CN205256186U - Connection structure and automobile interior rear -view mirror convenient to installation - Google Patents
Connection structure and automobile interior rear -view mirror convenient to installation Download PDFInfo
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- CN205256186U CN205256186U CN201520957633.1U CN201520957633U CN205256186U CN 205256186 U CN205256186 U CN 205256186U CN 201520957633 U CN201520957633 U CN 201520957633U CN 205256186 U CN205256186 U CN 205256186U
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- mirror housing
- diapire
- holder
- hole
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Abstract
The utility model discloses a be convenient for the installation connection structure for mounting structure with it links to each other with the inside rear -view mirror body, and the inside rear -view mirror body includes lens subassembly and mirror casing, has seted up a hole in the intermediate position department of the diapire of mirror casing, connection structure includes first bulb connecting piece, is used for fixing base, hollow connecting rod and the self -resuming spring of fixed first bulb connecting piece, first bulb connecting piece passes through the fixing base is fixed in on the diapire of mirror casing and lie in outside the diapire of mirror casing, first bulb connecting piece is kept away from on install the piece, being located the installation piece the first spliced pole of the one side of fixing base, with first spliced pole is kept away from the first bulb of the one end rigid coupling of installation piece and locate the installation towards the third internal thread erection column of the one side of fixing base on the piece move towards on the installation piece the one side of fixing base is provided with a gag lever post on the fixing base corresponding to the position department of gag lever post has seted up a spacing hole.
Description
Technical field
The utility model relates to a kind of syndeton and inside-automobile rear mirror of being convenient to installation.
Background technology
Convenient for driver's operation, prevent the generation of traffic safety accident, guarantee personal safety, various countries have all specified, on automobile, inside rear-view mirror to be installed, and all inside rear-view mirror all must can be adjusted direction. Inside rear-view mirror is installed on the position that approaches top edge on the front windshield of automobile, for helping driver to be sitting in the device that directly obtains the external informations such as automobile rear, side on driver's cabin seat. Existing inside rear-view mirror, its function is comparatively single, only can play the effect of obtaining this car external information. And existing inside rear-view mirror is connected with mount pad by a connecting rod, inside rear-view mirror is rotated and can only be rotated by the rotating mechanism on mount pad, and this mode is not easy to inside rear-view mirror body and rotates, and rotation sensitivity is lower.
Utility model content
For above-mentioned the deficiencies in the prior art, technical problem to be solved in the utility model is: a kind of rotate sensitive, simple in structure, to be convenient to installation syndeton and inside-automobile rear mirror are provided.
For solving the problems of the technologies described above, the technical scheme that the utility model adopts is: a kind of syndeton of being convenient to installation is provided, for inside rear-view mirror body is connected with its mounting structure, described inside rear-view mirror body comprises Lens assembly, mirror housing and for by the interface arrangment of Lens assembly and the clamping of mirror housing, described Lens assembly is connected on mirror housing by interface arrangment, offer a hole at the centre position place of the diapire of described mirror housing, on the inner surface of diapire, be positioned at position around described hole be provided with described hole concentric second enclose wall, described syndeton comprises the first ball head connecting piece, for fixing holder, the hollow connecting rod of the first ball head connecting piece and certainly recovering spring, described the first ball head connecting piece is fixed on the diapire of described mirror housing and is positioned at outside the diapire of mirror housing by described holder, one end of described hollow connecting rod and described the first ball head connecting piece are rotatably connected, and the other end of described hollow connecting rod is connected with described mounting structure,
On the dismountable diapire that is fixed on described mirror housing of described holder and be positioned at the position in described hole; Described the first ball head connecting piece comprises installation sheet that shape and described hole match, be positioned on installation sheet away from the first joint pin of the one side of described holder, with described the first joint pin away from the first affixed bulb of one end of described installation sheet and be located on installation sheet the 3rd internal thread erection column towards the one side of holder, one first cable-through hole is set on described installation sheet, described the first bulb inserts one end of hollow connecting rod, and described installation sheet is dismountable to be fixed on described holder;
On described installation sheet, be provided with a gag lever post towards the one side of described holder, one end of described gag lever post is fixed on described installation sheet, the other end extends towards described holder direction, on described holder corresponding to the position of described gag lever post offer one with the spacing spacing hole coordinating of described gag lever post;
The described spring that certainly recovers is positioned at described hollow connecting rod, should be from the one end of recovering spring to being located at described the first bulb, and the other end supports and is located on the mounting structure being connected with described hollow connecting rod.
For solving the problems of the technologies described above, another technical scheme that the utility model adopts is: a kind of inside-automobile rear mirror is provided, comprise agent structure, described agent structure comprises inside rear-view mirror body, for inside rear-view mirror body is arranged on to the mounting structure on the front windshield in automobile and the syndeton for inside rear-view mirror body is connected with mounting structure, described inside rear-view mirror body comprises Lens assembly, mirror housing and for by the interface arrangment of Lens assembly and the clamping of mirror housing, described Lens assembly is connected on mirror housing by interface arrangment, it is characterized in that: described syndeton is described syndeton.
Syndeton and the inside-automobile rear mirror installed be convenient to of the present utility model, further improves staff's installation, increases operating efficiency, prevents that in use installation sheet rotates. Increase this gag lever post and spacing hole, when mounted, gag lever post has been located in described spacing hole, from having prevented in the radial direction the rotation of described circular mounting sheet; In addition, in follow-up use procedure, driver, in the time regulating inside rear-view mirror body, has also solved the problem of the first ball head connecting piece rotation.
Brief description of the drawings
In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.
Fig. 1 is the structural representation of inside-automobile rear mirror.
Fig. 2 is the upward view of inside-automobile rear mirror.
Fig. 3 is the structural representation of eyeglass in Fig. 1.
Fig. 4 is the schematic diagram of the second transmission element mounting structure in Fig. 1.
Fig. 5 is the explosive view of Lens assembly and mirror housing in Fig. 1.
Fig. 6 is the explosive view of removing Lens assembly in Fig. 1.
Fig. 7 is the schematic diagram of mounting structure in Fig. 2.
Fig. 8 is the structural representation of mount pad in Fig. 7.
Detailed description of the invention
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiment. Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.
Refer to 1 to Fig. 8, inside-automobile rear mirror comprises agent structure, is installed on driving recording module and anti-glare module in agent structure. Described agent structure comprises inside rear-view mirror body 10, for inside rear-view mirror body 10 being arranged on to the mounting structure 12 on the front windshield in automobile and the syndeton 14 for inside rear-view mirror body 10 is connected with mounting structure 12. Described driving recording module and anti-glare module are arranged on inside rear-view mirror body 10. Inside-automobile rear mirror of the present utility model has anti-glare function and drive recorder becomes one, its contour structures is similar to general contour structures, do not take too much space, meet driving recording and abblendbar function, save automotive interior and put the space of drive recorder, inside rear-view mirror, made the automotive interior more succinct.
Described inside rear-view mirror body 10 comprises Lens assembly, mirror housing 101 and for by the interface arrangment 102 of Lens assembly and 101 clampings of mirror housing, described Lens assembly is connected on mirror housing 101 by interface arrangment 102. Described Lens assembly comprises picture frame 103 and is embedded at the eyeglass 104 on picture frame 103. In the present embodiment, described eyeglass 104 is double glazing, comprise and be positioned at first glass 1041 in front (after installation towards the one side of driver's cabin or above) and fold in second glass 1042 at described first glass 1041 back sides, described the first glass 1041 is clear glass.
Described driving recording module comprises driving recording circuit module, hemispherical camera 21, for opening or close the shift knob 22 of hemispherical camera 21, described driving recording circuit module comprises a mainboard, the microprocessor arranging on mainboard, the RAM being electrically connected with microprocessor, key circuit, microphone 23, voice output passage (loudspeaker), power module, SD storage card, indicator lamp 25 etc. Described mainboard, RAM(random access memory), key circuit etc. is installed in mirror housing 101.
Described anti-glare module comprises the first optical sensor for the light source at this car of sensing rear, for the second optical sensor of this car of sensing ambient light environment, the anti-glare circuit board being electrically connected with described first and second optical sensor, be embedded at the first electrode 31 on the lower limb of the first glass 1041 and that be electrically connected with anti-glare circuit board, be embedded at the second electrode 32 on the second glass 1042 top edges and that be electrically connected with anti-glare circuit board, transparency conducting layer 33 between clear glass and nontransparent glass and that set gradually by the first glass 1041 to second glass 1042 directions, conductive reflective 34, described transparency conducting layer 33 is made by described electrochromic material, described anti-glare module also comprises the first transmission element 35 and the second transmission element 36, the light source at this car rear can be transmitted through the first optical sensor place by the first transmission element 35, for example, to ensure that the first optical sensor can detect the light source (light source that headlight was irradiated of the automobile at this car rear) at described car rear, this car light source around can be transmitted through the second optical sensor place by the second transmission element 36, to ensure that the second optical sensor can detect around this car, the luminous environment of this front side. the electronic devices and components of above-mentioned anti-glare module are all arranged in mirror housing 101.
Described inside rear-view mirror body 10 also comprises hemispherical camera 21 is arranged on mirror housing 101 towards the hemispherical pick-up head mounting structure 105 of the position of the one side of headstock, for the second transmission element 36 being arranged on to the second transmission element mounting structure 106 on mirror housing 101, is located at the shock-damping structure 107 of mirror housing 101 inside.
In this programme, above-mentioned driving logging modle and anti-glare module are placed in described agent structure, utilize the space of mirror housing 101, circuit board, electronic devices and components etc. are positioned in the mirror housing 101 of inside rear-view mirror body 10, each parts can be embedded on inside rear-view mirror body 10, and on original inside-automobile rear mirror, the function of integrated anti-glare function and driving recording, does not take too much space, make Bus inner layout more succinct, and make inside-automobile rear mirror greater functionality.
About inside rear-view mirror body 10 structures and on inside rear-view mirror body 10 layout of each parts:
The picture frame 103 of described Lens assembly is the rectangle like frame that shape and mirror housing 101 opening shapes match, convex with a projection 1031 downwards at the lower limb of described picture frame 103, this projection 1031 is used to the shift knob 22 of hemispherical camera 21 that an installation site is provided, and described shift knob 22 is embedded on described projection 1031. The position that is positioned at shift knob 22 both sides on described projection 1031 offers respectively a first window 1032, and in the present embodiment, described the first transmission element 35 is two, and two the first transmission elements 35 are embedded at respectively on two first windows 1032. Described first window 1032 is uncovered shape, is arranged on the both sides of shift knob 22, can make the transparency range of the first transmission element 35 wider. The light source of two headlights in left and right of rear car can be simultaneously sees through that two the first transmission elements 35 are rear to be gathered by the first optical sensor; Separately, the position of projection 1031 is positioned at the centre position place on inside rear-view mirror length direction, can be from position be just in time just right state with the automobile that is positioned at this car rear, and the light source of being convenient to rear car can be by accurate, instant being collected by the first optical sensor.
The described mirror housing 101 groove shape that is rectangle, after inside rear-view mirror being installed on the front windshield in automobile, the opening surface of mirror housing 101 is towards the direction of driver's cabin. In the lower wall of described mirror housing 101, be embedded with the TFT draw-in groove 1011, microphone 23, the indicator lamp 25 that insert for the TFT card of driving recording module. Described loudspeaker be embedded on described projection 1031, be positioned at described shift knob 22 below or above, so, in the time of the video that utilizes drive recorder playback to record as user, the volume of sound is larger, voice output better effects if.
Be embedded with described hemispherical camera 21 at the diapire of described mirror housing 101, described hemispherical camera 21 is embedded at behind the bottom of described mirror housing 101, can rotate within the specific limits.
One end of described syndeton 14 is connected with the diapire of mirror housing 101, and the other end is connected with described mounting structure 12, and described syndeton 14 is specifically connected with the mid portion of the diapire of mirror housing 101.
On the diapire of described mirror housing 101, offer a Second Window 1061 corresponding to the position of the second optical sensor, described the second transmission element 36 is installed on the diapire of described mirror housing 101 by this Second Window 1061.
About hemispherical pick-up head mounting structure 105:
Hemispherical camera 21 has hemispherical shell, the video acquisition window of described hemispherical camera 21 is positioned at the arc top of hemispherical shell, on the outer surface of hemispherical shell, submarginal position symmetry offers two limited posts 1051, and described two length directions of limited post 1051 and the opening surface of described hemispherical shell parallel.
On the diapire of described mirror housing 101, offer the circular window matching with hemispherical shell body diameter, the edge of circular window extends to form one first circular rib 1052 in described mirror housing 101, on described the first circular rib 1052, offer two the first stopper slots 1053 corresponding to the position of two limited posts 1051, the length of described the first stopper slot 1053 determines the rotate in a circumferential direction number of degrees of (suitable, be rotated counterclockwise) of hemispherical camera 21; The position that is arranged in described the first circular rib 1052 peripheries on the internal face of the diapire of described mirror housing 101 is provided with multiple first internal thread erection column 1057(this programme three the first internal thread erection columns 1057 is set).
Described hemispherical pick-up head mounting structure 105 comprise above-mentioned two limited posts 1051, the first circular rib 1052 and with spacing two of coordinating the first stopper slot 1053 of described two limited posts 1051; Also comprise the circular cover 1054 matching with described circular window, the edge of described circular cover 1054 extends the one second circular rib 1055 matching with described the first circular rib 1052 to the direction of the first circular rib 1052, on described the second circular rib 1055, offer two the second stopper slots 1056 corresponding to the position of two first stopper slots 1053, described the second stopper slot 1056 is relative with the notch of the first stopper slot 1053; In the time that described circular cover 1054 is placed on described circular rib, described the second stopper slot 1056 and the first stopper slot 1053 form two limitting casings of rectangle, two limited posts 1051 lay respectively in two limitting casings, to carry out spacing to the rotation of hemispherical shell all directions, and the bottom land of the first stopper slot 1053 is used for propping up described limited post 1051, prevent that hemispherical camera 21 from coming off outside housing. In the edge of described circular cover 1054 corresponding to the position of described the first internal thread erection column 1057 to being outside equipped with the installation journal stirrup 1058 matching with it, offer the via hole passing for construction bolt on journal stirrup 1058 installing, construction bolt (scheming not shown) successively through after described via hole with the first internal thread erection column 1057 threaded engagement. Intelligible, in other embodiment, the shapes such as described window, cover plate can also have other different conversion, no longer describe in detail herein.
In this programme, by above-mentioned hemispherical pick-up head mounting structure 105, hemispherical camera 21 can rotate from all directions, thereby make the collection window of hemispherical camera 21 can carry out the fine setting of any angular orientation, meet the various demand of different user, different occasion, different instances, the angle of fine setting is corresponding with the size of limitting casing, producer is in manufacture process, can adjust shape, the size of limitting casing, thereby adjust the maximum rotation angle scope of hemispherical camera 21; Be user-friendly to, the first stopper slot 1053 plays the effect that prevents that hemispherical camera 21 from coming off, its bottom land can be kept out described limited post 1051 from the outer surface direction of limited post 1051, therefore, no matter how user adjusts the angle of hemispherical camera 21, and hemispherical camera 21 all can not come off from housing; The hemispherical pick-up head mounting structure 105 of this programme is very simple, can install described hemispherical camera 21 without the too much parts of waste.
About the second transmission element 36 and the second transmission element mounting structure 106:
The utility model discloses a kind of new the second transmission element 36 and its mounting structure 106, this the second transmission element 36 can make wider surround lighting pass through its transmission in the second optical sensor of mirror housing 101 inside, the surround lighting that collects motor vehicle environment that second optical sensor of being more convenient for can be quick. Particularly: the mounting structure 106 of the second new transmission element 36 comprises described Second Window 1061, by the edge of Second Window 1061 to the inner sidewall 1062 extending of mirror housing 101 and be positioned at the base plate 1063 of the inner end of described sidewall 1062, described base plate 1063 and sidewall 1062 form the mount pad of the second transmission element 36, described mount pad is horn-like (being uncovered shape), on each sidewall 1062 of described mount pad, offers respectively one first hole clipping 1064. The interior empty shape of the structure of described the second transmission element 36 and its mount pad matches, the second transmission element 36 comprises the light-passing board matching with described Second Window 1061 shapes, the assembly wall being extended internally by each edge of described light-passing board, on each assembly wall, be respectively arranged with the fixture block matching with described the first hole clipping 1064, described the second transmission element 36 and its mounting structure 106 form one second light-transmitting component. Preferably, described fixture block is the first unidirectional fixture block (or unidirectional projection), the rectangular triangle of section of the first unidirectional fixture block, and the thickness of the one end in mirror housing 101 is greater than the thickness away from one end of housing gradually. In this programme, the mounting structure 106 of described the second transmission element 36 is convenient to the installation of the second transmission element 36 very much, staff only needs the second transmission element 36 to push away in mount pad, then engages the installation that can realize the second transmission element 36 by the first hole clipping 1064 on the sidewall 1062 of the first unidirectional fixture block and described mount pad. For staff has saved the set-up time, has improved installation effectiveness, without beat bolt hole on mirror housing 101 and the second transmission element 36, install without increasing unnecessary bolt, due to the effect of the first unidirectional fixture block, the first unidirectional fixture block can play guide effect while installation when mounted, prevent that the second transmission element 36 after installing from coming off, and ensured integrality and the globality of whole inside-automobile rear mirror.
Shock-damping structure 107 about inside rear-view mirror body 10:
Described shock-damping structure 107 comprises first and second shock absorber part at the diagonal angle place that is located at housing and is located at the 3rd shock absorber part of the center position of described circular cover 1054. First, second and third shock absorber part includes a damping cap 1071 and a damping cap erection column 1072, the bottom of the damping cap erection column 1072 of described first, second shock absorber part is fixedly connected with the inner surface of the diapire of described mirror housing 101, and the bottom of the damping cap erection column 1072 of described the 3rd shock absorber part is fixedly connected with towards the one side of Lens assembly with in described circular cover 1054.
The outer peripheral face of described damping cap erection column 1072 is to being outside equipped with multiple blocks 1073, and in the present embodiment, described block 1073 is four, four evenly spaced described damping cap erection column 1072 outer peripheral faces that are distributed in of block 1073. the length of one of them block 1073 equates with the axial length of described damping cap erection column 1072 or approximately etc. or match (hereinafter referred to as long block 1073), remaining block 1073 is positioned at the lower end position place of the outer peripheral face of described damping cap erection column 1072, the upper surface of described remaining block 1073 to the horizontal range between the top end face of damping cap erection column 1072 and the inner core degree of depth of described damping cap 1071 matches, so, in the time that described damping cap 1071 is placed on described damping cap erection column 1072, under damping cap 1071, correct the upper surface that is shelved on remaining block 1073, the level height of damping cap 1071 is carried out spacing, damping cap 1071 is played a supporting role. on the inner peripheral surface of the inner core of described damping cap 1071, corresponding to the position of described long block 1073, the 3rd stopper slot (scheming not shown) matching with it is set, described the 3rd stopper slot is offered to the outer peripheral face of damping cap 1071 by the inner peripheral surface of described inner core. described stopper slot is spacing for damping cap 1071 is carried out, and prevents that damping cap 1071 from rotating on described damping cap erection column 1072, play the effect of firm damping cap erection column 1072, and then the damping effect that shock absorber part is played is better.
After described damping cap 1071 is installed on damping cap erection column 1072, the horizontal level at damping cap 1071 places is higher than the horizontal level at the end face place of the sidewall of mirror housing 101,1071 employings of damping cap have constrictive soft materials and are made, for example foam etc. So, when described Lens assembly is arranged on after the opening part of described mirror housing 101, the back side of eyeglass 104 is to mirror housing 101 pressuring directions, described damping cap 1071 is after the surface of eyeglass 104 is by pressurized, to housing direction compression, therefore play the effect of parts that prevent in Lens assembly, housing etc. vibrations.
In the present embodiment, described long block 1073 is rectangular trapezoidal bulk roughly, and its lower end is greater than the lateral surface away from described damping cap erection column 1072 of upper end to the distance of the medial surface near damping cap erection column 1072 gradually away from the lateral surface of described damping cap erection column 1072 to the distance of the medial surface near damping cap erection column 1072; Described the 3rd stopper slot is regular square groove, and the degree of depth of any a section on the length direction of the 3rd stopper slot is all identical. So, in the time damping cap 1071 being arranged on described damping cap erection column 1072, damping cap 1071 is installed downwards, the power of bottom land that long block 1073 pushes inner core the 3rd stopper slot is just larger, make the 3rd stopper slot tightr with coordinating of long block 1073, further increase limit effect, prevent that damping cap 1071 from moving, limit effect is better.
Clamping scheme and interface arrangment 102 about Lens assembly and mirror housing 101 in inside rear-view mirror body 10 structures:
Described interface arrangment 102 comprises to be located at picture frame 103 edges and to enclose wall 1021 towards first of mirror housing 101 directions extensions, described first encloses wall 1021 for embedding the internal face of sidewall of mirror housing 101, therefore, on orthographic projection visual angle, first encloses shape that wall 1021 encloses is less than the shape of picture frame 103. In the present embodiment, described first encloses wall 1021 is extended towards the direction of described mirror housing 101 more respectively by each edge of described picture frame 103 after relative direction bending, so that the first inside dimension that encloses the appearance and size of wall 1021 and the sidewall of mirror housing 101 is matched.
In the described first the second hole clipping 1023 that encloses the multiple intervals that offer on wall 1021, described the second hole clipping 1023 is microscler hole clipping. Described interface arrangment 102 also comprises multiple the second unidirectional fixture blocks 1024 that engage one by one with described the second hole clipping 1023 on the internal face of the sidewall that is opened in described mirror housing 101, and described the second unidirectional fixture block 1024 is convexly set in the internal face of described sidewall. The rectangular triangle of section of described the second unidirectional fixture block 1024, the one side of being close to described internal face is the vertical plane of the second unidirectional fixture block 1024, the one side of vertical with the first vertical plane and close mirror housing 101 diapires is the bottom surface of the second unidirectional fixture block 1024, and another inclined-plane is the inclined plane of the second unidirectional fixture block 1024; The second unidirectional fixture block 1024 is greater than the thickness away from mirror housing 101 diapire directions gradually near the thickness of the diapire direction of mirror housing 101.
Described interface arrangment 102 also comprises the many groups fastener being used in conjunction with one by one with the second unidirectional fixture block 1024, each group fastener comprises that correspondence is arranged on first and second card column 1025 of corresponding the second unidirectional fixture block 1024 both sides, the inwall of the lower end of described first and second card column 1025 and mirror housing 101 is fixed, the horizontal level at bearing place is lower than the horizontal level (being the diapire of the more close mirror housing 101 in position of bearing) at described the second unidirectional fixture block 1024 places, the horizontal level at the place, upper end of described first and second card column 1025 is corresponding or identical with the horizontal level at described the second unidirectional fixture block 1024 places, the upper end of described first and second card column 1025 matches towards one side to the spacing between the internal face of described sidewall and the maximum ga(u)ge of described the second unidirectional fixture block 1024 of described internal face, in the present embodiment, spacing between them is slightly less than the maximum ga(u)ge of described the second unidirectional fixture block 1024. so, utilize each second unidirectional fixture block 1024 and be positioned at the cooperation of first and second card column 1025 of its both sides, picture frame 103 is carried out to snap action, compare existing interface arrangment 102, this interface arrangment 102 can more firmly clamp described picture frame 103. concrete snap fit is as follows:
Picture frame 103 is aimed at the aperture position of mirror housing 101 and (comprised direction aligning, position alignment of the second hole clipping 1023 and the second unidirectional fixture block 1024 etc.), opening direction by the sidewall of picture frame 103 towards mirror housing 101, picture frame 103 is moved to mirror housing 101 opening directions, and then the sidewall that makes picture frame 103 inserts the inwall of mirror housing 101 and indulges the gap place between many first and second card columns 1025, now, the surfaces externally and internally of the sidewall of picture frame 103 is subject to respectively the Di impact force between the second unidirectional fixture block 1024 and first and second card column 1025, picture frame 103, the second unidirectional fixture block 1024, the material of first and second card column 1025 is that plastics etc. have certain flexible material, therefore, the sidewall of picture frame 103 continues to move to the diapire direction of mirror housing 101 by micro-distortion of above-mentioned parts, until the second hole clipping 1023 being positioned on the sidewall of picture frame 103 engages with the second unidirectional fixture block 1024. after engaging, first and second card column 1025 props up the outer surface of the sidewall of picture frame 103, because first and second card column 1025 and the spacing of the internal face of mirror housing 101 are less than the maximum ga(u)ge of the second unidirectional fixture block 1024, therefore picture frame 103 can not come off from the second unidirectional fixture block 1024, thereby makes picture frame 103 better with the degree of engaging of mirror housing 101.
Syndeton 14 1 about for inside rear-view mirror body 10 is connected with mounting structure 12:
In this programme, offer a circular port 1012 at the centre position place of the diapire of described mirror housing 101, on the inner surface of diapire, be positioned at position around circular port 1012 be provided with described circular port 1012 concentric second enclose wall 1013, in the present embodiment, described second encloses wall 1013 is square. On the inner surface of described diapire, be positioned at described second four angles that enclose wall 1013 and be respectively arranged with one second internal thread erection column 1014.
Described syndeton 14 comprises the first ball head connecting piece 141, for fixing holder 142, the hollow connecting rod 143 of the first ball head connecting piece 141 and certainly recovering spring (scheming not shown). Described the first ball head connecting piece 141 is fixed on the diapire of described mirror housing 101 and is positioned at outside the diapire of mirror housing 101 by described holder 142, one end of described hollow connecting rod 143 is connected with described the first ball head connecting piece 141, and the other end of described hollow connecting rod 143 is connected with described mounting structure 12. Wherein:
Described the first ball head connecting piece 141 comprises the circular mounting sheet 1411 that shape and described circular port 1012 match, be positioned on circular mounting sheet 1411 the first joint pin (scheming not shown) away from the one side of described holder 142, with described the first joint pin away from the first affixed bulb 1412 of one end of described circular mounting sheet 1411 and be located on circular mounting sheet 1411 the 3rd internal thread erection column 1413 towards the one side of holder 142, the external diameter of described the first bulb 1412 and the first joint pin is all less than the internal diameter of described circular port 1012, one first cable-through hole 1414 is set on described circular mounting sheet 1411.
The shape of described holder 142 and the described second interior empty shape that encloses wall 1013 match, the diapire of holder 142 has a circular groove 1421 to the direction depression of described circular mounting sheet 1411, the internal diameter of the external diameter of described circular groove 1421 and described circular port 1012 matches, offer corresponding to the position of described the 3rd internal thread erection column 1413 and offer one first installing hole 1422 in the bottom of described circular groove 1421, the aperture of described the first installing hole 1422 is greater than the external diameter of described the 3rd internal thread erection column 1413; On described circular groove 1421, also offer one second cable-through hole 1423 corresponding to the position of the first cable-through hole 1414.
On four angles of described holder 142, offer respectively one second installing hole 1424 with described the second corresponding position of internal thread erection column 1014. On described holder 142, be also provided with vertical many reinforcements.
In the present embodiment, described syndeton 14 also comprises an installation pad 144, the shape of the shape of described installation pad 144 and described circular groove 1421 matches, on described installation pad 144, also offer one the 3rd installing hole 1441 corresponding to the position of described the first installing hole 1422, also offer the 3rd cable-through hole 1442 corresponding to the position of the second cable-through hole 1423. Understandable, tension circular mounting sheet 1411 is mainly played in the effect of described installation pad 144, increases the effect of the fastening force that bolt installs, the necessary parts that it must non-this programme.
The external diameter of the internal diameter of described hollow connecting rod 143 and described the first bulb 1412 matches, be slightly less than the external diameter of the first bulb 1412, the described spring that certainly recovers is positioned at described hollow connecting rod 143, should support and be located at described the first bulb 1412 from the one end of recovering spring, the other end supports and is located on the mounting structure 12 being connected with described hollow connecting rod 143.
Above-mentioned syndeton 14, on the diapire that is installed on described mirror housing 101 time, first, described the first ball head connecting piece 141 is installed on the diapire of described mirror housing 101, comprise following installation steps: (1) by described holder 142 by the described circular port 1012 of the interior outside embedding of mirror housing 101, so that the bottom of the circular groove 1421 of described holder 142 exposes to outside the diapire of described mirror housing 101, four the second installing holes 1424 on holder 142 now lay respectively on the second corresponding internal thread erection column 1014, by four construction bolts, described holder 142 is arranged on to the second position enclosing in wall 1013, (2) the 3rd internal thread erection column 1413 of described the first ball head connecting piece 141 is inwardly worn by the bottom of described circular groove 1421, described the 3rd internal thread erection column 1413 is embedded in described the first installing hole 1422, (3) described installation pad 144 is positioned in described circular groove 1421, the 3rd installing hole 1441 that makes to install on pad 144 is aimed at described the first installing hole 1422, (4) pass successively the 3rd installing hole 1441, the first installing hole 1422 afterwards and described the second internal thread erection column 1014 threaded engagement by a construction bolt, thereby the first ball head connecting piece 141 is fixed on the diapire of described mirror housing 101.
Secondly, one end that the first bulb 1412 of diapire that exposes to described mirror housing 101 is inserted to described hollow connecting rod 143, then, to be arranged in described hollow connecting rod 143 from recovering spring, the axial length that certainly recovers spring is greater than the extremely distance between the other end of hollow connecting rod 143 of spherical outside surface of the first bulb 1412; Finally, mounting structure 12 is connected with other one end of described hollow connecting rod 143, certainly recovers spring and be mounted structure 12 and compress.
Syndeton 14 of the present utility model, mirror housing 101 can carry out the rotation of all directions with respect to mounting structure 12 by described the first bulb 1412, be convenient to direction and angle that driver regulates inside rear-view mirror, the structure of this syndeton 14 is very simple, only need the first ball head connecting piece 141 and holder 142 to match and can realize this function, its manufacturing cost is lower, installs very convenient. By two cable-through holes are set respectively on described circular mounting sheet 1411 and circular groove 1421, the wire of anti-glare module and driving recording module can be passed by this syndeton 14, needn't reset new structure and supply conductor wire to pass.
The utility model embodiment, in order further to improve staff's installation, increase operating efficiency, prevent that in use circular mounting sheet 1411 rotates, the present embodiment has also increased a position limiting structure, described position limiting structure comprises and is arranged on described circular mounting sheet 1411 towards the gag lever post 1425 of the one side of described holder 142 and is arranged on the circular groove 1421 of described holder 142 spacing hole 1426 corresponding to the position of described gag lever post 1425, and the elongated end of described gag lever post 1425 extends towards the direction of described holder. Staff when mounted, because the first bulb 1412 is positioned at outside the diapire of mirror housing 101, and holder 142 is positioned at the diapire of mirror housing 101, staff, in the time that the first ball head connecting piece 141 is fixed on described holder 142, is not easy to relative fixing between the first ball head connecting piece 141 and described holder 142. Increase this gag lever post 1425 and spacing hole 1426, when mounted, gag lever post 1425 has been located in described spacing hole 1426, from having prevented in the radial direction the rotation of described circular mounting sheet 1411; In addition, in follow-up use procedure, driver, in the time regulating inside rear-view mirror body 10, has also prevented the problem that the first ball head connecting piece 141 rotates.
Intelligible, the shapes such as above-mentioned hole 1012, installation sheet 1411 are not defined as circle, and in different embodiment, its shape can have different conversion.
Syndeton 14 2 about for inside rear-view mirror body 10 is connected with mounting structure 12:
In this programme, described syndeton 14 comprises with said structure or same or analogous the first ball head connecting piece of function, holder, hollow connecting rod, certainly recovers spring and pad is installed. the syndeton 14 of the present embodiment also comprises the second ball head connecting piece 145, described the second ball head connecting piece 145 comprises the second joint pin 1451 and the second bulb 1452, the one side of described mounting structure 12 towards described mirror housing 101 is fixed in one end of described the second joint pin 1451, described the second bulb 1452 is affixed with the other end of described the second joint pin 1451, in the present embodiment, in order to improve stability and the fastness of described the second ball head connecting piece 145, described the second joint pin 1451 and the second bulb 1452 are one-body molded, same, described the first ball head connecting piece adopts integrated mode moulding.
In this programme, by two ball head structures, not only inside rear-view mirror body 10 can carry out the rotation of any direction with respect to described syndeton 14, and described syndeton 14 also can be rotated or described mounting structure 12 can rotate with respect to syndeton 14 with respect to described mounting structure 12. Adopt this structure, in the time that inside rear-view mirror body 10 is arranged on the front windshield in automobile, can rotate the angle of mounting structure 12, make the angle of mounting structure 12 more adapt to staff, the staff that is more convenient for is arranged on inside rear-view mirror body 10 on the front windshield in described automobile by above-mentioned pair of ball head structure, for staff saves the set-up time, improve installation effectiveness.
Mounting structure 12 about inside-automobile rear mirror:
Described mounting structure 12 comprises the mount pad 121 being connected with described syndeton 14 and the fixed block 122 being slidably matched with described mount pad 121. Described mount pad 121 entirety are dovetail shaped (dovetail mount), it comprise a seat board 1211 and by three edges of seat board 1211 to the side plate 1212 extending away from mirror housing 101 directions, to make described mount pad 121 be dustpan shape. The one side towards described mirror housing 101 is fixed on described seat board 1211 in one end of the second above-mentioned joint pin 1451.
On two relative side plates 1212, offer respectively a chute 1213, described chute 1213 is by offering towards the direction of described seat board 1211 away from one of seat board 1211 on described side plate 1212, and the well width of described chute 1213 is less than the width of described side plate 1212. On a remaining side plate 1212, offer the recessed groove 1214 of several spaces, make this side plate 1212 be dentalation, described recessed groove 1214 plays loss of weight, reduces raw-material effect.
On the lateral surface of two relative side plates 1212, also offer respectively at least one teeth groove 1215(groove), described teeth groove 1215 is in the time that staff installs, increase the effect of staff's palm and the frictional force of described mount pad 121, also play the effect of loss of weight simultaneously.
On described seat board 1211, offer a screwed hole 1216, this screwed hole 1216 is offered towards the one side of described mirror housing 101 in the opposite direction by described seat board 1211, described screwed hole 1216 is a counterbore, so, at construction bolt, through after this screwed hole 1216, the bolt head of bolt is sunken to the one side of described seat board 1211 towards described mirror housing 101.
In the present embodiment, on described seat board 1211, also offer some lightening grooves 1217.
The one side of described fixed block 122 is adhered on the front windshield in described automobile, one side is for being slidably matched with the chute 1213 of described mount pad 121 in addition, in the time that related personnel installs, one end that described mount pad 121 is not arranged to side plate 1212 is inserted on described fixed block 122 and the described mount pad 121 that slides, fixed block 122 both sides are held on two chutes 1213 completely, again a construction bolt is passed to described screwed hole 1216, the tightening latch of bolt is butted on described fixed block 122, to prevent that mount pad 121 from sliding on described fixed block 122. In the present embodiment, in the time that described mount pad 121 is installed, makes mount pad 121 that one of side plate 1212 is not set and face down, slipping on fixed block 122 from top to bottom, after successful installation, the side plate 1212 that is dentalation is positioned at the upper end of fixed block 122, can further prevent the downward landing of mount pad 121.
The mounting structure 12 of this programme is very simple, related personnel can pull down inside rear-view mirror main body at any time from described front windshield, also can install at any time, because adopting bonding way, fixed block 122 is fixed on front windshield, related personnel can regulate the installation site of fixed block 122, meet the different demands of different user, make its versatility better, increased user's experience and satisfaction.
These are only embodiment of the present utility model; not thereby limit the scope of the claims of the present utility model; every equivalent structure or conversion of equivalent flow process that utilizes the utility model description and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.
Claims (2)
1. be convenient to the syndeton of installing for one kind, for inside rear-view mirror body is connected with its mounting structure, described inside rear-view mirror body comprises Lens assembly, mirror housing and for by the interface arrangment of Lens assembly and the clamping of mirror housing, described Lens assembly is connected on mirror housing by interface arrangment, it is characterized in that: offer a hole at the centre position place of the diapire of described mirror housing, on the inner surface of diapire, be positioned at position around described hole be provided with described hole concentric second enclose wall; Described syndeton comprises the first ball head connecting piece, for fixing holder, the hollow connecting rod of the first ball head connecting piece and certainly recovering spring; Described the first ball head connecting piece is fixed on the diapire of described mirror housing and is positioned at outside the diapire of mirror housing by described holder, one end of described hollow connecting rod and described the first ball head connecting piece are rotatably connected, and the other end of described hollow connecting rod is connected with described mounting structure;
On the dismountable diapire that is fixed on described mirror housing of described holder and be positioned at the position in described hole; Described the first ball head connecting piece comprises installation sheet that shape and described hole match, be positioned on installation sheet away from the first joint pin of the one side of described holder, with described the first joint pin away from the first affixed bulb of one end of described installation sheet and be located on installation sheet the 3rd internal thread erection column towards the one side of holder, one first cable-through hole is set on described installation sheet, described the first bulb inserts one end of hollow connecting rod, and described installation sheet is dismountable to be fixed on described holder;
On described installation sheet, be provided with a gag lever post towards the one side of described holder, one end of described gag lever post is fixed on described installation sheet, the other end extends towards described holder direction, on described holder corresponding to the position of described gag lever post offer one with the spacing spacing hole coordinating of described gag lever post;
The described spring that certainly recovers is positioned at described hollow connecting rod, should be from the one end of recovering spring to being located at described the first bulb, and the other end supports and is located on the mounting structure being connected with described hollow connecting rod.
2. an inside-automobile rear mirror, comprise agent structure, described agent structure comprises inside rear-view mirror body, for inside rear-view mirror body being arranged on to the mounting structure on the front windshield in automobile and the syndeton for inside rear-view mirror body is connected with mounting structure, described inside rear-view mirror body comprises Lens assembly, mirror housing and for by the interface arrangment of Lens assembly and the clamping of mirror housing, described Lens assembly is connected on mirror housing by interface arrangment, it is characterized in that: described syndeton is syndeton claimed in claim 1.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109564091A (en) * | 2016-08-02 | 2019-04-02 | 日立汽车系统株式会社 | Stereoscopic camera |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109564091A (en) * | 2016-08-02 | 2019-04-02 | 日立汽车系统株式会社 | Stereoscopic camera |
CN109564091B (en) * | 2016-08-02 | 2021-04-02 | 日立汽车系统株式会社 | Stereo camera |
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