 3a of the lens portion 3 and is formed as a burr, light reflection occurs at this adhesion portion, and optical May cause a flare phenomenon. Therefore, the light shielding surface 20 of the light shielding lens frame 2 continuously extends outward from the end of the light incident surface 3a of the lens unit 3 so as to be orthogonal to the optical axis L. By adhering the lens molding material to 20, even if light reflection occurs on the light shielding surface 20, the influence on the light incident surface 3a can be extremely reduced. The light shielding surface 20 is formed as a part of the upper surface of the convex portion 11 and exhibits an effect as a burr countermeasure at the time of insert molding.

[Second Embodiment]
As shown in FIG. 2, in the plastic lens 31, the light shielding surface 30 of the light shielding lens frame 2A is continuously removed from the end of the light incident surface 3a of the lens portion 3A with a predetermined inclination angle α with respect to the optical axis L. Since the lens molding material adheres to the light shielding surface 30, even if light reflection occurs on the light shielding surface 30, the influence on the light incident surface 3a is extremely reduced. Can do. The light shielding surface 30 is formed as a part of the upper surface of the convex portion 11 and exhibits an effect as a burr countermeasure at the time of insert molding.

[Third embodiment]
As shown in FIG. 3, in the plastic lens 41, the lens portion 3B extends along the optical axis L continuously from the end of the light incident surface 3a of the lens portion 3 toward the light emitting surface 3a side. Since the existing extended surface 40 is provided, the light incident surface 3a and the light shielding lens frame 2B can be appropriately separated by the extended surface 40, and a lens is provided on the surface of the light shielding lens frame 2B in the vicinity of the light incident surface 3a. Even if the molding material adheres and light reflection occurs at the adhering portion, the influence on the light incident surface 3a can be extremely reduced. The extended surface 40 is disposed so as to protrude vertically from the upper surface of the convex portion 11, and exhibits an effect as a burr countermeasure at the time of insert molding.

[Fourth Embodiment]
As shown in FIG. 4, in the plastic lens 51, the lens portion 3C is continuously extended outward from the end of the light incident surface 3a of the lens portion 3C so as to be orthogonal to the optical axis L. Since the existing extended surface 50 is provided, the light incident surface 3a and the light shielding lens frame 2C can be appropriately separated by the extended surface 50, and a lens is provided on the surface of the light shielding lens frame 2C in the vicinity of the light incident surface 3a. Even if the molding material adheres and light reflection occurs at the adhering portion, the influence on the light incident surface 3a can be extremely reduced. The extended surface 50 is arranged so as to protrude horizontally from the inclined upper surface of the convex portion 11 and exhibits an effect as a burr countermeasure at the time of insert molding.

  The present invention is not limited to the embodiment described above. For example, the light shielding lens frames 2, 2 </ b> A, 2 </ b> B, and 2 </ b> C may be a metal such as aluminum whose surface is subjected to antireflection processing.

1 is a cross-sectional view showing a first embodiment of a plastic lens according to the present invention. It is sectional drawing which shows 2nd Embodiment of the plastic lens which concerns on this invention. It is sectional drawing which shows 3rd Embodiment of the plastic lens which concerns on this invention. It is sectional drawing which shows 4th Embodiment of the plastic lens which concerns on this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1,31,41,51 ... Plastic lens, 2, 2A, 2B, 2C ... Light-shielding lens frame, 3, 3A, 3B, 3C ... Lens part, 3a ... Light incident surface, 11 ... Convex part, 12 ... Light incidence regulation Window, 14 ... Constriction part, 20, 30 ... Light-shielding surface, 40, 50 ... Expansion surface, L ... Optical axis.

Claims (5)

A plastic lens formed by integrally molding a lens part in a light-shielding lens frame by insert molding,
The lens portion is provided with an annular constricted portion centered on the optical axis, the light shielding lens frame is provided with a convex portion for forming the constricted portion, and a light incident restricting window is formed by a tip of the convex portion. A plastic lens characterized by defining.   Around the light incident surface of the lens portion, the light shielding lens frame continuously extends outward from the end of the light incident surface of the lens portion so as to be orthogonal to the optical axis. The plastic lens according to claim 1, further comprising an existing light shielding surface.   Around the light incident surface of the lens unit, the light shielding lens frame continuously extends outward from the end of the light incident surface of the lens unit with a predetermined inclination angle with respect to the optical axis. The plastic lens according to claim 1, further comprising an existing light shielding surface.   Around the light incident surface of the lens portion, the lens portion continuously extends from the end of the light incident surface of the lens portion toward the light exit surface side along the optical axis. 2. The plastic lens according to claim 1, further comprising an extended surface. Around the light incident surface of the lens portion, the lens portion continuously extends outward from the end of the light incident surface of the lens portion so as to be orthogonal to the optical axis. The plastic lens according to claim 1, further comprising an expansion surface.

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