KR102217036B1 - System for aligning of lens and method thereof - Google Patents

Abstract

A lens care method according to an embodiment may include forming a first lens group by sequentially inserting a plurality of lenses into a barrel; Positioning a second lens group including two lenses bonded to each other on the image side of the first lens group; Irradiating light to the first lens unit and the second lens unit; Detecting the irradiated light to detect an optical axis alignment state of the second lens group with respect to the first lens group; And aligning the position of the second lens group in consideration of the detected optical axis alignment state.

Description

Lens alignment device and its method TECHNICAL FIELD [SYSTEM FOR ALIGNING OF LENS AND METHOD THEREOF}

The following embodiments relate to a lens care device and a method thereof.

Camera modules are small and are applied to various IT devices such as camera phones, portable mobile devices such as PDAs and smart phones, and recently, devices equipped with small camera modules that implement high pixels to suit various tastes of consumers are gradually increasing. to be. In general, a camera module installed in a vehicle is a device that enables the driver to see the blind spot at the rear of the vehicle that is difficult to grasp through the monitor inside the vehicle, thereby preventing the risk of safety accidents when the vehicle is reversing or parking. to be. In addition, camera modules are currently applied to mobile devices, and such camera modules must be compact and have a high-performance imaging function to suit the user's taste.

Meanwhile, in the case of a camera module using a plurality of lenses, it may be important to match the optical axes of the plurality of lenses. If the optical axes of the plurality of lenses are mismatched, image quality may be problematic. Accordingly, there is a need for a system and method capable of efficiently aligning the optical axis while reducing the lens care operation time.

The above-described background technology is possessed or acquired by the inventor in the process of deriving the present invention, and is not necessarily a known technology disclosed to the general public prior to filing the present invention.

An object of an embodiment is to provide a lens care device and a method capable of shortening the care work time.

An object of an embodiment is to provide a lens alignment device and a method for aligning optical axes of a plurality of lenses by adjusting a relative position of a second lens group with respect to a first lens group.

A lens care method according to an embodiment may include forming a first lens group by sequentially inserting a plurality of lenses into a barrel; Positioning a second lens group including at least one lens on the image side of the first lens group; Irradiating light to the first lens unit and the second lens unit; Detecting the irradiated light to detect an optical axis alignment state of the second lens group with respect to the first lens group; And aligning the position of the second lens group in consideration of the detected optical axis alignment state.

Aligning the position of the second lens unit may include moving the second lens unit in a first horizontal direction; And moving the second lens unit in a second horizontal direction perpendicular to the first horizontal direction.

Adjusting the height of the second lens unit with respect to the first lens unit; And fixing the second lens group to the barrel.

The second lens group may include two lenses bonded to each other.

A lens care system according to an embodiment includes: a first lens group including a plurality of lenses sequentially inserted into a barrel; A second lens group positioned on the image side of the first lens group and including at least one lens; A horizontal position adjusting unit supporting the second lens unit and adjusting a relative horizontal position of the second lens unit with respect to the first lens unit; A height adjustment unit that adjusts the relative height of the second lens unit with respect to the first lens unit; An irradiation unit for irradiating light to the first lens unit and the second lens unit; And a detector configured to detect the irradiated light to detect an optical axis alignment state of the second lens group with respect to the first lens group.

In consideration of the optical axis alignment state detected by the detection unit, a control unit for controlling the horizontal position adjustment unit so that the optical axes of the first lens unit and the second lens unit are aligned may be further included.

It may further include a tilt adjustment unit for adjusting a relative tilting angle of the second lens group with respect to the first lens group.

The second lens group may include two lenses bonded to each other.

The lens care device and method according to an embodiment can shorten the care work time.

The lens care device and method thereof according to an embodiment may improve resolution, brightness, and productivity by adjusting a relative position of the second lens group with respect to the first lens group.

The effect of the lens care device and the method according to an exemplary embodiment is not limited to those mentioned above, and other effects that are not mentioned will be clearly understood by those skilled in the art from the following description.

The following drawings attached to the present specification illustrate a preferred embodiment of the present invention, and serve to further understand the technical idea of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in such drawings. It is limited and should not be interpreted.
1 is a cross-sectional view of a first lens group and a second lens group according to an exemplary embodiment.
2 is a block diagram of a lens care system according to an exemplary embodiment.
3 and 4 are flow charts of a method for caring for a lens according to an exemplary embodiment.

Hereinafter, embodiments will be described in detail through exemplary drawings. In adding reference numerals to elements of each drawing, it should be noted that the same elements are assigned the same numerals as possible even if they are indicated on different drawings. In addition, in describing the embodiment, if it is determined that a detailed description of a related known configuration or function interferes with the understanding of the embodiment, a detailed description thereof will be omitted.

In addition, in describing the constituent elements of the embodiment, terms such as first, second, A, B, (a) and (b) may be used. These terms are only used to distinguish the component from other components, and the nature, order, or order of the component is not limited by the term. When a component is described as being "connected", "coupled" or "connected" to another component, that component may be directly connected or connected to that other component, but another component between each component It should be understood that may be “connected”, “coupled” or “connected”.

Components included in one embodiment and components including common functions will be described using the same name in other embodiments. Unless otherwise stated, descriptions in one embodiment may be applied to other embodiments, and detailed descriptions in the overlapping range will be omitted.

1 is a cross-sectional view of a first lens group and a second lens group according to an exemplary embodiment. 2 is a block diagram of a lens care system according to an exemplary embodiment. Meanwhile, the shape of the lens according to FIG. 1 is merely an example, and the lens may be formed in various shapes.

1 and 2, the lens care system 1 according to an embodiment may align optical axes of a plurality of lenses. The lens precaution system 1 may align the optical axes of the plurality of lenses by adjusting the relative position of the second lens group 12 with respect to the first lens group 11.

The lens care system 1 according to an embodiment may include a first lens group 11, a second lens group 12, and a care device 13.

The first lens group 11 may include a plurality of lenses. The first lens group 11 may include a plurality of lenses sequentially inserted into the barrel B. For example, the first lens group 11 may include four lenses including an objective lens. The first lens group 11 may be sequentially inserted and installed inside the barrel B. The first lens unit 11 may be inserted into the barrel B, and a cap may be fastened to one side of the barrel B.

The second lens group 12 may include at least one lens. For example, the second lens group 12 may include an eyepiece. For example, the second lens group 12 may include two lenses including an eyepiece. The two lenses may be bonded to each other. The second lens group 12 may be formed with high sensitivity so as to be advantageously applied with care. Based on the state of FIG. 1, the second lens group 12 may be positioned on the image side of the first lens group 11. The relative position of the second lens group 12 with respect to the first lens group 11 may be adjusted by the lens care device 13.

The lens alignment device 13 may align the optical axes of the first lens group 11 and the second lens group 12. The lens care device 13 may adjust a relative position of the second lens group 12 with respect to the first lens group 11. That is, the position of the first lens group 11 is fixed, and the optical axis can be aligned by adjusting the relative position of the second lens group 12 with respect to the first lens group 11. The lens care device 13 may move the second lens group 12 in parallel with respect to the first lens group 11 in the three-axis direction. The lens care device 13 may adjust the degree of tilting of the second lens group 12 with respect to the first lens group 11.

The lens care device 13 may include a horizontal position adjustment unit 131, a height adjustment unit 132, a tilting adjustment unit 133, an irradiation unit 134, a detection unit 135, and a control unit 136.

The horizontal position adjusting unit 131 may support the second lens group 12 on the image side of the first lens group 11. The horizontal position adjusting unit 131 may adjust a relative horizontal position of the second lens group 12 with respect to the first lens group 11. The horizontal position adjusting unit 131 may move the second lens group 12 in the first horizontal direction. The horizontal position adjusting unit 131 may move the second lens group 12 in a second horizontal direction perpendicular to the first horizontal direction. That is, the horizontal position adjusting unit 131 may move the second lens group 12 in the x-axis and y-axis directions.

The height adjustment unit 132 may adjust a relative height of the second lens group 12 with respect to the first lens group 11. That is, the height adjustment unit 132 may move the second lens group 12 in the z-axis direction.

The tilting adjustment unit 133 may adjust a relative tilting angle of the second lens group 12 with respect to the first lens group 11. For example, the tilt adjustment unit 133 may rotate the second lens group 12 in the three-axis direction with respect to the first lens group 11.

The irradiation unit 134 may irradiate light to the first lens group 11 and the second lens group 12. For example, the irradiation unit 134 may irradiate light from an upper side of the second lens group 12 to a lower side of the first lens group 11 based on the state of FIG. 1. Alternatively, the irradiation unit 134 may irradiate light from the lower side of the first lens group 11 toward the image side of the second lens group 12. The light irradiated by the irradiation unit 134 may pass through the first lens group 11 and the second lens group 12 to reach the detection unit 135.

The detection unit 135 may detect the light irradiated by the irradiation unit 134. The detection unit 135 may be located on the opposite side of the irradiation unit 134. For example, when the irradiation unit 134 irradiates light from the upper side of the second lens unit 12 toward the lower side of the first lens unit 11, the detection unit 135 is the lower side of the first lens unit 11 Can be located in When the irradiation unit 134 irradiates light from the lower side of the first lens group 11 toward the image side of the second lens group 12, the detection unit 135 may be located on the image side of the second lens group 12. have. The detection unit 135 may detect the irradiated light and detect an optical axis alignment state of the second lens group 12 with respect to the first lens group 11. The optical axis alignment state may include information on whether the optical axis is aligned, a misalignment direction and degree, whether or not tilting, and a tilting angle and direction. For example, the detection unit 135 may analyze the irradiated light and detect in which direction the second lens group 12 is shifted from the first lens group 11 to a certain extent. The detection unit 135 may analyze the irradiated light to detect whether or not the second lens group 12 is tilted with respect to the first lens group 11, and the tilt angle and direction thereof.

The control unit 136 considers the optical axis alignment state detected by the detection unit 135, and includes a horizontal position adjustment unit 131 and a tilting adjustment unit so that the optical axes of the first lens group 11 and the second lens group 12 coincide. (133) can be controlled. The controller 136 may control the horizontal position adjustment unit 131 according to the optical axis alignment state detected by the detection unit 135. For example, the control unit 136 may control the horizontal position adjustment unit 131 to horizontally move the second lens group 12 by a degree of shift in the shift direction detected by the detection unit 135. The controller 136 may control the tilting adjustment unit 133 according to the optical axis alignment state detected by the detection unit 135. For example, the control unit 136 may control the tilt control unit 133 to rotate the second lens group 12 by a tilting angle in the tilting direction detected by the detection unit 135.

The irradiation unit 134 irradiates light, detects the light irradiated by the detection unit 135 to detect the optical axis alignment state, and the control unit 136 feeds back the detected alignment state to determine the first lens group 11 2 The relative position of the lens group 12 can be adjusted. The above process may be repeated until the detection unit 135 detects that the optical axis is aligned. When it is detected that the optical axis is aligned, the control unit 136 may control the height adjustment unit 132 to adjust the height of the second lens unit 12 with respect to the first lens unit 11. For example, the control unit 136 may move the second lens unit 12 downward until the second lens unit 12 is seated on the barrel B. When the second lens unit 12 is seated on the barrel B, the second lens unit 12 may be fixed to the barrel B by bonding between the second lens unit 12 and the barrel B. .

According to this configuration, since the optical axis is aligned by adjusting the relative position of the second lens group 12 with respect to the first lens group 11 rather than an individual lens, the careful work time is remarkably shortened and productivity can be improved. have. In addition, it is possible to improve the resolution and brightness of a plurality of lenses through the optical axis alignment state feedback.

3 and 4 are flow charts of a method for caring for a lens according to an exemplary embodiment.

The lens care method 200 according to an embodiment may align a plurality of lens optical axes using a lens care device. The lens care method 200 may align optical axes of a plurality of lenses by adjusting a relative position of the second lens group with respect to the first lens group.

The lens care method 200 according to an embodiment includes a first lens group forming step 210, a second lens group positioning step 220 on an image side of the first lens group, a light irradiation step 230, and an alignment state detection step. (240), the second lens group position alignment step 250, the second lens group height adjustment 260, and the second lens group fixing step 270 may be included.

Step 210 may be a step of sequentially inserting a plurality of lenses into the barrel to form a first lens group. For example, the first lens group may include four lenses including an objective lens. The first lens unit may be sequentially inserted into the lens barrel.

Step 220 may be a step of positioning a second lens group including two lenses bonded to each other on an image side of the first lens group. For example, the second lens group may include two lenses including an eyepiece. The two lenses are bonded to each other and can be moved integrally.

Step 230 may be a step of irradiating light to the first lens group and the second lens group. The light may be irradiated in a direction from the second lens group toward the first lens group or from the first lens group toward the second lens group.

Step 240 may be a step of detecting an optical axis alignment state of the second lens group with respect to the first lens group by detecting the irradiated light. The optical axis alignment state may include information on whether the optical axis is aligned, a misaligned direction and degree, whether or not tilted, and a tilting angle and direction. For example, in step 240, it may be detected in which direction the second lens group is shifted from the first lens group. In operation 240, whether or not the second lens group is tilted with respect to the first lens group, a tilting angle, and a direction may be detected.

Step 250 may be a step of aligning the position of the second lens group in consideration of the detected optical axis alignment state. In step 250, the second lens group may be horizontally moved by a degree of shift in the shift direction detected in step 240. Specifically, step 250 includes a step 251 of moving the second lens group in a first horizontal direction and a step 252 of moving the second lens group in a second horizontal direction perpendicular to the first horizontal direction. I can. Step 250 may further include rotating the second lens unit by the tilting angle in the tilting direction detected in step 240. Steps 230, 240, and 250 may be repeatedly performed until it is detected that the optical axis is aligned.

Step 260 may be a step of adjusting the height of the second lens group with respect to the first lens group. Step 260 may be performed when it is determined that the optical axes are aligned. The second lens unit can be moved downward until the second lens unit is seated on the barrel.

Step 270 may be a step of fixing the second lens group to the barrel. Bonding treatment is performed between the second lens unit and the barrel to fix the second lens unit to the barrel.

As described above, although the embodiments have been described by the limited drawings, various modifications and variations are possible from the above description to those of ordinary skill in the art. For example, the described techniques are performed in a different order from the described method, and/or components such as the described structure, device, etc. are combined or combined in a form different from the described method, or in other components or equivalents. Even if substituted or substituted by, appropriate results can be achieved.

1: lens care system
11: first lens group
12: second lens group
B: barrel

Claims (8)

Forming a first lens group by sequentially inserting a plurality of lenses including an objective lens into the barrel;
Positioning a second lens group in which two lenses including an eyepiece are bonded to each other on an image side of the first lens group;
Irradiating light from an image side of the second lens group toward a lower side of the first lens group;
Detecting the irradiated light to detect an optical axis alignment state of the second lens group with respect to the first lens group; And
In consideration of the detected optical axis alignment state, including the step of integrally aligning the position of the second lens group,
The second lens group has a higher sensitivity than the first lens group,
The optical axis alignment state includes information on whether the optical axis is aligned, a misaligned direction and degree, whether or not tilted, and information on a tilting angle and direction. The method of claim 1,
Aligning the position of the second lens unit,
Moving the second lens unit in a first horizontal direction; And
And moving the second lens unit in a second horizontal direction perpendicular to the first horizontal direction. The method of claim 2,
Adjusting the height of the second lens unit with respect to the first lens unit; And
Further comprising the step of fixing the second lens unit to the barrel, lens care method. delete A first lens group sequentially inserted into the barrel and including a plurality of lenses including an objective lens;
A second lens group positioned on the image side of the first lens group and in which two lenses including an eyepiece are bonded together;
A horizontal position adjusting unit supporting the second lens unit and adjusting a relative horizontal position of the second lens unit with respect to the first lens unit;
A height adjustment unit that adjusts the relative height of the second lens unit with respect to the first lens unit;
An irradiation unit for irradiating light from an image side of the second lens group toward a lower side of the first lens group; And
A detection unit configured to detect the irradiated light to detect an optical axis alignment state of the second lens group with respect to the first lens group,
The second lens group has a higher sensitivity than the first lens group,
The optical axis alignment state includes information on whether the optical axis is aligned, a misaligned direction and degree, whether or not tilted, and information on a tilting angle and direction,
In consideration of the optical axis alignment state detected by the detection unit, further comprising a control unit for integrally aligning the position of the second lens unit by controlling the horizontal position adjusting unit so that the optical axes of the first lens unit and the second lens unit are aligned That, the lens careful system. delete The method of claim 5,
The lens care system further comprising a tilt control unit for adjusting a relative tilt angle of the second lens group with respect to the first lens group. delete

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