KR20030037412A - Lens focusing structure - Google Patents

Abstract

PURPOSE: A focusing structure of a lens is provided to control selectively an aperture of a digital still camera by driving each lens group and the aperture, respectively. CONSTITUTION: The first lens group(1) has a knob(1a) to perform a focusing operation by the rotary motion. A center line of the second lens group(2) passe through an optical axis of the first lens group(1). The first lens group(1) is installed in the inside of the first housing(3). The second lens group(2) is installed in the inside of the second housing(4). An aperture(5) and an aperture driving source(6) are located between the outside of the first housing(3) and the outside of the second housing(4) in order to control the amount of light. A center line of an image sensor(7) passes through the optical axes of the first and the second lens groups(1,2).

Description

Lens focusing structure

The present invention relates to a configuration mechanism of a product adopting an aperture function in a digital camera. In particular, the lens group of one side is fixed by separating the lens group into two for focusing in the lens group including the aperture. The present invention relates to a method of focusing by adjusting only the lens group of the other side.

In general, the configuration and driving of the aperture is a method using a small solenoid, and if the focusing is required according to the characteristics of the product is driven by a motor, mechanically using the lens data using the cam curve It also drives the entire lens group.

1 is a view showing the configuration of a lens unit of a conventional general camera, as shown in FIG. 1, the driving method of the general lens group (101.102) and the aperture 104 is the aperture in the lens module (103) By installing 104 and combining the lens groups on the left and right sides of the aperture, the lens module 103 composed of the three parts of the aperture and the left and right lens groups has the same direction and displacement.

That is, the lens module 103 composed of the three parts of the aperture and the left and right lens groups is moved in the same direction and displacement by the reduction gear body 109 and the motor 110, which are the same driving sources, in a completely fixed state. Therefore, when the size of the aperture 104 becomes large, interference is inevitable. Therefore, since the overall size is determined by the mechanical specifications of the aperture 104, the product when the size of the aperture is large It becomes difficult to slim down and downsize.

Looking at the operation by the conventional configuration as follows.

First, as shown in FIG. 1, the aperture 104 together with the first lens group 101 and the second lens group 102 positioned on the left and right sides of the aperture 104 includes a motor 110 and a reduction gear body. 109 moves linearly reciprocating on the guide rails 106a and 106b in the front-rear direction.

In addition, the aperture 104 is linearly moved in a direction perpendicular to the front-rear direction on the guide rails 106a and 106b by the aperture drive source 105 in the stop position, which is a separate drive source, so that the first lens group 101 is rotated. The second lens group 102 and the aperture 104 perform focusing and light amount adjustment.

However, at this time, the movement direction and the displacement of the aperture 104, as well as the displacement by the aperture drive source 105 of its own, as well as the motor 110 and the reduction gear body 109, which are moved together with the lens module 103. Since the displacement must be taken into account, this requires sufficient space around it. If it is not sufficiently secured, interference occurs and driving becomes impossible.

Therefore, in the case of the conventional structure, the overall size is constrained within a certain range. As a result, the lens module by the first lens group and the second lens group is constrained by the rotational movement. At this time, a driving method using a kinematic mechanism using a motor or a double cam curve is adopted.

However, this driving method not only complicates the configuration, but also hinders the miniaturization and slimming of the product, and has a problem of increasing the overall price.

The present invention was created in order to solve the problems of the prior art as described above, by separating and installing the lens group and the aperture, to perform the focusing only by the rotational movement, automatic and manual adjustment as necessary It is possible and particularly aimed to provide a structure for selectively controlling apertures in digital still cameras.

1 is a view showing a configuration of a lens unit of a camera according to the prior art,

2 is a view showing the structure of the camera lens focusing having a detachable housing structure according to an embodiment of the present invention,

3 is a view showing a camera lens focusing structure having an integrated housing structure according to another embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

1, 11, 101: first lens group 1a, 11a: focusing knob

2, 12, 102: second lens group 3: the first housing

4: second housing 5, 15, 104: aperture

6, 16, 105: aperture driving source 7, 17, 108: image sensor

18: integrated housing 103: lens module

106a, 106b: guide rails 107a, 107b, 107c, 107d: guide rail fixed shafts

109: reduction gear 110: motor

111a, 111b: guide boss S: focusing stroke

In order to achieve the above object, in the present invention, the aperture and the lens group are divided into left and right to fix the lens group of one side, and the lens group of the other side is a structure in which a knob is provided for focusing only by rotational movement. Is installed to be directly adjacent within the housing.

That is, one lens group of the lens groups is fixedly installed in the housing and the other lens group is installed together with a focusing knob to enable rotational movement in the housing, and the aperture mechanism installed together is a conventional configuration. As shown in FIG. 1, the linear motion of the motor is linearly driven by driving.

The housing may be implemented separately and integrally as needed, and the present invention discloses the configuration of the separate housing and the integral housing, respectively, for the preferred practice.

First, the configuration of a housing detachable structure according to an embodiment of the present invention is as follows.

The camera according to the present invention comprises a first lens group having a knob and the focusing is performed by a rotational movement; A second lens group which is fixed in position by being sequentially arranged such that its center line passes through the optical axis of the first lens group; A first housing including the first lens group therein; A second housing including the second lens group therein; An aperture and a driving source positioned between an outer side of the first housing and an outer side of the second housing to adjust an amount of light; And an image sensor sequentially arranged to pass through a center line of the optical axes of the first lens group and the second lens group.

Figure 2 is a view showing a housing detachable structure according to an embodiment of the present invention will be described the operation by the accompanying drawings below.

First, one lens (not shown) of the first lens groups 1 shown in FIG. 2 is selected, and one lens (not shown) of the second lens groups is selected. In order to focus by the magnification of the selected lens, the knob 1a installed together with the first lens group is turned to adjust the focusing stroke s of the first lens group in the first housing only by the rotational movement. In addition, the amount of light is controlled by the aperture 5 installed in connection with the outside of the first housing, wherein the aperture is driven by the aperture driving source 6 to linearly move in a direction perpendicular to the lens optical axis. do.

On the other hand, the second lens group installed in the second housing is fixed.

At this time, the optical axis of any one lens of the first lens group and the lens of any one of the second lens group 2 are arranged in sequence so that the center line coincides with each other, and the image for converting the image to be captured into an electrical signal The sensors 7 are also arranged sequentially on the same axis.

As shown in FIG. 2 in the camera configured as described above, since the focusing by the lens groups is possible only by the rotational movement of the knob 1a, the linear reciprocating motion along the guide rail as shown in the conventional configuration It is not necessary to install kinematic mechanisms, such as a motor and a double cam mechanism, in order to convert them into rotational movements, thus simplifying the construction.

In addition, the overall miniaturization is possible, and thus a configuration suitable for the trend of light and short reduction of the product is possible.

Figure 3 is a view showing a housing integrated structure of another embodiment of the present invention, the configuration is as follows.

A first lens group including a knob to perform focusing by a rotational motion; A second lens group sequentially arranged and fixed in position so that its center line passes through the optical axis of the first lens group; An aperture positioned between the first lens group and the second lens group to adjust an amount of light; An integrated housing including the first lens group, the second lens group, and the aperture therein; A drive source for driving the aperture; And a camera including image sensors sequentially arranged to pass through a center line of the optical axes of the first lens group and the second lens group.

The operation will be described below with reference to the accompanying drawings.

First, one lens (not shown) of the first lens groups 11 illustrated in FIG. 3 is selected, and one lens (not shown) of the second lens groups 12 is selected. In order to focus by the magnification of the selected lens, the knob 11a installed together with the first lens group is turned to adjust the focusing stroke s of the first lens group in the integrated housing 18 only by the rotational movement. In addition, the amount of light is controlled by an aperture included in the housing, and the aperture is movable by the aperture driving source 16 in a direction perpendicular to the optical axis of the lens.

On the other hand, the position of the second lens group installed in the housing is fixed.

At this time, the optical axis of any one of the lens of the first lens group 11 and the lens of any one of the second lens group 12 are sequentially arranged so that their center lines coincide with each other, and the image to be captured is converted into an electrical signal. The image sensors 17 to be converted are also sequentially arranged on the same axis.

As shown in FIG. 3 in the camera constructed as described above, since focusing by the lens groups is possible only by the rotational movement of the knob 11a, linear reciprocating motion is performed by kinematic mechanisms such as a motor and a double cam mechanism. There is no need to convert to rotational motion, and thus the configuration is simplified as the configuration of the housing detachable type described above.

In addition, the overall miniaturization is possible, and thus a configuration suitable for the trend of light and short reduction of the product is possible.

While the invention has been shown and described in connection with specific embodiments thereof, it is well known in the art that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the claims. Anyone who owns it can easily find out.

As described above, the present invention enables the lens groups and the aperture to be driven independently, so that the focusing can be performed only by the rotational movement. It is possible to provide a structure for selectively controlling the aperture in the still camera.

In addition, since focusing is possible only by the rotational movement, there is no need to convert the linear reciprocating motion into the rotational movement by the kinematic mechanisms such as the motor and the double cam mechanism as in the conventional configuration, and the configuration is also simplified, which makes the product price competitive. It will be able to take advantage of the, and the productivity is effective.

Claims (6)

A first lens group including a knob to perform focusing by a rotational motion; A second lens group having a fixed position as being arranged in sequence so that its center line passes through the optical axis of the first lens group; A first housing including the first lens group therein; A second housing including the second lens group therein; An aperture and a driving source positioned between an outer side of the first housing and an outer side of the second housing to adjust an amount of light; And an image sensor sequentially arranged such that the center line passes through the optical axes of the first lens group and the second lens group. The lens focusing structure of claim 1, wherein the aperture linearly moves in a direction perpendicular to the optical axis of the lens to adjust the amount of light. A first lens group including a knob to perform focusing by a rotational motion; A second lens group sequentially arranged and fixed in position so that its center line passes through the optical axis of the first lens group; An aperture positioned between the first lens group and the second lens group to adjust an amount of light; A housing including the first lens group, the second lens group, and the aperture therein; A drive source for driving an aperture installed outside the housing; And an image sensor sequentially arranged such that the center line passes through the optical axes of the first lens group and the second lens group. The lens focusing structure of claim 3, wherein the aperture linearly moves in a direction perpendicular to the optical axis of the lens to adjust the amount of light. A first lens group including a knob to perform focusing by a rotational motion; A second lens group having a fixed position as being arranged in sequence so that its center line passes through the optical axis of the first lens group; A first housing including the first lens group therein; A second housing including the second lens group therein; An aperture and a driving source positioned between an outer side of the first housing and an outer side of the second housing to adjust an amount of light; And a lens focusing structure including image sensors sequentially arranged to pass through a center line of the optical axes of the first lens group and the second lens group. A first lens group including a knob to perform focusing by a rotational motion; A second lens group sequentially arranged and fixed in position so that its center line passes through the optical axis of the first lens group; An aperture positioned between the first lens group and the second lens group to adjust an amount of light; A housing including the first lens group, the second lens group, and the aperture therein; A drive source for driving an aperture installed outside the housing; And a lens focusing structure including image sensors sequentially arranged to pass through a center line of the optical axes of the first lens group and the second lens group.