MECHANISM AND METHOD FOR FOCUSING OPTICAL SYSTEM USING GEAR AND TIMING BELT

Abstract

The invention proposes a mechanism and method of focusing for optical systems by gear and timing belt. In particular, the focusing mechanism for the optical system by gear and timing belt consists of the following components: the optical front cover module (including the first lens element, the middle lens element, the mechanical of front cover); The optical rear cover module (including last lens element, mechanical of rear cover); The focusing mechanism (including adjustment ring, radial shaft seal, transmission shaft, timing pulley, timing belt, ball bearing, large gear); The protection and mounting mechanical system (including mechanical protection cover, internal mounting mechanical system). The method of focusing for the optical system by mean of gear and timing belt consists of the following steps: Step 1: Integrating the mechanism into the mechanical of the system; Step 2: Adjusting the final lens element; Step 3: Identifying the most convergent position of the optical system.

Claims

1. The focusing mechanism for the optical system by gear and timing belt comprising the following components: An optical front cover module; An optical rear cover module; A focusing mechanism; A protection and mounting mechanical system, each components is demonstrated as follows: The optical front cover module comprises of one or several fixed lenses element mounted on the mechanical housing; the lens element are optically aligned; the optical front cover module is immobile in the focus adjustment process including the first lens element, the middle lens element and mechanical of front cover; The optical rear cover module comprises a last lens element mounted in mechanical of rear cover module and optically aligned with the lens elements of front cover module, the mechanical component which hold the last lens element and a large gear for motion transmission; A focusing mechanism consists of an actuator that transfers the motion from the an adjustment ring to the translational motion between the lens elements of the optical system and adjusts the focus of the beam light on a sensor plane, thereby providing focusing features for the system and the focusing mechanism, including: an adjustment ring, a radial shaft seal, a transmission shaft, a timing pulley, a timing belt, a ball bearing and a large gear; A protection and mounting mechanical system: Including a protection mechanical cover, an inner mechanical mounting inside to mount and fix the components of optical system as well as a focusing mechanism and also protect the system from the effect of outer environment.

2. The focusing mechanism for the optical system using gear and timing belt in accordance with claim 1 has an optical front cover module, including: The first lens element is the outermost part of the optical system, in which the light from the outside enters the optical system; The middle lens element is responsible for adjusting the path of beam light after passing through the first lens with the correct amount of adjustment; The mechanical of front cover keeps the first lens element and the middle lens element in a constant distance and optically aligned together.

3. The focusing mechanism for the optical system by gear and timing belt in accordance with claim 1 has an optical rear cover module, including: The last lens element that converts the beam light coming from the middle lens element and the first lens element onto the sensor plane; Mechanical of the rear cover module is responsible for mounting and fixing the last lens element and conjunction with the mechanical of front cover.

4. The focusing mechanism for the optical system by gear and timing belt according to claim 1, having a focusing mechanism comprising: The adjustment ring is used by user to transfer the motion outside to the last lens element inside the tight mechanical of device; The radial shaft seal enables the rotary motion transmission while maintaining the tightness of the mechanical housing; The transmission shaft has the role of transmitting the motion from the adjustment ring to the rear cover module of optical system via timing pulley and timing belt; The timing pulley transmits the motion from the transmission shaft to the large gears via the timing belt; The timing belt connects the timing pulley and the large gear and transmits the motion from transmission shaft to the rear cover mechanical; The ball bearing keeps the transmission shaft and axis-aligned with the radial shaft seal; The large gear is used to transmit motion from the timing belt to the mechanical of the rear cover module to help rear cover module rotate around the front cover.

5. The focusing mechanism for the optical system by gear and timing belt in accordance with claim 1, has the protection and mounting system, including: The protection mechanical housing that protects the optical system from the outer environment effect; The mounting mechanical component is designed to hold and fix the optical system for axis-alignment inside the device and to position the transmission shaft from the focus ring.

6. A focus method for optical system by gear and timing belt, including the following steps: STEP. 1: integrating the mechanism into the mechanical of optical system; At this step, the mechanism includes an adjustment ring, a radial shaft seal, a transmission shaft, a timing pulley and a timing belt that are integrated to a mechanical housing and the optical system; STEP. 2: Adjusting the last lens element; This step has the function of finding the convergence point of the optical system; And STEP. 3: Determining the most convergent position of the optical system; This step has the function of locating the highest quality of the output digital image.

7. The focusing method for the optical system by gear and timing belt in accordance with claim 6 wherein the last lens element in the optical system is adjusted indirectly; By this way, it can be used for handheld electro-optical devices that have an optical system housed in an enclosed mechanical enclosure that is difficult to adjust directly.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0016] FIG. 1: The overall view of the focusing mechanism for the optical system using gear and timing belt.

[0017] FIG. 2: Internal structure for the optical system using gear and timing belt.

[0018] FIG. 3: Principle of convergence point adjustment of three-element optical lens system (1), (2), (4).

[0019] FIG. 4: Focusing mechanism of the optical system after being attached to the outer mechanical protection and internal mechanical mounting.

[0020] FIG. 5: Diagram of the focusing method for optical systems using gear and timing belt.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

[0021] The focusing mechanism for optical system using gear and timing belt is depicted in FIGS. 1, 2 and 4, including: The optical front cover module; The optical rear cover module; The focusing mechanism and the protection and mounting mechanical.

[0022] It is described in detail as below: [0023] The optical front cover module: This is the fixed component of the optical system, consisting of one or several fixed lens which are mounted on the lens mechanical housing. These lens elements are optical alignment. The optic front cover is an immobile component during the focusing adjustment process. The main components of the optic front cover include: [0024] First lens element (1): The element that is outside of the optical system, where light from the outside environment enters the optical system. With the infrared lens, the first lens is usually made of infrared material such as Ge, GaAs and using spherical, aspherical or diffraction surfaces, coated with DLC coating to ensure rigidity, avoiding scratches from the external environment. The first lens element are mounted to front cover mechanical (3). At the conjunction of first lens element (1) and the mechanical (3), the optical glue like UV is used to fix and protect the optical system from the invasion of environment factors such as dust, water or humidity. [0025] Middle lens element (2): The second lens element in the optical system, mounted on the same mechanical (3) and optically aligned to the first lens element (1). Depending on the design of optical system, the middle lens may be required or not. This element adjusts the beam of light after passing through the first lens element (1) with the correct amount of adjustment before moving to the last lens. The surface of the middle element can be spherical or aspherical depending on the design of each optical system. [0026] The front cover mechanical (3) is the fixed component and keeps the first lens element (1) and middle lens element (2) aligned in a constant distance. [0027] Optical rear cover module: A moving component in the optical system, consists of the last lens element which is mounted on rear cover mechanical. The rear cover mechanical can be rotated and aligned with the front cover mechanical (3). The optical rear cover module consists of the following components: [0028] The last lens element (4): The last lens element of the optical system, in front of the image sensor, which converges the light coming from the middle lens (2) on the sensor plane. In the infrared optics system, this component usually has an aspheric or diffraction surface and is covered with AR coating. [0029] Rear cover mechanical (5): The mechanical component is responsible for holding the last lens element (4). It can be translated and rotated on axis with the front cover mechanical (3). When the rear cover mechanical (5) rotates around the front cover mechanical (3), the lens element (1), (2) and (4) are always aligned in a straight line of optical axis and the last lens will translationally move forward or backward to the lens (1) and (2) depend on the direction rotation of the front and rear cover mechanical. [0030] Focusing mechanism: It consists of actuator that transfers the motion from the outer adjustment ring into the translational motion between the first lens element (1), the middle lens element (2) and the last lens element (4) of the optical system to adjust the focus of the beam light on the sensor plane. It consists of the following components: [0031] Adjustment ring (6): The metal, circular shape component with rough surface. When user rotates this component, it will transfer the motion to the other component of focusing mechanism to shift the convergence point of the optical system. [0032] Radial shaft seal (7): Performing the intermediate junction between the transmission shaft (8) and the protection mechanical of the system (13). The role of the shaft seal (8) is to enable the rotary motion transmission while maintaining the tightness of the mechanical housing. [0033] Transmission shaft (8): Transmission between the adjustment ring (6) to the timing pulley (9) and ball bearing (11). The transmission shaft (8) is fixed and aligned to the radial shaft seal (7) and ball bearing (11). The shaft seal (7) and timing pulley (11) will be attached to the protection mechanical (13) and mounting mechanical (14). [0034] Timing pulley (9): Attached to the transmission shaft (8), to transfer the transmission from the transmission shaft (8) to the large gear (12) via the timing belt (10). [0035] Timing belt (10): Making the connection between the timing pulley (9) and the large gear (12). Then transferring the transmission from the transmission shaft (8) to the mechanical rear cover (5). It is selected for space saving, easy integration (due to the easy adjustment of belt) and requires a lower impact force. [0036] Ball bearing (11): Keep the transmission shaft (8) and is aligned with the radial shaft seal (7). [0037] Big gear (12): fixed to the mechanical rear cover (5), the tooth pitch corresponding to the timing belt (10) and timing pulley (9) pitch size. Its role is to transmit the movement from the timing belt (10) to the mechanical rear cover (5) to allow the rear cover module to rotate around the front cover module (3) and the last lens element (4) can translationally move backward or forward to the first lens element (1) and middle lens element (2)

[0038] Protection and Mounting Mechanical System: [0039] Protection mechanical housing (13): The mechanical component that protects the entire optical system to avoid the impact of external environment. [0040] Mounting mechanical component (14): Is the mounting mechanical of system, which is designed with solid metal material, which serves as a support for the rear of optical system as well as for the transmission shaft (8).

[0041] With the components above, the focusing mechanism for the optical system using gear and timing belt is designed to adjust the distance between the last lens element (4) and the fixed lens element (1) and (2). Therefore, the convergence point of the beam light can be changed to focus on the sensor plane. This displacement is described in FIG. 3. When the last lens element (4) moves within the displacement range d, then the convergence point of the beam will move within about d.

[0042] Therefore, if the sensor is placed in the distance d, then we always find a position of the last lens element (4) with the displacement range d so that the beam is most convergent. When the last lens element (4) moves to the left of d, the convergence point of the optical system moves to the left of d and when the last lens element (4) moves to the right of d, the convergence point will shift to the right of d. The focusing mechanism mentioned in this invention is designed to make this method of focusing adjustment more simple and effective.

[0043] The method is shown in FIG. 5, which consists of the following steps:

[0044] Step 1: Integrating the Mechanism into the System Mechanical

[0045] To integrate the focusing mechanism for the optical system using gear and timing belt into the system mechanical, we use the radial shaft seal (7) and ball bearing (11). The radial shaft seal (7) is usually mounted on the mechanical enclosure of the system, in which the air tightness, water resistance and dust resistance are required. Referring to FIG. 4, the radial shaft seal (7) is attached to the protection mechanical component (13) while the ball bearing (11) is attached to the inner mechanical mounting component (14). Radial shaft seal (7) and ball bearing (11) are aligned to ensure the stable transmission of shaft (8).

[0046] Step 2: Adjusting the Last Lens Element Using Proposed Focusing Mechanism

[0047] To adjust the last lens element (4) to the right of d, the user rotates the adjustment ring (6) clockwise, then the movement of the adjustment ring (6) will be driven through the transmission shaft (8), the timing pulley (9), the timing belt (10), the large gear (12) to make the mechanical rear cover component (5) rotate in the same direction. An actuator mechanism between the front cover module (3) and the rear cover module (5) will cause the last lens element (4) moving towards the middle lens (2) while still ensuring the alignment between both of them. In opposite way, to adjust the last lens element (4) to shift to the left of d, user rotates the adjustment ring (6) counterclockwise, then the last lens element (4) moves far away from the first lens element (1) and the middle lens element (2) in the same principal above.

[0048] Step 3: Determining the Convergent Point of the Optical System

[0049] Based on the output image of the image sensor located behind the optical system, user can determine the most convergent point of the optical system which he or she can feel the best image quality. After that, the lens system is convergent and the device can be use as expectation.

[0050] The invention is described in detail using the mechanism above. However, the person of ordinary skill in the field of invention is not limited to the method described in the description. The invention may be carried out in a modified or altered mode that is not outside the scope of the invention as defined by the claims. Therefore, what is described in the patent description is for illustration only, and will not impose any limitations on the invention.