CN207636759U - A kind of Radar Calibration part and trailer-mounted radar calibration facility - Google Patents

Abstract

The utility model is related to equipment calibration technical field, a kind of Radar Calibration part and trailer-mounted radar calibration facility are disclosed.The Radar Calibration part includes：Substrate, the radar wave that the trailer-mounted radar for completing calibration back reflection automobile to be calibrated in its vertical plane is sent out to trailer-mounted radar；Fixed rotating shaft, the substrate is hinged with the fixed rotating shaft, which can be around the center axis thereof of fixed rotating shaft, and can at least rest on first position, the second position and the third place；When the substrate rests on first position, which is vertically arranged；When the substrate rests on the second position, which is in angle with vertical direction；When the substrate rests on the third place, the substrate is symmetrical relative to the substrate in first position in angle, the substrate in the second position and the substrate in the third place with vertical direction, and the angle allows angu-lar deviation less than trailer-mounted radar.Through the above technical solutions, the degree of regulation of Radar Calibration part can be improved in the utility model.

Description

A kind of Radar Calibration part and trailer-mounted radar calibration facility

【Technical field】

The utility model is related to auto repair and equipment calibration technical field more particularly to a kind of Radar Calibration parts and vehicle-mounted Radar Calibration equipment.

【Background technology】

In the field the advanced driving assistance system of automobile (Advanced Driver Assistant Systems, ADAS), certainly It is a miscellaneous function generally used to adapt to cruise system (Adaptive Cruise Control, ACC).Its specific works Principle is to carry out ranging to front vehicles in real time by trailer-mounted radar, itself speed is compared with front speed, same to time control Make the dynamical systems such as the throttle, braking of this vehicle, the safe distance for making this vehicle be kept constant always with front truck.Therefore trailer-mounted radar Act on it is most important in the realization of ACC functions, remove radar itself measurement performance outside, installation site, setting angle are all Determine the correctness and accuracy of its final measurement data.And above-mentioned installation site and setting angle, production can be used because of vehicle The uncontrollable factors such as raw vibrations, collision generate variation, therefore auto repair and with equipment calibration field, especially ACC functions In calibration, the calibration of trailer-mounted radar is core content.The calibration of trailer-mounted radar at present, mostly after fill calibration, i.e., in vehicle release It delivers user after a period of use, because of odjective cause, needs to demarcate trailer-mounted radar.

In the process of implementing the utility model, inventor has found what car radar caliberating device currently on the market used The mode of spring and card slot adjusts the inclination angle of radar reflection plate, and it is not high to use degree of regulation, and rotate it is unsmooth, with And spring is easy failure in use.

【Utility model content】

In order to solve the above-mentioned technical problem, a kind of Radar Calibration part of the utility model embodiment offer and trailer-mounted radar calibration Equipment can solve the problems, such as that existing Radar Calibration part degree of regulation is not high.

The utility model embodiment solves its technical problem and uses following technical scheme：

The utility model embodiment provides a kind of Radar Calibration part, and the Radar Calibration part is for installing to trailer-mounted radar mark The holder device of locking equipment, the Radar Calibration part include：

Substrate, the radar wave that the trailer-mounted radar for completing calibration back reflection automobile to be calibrated in its vertical plane is sent out to institute Trailer-mounted radar is stated, to be demarcated to the trailer-mounted radar；

Fixed rotating shaft, the substrate is hinged with the fixed rotating shaft, and the substrate can be around the central shaft of the fixed rotating shaft Line rotates, and can at least rest on first position, the second position and the third place；The substrate rests on the first position When, the substrate is vertically arranged；The substrate stops in the second position, and the substrate is in angle with vertical direction；Institute When stating substrate and resting on the third place, the substrate is in the angle with vertical direction, described in the second position Substrate and symmetrical relative to the substrate in the first position in the substrate of the third place, the angle is less than The trailer-mounted radar allows angu-lar deviation.

Optionally, the Radar Calibration part further includes mounting bracket and adjusting bracket；

The mounting bracket is installed on the substrate, and the mounting bracket is articulated with the adjusting by the fixed rotating shaft Holder.

Optionally, the Radar Calibration part further includes angular adjustment component, and the angular adjustment component is described for adjusting Substrate so that the substrate can rest on respectively the first position, the second position with or the third place.

Optionally, the Radar Calibration part further includes adjusting rod；

The adjusting bracket is articulated with the adjusting rod；

The angular adjustment component includes cam disc, and the cam disc is equipped with cam path, and the bottom wall of the cam path is at least Equipped with first positioning hole, second location hole and third location hole, the cam disc are sheathed on the adjusting rod；

The mounting bracket is equipped with pillar, and the pillar is contained in the cam path, and the pillar can be in the cam path Interior sliding, and can be inserted into the first positioning hole, the second location hole or the third location hole；

Wherein, when the pillar is inserted into the first positioning hole, the substrate rests on the first position；The pillar When being inserted into the second location hole, the substrate rests on the second position；When the pillar is inserted into the third location hole, The substrate rests on the third place.

Optionally, the cam path includes the circular arc of at least three sections different curvatures, and the circular arc of the different curvature is according to curvature From being sequentially connected with to small greatly.

Optionally, the angular adjustment component further includes cam shrapnel, and the cam shrapnel is fixedly installed in the cam In slot, the cam shrapnel includes at least three through-holes, in the first positioning hole, second location hole and third location hole Each is aligned with a corresponding through-hole；

The pillar is against the cam shrapnel, when the pillar slides in the cam path, the pillar with it is described Cam shrapnel sliding friction.

Optionally, the angular adjustment component further includes the first holding part, and second holds part and pin tightly；

The first holding part is fixedly installed in the cam disc；

Described first, which holds part and described second tightly, holds part tightly by adjusting rod holding between the two；

One end of the pin passes through described first to hold part tightly, is fixed on described second and holds part tightly, described first is held tightly Part lock onto it is described second hold tightly part so that the adjusting rod be clamped to it is described first hold tightly part and it is described second hold tightly part it Between, the angular adjustment bar can rotate together with the adjusting rod.

Optionally, the mounting bracket includes at least one first installation protrusion and at least one second installation protrusion；

The adjusting bracket includes at least one first mounting ear and at least one second mounting ear；

At least one first installation protrusion and at least one first mounting ear are sheathed on the fixation and turn respectively Axis so that the mounting bracket is articulated with the adjusting bracket by the fixed rotating shaft；

The quantity of the angular adjustment component is at least one；

Each second installation protrusion is set there are one the pillar, and the pillar of each second installation protrusion is received It is dissolved in the cam path of a corresponding cam disc；

The adjusting rod passes through the institute of at least one second mounting ear and at least one angular adjustment component State cam disc.

Optionally, the quantity of the mounting bracket is two, two mounting bracket interval pre-determined distances, and mutually flat Row setting, each mounting bracket include the first installation protrusion and the second installation protrusion；

The adjusting bracket includes two the first mounting ears and two the second mounting ears；

Two the first installation protrusions and two first mounting ears are sheathed on the fixed rotating shaft respectively so that institute It states mounting bracket and the adjusting bracket is articulated with by the fixed rotating shaft；

The adjusting rod sequentially passes through second mounting ear, two cam discs and another described second Mounting ear；

Each second mounting ear sets that there are one the pillars.

Optionally, two it is described second installation protrusion two pillars along same straight line, be oppositely arranged.

The utility model embodiment also provides a kind of trailer-mounted radar calibration facility, which includes as above The Radar Calibration part.

Compared with prior art, the substrate for the Radar Calibration part that the utility model embodiment provides can be at described first It sets, the stop of the second position and the third place, the trailer-mounted radar can be recorded respectively in three positions that the substrate stops Installation site deviation and dB value deviations, can be improved the degree of regulation of Radar Calibration part, to which the Radar Calibration part is applied to vehicle When carrying in Radar Calibration equipment, Accurate Calibration can be carried out to the installation site deviation and dB value deviations of trailer-mounted radar.

【Description of the drawings】

One or more embodiments are illustrated by corresponding attached drawing, these exemplary illustrations not structure The restriction of pairs of embodiment, the element with same reference numbers label is expressed as similar element in attached drawing, unless there are special It declares, composition does not limit the figure in attached drawing.

Fig. 1 is a kind of stereogram for trailer-mounted radar calibration facility that the utility model wherein embodiment provides；

Fig. 2 is the stereogram of the holder device of calibration facility shown in FIG. 1；

Fig. 3 is the stereogram of another angle of holder device shown in Fig. 2；

Fig. 4 is the front view of holder device shown in Fig. 3；

Fig. 5 is the stereogram of the laser of calibration facility shown in FIG. 1；

Fig. 6 is the stereogram of another angle of laser shown in fig. 5；

Fig. 7 is the stereogram of the diaphragm of calibration facility shown in FIG. 1；

Fig. 8 is the stereogram of another angle of diaphragm shown in Fig. 7；

Fig. 9 is the stereogram of the Radar Calibration part of calibration facility shown in FIG. 1；

Figure 10 is the stereogram of another angle of Radar Calibration part shown in Fig. 9；

Figure 11 is the partial exploded view of Radar Calibration part shown in Fig. 9；

Figure 12 is the partial exploded view of another angle of Radar Calibration part shown in Fig. 9；

Figure 13 is the exploded view of the angular adjustment component of Radar Calibration part shown in Fig. 9；

Figure 14 is the partial enlarged view of part A in Figure 12；

Figure 15 is to be shown what the vertical plane of Radar Calibration part was demarcated using the calibration facility of the utility model embodiment It is intended to；

Figure 16 to Figure 18 is the schematic diagram that the calibration facility of the utility model embodiment demarcates trailer-mounted radar.

【Specific implementation mode】

For the ease of understanding the utility model, in the following with reference to the drawings and specific embodiments, the utility model is carried out more detailed Thin explanation.It should be noted that when element is expressed " being fixed on " another element, it can be directly in another element Upper or placed in the middle there may be one or more therebetween elements.When an element is expressed " connection " another element, it can To be directly to another element or may exist one or more elements placed in the middle therebetween.This specification is used Term " vertical ", " horizontal ", "left", "right", "inner", "outside" and similar statement for illustrative purposes only.

Unless otherwise defined, technical and scientific term all used in this specification and the skill for belonging to the utility model The normally understood meaning of technical staff in art field is identical.Term used in the description of the utility model is intended merely to The purpose for describing specific embodiment is not intended to limitation the utility model.Term "and/or" used in this specification includes Any and all combinations of one or more relevant Listed Items.

In addition, as long as technical characteristic involved in the utility model difference embodiment disclosed below is each other not Constituting conflict can be combined with each other.

Referring to Fig. 1, the trailer-mounted radar calibration facility 500 that the utility model wherein embodiment provides includes holder device 100, laser 200, diaphragm 300 and Radar Calibration part 400.The Radar Calibration part 400 is installed on the holder device 100, And it can be moved in the horizontal direction or vertically relative to the holder device 100.The holder device 100 is for supporting The Radar Calibration part 400.The laser 200 is for emitting laser beam, and the diaphragm 300 is for controlling whether laser beam is worn Its own is crossed, the Radar Calibration part 400 makes it along backtracking to institute for reflecting the laser beam across the diaphragm 300 Laser 200 is stated, to realize the vertical plane for demarcating the Radar Calibration part 400.The Radar Calibration part 400 is additionally operable to reflection vehicle The radar wave that radar is sent out is carried, to demarcate the installation site and setting angle of trailer-mounted radar.

Referring to Fig. 2, the holder device 100 includes bracket component 10, transverse beam assembly 20 and sliding part 30.The cross Beam assembly 20 is installed on the bracket component 10, can vertically be moved relative to the bracket component 10.The sliding part 30 are installed on the transverse beam assembly 20, can be moved in the horizontal direction relative to the transverse beam assembly 20.The Radar Calibration part 400 It is installed on the sliding part 30, can be moved in the horizontal direction relative to the transverse beam assembly 20 together with the sliding part 30.

The bracket component 10 includes base support 11 and upright bar holder 12, one end connect base of the upright bar holder 12 Holder 11, the base support 11 support the upright bar holder 12.

Also referring to Fig. 3 to Fig. 4, the base support 11 includes rack body 110, idler wheel 112 and height adjusting part 114.The rack body 110 is rectangular flat, can be made by metal material, in order to mitigate weight, form multiple vacancy sections Domain.The rack body 110 includes the bottom surface 1100 being oppositely arranged and upper surface 1102.During the rack body 110 has Axes O 1.

The idler wheel 112 is installed on the bottom surface 1100, for being moved easily the base support 11.In the present embodiment In, the idler wheel 112 is direction movement idler wheel so that the base support 11 all around can be moved arbitrarily, the idler wheel 112 quantity is four, is respectively arranged in four angles of the rack body 110.It is understood that in some other implementations In example, the shape of the rack body 110 can change according to actual demand, and be not limited to rectangle, such as the holder sheet Body 110 can be circle；The quantity of the idler wheel 112 can be increased or decreased according to actual demand, as long as being at least three.

The height adjusting part 114 is installed on the bottom surface 1100, the height for adjusting the rack body 110. In the present embodiment, the height adjusting part 114 is adjusting handle, and quantity is three.Three adjusting handles 114 are in isosceles Triangle-Profile is set to the side of the rack body 110 positioned at two adjusting handles 114 on isosceles triangle bottom edge, and Central axes O1 along the rack body 110 is symmetrical arranged, another adjusting handle 114 is set to the rack body 110 The other side, and be set on the central axes O1 of the rack body 110 (namely it is set to the vertex position of isosceles triangle apex angle It sets).Three adjusting handles 114, which coordinate, can adjust the whole level angle of the rack body 110, individually adjust and be located at Adjusting handle 114 on the central axes O1 of the rack body 110, can adjust the pitch angle of the rack body 110.

It is understood that the height adjusting part 114 can be other height adjustable devices；The height adjusting part 114 quantity can increase according to actual demand, as long as being at least three, at least three height adjusting parts 114 Three are arranged in above-described distribution mode.

The upright bar holder 12 includes riser guide 120, elevating screw 122, lifting rocking handle 124 and height gauge 126.

The riser guide 120 is installed on the rack body 110, and the riser guide 120 includes montant 1200, cross bar 1202 and bottom bar 1204.Two montants 1200 are vertically arranged in parallel, and are spaced pre-determined distance, described for guiding Transverse beam assembly 20 is vertically moving.The cross bar 1202 is horizontally disposed, and both ends are respectively arranged in described in two Montant 1200.The bottom bar 1204 is fixedly installed in the rack body 110, and each montant 1200 is far from the cross bar 1202 one end is fixedly installed in the bottom bar 1204.

It is understood that in some other embodiments, the quantity of the montant 1200 can increase according to actual conditions It adds deduct few, for example, the quantity of the montant 1200 can be 1 or 3.

The elevating screw 122 is vertically fixedly installed in the riser guide 120, the elevating screw 122 One end is fixedly installed in the cross bar 1202, and the other end of the elevating screw 122 is fixedly installed in the bottom bar 1204.

It is understood that in some other embodiments, the bottom bar 1204 can be omitted, each montant 1200 One end far from the cross bar 1202 is fixedly installed in the rack body 110.The elevating screw 122 is vertically set It sets, one end of the elevating screw 122 is fixedly installed in the cross bar 1202, and the other end of the elevating screw 122 fixes peace Loaded on the rack body 110.

The lifting rocking handle 124 is installed on the cross bar 1202, and is connect with the elevating screw 122, for rotating, from And the elevating screw 122 is driven to be rotated around center axis.In the present embodiment, it is described lifting rocking handle 124 connecting rod with The elevating screw 122 is vertical, and is connect with the elevating screw 122 by gear structure.It is understood that at some its In its embodiment, the connecting rod of the lifting rocking handle 124 can be coaxial with the elevating screw 122, the company of the lifting rocking handle 124 Extension bar is directly connected to the elevating screw 122；Alternatively, the lifting rocking handle 124 can be replaced by it is other described for driving The device that elevating screw 122 rotates, for example, using motor etc..

The height gauge 126 is vertically installed on the montant 1200, and the height gauge 126 has scale, is used for Measure the displacement distance of the transverse beam assembly 20 vertically.

Referring back to Fig. 2 and Fig. 3, the transverse beam assembly 20 includes support element 210, guide rail 212 and level meter 214.It is described Support element 210 is installed on the riser guide 120, and under the guiding of the riser guide 120, the support element 210 can be along perpendicular Histogram is moved to relative to the riser guide 120.The guide rail 212 is fixedly installed in the support element 210, can be with the branch Support member 210 is vertically moved relative to the riser guide 120 together.The sliding part 30 is installed on the guide rail 212, It can be moved in the horizontal direction relative to the guide rail 212.

The support element 210 includes support ontology 2102, movable block 2104 and sliding block 2106.

The substantially plate of the support ontology 2102, opposite sides each extend over out two clamping parts 2108, two institutes It is strip to state clamping part 2108, arranged in parallel in the horizontal direction and interval pre-determined distance.

The movable block 2104 is fixedly installed in the support ontology 2102, and is sheathed on the elevating screw 122.It is described Movable block 2104 can drive with 122 screw-thread fit of the elevating screw when the elevating screw 122 is rotated around center axis The dynamic movable block 2104 is moved along the elevating screw 122 in vertical direction, to drive the transverse beam assembly 20 along vertical It moves in direction.The movable block 2104 and the clamping part 2108 are located at the opposite sides of the support ontology 2102.

The sliding block 2106 is fixedly installed in the support ontology 2102, and is located at the support with the movable block 2104 The same side of ontology 2102.Each montant 1200, which corresponds to, installs at least one sliding block 2106, each sliding block 2106 are movably installed in the corresponding montant 1200, and can be slided along the corresponding montant 1200.In this reality It applies in example, each montant 1200 corresponds to two sliding blocks 2106 of installation.It is understood that in some other embodiments In, the quantity for the sliding block 2106 that each montant 1200 corresponds to installation can be increased or decreased according to actual demand, such as It reduces to 1, or increases to 3.

Two guide rails 212 are corresponding respectively to be installed on two clamping parts 2108, and it is horizontally disposed and Every pre-determined distance.There is the horizontal scale ruler using its center as zero, to extend respectively to both sides on the both sides of the guide rail 212 2120 namely the horizontal scale ruler 2120 scale value using the center of the guide rail 212 as zero, respectively to the guide rail 212 both sides gradually increase, for facilitating the position of the sliding part 30 to position.The central axes O2 of the guide rail 212 and the branch The central axes O1 of frame ontology 110 is generally aligned in the same plane.It is understood that in some other embodiments, the guide rail 212 Quantity can be increased or decreased according to actual demand, for example, reducing to 1 or increasing to 3；The guide rail 212 can also lead to It crosses other any suitable ways and is fixedly installed in the support element 210, for example, the clamping part 2108 omits, the guide rail 212 are directly welded in the support ontology 2102.

The level meter 214 is installed on the upside of a clamping part 2108, is for detecting the clamping part 2108 It is no horizontally disposed, to judge whether the guide rail 212 is horizontally disposed with.It is understood that in some other embodiments, institute It states level meter 214 and is also mountable to the guide rail 212, or be installed on the other parts of the transverse beam assembly 20, as long as can be full Whether foot is horizontally disposed for detecting the guide rail 212.

The sliding part 30 is movably installed in the guide rail 212, can be moved in the horizontal direction along the guide rail 212. In the present embodiment, the sliding part 30 is movably installed in the guide rail 212 by sliding bearing 302.The sliding part 30 includes Several mount points, for installing the Radar Calibration part 400.It is understood that in some other embodiments, the sliding Part 30 can be movably installed in the guide rail 212 by other suitable modes, for example, the sliding bearing 302 omits, it is described Sliding part 30 can directly be movably installed in the guide rail 212.

Also referring to Fig. 5 and Fig. 6, the laser 200 is wheel hub laser comprising emission part 202, installation axle 204 and observation target 206.The emission part 202 is for emitting laser beam, and the emission part 202 includes switch 2022, for opening Open or close the emission part 202.The installation axle 204 is installed on the emission part 202, is used for the wheel hub laser 200 are installed on the wheel hub of automobile.The observation target 206 is installed on the emission part 202.The observation target 206 is rectangular flat, Including observing target surface 2060, for showing via 400 reflected laser position of the Radar Calibration part.In the observation target The middle part in face 2060 is equipped with launch hole 2062, for allowing radiating laser beams to go out.

Also referring to Fig. 7 and Fig. 8, the diaphragm 300 includes fixed seat 310 and sliding diaphragm 320.

The fixed seat 310 includes pedestal 312, fixing bracket 314 and lock handle 316.The pedestal 312 is rectangle Tablet, one end of the fixing bracket 314 are installed on the middle part of the pedestal 312, and the fixing bracket 314 is perpendicular to the bottom Seat 312.The fixing bracket 314 is strip.The lock handle 316 is installed on the fixing bracket 314.

The sliding diaphragm 320 includes diaphragm portion 322 and sliding groove portion 324.The substantially tabular of the diaphragm portion 322, Equipped with strip diaphragm slot 3222, for allowing laser beam to pass through.The width of the diaphragm slot 3222 emits than the laser 200 Laser spot size diameter it is smaller, in order to which whether detection laser beam just by diaphragm slot 3222.The sliding groove portion 324 is installed on Diaphragm portion 322 is strip, is sheathed on the fixing bracket 314.The sliding groove portion 324 can be relative to the fixing bracket 314 slidings.The sliding groove portion 324 is equipped with strip fluting 3240, and the lock handle 316 passes through the fluting 3240, is used for The sliding diaphragm 320 is firmly secured at the fixed seat 310.

Referring to Fig. 9,400 rectangular tabular of the Radar Calibration part, including substrate 401, mounting bracket 402 are fixed Shaft 403, handle 404, adjusting bracket 405, angular adjustment component 406, adjusting rod 407 and handle 408.

Referring to Fig. 10, the substrate 401 is rectangular flat, including substrate body 4010 and reflecting layer 4012.The base Plate ontology 4010 can be made by light-weight material, for example, the lightweight metal materials such as plastic material, aluminium alloy or magnesium alloy.Institute State the surface that reflecting layer 4012 is set to the substrate body 4010, the laser beam sent out for reflecting the laser 200, It is additionally operable to the radar wave that reflection trailer-mounted radar is sent out.The reflecting layer 4012 is silver layer, is coated on the substrate body 4010 Surface not only with reflection laser beam but also can reflect radar wave.

It is understood that in some other embodiments, the reflecting layer 4012 can be that light made from other materials is anti- Layer is penetrated, and the substrate body 4010 can be made by the material that can reflect radar wave or the substrate 401 had both included one Reflection layer, also includes a reflection of radar wave layer, and the radar reflection layer is set to the reflection layer and the substrate body As long as between 4010 namely the substrate 401 can be used for the reflected beams and radar wave simultaneously.The shape of the substrate 401 It is not limited to rectangle, can be changed according to actual needs, for example, the substrate 401 can be circle.

1 and Figure 12 are please referred to Fig.1, the mounting bracket 402 is plate, is fixedly installed in the substrate body 4010, institute It states mounting bracket 402 and is respectively arranged at the opposite sides of the substrate body 4010 with the reflecting layer 4012.The installation branch The quantity of frame 402 is two, and two mounting brackets 402 are spaced pre-determined distance, and be all vertically arranged (namely it is described Mounting bracket 402 is arranged in parallel).Each mounting bracket 402 includes that the first installation protrusion 4022 and the second installation are convex 4024 are played, the first installation protrusion 4022 is located at 4024 lower section of the second installation protrusion, two mounting brackets 402 Two first installation protrusions 4022 are located at same horizontal line, two second installation protrusions 4024 of two mounting brackets 402 Positioned at another horizontal line.Each the second installation protrusion 4024 is equipped with pillar 4026, and the pillar 4026 is cylindrical, two The pillar 4026 along same straight line, be oppositely arranged.The first installation protrusion 4022 is equipped with mounting hole, described solid for installing Determine shaft 403.

It is understood that in some other implementations, the quantity of the mounting bracket 402 is not limited to two, can be with It is increased or decreased according to actual demand.

The fixed rotating shaft 403 is each passed through two mounting holes of two the first installation protrusions 4022, the fixation Shaft 403 is horizontally disposed.

The handle 404 is installed on the substrate body 4010, and is located at the substrate body with the mounting bracket 402 4010 the same side.The handle 404 is for being moved easily the Radar Calibration part 400.

The adjusting bracket 405 is removably installed in the sliding part 30.The adjusting bracket 405 includes rack body 4050, the first mounting ear 4052 and the second mounting ear 4054, the rack body 4050 is frame structure, including vacancy section, For mitigating weight.Two first mounting ears 4052 and two second mounting ears 4054 are all installed on the holder sheet The same side of body 4050, two first mounting ears 4052 are located at same horizontal line, two second mounting ears 4054 In another horizontal line.First mounting ear 4052 and second mounting ear 4054 are all equipped with mounting hole, the fixed rotating shaft 403 both ends are hingedly connected to two mounting holes of two first mounting ears 4052 so that the substrate 401 can be around described Fixed rotating shaft 403 is rotated relative to the adjusting bracket 405.

The angular adjustment component 406 includes cam disc 410, and cam shrapnel 412, first holds part 414 tightly, and second holds part tightly 416 and pin 418.

Also referring to Figure 13 and Figure 14, the cam disc 410 is discoid, and surface thereof is equipped with cam path 4100, institute State the circular arc that cam path 4100 includes three sections of different curvatures, three sections of circular arcs are according to curvature from being sequentially connected with to small greatly. The bottom wall of the cam path 4100 is equipped with first positioning hole 4102, second location hole 4104 and third location hole 4106.It is described First positioning hole 4102 is between the second location hole 4104 and the third location hole 4106, the first positioning hole 4102 are spaced pre-determined distance with the second location hole 4104 and the third location hole 4106 respectively.The cam disc 410 Middle part is equipped with central through hole 4108.

The shape and size of the cam shrapnel 412 are identical as the shape and size of the cam path 4100, the cam Shrapnel 412 also includes the circular arc of three sections of different curvatures, and three sections of circular arcs are according to curvature from being sequentially connected with to small greatly.It is described Cam shrapnel 412 includes three through-holes 4120, and the cam shrapnel 412 is contained in the cam path 4100, and solid by screw Due in the cam path 4100, in the first positioning hole 4102, second location hole 4104 and third location hole 4106 Each is aligned with a corresponding through-hole 4120.The cam shrapnel 412 can be made by metal materials such as copper, aluminium, It can be made by elastic plastic material.

The first holding part 414 is fixedly installed in a surface of the cam disc 410, described first hold tightly part 416 with The cam shrapnel 412 is located at the opposite sides of the cam disc 410.

Described second holds part 416 tightly holds one disk of formation of part 414, the disk and the cam disc tightly with described first 410 is coaxial.

The quantity of the pin 418 is two, and one end of each pin 418 is along the disk radially across described First holds part 414 tightly, is fixed on described second and holds part 416 tightly.One end of the pin 418 has pin head, other end tool There are external thread part, the pin head to hold part 414 tightly against described first, the external thread part holds part 416 tightly with described second Screw-thread fit holds part 414 tightly by described first by the pin 418 and holds the locking composition of part 416 circle tightly with described second Disk.

The quantity of the angular adjustment component 406 is two, and each angular adjustment component 406 is installed on a correspondence The pillar 4026, one end of each pillar 4026 is inserted into a corresponding cam path 4100, and can be along right The cam path 4100 answered slides.When the pillar 4026 slides in the corresponding cam path 4100, the pillar 4026 with 412 sliding friction of cam shrapnel, and can be inserted into the first positioning hole 4102, second location hole 4104 and the In three location holes 4106, to be positioned to the angular adjustment component 406.The regulation stall of the Radar Calibration part 400 with The quantity of the location hole is identical, and in the present embodiment, the regulation stall of the Radar Calibration part 400 is three.

In the present embodiment, the mounting bracket 402 and the quantity of the angular adjustment component 406 are two, described Adjusting bracket 405 includes two the first mounting ears 4052 and two the second mounting ears 4054, primarily to promoting the thunder Up to calibration element 400 stability and adjustment angle when reliability, it is to be understood that in some other embodiments, institute The quantity for stating mounting bracket 402, angular adjustment component 406, the first mounting ear 4052 and the second mounting ear 4054 can basis Actual demand changes, and is only at least one, for example, the quantity of the angular adjustment component 406 is one, second peace The quantity of dress protrusion 4024, second mounting ear 4054 and the pillar 4026 mutually should be one.

The adjusting rod 407 is horizontally disposed, and across the middle part of each angular adjustment component 406 namely the tune Pole 407 passes through the central through hole 4108 of the cam disc 410, also extends through described first and holds part 414 and second holding tightly The center for the disk that part 416 is constituted.The first holding part 414 is fixedly installed in the cam disc 410, passes through the pin 418 lockings described first hold part 414 and described second tightly and hold part 416 tightly, may make described first to hold part 414 and described second tightly It holds part 416 tightly and holds the adjusting rod 407 tightly jointly, the angular adjustment component 406 is fixedly installed in the adjusting rod 407, and It can together be rotated with the adjusting rod 407.The adjusting rod 407 also extends through the mounting hole of two second mounting ears 4054, And it is rotatablely connected with second mounting ear 4054.When the adjusting rod 407 rotates, the angular adjustment component can be driven 406 rotate together, the sliding in the cam path 4100 of the pillar 4026, and with 412 sliding friction of cam shrapnel.By Include the circular arc of three sections of different curvatures in the cam path 4100, the pillar 4026 when sliding in the cam path 4100, The cam disc 410 push the substrate 401 around the fixed rotating shaft 403 rotate so that the cam disc 410 closer or far from The adjusting bracket 405.When the pillar 4026 is inserted into the first positioning hole 4102, the substrate 401 rests on first Position, at this time the substrate 401 be vertically arranged；When the pillar 4026 is inserted into the second location hole 4104, the substrate 401 rest on the second position, and the upper end of the substrate 401 is close to the adjusting bracket 405 at this time, the substrate 401 relative to The angle of vertical direction is 2 degree；When the pillar 4026 is inserted into the third location hole 4106, the substrate 401 rests on Three positions, the upper end of the substrate 401 is far from the adjusting bracket 405, folder of the substrate 401 relative to vertical direction at this time Angle is 2 degree.

The cam disc 410 is equipped with the cam path 4100, the pillar 4026 can the sliding in the cam path 4100, The substrate 401 can be pushed smoothly to be rotated around the fixed rotating shaft 403, to adjust the angle of the substrate 401.

In addition, being equipped with cam shrapnel 412 in the cam path 4100, the pillar 4026 is in the cam path 4100 Sliding, and with 412 sliding friction of cam shrapnel, may make the pillar 4026 in the cam path 4100 stablize, it is flat Sliding is dynamic, and the stability that the substrate 401 is rotated around the fixed rotating shaft 403 can be improved.

Moreover, the bottom wall of the cam path 4100 is equipped with the first positioning hole 4102, second location hole 4104 and third Location hole 4106 can facilitate the substrate 401 being positioned at preset rotation angle.

Meanwhile it can facilitate institute by the first holding part 414, the second holding part 416 and the pin 418 It states angular adjustment component 406 and is fixedly installed in the adjusting rod 407.

Two handles 408 are fixedly installed in the both ends of the adjusting rod 407 respectively, for facilitating the rotation adjusting Bar 407.

When assembling the Radar Calibration part 400, handle 404 is fixedly installed in the substrate 401, by two installations Holder 402 is fixedly installed in the substrate 401, and two mounting brackets 402 are spaced pre-determined distance and are arranged in parallel, the peace Dress holder 402 is located at the same side of the substrate 401 with the handle 402.The fixed rotating shaft 403 is passed through two described the Two mounting holes of one installation protrusion 4022, and the fixed rotating shaft 403 is fixedly installed in the first installation protrusion 4022.

Two first mounting ears 4052 are sheathed on to the both ends of the fixed rotating shaft 403, two first installations Ear 4052 is flexibly connected with the fixed rotating shaft 403.

The adjusting rod 407 is sequentially passed through to the mounting hole of second mounting ear 4054, two cam discs 410 two central through holes 4108 and another described second mounting ear 4054.The cam disc 410 is sheathed on described convex Column 4024 so that the pillar 4024 is contained in the cam path 4100, and against the cam shrapnel 412.Pass through the pin Nail 418, which by described second holds part 416 tightly and lock onto described first, holds part 414 tightly, and described first holds part 414 and second armful described tightly Tight part 416 holds the adjusting rod 407 tightly jointly so that the angle adjusting piece 406 is fixedly installed in the adjusting rod 407.

In the present embodiment, the cam path 4100 includes the circular arc of three sections of different curvatures, it is to be understood that at some In other implementations, the quantity of the circular arc of different curvature can change according to actual demand, as long as being at least three sections of different curvatures Circular arc, the circular arcs of at least three sections different curvatures is according to curvature from being sequentially connected with to small greatly.

In the present embodiment, the bottom wall of the cam path 4100 is set there are three location hole：First positioning hole 4102, second is fixed Position hole 4104 and third location hole 4106, it is to be understood that in some other embodiments, the quantity of the location hole can be with Increased according to actual demand, as long as including at least the first positioning hole 4102, second location hole 4104 and third location hole 4106.

It is understood that in some other embodiments, the cam shrapnel 412 can be omitted, the pillar 4026 With the bottom wall sliding friction of the cam path 4100.Described first holds part 414, the second holding part 416 and the pin tightly Nail 418 can be omitted, and the adjusting rod 407 is fixedly connected with two cam discs 410.

Please refer to Fig.1 5, in the first step demarcated to trailer-mounted radar, the automobile 600 it is horizontally disposed (namely The automobile 600 is parked in a horizontal plane), the holder device 100 is moved to by automobile to be calibrated by the idler wheel 112 600 fronts, distance keep the guide rail 212 and 600 axle of automobile generally parallel at 1 meter or so.The level meter 214 is observed, The height adjusting part 114 is adjusted, keeps the guide rail 212 horizontally disposed.The Radar Calibration part 400 is installed on the sliding Part 30, and the Radar Calibration part 400 and the sliding part 30 are moved to the one of automobile 600 to be calibrated along the guide rail 212 Side.The substrate 401 is located at the first position namely the substrate 401 is vertically arranged.Pacify in a trailing wheel of automobile 600 Wheel hub folder is installed, and the laser 200 is installed, opens the laser 200, the laser beam for making the laser 200 send out It is radiated on the reflecting layer 4012 of the Radar Calibration part 400.It takes the diaphragm 300, and the diaphragm 300 is placed on described Between laser 200 and the Radar Calibration part 400, and keep the diaphragm portion 322 vertical with laser beam.By the diaphragm slot 3222 adjustings are highly consistent with the launch hole 2302 of the laser 200.The shooting angle of the laser 200 is adjusted, and is fitted When the position of mobile diaphragm 300, the laser 200 is set to send out laser beam in the horizontal direction, and the laser 200 is sent out Laser beam be parallel to the middle axial plane of automobile 600 to be calibrated, pass through from the diaphragm slot 3222 center.According to actual conditions, lead to The height slided the sliding part 30 and/or adjust the guide rail 212 is crossed, the position to adjust Radar Calibration part 400 makes this When laser beam can be irradiated on Radar Calibration part 400.Observe the laser spot position being reflected back, the mobile holder device 100 and the height adjusting part 114 is adjusted, makes the laser beam that the reflecting layer 4012 is reflected that can just be projected along backtracking To the launch hole 2302 of the laser 200.At this point, completing to demarcate the vertical plane of the Radar Calibration part 400, the guide rail 212 perpendicular to the automobile 600 middle axial plane, the substrate 401 is vertically arranged, and is also perpendicularly in the automobile 600 Axial plane.

In the present embodiment, when the automobile 600 is horizontally disposed with, the middle axial plane of the automobile 600 is vertically arranged, and institute It is symmetrical relative to the axis face to state automobile 600.

It, will be vehicle-mounted in the second step demarcated to trailer-mounted radar also referring to Figure 12, Figure 13 and Figure 16 to 18 Radar is installed on automobile 600.Automobile ADAS diagnostic analysis instruments are connected to the onboard diagnostic system (On-Board of automobile Diagnostics, OBD) communication interface on, the Radar Calibration part 400 is moved to trailer-mounted radar along the guide rail 212 It is intermediate, it is ensured that the center of the Radar Calibration part 400 is kept point-blank with the center of trailer-mounted radar.Open the vehicle Radar is carried, emits radar wave to the Radar Calibration part 400, the radar wave can be laser radar or millimetre-wave radar.It please join Figure 16 is read, the adjusting rod 407 is rotated by the handle 408, the substrate 401 is rotated around the fixed rotating shaft 403 so that The pillar 4026 is inserted into the second location hole 4104, and the upper end of the substrate 401 is far from the automobile 600, the substrate 401 and the angle of vertical direction are 2 degree.It is observed by the automobile ADAS diagnostic analysis instruments.7 are please referred to Fig.1, by described Handle 408 rotates the adjusting rod 407, and the substrate 401 is rotated around the fixed rotating shaft 403 so that the pillar 4026 is inserted Enter the first positioning hole 4102, the substrate 401 is vertically arranged, and the reflecting layer 4012 is made to reflect the radar wave to described The automobile ADAS diagnostic analysis instruments are observed at the middle part of trailer-mounted radar.8 are please referred to Fig.1, institute is rotated by the handle 408 Adjusting rod 407 is stated, the substrate 401 is rotated around the fixed rotating shaft 403, and the upper end of the substrate 401 is close to the automobile 600 (namely the upper end of the substrate 401 is far from described holder device 100) so that the pillar 4026 is inserted into the third location hole 4106, the substrate 401 and the angle of vertical direction are 2 degree, observe the automobile ADAS diagnostic analysis instruments.Three above is grasped After the completion of work, the installation site deviation and dB value deviations of current trailer-mounted radar, root are obtained by automobile ADAS diagnostic analysis instruments It operates and guides according to automobile ADAS diagnostic analysis instruments, adjust the vertical adjustment bolt of the trailer-mounted radar, make to reflex to the vehicle The deviation of the radar wave of radar is carried in permissible range.So far, the staking-out work of trailer-mounted radar is completed.

It is understood that in some other embodiments, vertical plane caliberating device pair in the prior art can be used The vertical plane of the substrate 401 is demarcated so that then the substrate 401 utilizes described perpendicular to the middle axial plane of automobile 600 Radar Calibration part 400 reflects the radar wave of trailer-mounted radar transmitting to the trailer-mounted radar, passes through automobile ADAS diagnostic analysis instruments The installation site deviation and dB value deviations for obtaining current trailer-mounted radar, adjust the vertical adjustment bolt of the trailer-mounted radar so that The deviation of the radar wave of the trailer-mounted radar is reflexed in permissible range, that is, completes the staking-out work of trailer-mounted radar.In addition, The angle is not limited to 2 degree, as long as the angle of the angle allows angu-lar deviation less than trailer-mounted radar.This field If those of skill in the art are it should be appreciated that hang down to the Radar Calibration part 400 using vertical plane caliberating device in the prior art It faces calibration directly, does not need 400 the reflected beams of Radar Calibration part, then the Radar Calibration part 400 does not need the work(of reflected light Can, the Radar Calibration part 400, which is only capable of reflection radar wave namely the Radar Calibration part 400, only to include 401 He of substrate Reflection of radar wave layer or the substrate 401 can be made by the material of reflection radar wave, without including reflection of radar wave Layer.

In the present embodiment, anti-using the Radar Calibration part 400 after the vertical plane of the substrate 401 obtains calibration The radar wave of trailer-mounted radar transmitting is penetrated to the trailer-mounted radar, proving operation can be carried out to the trailer-mounted radar of different automobile types, it is convenient The staking-out work of trailer-mounted radar.

In addition, three states with the substrate with vertical direction in positive and negative angle can be vertically arranged in the substrate 401 Under, the installation site deviation and dB value deviations of the trailer-mounted radar are recorded, it can be to the installation site deviation and dB values of trailer-mounted radar Deviation carries out Accurate Calibration.

Moreover, can realize hanging down for the substrate 401 using the Radar Calibration part 400, diaphragm 300 and laser 200 Face calibration directly, the Radar Calibration part 400 can be used for the calibration of its vertical plane, and can be used for trailer-mounted radar calibration, reduce The number of elements of the trailer-mounted radar calibration facility 500, reduces cost, also simplifies proving operation.

Meanwhile the Radar Calibration part 400 can be along the horizontal sliding of the guide rail 212, in an automobile storage multiple vehicle-mounted When radar, after the calibration for completing a trailer-mounted radar, the slidably Radar Calibration part 400 to the front of another trailer-mounted radar, To carry out proving operation to another trailer-mounted radar, need not level calibration be carried out to the guide rail 212 again, can facilitated to a vapour Multiple trailer-mounted radars of vehicle are demarcated.

Finally it should be noted that：Above example is only to illustrate the technical solution of the utility model, rather than its limitations； Under the thinking of the utility model, it can also be combined between the technical characteristic in above example or different embodiments, Step can be realized with random order, and there are many other variations of the different aspect of the utility model as described above, be Simplicity, they do not provide in details；Although the utility model is described in detail with reference to the foregoing embodiments, this The those of ordinary skill in field should understand that：Its still can with technical scheme described in the above embodiments is modified, Or equivalent replacement of some of the technical features；And these modifications or replacements, do not make the sheet of corresponding technical solution Matter is detached from the range of various embodiments of the utility model technical solution.

Claims (11)

1. a kind of Radar Calibration part (400), which is characterized in that including：

Substrate (401), the radar wave that the trailer-mounted radar for completing calibration back reflection automobile to be calibrated in its vertical plane is sent out is extremely The trailer-mounted radar, to be demarcated to the trailer-mounted radar；

Fixed rotating shaft (403), the substrate (401) is hinged with the fixed rotating shaft (403), and the substrate (401) can be around described The center axis thereof of fixed rotating shaft (403), and can at least rest on first position, the second position and the third place；

The substrate (401) stops at the first position, and the substrate (401) is vertically arranged；

The substrate (401) stops in the second position, and the substrate (401) is in angle with vertical direction；

When the substrate (401) rests on the third place, the substrate (401) is in the angle with vertical direction；

Wherein, the substrate (401) of the second position and the third place the substrate (401) relative to The substrate (401) of the first position is symmetrical；

The angle allows angu-lar deviation less than the trailer-mounted radar.

2. Radar Calibration part (400) according to claim 1, which is characterized in that the Radar Calibration part (400) further includes Mounting bracket (402) and adjusting bracket (405)；

The mounting bracket (402) is installed on the substrate (401), and the mounting bracket (402) passes through the fixed rotating shaft (403) it is articulated with the adjusting bracket (405).

3. Radar Calibration part (400) according to claim 2, which is characterized in that the Radar Calibration part (400) further includes Angular adjustment component (406), the angular adjustment component (406) is for adjusting the substrate (401) so that the substrate (401) first position, the second position or the third place can be rested on respectively.

4. Radar Calibration part (400) according to claim 3, which is characterized in that the Radar Calibration part (400) further includes Adjusting rod (407)；

The adjusting bracket (405) is articulated with the adjusting rod (407)；

The angular adjustment component (406) includes cam disc (410), and the cam disc (410) is equipped with cam path (4100), described The bottom wall of cam path (4100) is at least provided with first positioning hole (4102), second location hole (4104) and third location hole (4106), the cam disc (410) is sheathed on the adjusting rod (407)；

The mounting bracket (402) is equipped with pillar (4026), and the pillar (4026) is contained in the cam path (4100), described Pillar (4026) can be in sliding in the cam path (4100), and can be inserted into the first positioning hole (4102), and described second is fixed Position hole (4104) or the third location hole (4106)；

Wherein, when the pillar (4026) is inserted into first positioning hole (4102), the substrate (401) rests on described first Position；When the pillar (4026) is inserted into second location hole (4104), the substrate (401) rests on the second It sets；When the pillar (4026) is inserted into third location hole (4106), the substrate (401) rests on the third place.

5. Radar Calibration part (400) according to claim 4, which is characterized in that the cam path (4100) includes at least The circular arc of three sections of different curvatures, the circular arc of the different curvature is according to curvature from being sequentially connected with to small greatly.

6. Radar Calibration part (400) according to claim 4, which is characterized in that the angular adjustment component (406) is also wrapped Cam shrapnel (412) is included, the cam shrapnel (412) is fixedly installed in the cam path (4100), the cam shrapnel (412) include at least three through-holes (4120), the first positioning hole (4102), second location hole (4104) and third positioning Each in hole (4106) is aligned with corresponding one through-hole (4120)；

For the pillar (4026) against the cam shrapnel (412), the pillar (4026) is sliding in the cam path (4100) When dynamic, the pillar (4026) and cam shrapnel (412) sliding friction.

7. according to claim 4 to 6 any one of them Radar Calibration part (400), which is characterized in that the angular adjustment component (406) further include the first holding part (414), second holds part (416) and pin (418) tightly；

The first holding part (414) is fixedly installed in the cam disc (410)；

Described first, which holds part (414) and described second tightly, holds part (416) tightly by the adjusting rod (407) holding between the two；

One end of the pin (418) passes through described first to hold part (414) tightly, is fixed on described second and holds part (416) tightly, by institute It states the first holding part (414) and lock onto described second and hold part (416) tightly so that the adjusting rod (407) is clamped to described the One holds tightly between part (414) and the second holding part (416), and the angular adjustment component (406) can be with the adjusting rod (407) it rotates together.

8. according to claim 4 to 6 any one of them Radar Calibration part (400), which is characterized in that

The mounting bracket (402) includes at least one first installation raised (4022) and at least one second installation protrusion (4024)；

The adjusting bracket (405) includes at least one first mounting ear (4052) and at least one second mounting ear (4054)；

At least one first installation raised (4022) and at least one first mounting ear (4052) are sheathed on institute respectively State fixed rotating shaft (403) so that the mounting bracket (402) is articulated with the adjusting bracket by the fixed rotating shaft (403) (405)；

The quantity of the angular adjustment component (406) is at least one；

Each second installation raised (4024) sets there are one the pillar (4026), each second installation protrusion (4024) the pillar (4026) is contained in the cam path (4100) of the cam disc (410) of corresponding one It is interior；

The adjusting rod (407) passes through at least one second mounting ear (4054) and at least one angular adjustment group The cam disc (410) of part (406).

9. according to claim 4-6 any one of them Radar Calibration parts (400), which is characterized in that the mounting bracket (402) Quantity be two, two mounting brackets (402) are spaced pre-determined distances, and arranged in parallel, and each installation is propped up Frame (402) includes that the first installation raised (4022) and the second installation are raised (4024)；

The adjusting bracket (405) includes two the first mounting ears (4052) and two the second mounting ears (4054)；

Two first installations raised (4022) and two first mounting ears (4052) are sheathed on the fixation and turn respectively Axis (403) so that the mounting bracket (402) is articulated with the adjusting bracket (405) by the fixed rotating shaft (403)；

The adjusting rod (407) sequentially passes through second mounting ear (4054), two cam discs (410) and another One second mounting ear (4054)；

Each second installation raised (4024) sets that there are one the pillars (4026).

10. Radar Calibration part (400) according to claim 9, which is characterized in that two the second installation protrusions (4024) two pillars (4026) along same straight line, be oppositely arranged.

11. a kind of trailer-mounted radar calibration facility (500), which is characterized in that including thunder as described in any one of claim 1 to 10 Up to calibration element (400).