METHOD OF MANUFACTURING VEHICLE-MOUNTED CAMERA HOUSING, VEHICLE-MOUNTED CAMERA HOUSING, AND VEHICLE-MOUNTED CAMERA
First Claim
1. A method of manufacturing a vehicle-mounted camera including a cover housing including a top plate portion, a camera main body portion fixed to the cover housing, and a circuit board connected to the camera main body portion, the vehicle-mounted camera configured to be attached to a windshield and used in a posture in which the top plate portion extends along the windshield, the method comprising the steps of:
- preparing a set of molds including two or more partial molds configured to be combined to define an internal cavity including a tabular portion sandwiched by inner surfaces of the partial molds;
combining the partial molds to define the internal cavity;
injecting a material in a fluidized state into the internal cavity;
solidifying the material;
separating the combined partial molds and taking out an intermediate member;
machining the intermediate member to obtain the cover housing;
fixing the camera main body portion to the cover housing with a fixing member; and
connecting the circuit board to the camera main body;
whereinthe camera main body portion includes a lens unit;
the top plate portion of the cover housing includes a pedestal extending downward;
the camera main body portion includes a camera flat face;
the inner surfaces of the partial molds that sandwich the tabular portion in the internal cavity are surfaces of the partial molds that are different from each other;
one of the inner surfaces includes a recessed portion;
a depth of the recessed portion measured with reference to a flat portion of the one of the inner surfaces is larger than a height of the pedestal;
the machining step includes cutting a distal end of the pedestal to define a pedestal flat face facing a predetermined direction;
in a state in which the camera main body portion is fixed to the cover housing, the pedestal flat face and the camera flat face are in contact with each other; and
the predetermined direction is determined with reference to an inclination angle of the windshield of a target vehicle body, a relative direction of an optical axis of the lens unit with respect to the camera flat face, relative directions of the pedestal flat face and an upper face of the top plate portion, and relative directions of the top plate portion and a surface of the windshield in a state in which the vehicle-mounted camera is attached to the windshield.
1 Assignment
0 Petitions
Accused Products
Abstract
A method of manufacturing a vehicle-mounted camera housing including a cover housing, a camera main body and a circuit board includes providing a set of partial molds which are combined to form an internal cavity. When the combined partial molds are separated, an intermediate member is taken out and machined to obtain the cover housing. A top plate portion of the cover housing includes a pedestal extending downward. The machining includes cutting a distal end of the pedestal such that a flat face of the pedestal faces a predetermined direction with reference to an inclination angle of a windshield of a target vehicle, a relative direction of an optical axis of the camera, relative directions of the pedestal flat face and an upper surface of the top plate portion, and relative directions of the top plate and the windshield surface.
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Citations
49 Claims
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1. A method of manufacturing a vehicle-mounted camera including a cover housing including a top plate portion, a camera main body portion fixed to the cover housing, and a circuit board connected to the camera main body portion, the vehicle-mounted camera configured to be attached to a windshield and used in a posture in which the top plate portion extends along the windshield, the method comprising the steps of:
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preparing a set of molds including two or more partial molds configured to be combined to define an internal cavity including a tabular portion sandwiched by inner surfaces of the partial molds; combining the partial molds to define the internal cavity; injecting a material in a fluidized state into the internal cavity; solidifying the material; separating the combined partial molds and taking out an intermediate member; machining the intermediate member to obtain the cover housing; fixing the camera main body portion to the cover housing with a fixing member; and connecting the circuit board to the camera main body; wherein the camera main body portion includes a lens unit; the top plate portion of the cover housing includes a pedestal extending downward; the camera main body portion includes a camera flat face; the inner surfaces of the partial molds that sandwich the tabular portion in the internal cavity are surfaces of the partial molds that are different from each other; one of the inner surfaces includes a recessed portion; a depth of the recessed portion measured with reference to a flat portion of the one of the inner surfaces is larger than a height of the pedestal; the machining step includes cutting a distal end of the pedestal to define a pedestal flat face facing a predetermined direction; in a state in which the camera main body portion is fixed to the cover housing, the pedestal flat face and the camera flat face are in contact with each other; and the predetermined direction is determined with reference to an inclination angle of the windshield of a target vehicle body, a relative direction of an optical axis of the lens unit with respect to the camera flat face, relative directions of the pedestal flat face and an upper face of the top plate portion, and relative directions of the top plate portion and a surface of the windshield in a state in which the vehicle-mounted camera is attached to the windshield. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49)
both of the material and the protrusion fixing portion include aluminum or an aluminum alloy; the camera flat face is located on a surface of the protrusion fixing portion; and metal surfaces of both of the pedestal flat face and the camera flat face are exposed.
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4. The method of manufacturing the vehicle-mounted camera according to claim 2, wherein
the camera main body portion further includes a protrusion fixing portion extending in a direction away from the optical axis; -
both of the material and the protrusion fixing portion include aluminum or an aluminum alloy; the camera flat face is located on a surface of the protrusion fixing portion; and metal surfaces of both of the pedestal flat face and the camera flat face are exposed.
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5. The method of manufacturing the vehicle-mounted camera according to claim 1, further comprising the steps of:
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determining a plurality of inclination angles for a plurality of windshields with different inclination angles; determining a plurality of predetermined directions corresponding to the plurality of the inclination angles; preparing a plurality of vehicle-mounted cameras corresponding to the plurality of predetermined directions; determining an attachment target inclination angle corresponding to the inclination angle of the windshield of the target vehicle body to which the vehicle-mounted camera is attached; selecting an attachment target direction from the plurality of predetermined directions with reference to the attachment target inclination angle; selecting an attachment target vehicle-mounted camera with the attachment target direction as the predetermined direction; and attaching the attachment target vehicle-mounted camera to the windshield of the target vehicle body.
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6. The method of manufacturing the vehicle-mounted camera according to claim 2, further comprising:
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determining a plurality of inclination angles for a plurality of windshields with different inclination angles; determining a plurality of predetermined directions corresponding to the plurality of the inclination angles; preparing a plurality of vehicle-mounted cameras corresponding to the plurality of predetermined directions; determining an attachment target inclination angle corresponding to the inclination angle of the windshield of the target vehicle body to which the vehicle-mounted camera is attached; selecting an attachment target direction from the plurality of predetermined directions with reference to the attachment target inclination angle; selecting an attachment target vehicle-mounted camera with the attachment target direction as the predetermined direction; and attaching the attachment target vehicle-mounted camera to the windshield of the target vehicle body.
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7. The method of manufacturing the vehicle-mounted camera according to claim 3, further comprising:
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determining a plurality of inclination angles for a plurality of windshields with different inclination angles; determining a plurality of predetermined directions corresponding to the plurality of the inclination angles; preparing a plurality of vehicle-mounted cameras corresponding to the plurality of predetermined directions; determining an attachment target inclination angle corresponding to the inclination angle of the windshield of the target vehicle body to which the vehicle-mounted camera is attached; selecting an attachment target direction from the plurality of predetermined directions with reference to the attachment target inclination angle; selecting an attachment target vehicle-mounted camera with the attachment target direction as the predetermined direction; and attaching the attachment target vehicle-mounted camera to the windshield of the target vehicle body.
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8. The method of manufacturing the vehicle-mounted camera according to claim 4, further comprising:
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determining a plurality of inclination angles for a plurality of windshields with different inclination angles; determining a plurality of predetermined directions corresponding to the plurality of the inclination angles; preparing a plurality of vehicle-mounted cameras corresponding to the plurality of predetermined directions; determining an attachment target inclination angle corresponding to the inclination angle of the windshield of the target vehicle body to which the vehicle-mounted camera is attached; selecting an attachment target direction from the plurality of predetermined directions with reference to the attachment target inclination angle; selecting an attachment target vehicle-mounted camera with the attachment target direction as the predetermined direction; and attaching the attachment target vehicle-mounted camera to the windshield of the target vehicle body.
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9. The method of manufacturing the vehicle-mounted camera according to claim 1, wherein
the circuit board includes a processing circuit configured or programmed to electronically process an image photographed by the camera main body portion; -
the processing circuit includes an image processing program that uses a direction error in processing the image photographed by the camera main body portion; after the camera main body portion is attached to the windshield of the target vehicle body, photographing a target object present in a known direction with respect to the vehicle body and causing the processing circuit to acquire an image; recognizing an on-image position of the target object on the image with the processing circuit; recognizing an original position where the target object should originally be present on the image with the processing circuit based on the known direction; and calculating the direction error using the original position and the on-image position with the processing circuit.
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10. The method of manufacturing the vehicle-mounted camera according to claim 2, wherein
the circuit board includes a processing circuit configured or programmed to electronically process an image photographed by the camera main body portion; -
the processing circuit includes an image processing program that uses a direction error in processing the image photographed by the camera main body portion; after the camera main body portion is attached to the windshield of the target vehicle body, photographing a target object present in a known direction with respect to the vehicle body and causing the processing circuit to acquire an image; recognizing an on-image position of the target object on the image with the processing circuit; recognizing an original position where the target object should originally be present on the image with the processing circuit based on the known direction; and calculating the direction error using the original position and the on-image position with the processing circuit.
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11. The method of manufacturing the vehicle-mounted camera according to claim 3, wherein
the circuit board includes a processing circuit configured or programmed to electronically process an image photographed by the camera main body portion; -
the processing circuit includes an image processing program that uses a direction error in processing the image photographed by the camera main body portion; after the camera main body portion is attached to the windshield of the target vehicle body, photographing a target object present in a known direction with respect to the vehicle body and causing the processing circuit to acquire an image; recognizing an on-image position of the target object on the image with the processing circuit; recognizing an original position where the target object should originally be present on the image with the processing circuit based on the known direction; and calculating the direction error using the original position and the on-image position with the processing circuit.
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12. The method of manufacturing the vehicle-mounted camera according to claim 4, wherein
the circuit board includes a processing circuit configured or programmed to electronically process an image photographed by the camera main body portion; -
the processing circuit includes an image processing program that uses a direction error in processing the image photographed by the camera main body portion; after the camera main body portion is attached to the windshield of the target vehicle body, photographing a target object present in a known direction with respect to the vehicle body and causing the processing circuit to acquire an image; recognizing an on-image position of the target object on the image with the processing circuit; recognizing an original position where the target object should originally be present on the image with the processing circuit based on the known direction; and calculating the direction error using the original position and the on-image position with the processing circuit.
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13. The method of manufacturing the vehicle-mounted camera according to claim 5, wherein
the circuit board includes a processing circuit configured or programmed to electronically process an image photographed by the camera main body portion; -
the processing circuit includes an image processing program that uses a direction error in processing the image photographed by the camera main body portion; after the camera main body portion is attached to the windshield of the target vehicle body, photographing a target object present in a known direction with respect to the vehicle body and causing the processing circuit to acquire an image; recognizing an on-image position of the target object on the image with the processing circuit; recognizing an original position where the target object should originally be present on the image with the processing circuit based on the known direction; and calculating the direction error using the original position and the on-image position with the processing circuit.
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14. The method of manufacturing the vehicle-mounted camera according to claim 6, wherein
the circuit board includes a processing circuit configured or programmed to electronically process an image photographed by the camera main body portion; -
the processing circuit includes an image processing program that uses a direction error in processing the image photographed by the camera main body portion; after the camera main body portion is attached to the windshield of the target vehicle body, photographing a target object present in a known direction with respect to the vehicle body and causing the processing circuit to acquire an image; recognizing an on-image position of the target object on the image with the processing circuit; recognizing an original position where the target object should originally be present on the image with the processing circuit based on the known direction; and calculating the direction error using the original position and the on-image position with the processing circuit.
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15. The method of manufacturing the vehicle-mounted camera according to claim 7, wherein
the circuit board includes a processing circuit configured or programmed to electronically process an image photographed by the camera main body portion; -
the processing circuit includes an image processing program that uses a direction error in processing the image photographed by the camera main body portion; after the camera main body portion is attached to the windshield of the target vehicle body, photographing a target object present in a known direction with respect to the vehicle body and causing the processing circuit to acquire an image; recognizing an on-image position of the target object on the image with the processing circuit; recognizing an original position where the target object should originally be present on the image with the processing circuit based on the known direction; and calculating the direction error using the original position and the on-image position with the processing circuit.
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16. The method of manufacturing the vehicle-mounted camera according to claim 8, wherein
the circuit board includes a processing circuit configured or programmed to electronically process an image photographed by the camera main body portion; -
the processing circuit includes an image processing program that uses a direction error in processing the image photographed by the camera main body portion; after the camera main body portion is attached to the windshield of the target vehicle body, photographing a target object present in a known direction with respect to the vehicle body and causing the processing circuit to acquire an image; recognizing an on-image position of the target object on the image with the processing circuit; recognizing an original position where the target object should originally be present on the image with the processing circuit based on the known direction; and calculating the direction error using the original position and the on-image position with the processing circuit.
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17. The method of manufacturing the vehicle-mounted camera according to claim 1, further comprising:
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painting a surface of the intermediate member corresponding to at least the upper surface of the top plate portion;
whereinthe machining step includes cutting at least a portion of the painted surface of the intermediate member; and the painting step is executed before the camera main body portion is fixed to the cover housing by the fixing member.
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18. The method of manufacturing the vehicle-mounted camera according to claim 2, further comprising:
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painting a surface of the intermediate member corresponding to at least the upper surface of the top plate portion;
whereinthe machining step includes cutting at least a portion of the painted surface of the intermediate member; and the painting step is executed before the camera main body portion is fixed to the cover housing by the fixing member.
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19. The method of manufacturing the vehicle-mounted camera according to claim 3, further comprising:
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painting a surface of the intermediate member corresponding to at least the upper surface of the top plate portion;
whereinthe machining step includes cutting at least a portion of the painted surface of the intermediate member; and the painting step is executed before the camera main body portion is fixed to the cover housing by the fixing member.
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20. The method of manufacturing the vehicle-mounted camera according to claim 7, further comprising:
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painting a surface of the intermediate member corresponding to at least the upper surface of the top plate portion;
whereinthe machining step includes cutting at least a portion of the painted surface of the intermediate member; and the painting step is executed before the camera main body portion is fixed to the cover housing by the fixing member.
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21. The method of manufacturing the vehicle-mounted camera according to claim 16, further comprising:
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painting a surface of the intermediate member corresponding to at least the upper surface of the top plate portion;
whereinthe machining step includes cutting at least a portion of the painted surface of the intermediate member; and the painting step is executed before the camera main body portion is fixed to the cover housing by the fixing member.
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22. The method of manufacturing the vehicle-mounted camera according to claim 1, further comprising:
painting more than half of a lower surface of the top plate portion.
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23. The method of manufacturing the vehicle-mounted camera according to claim 2, further comprising:
painting more than half of a lower surface of the top plate portion.
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24. The method of manufacturing the vehicle-mounted camera according to claim 3, further comprising:
painting more than half of a lower face of the top plate portion.
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25. The method of manufacturing the vehicle-mounted camera according to claim 8, further comprising:
painting more than half of a lower face of the top plate portion.
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26. The method of manufacturing the vehicle-mounted camera according to claim 15, further comprising:
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painting a surface of the intermediate member corresponding to at least the upper face of the top plate portion; and painting more than half of a lower face of the top plate portion;
whereinthe machining step includes cutting at least a portion of the painted surface of the intermediate member; and the painting step is executed before the camera main body portion is fixed to the cover housing by the fixing member portion
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27. The method of manufacturing the vehicle-mounted camera according to claim 21, further comprising:
painting more than half of a lower face of the top plate portion.
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28. The method of manufacturing the vehicle-mounted camera according to claim 1, further comprising:
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painting a surface of the intermediate member corresponding to at least the upper face of the top plate portion;
whereinthe machining step includes cutting at least a portion of the painted surface of the intermediate member; the painting step is executed before the camera main body portion is fixed to the cover housing by the fixing member; and the machining step is carried out after the painting step.
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29. The method of manufacturing the vehicle-mounted camera according to claim 2, further comprising:
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painting a surface of the intermediate member corresponding to at least the upper face of the top plate portion;
whereinthe machining step includes cutting at least a portion of the painted surface of the intermediate member; the painting step is executed before the camera main body portion is fixed to the cover housing by the fixing member; and the machining step is carried out after the painting step.
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30. The method of manufacturing the vehicle-mounted camera according to claim 3, further comprising:
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painting a surface of the intermediate member corresponding to at least the upper face of the top plate portion;
whereinthe machining step includes cutting at least a portion of the painted surface of the intermediate member; the painting step is executed before the camera main body portion is fixed to the cover housing by the fixing member; and the machining step is carried out after the painting step.
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31. The method of manufacturing the vehicle-mounted camera according to claim 7, further comprising:
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painting a surface of the intermediate member corresponding to at least the upper face of the top plate portion;
whereinthe machining step includes cutting at least a portion of the painted surface of the intermediate member; the painting step is executed before the camera main body portion is fixed to the cover housing by the fixing member; and the machining step is carried out after the painting step.
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32. The method of manufacturing the vehicle-mounted camera according to claim 9, further comprising:
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painting a surface of the intermediate member corresponding to at least the upper face of the top plate portion;
whereinthe machining step includes cutting at least a portion of the painted surface of the intermediate member; the painting step is executed before the camera main body portion is fixed to the cover housing by the fixing member; and the machining step is carried out after the painting step.
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33. The method of manufacturing the vehicle-mounted camera according to claim 10, further comprising:
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painting a surface of the intermediate member corresponding to at least the upper face of the top plate portion;
whereinthe machining step includes cutting at least a portion of the painted surface of the intermediate member; the painting step is executed before the camera main body portion is fixed to the cover housing by the fixing member; and the machining step is carried out after the painting step.
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34. The method of manufacturing the vehicle-mounted camera according to claim 13, further comprising:
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painting a surface of the intermediate member corresponding to at least the upper face of the top plate portion;
whereinthe machining step includes cutting at least a portion of the painted surface of the intermediate member; the painting step is executed before the camera main body portion is fixed to the cover housing by the fixing member; and the machining step is carried out after the painting step.
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35. The method of manufacturing the vehicle-mounted camera according to claim 15, further comprising:
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painting a surface of the intermediate member corresponding to at least the upper face of the top plate portion;
whereinthe machining step includes cutting at least a portion of the painted surface of the intermediate member; the painting step is executed before the camera main body portion is fixed to the cover housing by the fixing member; and the machining step is carried out after the painting step.
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36. The method of manufacturing the vehicle-mounted camera according to claim 16, further comprising:
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painting a surface of the intermediate member corresponding to at least the upper face of the top plate portion;
whereinthe machining step includes cutting at least a portion of the painted surface of the intermediate member; the painting step is executed before the camera main body portion is fixed to the cover housing by the fixing member; and the machining step is carried out after the painting step.
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37. The method of manufacturing the vehicle-mounted camera according to claim 16, further comprising:
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painting a surface of the intermediate member corresponding to at least the upper face of the top plate portion;
whereinthe machining step includes cutting at least a portion of the painted surface of the intermediate member; the painting step is executed before the camera main body portion is fixed to the cover housing by the fixing member; and the machining step is carried out after the painting step.
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38. The method of manufacturing the vehicle-mounted camera according to claim 1, wherein
a first angle defined by a rear side main body surface of the pedestal on an opposite side of a photographing direction of the camera main body portion and a lower face of the top plate portion is larger than 90 degrees; - and
a sum of the first angle and a second angle defined by a front side surface of the pedestal in the photographing direction of the camera main body portion and the lower face of the top plate portion is larger than 180 degrees.
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39. The method of manufacturing the vehicle-mounted camera according to claim 2, wherein
a first angle defined by a rear side main body surface of the pedestal on an opposite side of a photographing direction of the camera main body portion and a lower face of the top plate portion is larger than 90 degrees; - and
a sum of the first angle and a second angle defined by a front side surface of the pedestal in the photographing direction of the camera main body portion and the lower face of the top plate portion is larger than 180 degrees.
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40. The method of manufacturing the vehicle-mounted camera according to claim 3, wherein
a first angle defined by a rear side surface of the pedestal on an opposite side of a photographing direction of the camera main body portion and a lower face of the top plate portion is larger than 90 degrees; - and
a sum of the first angle and a second angle defined by a front side surface of the pedestal in the photographing direction of the camera main body portion and the lower face of the top plate portion is larger than 180 degrees.
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41. The method of manufacturing the vehicle-mounted camera according to claim 7, wherein
a first angle defined by a rear side main body surface of the pedestal on an opposite side of a photographing direction of the camera main body portion and a lower face of the top plate portion is larger than 90 degrees; - and
a sum of the first angle and a second angle defined by a front side surface of the pedestal in the photographing direction of the camera main body portion and the lower face of the top plate portion is larger than 180 degrees.
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42. The method of manufacturing the vehicle-mounted camera according to claim 9, wherein
a first angle defined by a rear side surface of the pedestal on an opposite side of a photographing direction of the camera main body portion and a lower face of the top plate portion is larger than 90 degrees; - and
a sum of the first angle and a second angle defined by a front side surface of the pedestal in the photographing direction of the camera main body portion and the lower face of the top plate portion is larger than 180 degrees.
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43. The method of manufacturing the vehicle-mounted camera according to claim 10, wherein
a first angle defined by a rear side surface of the pedestal on an opposite side of a photographing direction of the camera main body portion and a lower face of the top plate portion is larger than 90 degrees; - and
a sum of the first angle and a second angle defined by a front side surface of the pedestal in the photographing direction of the camera main body portion and the lower face of the top plate portion is larger than 180 degrees.
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44. The method of manufacturing the vehicle-mounted camera according to claim 13, wherein
a first angle defined by a rear side surface of the pedestal on an opposite side of a photographing direction of the camera main body portion and a lower face of the top plate portion is larger than 90 degrees; - and
a sum of the first angle and a second angle defined by a front side surface of the pedestal in the photographing direction of the camera main body portion and the lower face of the top plate portion is larger than 180 degrees.
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45. The method of manufacturing the vehicle-mounted camera according to claim 15, wherein
a first angle defined by a rear side surface of the pedestal on an opposite side of a photographing direction of the camera main body portion and a lower face of the top plate portion is larger than 90 degrees; - and
a sum of the first angle and a second angle defined by a front side surface of the pedestal in the photographing direction of the camera main body portion and the lower face of the top plate portion is larger than 180 degrees.
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46. The method of manufacturing the vehicle-mounted camera according to claim 16, wherein
a first angle defined by a rear side surface of the pedestal on an opposite side of a photographing direction of the camera main body portion and a lower face of the top plate portion is larger than 90 degrees; - and
a sum of the first angle and a second angle defined by a front side surface of the pedestal in the photographing direction of the camera main body portion and the lower face of the top plate portion is larger than 180 degrees.
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47. The method of manufacturing the vehicle-mounted camera according to claim 21, wherein
a first angle defined by a rear side surface of the pedestal on an opposite side of a photographing direction of the camera main body portion and a lower face of the top plate portion is larger than 90 degrees; - and
a sum of the first angle and a second angle defined by a front side surface of the pedestal in the photographing direction of the camera main body portion and the lower face of the top plate portion is larger than 180 degrees.
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48. The method of manufacturing the vehicle-mounted camera according to claim 27, wherein
a first angle defined by a rear side surface of the pedestal on an opposite side of a photographing direction of the camera main body portion and a lower face of the top plate portion is larger than 90 degrees; - and
a sum of the first angle and a second angle defined by a front side surface of the pedestal in the photographing direction of the camera main body portion and the lower face of the top plate portion is larger than 180 degrees.
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49. The method of manufacturing the vehicle-mounted camera according to claim 37, wherein
a first angle defined by a rear side surface of the pedestal on an opposite side of a photographing direction of the camera main body portion and a lower face of the top plate portion is larger than 90 degrees; - and
a sum of the first angle and a second angle defined by a front side surface of the pedestal in the photographing direction of the camera main body portion and the lower face of the top plate portion is larger than 180 degrees.
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Specification