Source: https://patents.google.com/patent/JP5704886B2/en
Timestamp: 2020-01-25 05:13:19
Document Index: 372996373

Matched Legal Cases: ['arts 34', 'art 35', 'art 36', 'art 35', 'arts 39', 'arts 26', 'arts 34', 'arts 25', 'arts 26', 'art 57', 'art 59', 'art 57', 'art. 59', 'arts 52', 'arts 57', 'arts 56', 'arts 57', 'arts 59', 'arts 56', 'arts 58', 'art 38', 'art)\n41', 'art)\n42', 'art)\n57', 'art)\n58', 'art)\n61', 'art)\n63', 'art)\n90', 'art)\n92']

JP5704886B2 - In-vehicle camera mounting structure - Google Patents
In-vehicle camera mounting structure Download PDF
JP5704886B2
JP5704886B2 JP2010239073A JP2010239073A JP5704886B2 JP 5704886 B2 JP5704886 B2 JP 5704886B2 JP 2010239073 A JP2010239073 A JP 2010239073A JP 2010239073 A JP2010239073 A JP 2010239073A JP 5704886 B2 JP5704886 B2 JP 5704886B2
JP2010239073A
JP2012091597A (en
本泰 大西
忠弘 真取
2010-10-25 Application filed by 日本電産エレシス株式会社, 本田技研工業株式会社 filed Critical 日本電産エレシス株式会社
2010-10-25 Priority to JP2010239073A priority Critical patent/JP5704886B2/en
2012-05-17 Publication of JP2012091597A publication Critical patent/JP2012091597A/en
2015-04-22 Publication of JP5704886B2 publication Critical patent/JP5704886B2/en
The present invention relates to a mounting structure for an in-vehicle camera.
In a vehicle such as an automobile, a camera for imaging a situation outside the vehicle may be mounted on the vehicle. This camera constitutes, for example, a drive recorder that records video in front of the vehicle. When such a camera is mounted on a vehicle, there is a type in which a mounting portion is fixed to a windshield with a double-sided tape, and the camera is fixed to the mounting portion with a bolt (for example, see Patent Document 1).
JP 2010-195235 A
If the camera is fixed with bolts as described above, there is a problem that it is troublesome to attach and detach the camera.
An object of the present invention is to provide an in-vehicle camera mounting structure in which a camera can be easily attached and detached, and positioning at the time of mounting can be satisfactorily performed.
In order to achieve the above object, the invention according to claim 1 includes a base (for example, the base 12 in the embodiment) fixed to the vehicle body side, a camera (for example, the camera 11 in the embodiment), and the camera relative to the base. And a slide mechanism (for example, slide mechanisms 47 and 95 in the embodiment) that is detachably engaged with the slide, and provided on either one of the base and the camera, the front side with respect to the slide direction when the camera is mounted. Protruding portions (for example, the front protruding portions 28, 52, 83 and the rear protruding portions 29, 53, 84 in the embodiment) disposed on the left and right and rear left and right, and provided on either the base or the camera. The position of the camera with respect to the base in contact with the left and right protrusions on the front and left and right respectively. Contact portions (for example, the front side surface portion 39, the rear side surface portion 41, the front side contact portion 57, the rear side contact portion 59, the front side facing surface 89, and the rear side facing surface 90 in the embodiment). It is characterized by.
According to a first aspect of the present invention, the base further includes a slide guide portion (for example, a slide in the embodiment) in which the front side in the sliding direction at the time of mounting is wider than the rear side in the sliding direction at the time of mounting. The camera has a guide portion 26), and the camera has a facing surface (for example, a facing surface 38 in the embodiment) that has a wider distance on the front side in the sliding direction when mounted than on the rear side. A slide wall portion (for example, the slide wall portion 34 in the embodiment) formed with a slide recess (for example, the slide recess portion 42 in the embodiment), and the slide mechanism (for example, the slide mechanism 47 in the embodiment) is provided on the left and right sides. It is characterized by comprising a slide guide part and left and right slide recesses.
The invention according to claim 2 is the invention according to claim 1 , wherein the left and right protrusions (for example, the front protrusion 28 in the embodiment) in the sliding direction when mounted are rear left and right protrusions (for example, The rear projecting portion 29) in the embodiment is formed on the base with a wider interval, and the left and right contact portions on the front side in the sliding direction when mounted are more than the left and right contact portions on the rear side. The interval is widened and formed in the camera.
The invention according to claim 3 is the invention according to claim 2 , wherein the abutment portion (for example, the front side surface portion 39 and the rear side surface portion 41 in the embodiment) is configured by opposing surfaces of the left and right slide wall portions. It is characterized by that.
The invention according to claim 4 is the invention according to claim 2 , wherein the contact portion is inclined to the left and right inclined surfaces (for example, the inclination in the embodiment) that inclines so as to widen the distance in the left-right direction toward the front side in the sliding direction at the time of mounting. It is characterized by comprising a surface 61).
The invention according to claim 5 is the invention according to claim 1 , wherein the left and right projections on the front side in the sliding direction when mounted are formed on the base at equal intervals with the left and right projections on the rear side. The left and right contact portions on the front side in the sliding direction when mounted are formed on the camera at equal intervals with the left and right contact portions on the rear side, and the left and right contact portions on the front side in the sliding direction when mounted. A clearance portion (for example, the front clearance portion 56 in the embodiment) that widens the space in the left-right direction is formed on the front side of the contact portion, and the space in the left-right direction is also formed on the front side of the left and right contact portions on the rear side in the sliding direction when mounted. An escape portion (for example, the rear escape portion 58 in the embodiment) is formed.
The invention according to claim 6 is the invention according to claim 5 , wherein the left and right contact portions on the front side in the sliding direction at the time of mounting and the left and right relief portions on the front side are closer to the front side in the sliding direction at the time of mounting. left and a right inclined surface which is inclined to widen the distance between the right and left direction (front inclined surface 63 in the example embodiment), the left and right rear side of the mounting when sliding direction the left and right abutment and the rear side thereof The escape portion is composed of left and right inclined surfaces (for example, the rear inclined surface 64 in the embodiment) that are inclined so as to widen the distance in the left-right direction toward the front side in the sliding direction when mounted.
The invention according to claim 7 is provided on any one of the base and the camera, a base fixed to the vehicle body side, a camera, a slide mechanism for detachably engaging the camera with the base by sliding. Projections disposed on the left and right sides of the front side and the left and right sides of the rear side with respect to the slide direction when the camera is mounted, and the left and right sides of the front side and the rear side provided on the other of the base and the camera. A contact portion that contacts the projection in the left-right direction to position the camera with respect to the base, and the base has a slide guide portion (left-right with respect to the sliding direction when mounted). For example, the front slide guide portion 81 and the rear slide guide portion 82) in the embodiment are spaced apart in the front-rear direction in the sliding direction when mounted. Several rows are provided, and the camera is formed with slide recesses (for example, the front slide recess 92 and the rear slide recess 93 in the embodiment) on the opposing surfaces (for example, the front facing surface 89 and the rear facing surface 90 in the embodiment). A plurality of slide wall portions (for example, the front slide wall portion 87 and the rear slide wall portion 88 in the embodiment) arranged on the left and right with respect to the sliding direction at the time of mounting are arranged at intervals before and after the sliding direction at the time of mounting. The slide mechanism (for example, the slide mechanism 95 in the embodiment) is configured by the plurality of rows of slide guide portions and slide recess portions of the plurality of rows of slide wall portions.
The invention according to claim 8 is the invention according to claim 7 , wherein the left and right protrusions on the front side in the sliding direction when mounted are formed on the base at equal intervals with the left and right protrusions on the rear side. The abutting portion is configured by equidistant facing surfaces of the plurality of rows of slide wall portions.
According to the first aspect of the present invention, since the camera is slid with respect to the base fixed to the vehicle body side and engaged by the slide mechanism, the camera can be easily attached and detached. In addition, at this time, the protrusions provided on either the left or right side of the front side and the left and right side of the rear side with respect to the sliding direction when the camera is mounted are provided on either the base or the camera. The camera is positioned with respect to the base by abutting in the left-right direction on the abutting portion provided on the other side. In this way, positioning in the left-right direction and the rotation direction can be performed satisfactorily, and rattling can be prevented. In addition, since the protrusions arranged on the front left and right and rear left and right respectively contact the contact part in the left-right direction, the contact area is small, the slide resistance can be reduced, and the attachment / detachment operation is easy. Become.
According to the first aspect of the present invention , the slide mechanism further includes left and right slide guide portions provided on the base and slide concave portions of the left and right slide wall portions provided on the camera. The left and right slide guide portions and the opposite surfaces of the left and right slide wall portions in which the slide recesses are formed have a wider space on the front side in the sliding direction than the rear side when mounted. In contrast to the narrow gap portion, the slide concave portion in the wide gap portion between the opposing surfaces of the left and right slide wall portions has a structure that does not require sliding. Therefore, the slide distance at the time of attachment / detachment by the slide mechanism can be shortened. Therefore, the attachment / detachment operation is further facilitated.
According to the second aspect of the present invention, the left and right protrusions on the front side in the sliding direction at the time of mounting are formed on the base with a wider interval than the left and right protrusions on the rear side, Since the front left and right abutting portions are formed on the camera with a wider interval than the rear left and right abutting portions, the front left and right projections with a small interval are The contact portion has a structure that does not require contact. Therefore, positioning can be performed corresponding to the shortening of the slide distance when the slide mechanism is attached or detached.
According to the third aspect of the present invention, the abutting portion in which the front side in the sliding direction when mounted is wider than the rear side, the left and right sides where the front side in the sliding direction when mounted is wider than the rear side. Therefore, the structure can be simplified.
According to the invention of claim 4 , since the abutment portion is composed of left and right inclined surfaces that incline so as to widen the space in the left-right direction toward the front side in the sliding direction at the time of mounting, the mounting is performed until immediately before stopping by positioning. The left and right protrusions on the front side and the rear side in the sliding direction do not all come into contact with the contact portion at the same time. Therefore, since generation | occurrence | production of the slide resistance by these contact | abutting can be suppressed, attachment / detachment operation becomes still easier.
According to the invention of claim 5 , the left and right protrusions on the front side in the mounting sliding direction are formed on the base at equal intervals with the left and right protrusions on the rear side, Even if the abutting portion is formed on the camera at equal intervals with the left and right abutting portions on the rear side, there is a relief portion that widens the interval in the left-right direction on the front side of the left and right abutting portions on the front side in the sliding direction when mounted. Since a relief portion is formed on the front side of the left and right abutting portions on the rear side in the sliding direction at the time of mounting, the projection portion before abutting on the abutting portion is formed at the relief portion. I can escape. Therefore, positioning can be performed corresponding to the shortening of the slide distance when the slide mechanism is attached or detached. In addition, the left and right protrusions on the front side in the sliding direction when mounted are formed on the base at equal intervals with the left and right protrusions on the rear side, and the left and right contact parts on the front side in the sliding direction when mounted are on the rear side. Since the camera is formed at equal intervals with the left and right contact portions, the positioning accuracy by these can be improved.
According to the invention of claim 6 , the left and right abutment portions on the front side in the sliding direction at the time of mounting and the left and right relief portions on the front side increase in the left-right direction as the front side in the sliding direction at the time of mounting. The left and right contact portions on the rear side in the sliding direction when mounted and the left and right relief portions on the rear side in the mounting direction are widened toward the front side in the sliding direction when mounted. The right and left protrusions on the front side and the rear left and right protrusions in the sliding direction at the time of mounting do not all come into contact with the contact portion at the same time until just before stopping by positioning. Therefore, since generation | occurrence | production of the slide resistance by these contact | abutting can be suppressed, attachment / detachment operation becomes still easier.
According to the seventh aspect of the present invention, the base is provided with a plurality of rows of left and right slide guide portions at intervals before and after in the sliding direction at the time of mounting, and the camera has a slide recess on the opposite surface. Since the formed left and right slide wall portions are provided in a plurality of rows at intervals before and after the slide direction when mounted, the slide guide portions in each row and the slide wall portions in each row are arranged to be shifted back and forth. If it is made to slide after that, a plurality of front and rear rows of slide recesses can be engaged with the front and rear rows of slide guide portions. Therefore, the sliding distance at the time of attachment / detachment can be shortened. Therefore, the attachment / detachment operation is further facilitated.
According to the invention according to claim 8 , the left and right protrusions on the front side in the sliding direction at the time of mounting are formed on the base at equal intervals with the left and right protrusions on the rear side, and the contact parts are in a plurality of rows. Since it is comprised by the opposing surface of a slide wall part at equal intervals, the positioning accuracy by these can be improved. Moreover, since the contact portion is constituted by the facing surface of the slide wall portion, the structure can be simplified.
It is a perspective view which shows 1st Embodiment of this invention, Comprising: (a) is a disassembled state, (b) is a state before engagement, (c) is a state after engagement. It is a top view which shows 1st Embodiment of this invention, (a) is the state before engagement, (b) shows the state after engagement. It is a perspective view which shows 2nd Embodiment of this invention, (a) is a decomposition | disassembly state, (b) shows the state after engagement. It is a bottom view which shows the base of 2nd Embodiment of this invention. It is a top view which shows the engagement state of the front side projection part of a base with respect to the camera of 2nd Embodiment of this invention, and a rear side projection part. It is a perspective view which shows 3rd Embodiment of this invention, (a) is a decomposition | disassembly state, (b) shows the state after engagement. It is a bottom view which shows the base of 3rd Embodiment of this invention. It is a top view which shows the engagement state of the front side projection part of a base with respect to the camera of 3rd Embodiment of this invention, and a rear side projection part. It is a perspective view which shows 4th Embodiment of this invention, (a) is a decomposition | disassembly state, (b) shows the state after engagement. It is a bottom view which shows the base of 4th Embodiment of this invention. It is a top view which shows the engagement state of the front side projection part of a base with respect to the camera of 4th Embodiment of this invention, and a rear side projection part. It is a perspective view which shows 5th Embodiment of this invention, Comprising: (a) is a decomposition | disassembly state, (b) is a state before engagement, (c) shows the state after engagement. It is a top view which shows 5th Embodiment of this invention, (a) is the state before engagement, (b) shows the state after engagement.
An in-vehicle camera mounting structure according to a first embodiment of the present invention will be described below with reference to FIGS. 1 and 2.
In the figure, reference numeral 11 denotes a camera, and reference numeral 12 denotes a base for mounting the camera 11 on the vehicle. As shown in FIGS. 1A to 1C, the camera 11 is detachable by being slid with respect to the base 12. Here, an arrow F in the figure indicates a sliding direction when the camera 11 is mounted, which is a sliding direction of the camera 11 when mounted. Note that the base 12 is fixed to, for example, a front-lowering windshield (not shown) on the vehicle body side, and is attached to the front side of the vehicle with the sliding direction F when mounted.
As shown in FIG. 1A, the base 12 has a bilaterally symmetric shape as a whole, and extends in a lateral direction from a substantially rectangular plate-shaped attachment portion 15 having a low height and a lower portion of the attachment portion 15. And a plate-like guide plate portion 16. The base 12 is integrally formed with the mounting portion 15 and the guide plate portion 16, and is specifically a metal casting. The base 12 is attached by attaching the upper surface of the attachment portion 15 to the windshield with a double-sided adhesive sheet or the like.
In the guide plate portion 16, the front end edge portion 21 and the rear end edge portion 22 are parallel to each other, and the left and right sides are respectively rearwardly orthogonal to the front end edge portion 21 from the left and right outer ends of the front end edge portion 21. A front vertical edge 23 that extends, an intermediate horizontal edge 24 that extends inward in the left-right direction from the rear end of the front vertical edge 23, and a rearward extension that extends rearward from the inner end of the intermediate horizontal edge 24. A rear vertical edge 25 connected to the outer edge of the end edge 22 in the left-right direction. Both side portions including a pair of left and right front vertical edge portions 23, 23, a pair of left and right intermediate horizontal edge portions 24, 24 and a pair of left and right rear vertical edge portions 25, 25 of the guide plate portion 16 are more left and right than the mounting portion 15. A pair of slide guide portions 26, 26 extending in the direction is configured. In other words, the base 12 has the slide guide portions 26 and 26 that are spaced left and right with respect to the sliding direction F when mounted and the front side of the sliding direction F when mounted is wider than the rear side.
A pair of front projections 28 and 28 projecting upward from the upper surface are formed inside corners formed by the front end edge 21 of the guide plate 16 and the pair of front vertical edges 23 and 23, respectively. Has been. Further, a pair of rear projections 29 projecting upward from the upper surface inside corners formed by the rear end edge portion 22 of the guide plate portion 16 and the pair of rear vertical edge portions 25, 25, respectively. 29 is formed. In other words, the base 12 is provided with the front protrusions 28 on the left and right sides of the front side with respect to the sliding direction F when mounted, and the rear protrusions 29 on the left and right sides of the rear, respectively. The front protrusions 28 and 28 and the rear protrusions 29 and 29 are each formed by casting.
As shown in FIG. 2 (a), the front left and right front protrusions 28, 28 have a tapered triangular prism shape that becomes thinner toward the outer side in the left-right direction, and the rear left and right rear protrusions 29, 29 are also formed. It has a tapered triangular prism shape that becomes thinner toward the outside in the left-right direction. The front left and right front protrusions 28 and 28 are formed on the base 12 so that the distance between the outer ends in the left and right direction is wider than that of the rear left and right rear protrusions 29 and 29.
As shown in FIG. 1A, the camera 11 has a camera body 31 in which various parts for imaging are incorporated, and a lens unit 32 that is connected to the front end of the camera body 31 so that the angle can be adjusted up and down. The lens unit 32 is mounted on the vehicle so that it faces the front of the vehicle. The outer side of the camera body 31 is covered with a case 33, and a pair of left and right slide wall portions 34, 34 projecting upward and extending in the front-rear direction are formed on the upper surface of the case 33. The case 33 has a symmetrical shape as a whole. The entire case 33 including the pair of left and right slide wall portions 34, 34 is integrally formed, and is specifically a metal casting.
The pair of left and right slide wall parts 34, respectively, includes a front side wall part 35 extending in the front-rear direction, an intermediate wall part 36 inclined so as to be located inward in the left-right direction from the rear end of the front side wall part 35, and the middle And a rear side wall portion 37 extending rearward from the rear end of the wall portion 36 in the front-rear direction. The opposing surfaces 38, 38 of the pair of left and right slide wall portions 34, 34 are formed by cutting so as to be perpendicular to the upper surface of the case 33, and as shown in FIG. A front side surface portion (abutting portion) 39 along, an intermediate surface portion 40 inclined so as to be located inward in the left-right direction from the rear end of the front side surface portion 39, and rearward along the front-rear direction from the rear end of the intermediate surface portion 40. And a rear side surface portion (abutting portion) 41 extending in the direction. Thus, the front surfaces of the facing surfaces 38, 38 arranged on the left and right with respect to the sliding direction F when the camera 11 is mounted are wider on the front side in the sliding direction F when mounted than on the rear side. The distance between the pair of front side surface portions 39 and 39 is larger than the distance between the rear vertical edge portions 25 and 25 of the base 12 shown in FIG.
As shown in FIG. 1A, the pair of left and right slide wall portions 34, 34 has a slide recess 42 that is recessed at a substantially constant depth outward in the left-right direction at an intermediate position in the vertical direction of each facing surface 38. It is formed in parallel with the upper surface of. Each of the pair of left and right slide recesses 42 and 42 includes a front recess 43 formed in the front side surface 39, an intermediate recess 44 formed in the intermediate surface 40, and a rear recess 45 formed in the rear side 41. ing. The slide recess 42 has a shape that can be removed forward, while the rear end is closed and cannot be removed backward.
Here, the camera 11 is mounted on the base 12 by being slid forward in the sliding direction F during mounting while inserting the pair of left and right slide guide portions 26 and 26 into the pair of left and right slide recesses 42 and 42. When the pair of left and right slide guide portions 26, 26 are inserted into the pair of left and right slide recesses 42, 42, they are removed by being slid rearward with respect to the slide direction F during mounting. During such attachment and detachment, the camera 11 moves along the pair of slide guide portions 26 and 26. The pair of left and right slide guide portions 26, 26 and the pair of left and right slide concave portions 42, 42 constitute a slide mechanism 47 that detachably engages the camera 11 with the base 12 by sliding.
Further, as shown in FIG. 2 (b), the distance between the left and right outer ends of the front projections 28, 28 of the base 12 is equal to the distance between the front side surfaces 39, 39 of the camera 11. The interval between the left and right outer ends of the twelve rear projections 29 and 29 is equal to the interval between the rear side surfaces 41 and 41 of the camera 11. The left and right front side surface portions 39 and 39 and the left and right rear side surface portions 41 and 41 of the camera 11 are respectively left and right to the left and right front projection portions 28 and 28 and the left and right rear projection portions 29 and 29 of the base 12. The camera 11 is positioned with respect to the base 12 by contact.
When the camera 11 is attached to the base 12 fixed to the windshield, as shown in FIGS. 1B to 1C, the pair of left and right slide guide portions 26 and 26 constituting the slide mechanism 47 are paired to the left and right. The camera 11 is slid forward in the vehicle front-rear direction so as to be inserted into the slide recesses 42, 42. At that time, as shown in FIG. 1A, the distance between the front side surfaces 39, 39 of the pair of slide walls 34, 34 is larger than the distance between the rear vertical edges 25, 25 of the base 12. Therefore, the front side formed on the front side surface portions 39, 39 having a large interval between the left and right slide wall portions 34, 34 with respect to the rear vertical edge portions 25, 25 having a small interval between the slide guide portions 26, 26. The concave portions 43 and 43 do not need to slide. Then, as shown in FIGS. 1B to 1C, the rear vertical edge portions 25, 25 with a narrow interval between the slide guide portions 26, 26 are replaced with a rear concave portion 45 with a small interval between the slide wall portions 34, 34. 45, and the front vertical edge portions 23, 23 having a large interval between the slide guide portions 26, 26 are inserted into the front concave portions 43, 43 having a large interval between the slide wall portions 34, 34, so that the camera 11 is mounted on the vehicle. Slide forward and backward. At that time, as shown in FIGS. 2 (a) to 2 (b), the left and right front projections 28, 28 are brought into contact with the left and right front side surfaces 39, 39 in the left-right direction, respectively, so that the left and right rear projections The camera 11 is slid while 29 and 29 are brought into contact with the left and right rear side surface portions 41 and 41 in the left-right direction, respectively. Finally, the rear end portions 45, 45 of the camera 11 are brought into contact with the rear edge portion 22 of the guide plate portion 16 of the base 12 as shown in FIGS. 1C and 2B. Then, the camera 11 stops. At this time, the front protrusions 28 and 28 of the base 12 abut on the front side surfaces 39 and 39 provided on the camera 11 in the left and right direction, and the rear protrusions 29 and 29 contact the rear side surfaces 41 and 41 in the left and right direction. The camera 11 is positioned with respect to the base 12.
Since the camera 11 is slid with respect to the base 12 fixed to the vehicle body side and engaged with the slide mechanism 47, the camera 11 can be easily attached and detached. At that time, the front protrusions 28 and 28 and the rear protrusions 29 and 29 provided on the base 12 and arranged on the left and right with respect to the sliding direction F at the time of mounting are the front side parts 39 provided on the camera 11. , 39 and the rear side surfaces 41, 41 in the left-right direction, the camera 11 is positioned with respect to the base 12. In this way, positioning in the left-right direction and the rotation direction can be performed satisfactorily, and rattling can be prevented. In addition, the front projections 28 and 28 and the rear projections 29 and 29 arranged on the front left and right and the rear left and right respectively abut on the front side portions 39 and 39 and the rear side portions 41 and 41 in the left-right direction. Therefore, the contact area is small, the slide resistance can be reduced, and the attachment / detachment operation becomes easy.
In addition, the slide mechanism 47 includes left and right slide guide portions 26 and 26 provided on the base 12 and slide concave portions 42 and 42 of the left and right slide wall portions 34 and 34 provided on the camera 11. However, the left and right slide guide portions 26 and 26 and the opposite surfaces 38 and 38 of the left and right slide wall portions 34 and 34 in which the slide concave portions 42 and 42 are formed are arranged such that the front side in the sliding direction F when mounted is from the rear side. Since the distance between the left and right slide guide parts 26 and 26 is narrow, the distance between the opposing surfaces 38 and 38 of the left and right slide wall parts 34 and 34 is smaller than the rear vertical edge parts 25 and 25 where the distance between the left and right slide guide parts 26 and 26 is narrow. The wide front recesses 43 and 43 have a structure that does not require sliding. Therefore, the sliding distance at the time of attachment / detachment by the slide mechanism 47 can be shortened. Therefore, the attachment / detachment operation is further facilitated.
Also, the left and right front projections 28, 28 on the front side in the sliding direction at the time of mounting are formed on the base 12 so as to be wider than the left and right rear projections 29, 29 on the rear side. Since the front left and right front side surface portions 39, 39 are formed on the camera 11 with a wider interval than the rear left and right rear side surface portions 41, 41, the rear projections 29, 29 having a narrow interval are formed. On the other hand, the front side surface portions 39 and 39 having a large interval are not required to contact each other. Therefore, positioning can be performed in accordance with the shortening of the slide distance when the slide mechanism 47 is attached or detached.
Further, the front side of the left and right slide wall portions 34, 34, whose front side in the sliding direction F when mounted is wider than the rear side, the front side portions 39, 39 and the rear side portions 41, 41 of the left and right slide walls 34, 34, Since the abutting portion that positions the projecting portions 28 and 28 and the rear projecting portions 29 and 29 in contact with each other is configured, the structure can be simplified.
An in-vehicle camera mounting structure according to a second embodiment of the present invention will be described with reference to FIGS. 3 to 5 focusing on differences from the first embodiment.
In the second embodiment, as shown in FIG. 3, the front protrusions 28 and 28 and the rear protrusions 29 and 29 of the first embodiment are not formed on the base 12. A pair of left and right extending plate portions 51, 51 projecting downward and extending in the front-rear direction are formed on the lower surface of the base 12. As shown in FIG. 4, the left and right extending plate portions 51, 51 are formed with front protrusions 52 that protrude outward in the left-right direction at the respective front end portions, and in the left-right direction at the respective rear end portions. A rear projection 53 that protrudes outward is formed. That is, the base 12 is provided with the front protrusions 52 on the left and right sides of the front in the mounting sliding direction F, and the rear protrusions 53 on the left and right sides of the rear, respectively.
The front left and right front protrusions 52 and 52 have a tapered triangular prism shape that becomes thinner toward the outer side in the left and right direction, and the rear left and right rear protrusions 53 and 53 also taper toward the outer side in the left and right direction. It has a shape. The front left and right front projections 52 and 52 are spaced apart from each other by the same distance between the left and right outer ends with respect to the rear left and right rear projections 53 and 53. Therefore, the right front projection 52 and the right rear projection 53 are arranged on the same straight line along the mounting slide direction F, and the left front projection 52 and the left rear projection 53 are also mounted. They are arranged on the same straight line along the sliding direction F. The front protrusions 52 and 52 and the rear protrusions 53 and 53 are also entirely formed by casting.
Further, in the second embodiment, as shown in FIG. 3, an upper surface recess 55 that is slightly recessed downward from the upper surface is formed at a position between the left and right slide wall portions 34 on the upper surface of the case 33 of the camera 11. Yes. The entire upper surface recess 55 is formed by cutting. On the left and right sides of the upper surface recess 55, a front escape portion 56 is located at the front position in the sliding direction F when mounted, and a front contact portion 57 that protrudes inward in the left-right direction from the front relief portion 56 is located on the rear side. A rear escape portion 58 that is recessed outward in the left-right direction with respect to the front contact portion 57 is formed, and a rear contact portion 59 that protrudes inward in the left-right direction with respect to the rear escape portion 58 is formed on the rear side. In other words, as shown in FIG. 5, front relief portions 56, 56 are formed on the front side of the left and right front abutment portions 57 on the front side in the sliding direction F at the time of mounting, and the rear left and right rear portions are formed. Rear escape portions 58 and 58 that widen the distance in the left-right direction are also formed on the front sides of the side contact portions 59 and 59. The front contact portions 57 and 57 are equally spaced from the rear contact portions 59 and 59 in the left-right direction. Therefore, the right front contact part 57 and the right rear contact part 59 are arranged on the same straight line along the mounting slide direction F, and the left front contact part 57 and the left rear contact part. 59 is also arranged on the same straight line along the mounting slide direction F.
And in 2nd Embodiment, the space | interval of the outer end parts of the left-right direction of the front side protrusion parts 52 and 52 of the base 12 is made equivalent to the space | interval of the front side contact parts 57 and 57 of the camera 11, and base The interval between the outer end portions in the left-right direction of the 12 rear projections 53, 53 is equal to the interval between the rear contact portions 59, 59 of the camera 11. The left and right front abutting portions 57 and 57 and the rear abutting portions 59 and 59 of the camera 11 contact the left and right front projecting portions 52 and 52 and the left and right rear projecting portions 53 and 53 of the base 12 in the left and right direction, respectively. The camera 11 is positioned with respect to the base 12 in contact therewith.
That is, when the camera 11 is attached to the base 12, as shown in FIGS. 3 (a) and 3 (b), as in the first embodiment, the rear vertical edge portion with a narrow interval between the slide guide portions 26 and 26 is provided. 25, 25 are inserted into the rear concave portions 45, 45 having a narrow interval between the slide wall portions 34, 34, and the front vertical edge portions 23, 23 having a wide interval between the slide guide portions 26, 26 are inserted into the slide wall portion 34, 34, the camera 11 is slid forward in the vehicle front-rear direction. At this time, the left and right front protrusions 52 and 52 shown in FIG. 5 are prevented from coming into contact with the camera 11 in the left and right directions by the left and right front escape parts 56 and 56, and the left and right rear protrusions 53 and 53 are The left and right rear escape portions 58 and 58 are slid while avoiding left and right contact with the camera 11, and the left and right front protrusions 52 and 52 are moved to the left and right front contact portions 57 and 58 at the final stage of the slide. The camera 11 is positioned with respect to the base 12 by bringing the left and right rear projections 53 and 53 into contact with the left and right rear contact portions 59 and 59 in the left and right directions, respectively. .
According to the second embodiment described above, the left and right front protrusions 52 and 52 on the front side in the sliding direction F when mounted are formed on the base 12 at equal intervals with the left and right rear protrusions 53 and 53 on the rear side. Even if the front left and right front contact portions 57, 57 in the sliding direction when mounted are formed on the camera 11 at equal intervals with the rear left and right rear contact portions 59, 59, the front contact portion Front relief portions 56, 56 that widen the left-right spacing are formed on the front side of 57, 57, and rear relief portions 58, 58 that widen the left-right spacing are also formed on the front side of the rear contact portions 59, 59. Therefore, the front protrusions 52 and 52 and the rear protrusions 53 and 53 before contacting the front contact parts 57 and 57 and the rear contact parts 59 and 59 are connected to the front relief parts 56 and 56 and the rear relief parts. The parts 58 and 58 can escape. Therefore, positioning can be performed in accordance with the shortening of the slide distance when the slide mechanism 47 is attached or detached.
In addition, left and right front projections 52, 52 on the front side in the sliding direction F at the time of mounting are formed on the base 12 at equal intervals with the left and right rear projections 53, 53 on the rear side. Since the left and right front contact portions 57, 57 are formed in the camera 11 at equal intervals with the rear left and right rear contact portions 59, 59, positioning accuracy by these can be improved. That is, for example, when forming the front contact portions 57, 57 and the rear contact portions 59, 59 of the case 33, the left and right rear end contact portions and the left inner contact portion 57 of the left front contact portion 57 are formed. 59 can be machined by one linear movement of the tool, and the right and left inner end of the right front abutting portion 57 and the right and left inner end of the right rear abutting portion 59 can be machined. Since processing can be performed by a single linear movement, the formation accuracy of these can be improved, and as a result, the positioning accuracy can be improved.
An in-vehicle camera mounting structure according to a third embodiment of the present invention will be described with reference to FIGS. 6 to 8 focusing on differences from the second embodiment.
In the third embodiment, as shown in FIG. 7, the pair of left and right extending plate portions 51, 51 of the base 12 are inclined so that the mutual width becomes wider toward the front in the sliding direction F when mounted. The distance between the left and right outer ends of the left and right front protrusions 52 and 52 is wider than the distance between the left and right outer ends of the left and right rear protrusions 53 and 53.
Further, in the third embodiment, as shown in FIGS. 6 and 8, the left and right edge portions of the upper surface recess 55 are inclined so as to increase the distance in the left-right direction toward the front in the sliding direction F when mounted. 61, 61.
In the third embodiment, the left and right inclined surfaces 61 and 61 of the camera 11 are in contact with the left and right front projections 52 and 52 and the left and right rear projections 53 and 53 of the base 12 in the left and right direction, respectively. The camera 11 is positioned with respect to the base 12. At this time, as shown in FIG. 8, the portions of the inclined surfaces 61, 61 that contact the front protrusions 52, 52 become the front contact portions 57, 57, and the front sides thereof become the front escape portions 56, 56. Further, the portions that come into contact with the rear protrusions 53 and 53 of the inclined surfaces 61 and 61 become the rear contact portions 59 and 59, and the front sides thereof become the rear escape portions 58 and 58.
That is, when the camera 11 is attached to the base 12, as shown in FIGS. 6 (a) and 6 (b), as in the first embodiment, the rear vertical edge portion with a narrow interval between the slide guide portions 26 and 26 is provided. 25, 25 are inserted into the rear concave portions 45, 45 having a narrow interval between the slide wall portions 34, 34, and the front vertical edge portions 23, 23 having a wide interval between the slide guide portions 26, 26 are inserted into the slide wall portion 34, 34, the camera 11 is slid forward in the vehicle front-rear direction. At that time, the left and right front protrusions 52 and 52 and the left and right rear protrusions 53 and 53 are in contact with the camera 11 in the left and right direction, and the front relief portions 56 and 56 of the inclined surfaces 61 and 61 and the rear relief are provided. In the final stage of sliding, the left and right front protrusions 52 and 52 are moved to the front contact portions 57 and 57 of the left and right inclined surfaces 61 and 61 in the left and right direction, as shown in FIG. Positioning the camera 11 with respect to the base 12 by bringing the left and right rear projections 53 and 53 into contact with the rear contact portions 59 and 59 of the left and right inclined surfaces 61 and 61 respectively in the left and right directions. I do.
According to the third embodiment described above, the front contact portions 57, 57 and the rear contact portion that perform positioning by contacting the left and right front projections 52, 52 and the left and right rear projections 53, 53. 59 and 59 are composed of left and right inclined surfaces 61 and 61 that are inclined so that the front side in the sliding direction F at the time of mounting widens in the horizontal direction. The front protrusions 52 and 52 and the rear left and right rear protrusions 53 and 53 do not all come into contact with the inclined surfaces 61 and 61 at the same time. Therefore, since generation | occurrence | production of the slide resistance by these contact | abutting can be suppressed, attachment / detachment operation becomes still easier.
An in-vehicle camera mounting structure according to a fourth embodiment of the present invention will be described with reference to FIGS. 9 to 11 focusing on differences from the second embodiment.
In the fourth embodiment, the front inclined surfaces in which the left and right front relief portions 56 and 56 and the front contact portions 57 and 57 of the upper surface concave portion 55 are inclined so that the width of each of them becomes wider toward the front in the sliding direction F at the time of mounting. 63, 63, and rear left and right rear relief portions 58, 58 and rear abutment portions 59, 59 are also inclined so that their widths become wider toward the front in the sliding direction F when mounted. 64.
In the fourth embodiment, the left and right front inclined surfaces 63 and 63 and the left and right rear inclined surfaces 64 and 64 of the camera 11 are, as shown in FIG. The camera 11 is positioned with respect to the base 12 by contacting the left and right rear projections 53, 53 in the left-right direction. At this time, portions of the front inclined surfaces 63 and 63 that contact the front protrusions 52 and 52 become the front contact portions 57 and 57, and the front sides thereof become the front escape portions 56 and 56. Further, the portions that come into contact with the rear protrusions 53 and 53 of the rear inclined surfaces 64 and 64 become the rear contact portions 59 and 59, and the front sides thereof become the rear escape portions 58 and 58. The front contact portions 57, 57 and the rear contact portions 59, 59 are equally spaced in the left-right direction.
When the camera 11 is attached to the base 12, as shown in FIGS. 9 (a) and 9 (b), as in the first embodiment, the rear vertical edge 25 with a narrow interval between the slide guides 26 and 26, 25 is inserted into the rear concave portions 45, 45 having a small interval between the slide wall portions 34, 34, and the front vertical edge portions 23, 23 having a wide interval between the slide guide portions 26, 26 are inserted into the slide wall portions 34, 34. The camera 11 is slid forward in the vehicle front-rear direction by being inserted into the front recesses 43, 43 having a wide interval. At that time, the left and right front protrusions 52 and 52 and the left and right rear protrusions 53 and 53 shown in FIG. 56 and the rear inclined surfaces 64, 64 are slid while avoiding by the rear escape portions 58, 58, and at the final stage of sliding, the left and right front protrusions 52, 52 are brought into front contact with the left and right front inclined surfaces 63, 63. The left and right rear projections 53 and 53 are brought into contact with the left and right rear inclined surfaces 64 and 64 in the left and right directions, respectively. Thus, the camera 11 is positioned with respect to the base 12.
According to the fourth embodiment described above, the left and right front abutting portions 57 and 57 on the front side in the sliding direction F at the time of mounting and the left and right front relief portions 56 and 56 on the front side in the sliding direction F at the time of mounting. It consists of left and right front inclined surfaces 63, 63 that incline so as to widen the distance in the left-right direction toward the front, and the left and right rear abutment portions 59, 59 on the rear side in the sliding direction F when mounted and the left and right rear sides Since the rear relief portions 58 and 58 are composed of left and right rear inclined surfaces 64 and 64 that incline so as to widen the distance in the left and right direction toward the front side in the sliding direction F at the time of mounting, The protrusions 52 and 52 and the left and right rear protrusions 53 and 53 do not all come into contact with the front inclined surfaces 63 and 63 and the rear inclined surfaces 64 and 64 at the same time. Therefore, since generation | occurrence | production of the slide resistance by these contact | abutting can be suppressed, attachment / detachment operation becomes still easier.
An in-vehicle camera mounting structure according to a fifth embodiment of the present invention will be described with reference to FIGS. 12 and 13 focusing on differences from the first embodiment.
In the fifth embodiment, the guide plate portion 16 of the base 12 is formed with a pair of front slide guide portions 81, 81 having a rectangular plate shape on the left and right sides of the front slide direction F. A pair of rear slide guide portions 82, 82 having a rectangular plate shape are also formed on the left and right sides of the rear side. In other words, the guide plate portion 16 of the base 12 has a plurality of rows, specifically two rows of the front slide guide portions 81 and 81 and the rear slide guide portions 82, spaced at intervals before and after the sliding direction F when mounted. 82 is provided.
In addition, a pair of left and right front protrusions 83 and 83 projecting upward from the upper surface are formed on the upper surfaces of the front two rows of slide guide portions 81 and 81, and the rear two rows of slide guide portions 81 and 81 are formed. A pair of left and right rear protrusions 84 and 84 projecting upward from the upper surface are also formed on the upper surface of 81. That is, the base 12 is provided with the front protrusions 83 on the left and right sides of the front side with respect to the sliding direction F when mounted, and the rear protrusions 84 on the left and right sides of the rear, respectively.
The left and right front projections 83 and 83 on the front side and the left and right rear projections 84 and 84 on the rear side have a tapered triangular prism shape that becomes thinner toward the outer side in the left and right direction. The front left and right front projections 83 and 83 are equally spaced apart from the left and right outer end portions relative to the rear left and right rear projections 84 and 84. Therefore, the right front protrusion 83 and the right rear protrusion 84 are arranged on the same straight line along the mounting slide direction F, and the left front protrusion 83 and the left rear protrusion 84 are also mounted. They are arranged on the same straight line along the sliding direction F. The front projections 83 and 83 and the rear projections 84 and 84 are also entirely formed by casting.
A pair of left and right front slide walls 87 and 87 extending in the front-rear direction are formed on the front side of the upper surface of the case 33 of the camera 11, and a pair of left and right sides extending in the front-rear direction are also formed on the rear side of the upper surface. Rear slide wall portions 88 and 88 are formed.
The pair of left and right front slide wall portions 87, 87 are formed by cutting so that the respective front facing surfaces (contact portions) 89 are perpendicular to the upper surface of the case 33 and follow the front-rear direction. The rear slide wall portions 88 and 88 are also formed by cutting so that the respective rear facing surfaces (contact portions) 90 are perpendicular to the upper surface of the case 33 and follow the front-rear direction. Here, the space between the front facing surfaces 89 and 89 in the left-right direction is equal to the space between the rear facing surfaces 90 and 90, and as a result, the left front facing surface 89 and the left rear facing surface 90. Are arranged on the same straight line along the mounting slide direction F, and the right front facing surface 89 and the right rear facing surface 90 are also arranged on the same straight line along the mounting slide direction F.
On the pair of left and right front slide walls 87, 87, a front slide recess 92 that is recessed by a certain depth toward the outside in the left-right direction is formed in parallel with the upper surface of the case 33 at a lower position of each front facing surface 89. Yes. Further, in the pair of left and right rear slide walls 88, 88, rear slide concave portions 93 that are recessed by a certain depth outward in the left-right direction are parallel to the upper surface of the case 33 at the lower positions of the respective rear facing surfaces 90. It is formed without. Here, the front slide recesses 92, 92 have a shape penetrating the front slide wall portions 87, 87 in the front-rear direction, and the rear slide recesses 93, 93 are forward of the rear slide wall portions 88, 88. On the other hand, the rear end portion is closed and has a shape that does not come out backward. As a result, the camera 11 is formed with a plurality of rows, specifically two rows, of the front side slide recesses 92 and 92 at intervals before and after the sliding direction F when mounted, and is arranged on the left and right with respect to the sliding direction when mounted. Front slide wall portions 87 and 87, and rear slide recess portions 93 and 93 are formed, and rear slide wall portions 88 and 88 are provided on the left and right of the sliding direction when mounted.
Here, the camera 11 inserts a pair of left and right front slide guide portions 81 and 81 into the pair of left and right front slide concave portions 92 and 92 with respect to the base 12, and moves the pair of left and right rear slide concave portions 93 and 93 to the left and right. The pair of rear slide guide portions 82 and 82 are inserted, and are mounted by sliding forward in the sliding direction F when mounted.
The left and right front slide guide portions 81, 81 and the left and right rear slide guide portions 82, 82, the left and right front slide concave portions 92, 92 and the rear slide concave portions 93, 93 are slid by sliding the camera 11 with respect to the base 12. A slide mechanism 95 that is detachably engaged is configured.
Further, the distance between the left and right outer ends of the front protrusions 83 and 83 of the base 12 is the same as the distance between the front facing surfaces 89 and 89 of the camera 11. The interval between the outer end portions 84 in the left-right direction is equal to the interval between the rear facing surfaces 90 and 90 of the camera 11. The left and right front facing surfaces 89 and 89 and the left and right rear facing surfaces 90 and 90 of the camera 11 are directed to the left and right front projections 83 and 83 and the left and right rear projections 84 and 84 of the base 12, respectively. The camera 11 is positioned with respect to the base 12 in contact with the base 12.
That is, when the camera 11 is attached to the base 12, as shown in FIGS. 12B and 13A, the front slide guide portions 81 and 81 are placed in front of the front slide wall portions 87 and 87, respectively. From the state in which the rear slide guide portions 82 and 82 are disposed between the front slide wall portions 87 and 87 and the rear slide wall portions 88 and 88 from the lower side, the left and right front slide guide portions 81 and 81 are moved left and right. The left and right rear slide guide portions 82 and 82 are inserted into the left and right rear slide recesses 93 and 93, and the camera 11 is slid forward in the vehicle front-rear direction. Finally, the rear end portions of the rear slide recesses 93, 93 of the camera 11 come into contact with the rear edge portions of the rear slide guide portions 82, 82 of the base 12, so that the camera 11 stops. At that time, the left and right front projections 83 and 83 are brought into contact with the left and right front facing surfaces 89 and 89 in the left and right directions, respectively, and the left and right rear projections 84 and 84 are brought into contact with the left and right rear facing surfaces 90 and 90, respectively. The camera 11 is positioned with respect to the base 12 by abutting in the left-right direction.
According to the fifth embodiment described above, the base 12 has a plurality of rows, specifically two rows of the front slide guide portions 81, 81 and the rear slide, spaced apart from each other in the sliding direction F when mounted. Guide portions 82 and 82 are provided, and the camera 11 has a front side in which a plurality of rows, specifically, two rows of front slide concave portions 92 and 92 are formed at intervals before and after the sliding direction F when mounted. Since the slide wall portions 87 and 87 and the rear slide wall portions 88 and 88 in which the rear slide concave portions 93 and 93 are formed are provided, the front slide guide portions 81 and 81, the front slide wall portion 87, 87 is moved back and forth, and the rear slide guide portions 82 and 82 and the rear slide wall portions 88 and 88 are shifted and moved back and forth and then slid, the front slide guide portions 81 in a plurality of front and rear rows, 81 Can be engaged with the front slide recesses 92, 92 and the rear slide recess 93 and 93 before and after a plurality of rows each time the rear slide guide portions 82 and 82. Therefore, the sliding distance at the time of attachment / detachment by the slide mechanism 95 can be shortened. Therefore, the attachment / detachment operation is further facilitated.
Also, left and right front projections 83, 83 on the front side in the sliding direction F when mounted are formed on the base 12 at equal intervals with the left and right rear projections 84, 84, and there are a plurality of contact portions. Since the front-side slide wall portions 87 and 87 and the rear-side slide wall portions 88 and 88 in the row are constituted by the front-side facing surfaces 89 and 89 and the rear-side facing surfaces 90 and 90 at equal intervals, these are the same as in the second embodiment. The positioning accuracy can be improved. Further, the abutting portions for positioning by bringing the front projecting portions 83 and 83 and the rear projecting portions 84 and 84 into contact with each other include the front slide wall portions 87 and 87 and the rear slide wall portions 88 and 88 in a plurality of rows. Since it is constituted by the front facing surfaces 89 and 89 and the rear facing surfaces 90 and 90 of the interval, the structure can be simplified.
In the above first to fifth embodiments, a case has been described in which protrusions are formed on the base, and a contact part that performs positioning by contacting the protrusions is formed on the camera. The contact portion may be formed on the base and positioned by contacting the protrusions.
11 Camera 12 Base 26 Slide guide portion 28, 52, 83 Front projection (projection)
29, 53, 84 Rear projection (projection)
34 Slide wall part 38 Opposite face 39 Front side part (contact part)
41 Rear side part (contact part)
42 Slide recess 47, 95 Slide mechanism 56 Front relief part (escape part)
57 Front contact part (contact part)
58 Rear relief (escape)
59 Rear contact part (contact part)
61 Inclined surface (contact part)
63 Front inclined surface (inclined surface)
64 Rear inclined surface (inclined surface)
81 Front slide guide (slide guide)
82 Rear slide guide (slide guide)
87 Front slide wall (slide wall)
88 Rear slide wall (slide wall)
89 Front facing surface (contact part)
90 Rear facing surface (contact part)
92 Front slide recess (slide recess)
93 Rear slide recess (slide recess)
A base fixed to the vehicle body side,
A slide mechanism for detachably engaging the camera with the base by sliding;
Protrusions provided on either the base or the camera and disposed on the left and right of the front and the left and right of the rear with respect to the sliding direction when the camera is mounted when mounted,
A contact portion that is provided on the other of the base and the camera and that contacts the left and right protrusions on the front side in the left-right direction and positions the camera with respect to the base;
The base has a slide guide part on the left and right of the sliding direction at the time of mounting, the front side of the sliding direction at the time of mounting being wider than the rear side,
The camera has a slide wall part formed on the left and right sides with respect to the sliding direction at the time of mounting, and a slide concave portion formed on a facing surface whose front side in the sliding direction at the time of mounting is wider than the rear side,
The slide mechanism is constituted by said slide guide portion of the left and right and left of the slide concave portion mounting structure of the vehicle-mounted camera according to claim Rukoto.
The left and right protrusions on the front side in the sliding direction at the time of mounting are formed on the base with a wider interval than the left and right protrusions on the rear side,
Vehicle camera according to claim 1, characterized in that it is formed in the camera is wider intervals than said contact portions of the left and right mounting at the contact portion rear of the front left and right sliding direction Mounting structure.
The in-vehicle camera mounting structure according to claim 2 , wherein the abutting portion is configured by opposing surfaces of the left and right slide wall portions.
3. The mounting structure for an in-vehicle camera according to claim 2 , wherein the abutting portion is composed of left and right inclined surfaces that are inclined so as to widen an interval in the left-right direction toward the front side in the sliding direction when mounted.
The left and right protrusions on the front side in the sliding direction when mounted are formed on the base at equal intervals with the left and right protrusions on the rear side,
The left and right contact portions on the front side in the sliding direction when mounted are formed on the camera at equal intervals with the left and right contact portions on the rear side,
A clearance portion is formed on the front side of the left and right contact portions on the front side in the sliding direction at the time of mounting, and a lateral direction is also formed on the front side of the left and right contact portions on the rear side in the sliding direction at the time of mounting. mounting structure of the vehicle-mounted camera according to claim 1, wherein a relief portion to widen the gap is formed.
The left and right abutting portions on the front side in the sliding direction at the time of mounting and the left and right relief portions on the front side are composed of left and right inclined surfaces that incline so as to widen the distance in the left and right direction toward the front side in the sliding direction at the time of mounting. ,
The left and right inclined surfaces in which the left and right contact portions on the rear side in the sliding direction at the time of mounting and the left and right relief portions on the rear side are inclined so that the front side in the sliding direction at the time of mounting is wider in the horizontal direction. The in-vehicle camera mounting structure according to claim 5, comprising:
The base is provided with a plurality of rows of slide guide portions arranged on the left and right with respect to the sliding direction at the time of mounting at intervals before and after the sliding direction at the time of mounting.
The camera is provided with a plurality of rows of slide wall portions that are formed on the opposite surface with slide concave portions formed on the left and right sides of the sliding direction when mounted, and spaced in the front and rear directions of the sliding direction when mounted.
Mounting structure for vehicle mounting camera, wherein the slide mechanism is constituted by the slide recess of the sliding wall portion of the plurality of rows and a slide guide portion of said plurality of rows.
The mounting structure for an in-vehicle camera according to claim 7 , wherein the abutting portion is configured by equidistant facing surfaces of the plurality of rows of slide wall portions.
JP2010239073A 2010-10-25 2010-10-25 In-vehicle camera mounting structure Active JP5704886B2 (en)
JP2010239073A JP5704886B2 (en) 2010-10-25 2010-10-25 In-vehicle camera mounting structure
US13/200,713 US8337099B2 (en) 2010-10-25 2011-09-29 Structure for mounting camera on vehicle
CN201110331004.4A CN102452363B (en) 2010-10-25 2011-10-25 Structure for mounting camera on vehicle
JP2012091597A JP2012091597A (en) 2012-05-17
JP5704886B2 true JP5704886B2 (en) 2015-04-22
ID=45973102
JP2010239073A Active JP5704886B2 (en) 2010-10-25 2010-10-25 In-vehicle camera mounting structure
US (1) US8337099B2 (en)
JP (1) JP5704886B2 (en)
CN (1) CN102452363B (en)
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