KR19990034516U - Focusing device for solid-state camera - Google Patents

Abstract

The present invention relates to a focusing apparatus of a solid-state imaging device camera. Conventionally, since the space is narrow, the fixing ring cannot be easily released, and when the moving ring is rotated, the fixed ring coupled to the outer surface of the moving ring is also rotated and rotated together, thereby making it possible to adjust the fine focal length. There was a problem causing discomfort. Therefore, the present invention fixes the movable ring by rotating the fixed ring coupled to the outer surface of the movable ring while advancing forward and backward the front lens unit having the imaging element therein by the rotating operation of the movable ring. Means for restricting the rotation angle of the fixed ring when moving the movable ring in the opposite direction of the image pickup device so as not to rotate with the movable ring after a limited angle; Means for preventing the fixed ring which moves in the same direction while rotating with the movable ring when the movable ring is moved in the direction of the image pickup device, in close contact with the front housing; It is composed of means to facilitate the operation while preventing slipping during the rotation operation of the fixing ring to not only loosen the fixing ring but also to regulate the rotation angle of the fixing ring so as not to be far from the front housing and move. When the ring is moved to the scratch element side, the fixing ring is not in close contact with the front housing, thereby making it possible to finely adjust the focal length more easily.

Description

Focusing device for solid-state camera

The present invention relates to a focusing apparatus of a solid-state imaging device camera.

A focus adjusting device of a conventional solid-state imaging device camera is provided between the lens unit 1 and the front housing 2 as shown in FIG. 1 to rotate the lens unit 1 forward and backward by an operator's rotation operation. It is composed of a moving ring (3) for moving to, and a fixed ring (4) provided on the outside of the moving ring (3) to fix the moving ring (3) not to rotate by the rotation operation. The movable ring 3 is a short cylindrical body having spirals 3A and 3B formed on the front inner side and the rear outer side, respectively, the front side of which is projected outward by a predetermined length along the outer periphery. 3C) is formed, the spiral 3A formed on the front inner side is coupled to the spiral 1A formed on the outside of the rear end of the lens unit 1, and the spiral 3B formed on the rear outer side is The inner side of the fixing ring 4 and the spirals 4A and 2B formed on the inner side of the central through hole 2A of the front housing 2 are respectively engaged. In addition, a solid-state imaging device 5 is provided in the front housing 2 coaxially with the lens unit 1, and the solid-state imaging device 5 includes an upper imaging device holder 6 and a lower imaging device holder. It is supported by (7). In addition, the upper image pickup device holder 6 is fixed to the rear surface of the front housing 2 by a fixing screw 8, and a printed circuit board 9 is attached to the lower image pickup device holder 7 to the image pickup device 5; It is fixed in the state connected with 5 A of lead wires. When adjusting the focus of the conventional solid-state image pickup camera configured as described above, first, after the fixing ring 4 is released, the moving ring 3 is rotated to move the lens unit 1 back and forth to focus. After adjusting the focus of the lens unit 1 by the rotation operation of the movable ring 3, the fixing ring 4 is tightened again to fix the movable ring 3 so as not to move. In other words, in more detail, first, the fixing ring 4 is released to release the moving ring 3 so that the moving ring 3 can be freely moved, and then the moving ring 3 is moved to the imaging device 5. Alternatively, the lens unit 1 may be focused by moving in the opposite direction to the imaging device 5, wherein the fixing ring 4 provided on the outer surface of the moving ring 3 captures the moving ring 3. When the device 5 is moved in the opposite direction, it moves in the same direction with the moving ring 3, away from the front housing 2, and when the moving ring 3 is moved toward the imaging device 5, It is moved in the same direction with the moving ring 3 and gradually closer to the front housing 2, and eventually close to the front portion of the front housing (2). Therefore, the operator is configured to operate the movable ring 3 while continuously holding the fixing ring 4 with the other hand, and after the focus adjustment by the operation of the movable ring 3 is completed, the fixing ring 4 is completed. The position of the movable ring 3 is fixed by rotating and tightening.

However, the focusing device of the conventional solid-state imaging device camera is not only easy to loosen the fixed ring due to the narrow space, but also moves while rotating the fixed ring coupled to the outer surface of the movable ring when the movable ring is rotated. After moving the movable ring in the opposite direction to the image pickup device to adjust the focus, rotate the fixing ring far from the front housing or operate the movable ring while continuously holding the fixing ring with the other hand. Since there must be a problem that causes inconvenience to work when adjusting the fine focal length. Therefore, an object of the present invention is to enable a simple and efficient focusing of the lens unit.

1 is a cross-sectional view showing a focusing device of a conventional solid-state image pickup device camera.

Figure 2 is a cross-sectional view showing a focusing device of the solid-state imaging device camera according to the present invention.

Figure 3a, Figure 3b is showing a fixed ring structure of the present invention,

3A is a front view.

3B is a sectional view.

** description of the symbols for the main parts of the drawings **

10: lens unit 10A, 11B, 12A, 12B, 13B: spiral

11: Front housing 11A: Through hole

11C: Guide protrusion 11D: Snap protrusion

12: moving ring 12C: locking jaw

13: Retaining ring 13A: Insertion hole

13C: Guide hole 13D: Snap groove

13E: Teeth 14: Imaging Device

14A: Lead wire 15, 16: Upper and lower image pickup device holders

17: fixing screw 18: printed circuit board

In order to achieve the object of the present invention, the front housing having the image pickup element therein is moved forward and backward by the rotation operation of the moving ring and at the same time by the rotation operation of the fixed ring spirally coupled to the outer surface of the moving ring. Means for fixing the movable ring, the means for restricting the rotational angle of the fixed ring when the movable ring is moved in the opposite direction of the image pickup device so as not to rotate with the movable ring after a limited angle; Means for preventing the fixed ring which moves in the same direction while rotating with the movable ring when the movable ring is moved in the direction of the image pickup device, in close contact with the front housing; Provided is a focus adjusting device for a solid-state imaging device, characterized in that configured as a means for easy operation while preventing the slip during the rotation operation of the fixing ring. In addition, the means for regulating the rotation angle of the fixing ring is characterized in that by forming an arc-shaped guide hole in the outer ring of the fixing ring, the front housing to form a guide pin inserted into the guide hole. And the front housing adhesion preventing means of the fixing ring is formed on the outer side of the fixing ring several hemispherical snap groove in a circular arc shape along the rotational direction, the front housing is formed a hemispherical snap projection inserted into the snap groove It is characterized by that. In addition, the means for ease of rotation operation and non-slip of the fixing ring is formed so as to protrude the diameter of the fixing ring to the outside of the front housing, characterized in that the teeth of the gear formed along the circumferential surface thereof.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration of the present invention according to the embodiment. Figure 2 is a cross-sectional view showing a focusing device of the solid-state imaging device camera according to the present invention, Figure 3a, Figure 3b shows a fixing ring structure of the present invention. This solid-state imaging device camera is capable of adjusting the focus of the front lens portion 10 of the front housing 11 by the rotation operation of the movable ring 12 as usual, the movable ring 12 is one side Spiral 12A, 12B is formed on the inner side of one side and the other outer side thereof as a short cylindrical body having a latching jaw 12C at the end to protrude outward a predetermined length. The spiral 12A formed on one side of the inner surface of the moving ring 12 is coupled to the spiral 10A formed on the outer surface of the rear end of the lens unit 10, and the other side moving ring 12 of the spiral 12A is coupled to the spiral 12A. The spiral 12B formed on the outer surface of the spiral 11B formed on the inner side surface of the central through hole 11A of the front housing 11 is coupled. In addition, a solid-state imaging device 14 is provided inside the front housing 11 coaxially with the axis of the lens unit 10, and the solid-state imaging device 14 includes an upper imaging device holder 15 and a lower imaging device. The front housing 11 is supported by the holder 16. The upper image pickup device holder 15 is fixed to the rear surface of the front housing 11 by a fixing screw 17, and the lead wire 14A of the solid-state image pickup device 14 is attached to the lower image pickup device holder 16. The printed circuit board 18 is fixed to be connected with. In such a solid-state imaging device camera, the present invention is provided with a fixing ring 13 as shown in Figures 3a and 3b. The fixing ring 13 is a disc body having a predetermined thickness and an insertion hole 13A is formed in the center thereof. The insertion hole 13A is formed to have a diameter corresponding to the movement ring 12 so that the movement ring 12 can be inserted, and an inner side surface of the insertion hole 13A is an outer surface of the movement ring 12. The spiral 13B is formed so as to be coupled to the spiral 12B formed thereon. In addition, an arc-shaped guide hole 13C is formed on the outer side of the insertion hole 13A, that is, on the upper and lower sides of the insertion hole 13A in FIG. 3A in the rotational direction, and on the front part of the front housing 11. As illustrated in FIG. 2, the guide pin 11C inserted into the guide hole 13C of the fixing ring 13 is integrally formed to protrude a predetermined length toward the front side. On the left and right sides of the insertion hole 13A, several snap grooves 13D formed as hemispherical grooves of a predetermined diameter are continuously formed in the rotational direction, and the snap groove 13D is fitted to the front housing 11. The hemispherical snap protrusion 11D is formed to protrude. In addition, the diameter of the fixing ring 13 is formed to a larger diameter so that the rotational operation of the operator can be made more easily, the diameter is irrelevant to the diameter that can protrude to the outside of the front housing (11). A tooth 13E of the gear is formed along the circumferential surface of the fixing ring 13 so as not to slip when the fixing ring 13 is rotated.

The following describes the focus control process and action of the present invention configured as described above.

First, in order to adjust the focus of the lens unit 10 by the moving ring 12, the fixing ring 13 is released to release the fixing of the moving ring 12 so that the moving ring 12 can be freely rotated. After releasing the fixation of the movable ring 12, the movable ring 12 is rotated to move the lens unit 10 forward and backward to focus. In this case, the movable ring 12 is moved to the imaging device 14. When rotated in the opposite direction of), the fixing ring 13 also moves in the same direction while rotating together. Accordingly, the guide pin 11C of the front housing 11 inserted into the guide hole 13C of the fixing ring 13 also moves along the guide hole 13C, and the guide pin 11C is guided. In the state caught in the end of the hole (13C) is to stop the rotation of the fixing ring 13 by stopping the fixing ring 13 by the locking is to stop the continuous rotation and movement. That is, the rotation angle of the fixing ring 13 is to be regulated. On the contrary, when the movable ring 12 is moved in the direction of the image pickup device 14, the fixed ring 13 together with the movable ring 12 moves in the same direction, and the front housing 11 is front. When the side is close to the hemispherical snap groove (13D) formed in the fixing ring 13 is inserted into the hemispherical snap projection (11D) formed in the front portion of the front housing 11, the fixing ring 13 is the front housing ( 11) and the fixing ring 13 is rotated beyond the snap action load after setting the focal length, and the fixing ring 13 continues to rotate to the front part of the front housing 11. It is in close contact with the fixing ring 13 to fix the position. At this time, a tooth 13E of the gear is formed on the circumferential surface of the fixing ring 13 to prevent slipping when the fixing ring 13 is operated. Will be done.

As such, the present invention not only easily releases the fixed ring but also rotates the movable ring in the opposite direction to the image pickup device, thereby restricting the rotation angle of the fixed ring moving in the same direction while rotating together with the movable ring, so that the distance from the front housing is increased. When the moving ring is rotated in the direction of the image pickup device so that the moving ring does not fall, the fixed ring moving in the same direction while rotating with the moving ring is not in close contact with the front part of the front housing, thereby adjusting the focus of the lens unit by the moving ring and Fixing operation of the movable ring has an effect that can be made more simply.

Claims (4)

The front housing having the image pickup device therein, the front and rear lens unit is moved back and forth by the rotation operation of the moving ring and at the same time to fix the moving ring by the rotation operation of the fixed ring spirally coupled to the outer surface of the moving ring. Means for restricting the rotation angle of the fixed ring when moving the movable ring in the opposite direction to the image pickup device so as not to rotate with the movable ring after a limited angle; Means for preventing the fixed ring which moves in the same direction while rotating with the movable ring when the movable ring is moved in the direction of the image pickup device, in close contact with the front housing; A focus adjusting device for a solid-state imaging device camera, characterized in that configured as a means for easy operation while preventing the slip during the rotation operation of the fixing ring. The method of claim 1, wherein the means for regulating the rotation angle of the fixing ring is formed by forming an arc-shaped guide hole on the outer side of the fixing ring, and the front housing to form a guide pin inserted into the guide hole. A focus control device for a solid-state image pickup camera. The method of claim 1, wherein the front housing close contact preventing means of the fixing ring is formed on the outer side of the fixing ring in the form of several hemispherical snap grooves in an arc shape along the rotational direction, the front housing is inserted into the snap groove Focus adjustment device for a solid-state image pickup device, characterized in that formed by forming a snap projection. The method of claim 1, wherein the means for ease of rotation operation and non-slip of the fixing ring is formed so as to protrude the diameter of the fixing ring to the outside of the front housing, and formed the teeth of the gear along the circumferential surface thereof. Focusing device of a solid-state imager camera.