JP5721694B2 - Lens unit sensor element mounting structure and method - Google Patents

Description

  The present invention relates to a sensor element mounting structure and method for mounting a sensor element to a lens unit in an imaging apparatus such as a surveillance camera.

  2. Description of the Related Art Conventionally, in an imaging device such as a surveillance camera that takes a picture by converting a subject into an electrical signal, as disclosed in Patent Document 1, a sensor element receives light taken by a lens and converts it into an electrical signal. Electric signals are converted into image data and recorded.

JP 58-215874 A

In conventional technology, the lens and sensor elements are adjusted in the focus direction, the vertical and horizontal tilt adjustments to prevent single blurring, and the horizontal and vertical adjustments to adjust the angle of view to accurately capture the image. And tilt rotation adjustment is required. That is, it is necessary to adjust the position in the X, Y, and Z directions and the tilt in the X, Y, and Z directions with respect to the optical axis of the lens in six directions.
However, in recent years, due to higher performance due to higher resolution and higher magnification of the lens, the allowable value for attaching the sensor element to the image circle of the lens has decreased. In addition, since the imaging device is composed of multiple parts, the conventional position adjustment of the lens and sensor element may be assembled by adjusting the position by taking out pins etc. from parts other than the lens unit and sensor element. , Variations may be duplicated during assembly.
Therefore, when assembling an imaging device such as a surveillance camera, there has been a problem that it is difficult to accurately adjust the position so that the sensor element accurately receives the light captured by the lens.

  The present invention has been made to solve such a problem, and an object of the present invention is to provide a sensor element mounting structure and method capable of accurately assembling a lens unit and a sensor element by adjusting their positions.

The present invention, in the imaging device, a sensor element mounting structure of the lens unit portion for attaching the lens unit and the sensor element, the sensor element is mounted on a substrate, a fixed member having a front Symbol sensor element and the knob portion is tangent is deposited, after the substrate before Symbol fixing member is mounted the sensor element bonded was mounted on the lens unit, the holding member from the hole provided in the holding member of the knob portion of the fixing member at least Covering the substrate so that a part protrudes , the substrate is not fixed, the holding member is fixed to the lens unit with a screw, and the fixing member and the holding member are fixed, The substrate on which the sensor element is mounted is fixed to the lens unit .

  According to the present invention, the position of the lens and the sensor element can be adjusted while confirming the image. Therefore, the lens unit and the sensor element can be accurately adjusted and assembled.

1 is an external perspective view of a lens unit to which a sensor element is attached in the sensor element attachment structure according to Embodiment 1 of the present invention. It is sectional drawing of FIG. It is the figure which looked at FIG. 1 from the top. It is an external appearance perspective view of the state which decomposed | disassembled FIG. In Embodiment 1 of this invention, it is an external appearance perspective view of the state which decomposed | disassembled the board | substrate and mounting bracket which mounted the sensor element. In Embodiment 1 of this invention, it is the figure which looked at the board | substrate which mounted the sensor element from the bottom face. In Embodiment 1 of this invention, it is a top view of the state which investigated the position of the sensor element using the six-axis adjustment jig. In Embodiment 1 of this invention, it is a side view of the state which investigated the position of the sensor element using the six-axis adjustment jig. In the sensor element attachment structure concerning Embodiment 2 of this invention, it is an external appearance perspective view of the lens unit to which the sensor element was attached. In Embodiment 2 of this invention, it is an external appearance perspective view of the state which decomposed | disassembled the board | substrate 2 which mounts the sensor element 10, and a fixing bracket.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
Embodiment 1 FIG.
FIG. 1 is an external perspective view of a lens unit 1 to which a sensor element 10 (see FIG. 6) is attached in the sensor element attachment structure according to Embodiment 1 of the present invention.
FIG. 2 is a cross-sectional view of FIG.
FIG. 3 is a view of FIG. 1 viewed from the top.
4 is an external perspective view of FIG. 1 in an exploded state.
FIG. 5 is an external perspective view of the state in which the substrate 2 on which the sensor element 10 is mounted and the fixture 3 are disassembled in the first embodiment of the present invention.
FIG. 6 is a view of the substrate 2 on which the sensor element 10 is mounted as viewed from the bottom.
As shown in FIG. 6, the sensor element 10 is mounted on the back surface of the substrate 2. As shown in FIG. 1, a substrate 2 on which a sensor element 10 is provided on the back surface is attached to the lens unit 1 by a fixing bracket 3, a holding bracket 4, and a screw 5. The fixture 3 is provided with a knob portion 6.
The board 2, the fixing metal 3, and the holding metal 4 are respectively provided with a hole 9, a center hole 7 for the fixing metal, and a center hole 8 for the holding metal (see FIGS. 3 to 5).

Hereinafter, a procedure for attaching the sensor element 10 to the lens unit 1 in the first embodiment will be described.
First, as shown in FIG. 5, the fixture 3 is fitted into the hole 9 of the substrate 2, and an adhesive is poured into the center hole 7 of the fixture 3 to bond the sensor element 10 on the back side of the substrate 2 and the fixture 3. .
Next, as shown in FIG. 4, the substrate 2 with the fixing bracket 3 bonded thereto is attached to the lens unit 1, and then the fixing bracket 3 is inserted into the center hole 8 of the holding bracket 4. The holding metal fitting 4 is placed on the lens unit 1, and the holding metal fitting 4 is fixed to the lens unit 1 with screws 5. That is, the holding metal fitting 4 and the lens unit 1 are connected in a state where the holding metal fitting 4 is placed on the substrate 2 such that the fixing metal fitting 3 is inserted into the center hole 8 of the holding metal fitting 4. At this time, the holding metal fitting 4 is fixed to the lens unit 1 with the screw 5, but the substrate 2 with the fixing metal fitting 3 bonded thereto is not fixed to anything and is in a state where it can be moved.

Then, the lens unit 1 is placed on an adjustment jig, the grip portion 6 of the fixing bracket 3 bonded to the sensor element 10 is grasped, and the board 2 on which the sensor element 10 is mounted is projected by connecting a cable to another board. While checking the image, the position of the lens unit 1 and the sensor element 10 is adjusted by adjusting the position of the sensor element 10 in the X, Y, and Z directions and the tilt in the X, Y, and Z directions.
When the sensor element 10 enters the right adjustment range of the lens unit 1 and the fixing position is determined, an adhesive is poured between the fixing metal 3 and the central hole 8 of the holding metal 4 while fixing the position of the fixing metal 3 to fix the lens unit 1. The metal fitting 3 is fixed to the holding metal fitting 4, and the substrate 2 on which the sensor element 10 is mounted is fixed to the lens unit 1. Finally, the lens unit 1 is removed from the adjustment jig.

The position adjustment using the adjustment jig will be specifically described with reference to the drawings.
FIG. 7 is a top view of the state in which the position of the sensor element is checked using the six-axis adjusting jig in the first embodiment of the present invention.
FIG. 8 is a side view showing a state in which the position of the sensor element is checked using the six-axis adjusting jig in the first embodiment of the present invention.
As shown in FIGS. 7 and 8, a six-axis adjusting jig 15 is used for position adjustment.
7 and 8, the six-axis adjusting jig 15 includes an axis adjusting screw 16, a gripping part adjusting screw 17, a gripping part 18, and a six-axis adjusting jig fixing base 19. The bottom surface of the six-axis adjusting jig fixing base 19 is supported by a base 26.
The lens unit 1 is fixed by a lens unit fixing base 21, and a cable such as an FFC (flexible flat cable) 22 is connected to the lens unit substrate 20 and the substrate 2. The cable such as the FFC 22 is connected to the camera substrate 23, and the camera substrate 23 is further connected to the video confirmation personal computer 25 via the LAN cable 24 or the like. Then, the position of the sensor element 10 is adjusted while viewing the image of the image confirmation chart 27 displayed on the image confirmation personal computer 25.

The specific procedure for position adjustment is as follows.
First, the lens unit 1 is attached to the lens unit fixing base 21. Next, a cable such as FFC 22 is connected to the lens unit substrate 20 and the substrate 2 of the lens unit 1 so that the image can be confirmed by the video confirmation personal computer 25. Next, the gripping part adjusting screw 17 of the six-axis adjusting jig 15 is turned, and the gripping part 18 is moved left and right to sandwich the knob part 6 of the fixing bracket 3 of the lens unit 1.
Then, it is confirmed whether or not the video of the video check chart 27 displayed on the video check personal computer 25 is the video shown in the position adjustment check instruction, and if there is a difference from the display content written in the instruction. Then, according to the flowchart shown in the instruction sheet, the position of the sensor element 10 is adjusted by turning the axis adjustment screw 16 of the six-axis adjustment jig 15 until a picture as instructed is obtained.
If it can be confirmed that the image is as shown in the instruction sheet, an adhesive is applied between the fixing bracket 3 and the holding bracket 4 to fix the substrate 2 on which the sensor element 10 is mounted. 1 is fixed.

  As described above, according to the first embodiment, the positions of the lens unit 1 and the sensor element 10 are adjusted while adjusting the position in the X, Y, and Z directions and the inclination in the X, Y, and Z directions while checking the image. Since the fixed position can be determined, the lens unit 1 and the sensor element 10 can be assembled with the position adjusted with high accuracy. Further, pins from other structural parts that have determined the fixing position are not required.

Embodiment 2. FIG.
In the first embodiment, there is no alignment at the time of assembly. However, in the second embodiment, an alignment shape is added to each component to improve assemblability.
FIG. 9 is an external perspective view of a lens unit to which a sensor element is attached in the sensor element attachment structure according to Embodiment 2 of the present invention.
FIG. 10 is an external perspective view of the second embodiment of the present invention in which the substrate 2 on which the sensor element 10 is mounted and the fixture are disassembled.
9 and 10, the same description as that described in FIGS. 1 to 6 is omitted. The second embodiment is different only in that FIG. 1 in the first embodiment is replaced with FIG. 9 and FIG. 5 is replaced with FIG.
As shown in FIG. 9, the lens unit 1 includes a pin 11.
As shown in FIG. 10, the substrate 2 is provided with pin receiving holes 12 through which the pins 11 pass. Further, the fixture 3 is provided with a chamfered portion 13, and the hole 9 of the substrate 2 is provided with an inner surface chamfered portion 14.

Hereinafter, a procedure for attaching the sensor element 10 to the lens unit 1 in the second embodiment will be described.
First, as shown in FIG. 9, the fixing bracket 3 is fitted into the substrate 2 so that the chamfered portion 13 of the fixing bracket 3 is aligned with the inner chamfered portion 14 of the hole 9 of the substrate 2, and the center hole 7 of the fixing bracket 3 is inserted. An adhesive is poured into the sensor element 10 on the back side of the substrate 2 and the fixing bracket 3 are bonded.

  Next, after mounting the substrate 2 with the fixing bracket 3 bonded to the lens unit 1 so that the pin receiving holes 12 of the substrate 2 and the pins 11 of the lens unit 1 are aligned, the center of the holding bracket 4 is The holding metal fitting 4 is placed on the substrate 2 so that the fixing metal fitting 3 enters the hole 8, and the holding metal fitting 4 is fixed to the lens unit 1 with the screw 5. At this time, as in the first embodiment, the holding metal fitting 4 is fixed to the lens unit 1 with the screw 5, and the substrate 2 with the fixing metal fitting 3 bonded thereto is not fixed to anything and can be moved. However, since the pins 11 of the lens unit 1 are in the pin receiving holes 12 of the substrate 2, the substrate 2 is not greatly displaced from the lens unit 1.

Then, the lens unit 1 is placed on the adjustment jig, the knob 6 of the fixing bracket 3 bonded to the sensor element 10 is gripped, and the board 2 on which the sensor element 10 is mounted is projected with another board connected to the cable. The position of the lens unit 1 and the sensor element 10 is adjusted by adjusting the position of the sensor element 10 in the X, Y, and Z directions and the tilt in the X, Y, and Z directions.
When the sensor element 10 enters the right adjustment range of the lens unit 1 and the fixing position is determined, an adhesive is poured between the fixing metal 3 and the central hole 8 of the holding metal 4 while fixing the position of the fixing metal 3 to fix the lens unit 1. The metal fitting 3 is fixed to the holding metal fitting 4, and the substrate 2 on which the sensor element 10 is mounted is fixed to the lens unit 1. Finally, remove it from the adjustment jig.
The specific procedure for position adjustment using the adjustment jig is as described with reference to FIGS.

  As described above, according to the second embodiment, the effect of the first embodiment is that the position of the lens unit 1 and the sensor element 10 can be accurately adjusted and assembled by adding the chamfer of the alignment shape. In addition, since the components have directionality during assembly, the mounting direction is not mistaken, and the assembly is improved. Furthermore, by providing the pin 11 on the lens unit 1, even if excessive force is applied to the knob 6 of the fixing bracket 3 when adjusting the position of the lens unit 1 and the sensor element 10, it does not deviate greatly, and the position adjustment is easy. .

  In the present invention, within the scope of the invention, any combination of the embodiments, or any modification of any component in each embodiment, or omission of any component in each embodiment is possible. .

  DESCRIPTION OF SYMBOLS 1 Lens unit, 2 board | substrate, 3 fixing bracket, 4 holding bracket, 5 screw, 6 knob part, 7 center hole of fixing bracket 3, 8 center hole of holding bracket 4, 9 hole of board | substrate 2, 10 sensor element, 11 pin , 12 pin receiving hole, 13 chamfered portion, 14 inner surface chamfered portion, 15 6-axis adjusting jig, 16-axis adjusting screw, 17 gripping portion adjusting screw, 18 gripping portion, 19 6-axis adjusting jig fixing base, 20 lens unit substrate , 21 Lens unit fixing base, 22 FFC, 23 Camera board, 24 LAN cable, 25 Video confirmation PC, 26 Base, 27 Video confirmation chart.

Claims (6)

In the imaging device, the sensor unit mounting structure of the lens unit portion for mounting the lens unit and the sensor element,
The sensor element is mounted on a substrate,
A fixed member having an knob before Symbol sensor elements are contact wear,
After the substrate before Symbol fixing member is mounted the sensor element bonded was mounted on the lens unit, the holding member is at least a part of said knob portion of said stationary member through a hole provided in the holding member Cover the substrate so as to protrude, do not fix the substrate, the holding member is fixed to the lens unit with screws ,
A sensor element mounting structure for a lens unit, wherein the substrate on which the sensor element is mounted is fixed to the lens unit by fixing the fixing member and the holding member . Wherein the fixing member and the holding member, the sensor device mounting structure of the lens unit section according to claim 1, characterized in that it is fixed by pouring an adhesive between the center hole of the holding member.   The sensor element is mounted so as to cover the hole of the substrate,
  3. The sensor unit mounting structure for a lens unit according to claim 1, wherein the fixing member is fitted into a hole of the substrate, and the sensor element and the fixing member are bonded. The chamfered portion is provided on the fixing member, the inner surface up unit is provided in a hole of said substrate, said fixing member so that the position of the inner chamfer and the chamfer fit is fitted in the hole of the substrate The sensor unit mounting structure for a lens unit according to claim 3 . The lens unit has a pin,
The substrate includes a pin receiving hole,
5. The lens unit is mounted with the substrate bonded to the fixing member so that the pin receiving hole and the pin are aligned with each other. 6. The sensor element mounting structure of the lens unit part according to the item. In the imaging device, a lens unit and a sensor element mounting method of the lens unit for mounting the sensor element,
The sensor element is mounted on the board,
Bonds the front Symbol sensor element and the fixed member,
After the substrate before Symbol fixing member is mounted the sensor element bonded was mounted on the lens unit, the holding member is at least a part of said knob portion of said stationary member through a hole provided in the holding member Cover the substrate so as to protrude, do not fix the substrate, fix the holding member to the lens unit with screws,
The lens unit, to which the holding member is fixed, is placed on an adjustment jig that adjusts the position of the lens unit and the sensor element using the knob portion protruding from the holding member , and the substrate is connected to another substrate. characterized by fixing the substrate relative to the lens unit by said determining a fixing position of the fixing member and the holding member, thereby fixing the holding member and the fixed member by displaying a connection state to the photographing apparatus A sensor element mounting method for the lens unit.

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