CN214409273U

CN214409273U - Calibration support and calibration equipment

Info

Publication number: CN214409273U
Application number: CN202022824340.XU
Authority: CN
Inventors: 刘克然; 杨显平; 吴凯; 金翔宇
Original assignee: Shenzhen Yunjia Intelligent Technology Co Ltd
Current assignee: Shenzhen Yunjia Intelligent Technology Co Ltd
Priority date: 2020-11-30
Filing date: 2020-11-30
Publication date: 2021-10-15
Anticipated expiration: 2030-11-30

Abstract

The utility model discloses a calibration support and calibration equipment, calibration support includes body frame and calibration seat, calibration seat has at least two, and establishes along vertical direction interval on the body frame, has the sensitive surface that is used for receiving the plane laser beam of laser instrument along vehicle longitudinal emission on each calibration seat, wherein, be equipped with centering mark on the sensitive surface, centering mark is located calibration seat's intermediate position; the centering marks on the at least two calibration seats jointly define a centering plane, the centering plane is perpendicular to the light receiving surface, the light receiving surface is intersected with the center line of the main frame, the center line of the main frame is on the centering plane, and the center line of the main frame extends along the height direction of the main frame. The utility model discloses can make calibration in-process calibration convenient operation, quick and accurate.

Description

Calibration support and calibration equipment

Technical Field

The utility model relates to a technical field is markd to the vehicle, concretely relates to mark support and calibration equipment.

Background

The automatic Driving of the automobile is a future trend, and ADAS (Advanced Driving Assistance System) is a necessary way for the automatic Driving of the automobile. At the beginning of the ADAS technology being applied to luxury vehicles, automobile manufacturers began to gradually penetrate to medium-grade and small-sized vehicles due to the gradual maturity of the technology and the declining trend of the product price. The number of cars with ADAS technology worldwide will be very large in the future, so the after-market of cars will also need to launch ADAS calibration services. The calibration of the radar and camera modules is smoothly and quickly completed by a user, so that the ADAS function is recovered to be normal, and the driving safety of the user is ensured.

Before the ADAS calibration is executed, the calibration of the longitudinal center line of the vehicle is an indispensable step, firstly, the vehicle calibration support is moved to the front end of the automobile, the center line of the calibration support is adjusted to be aligned with the longitudinal center line of the vehicle, namely, the longitudinal center line of the vehicle passes through the center line of the calibration support, the longitudinal center line of the vehicle of the calibration support is ensured to be in a vertical state, the center line of a front bumper or a front wheel of the vehicle is used as a distance measuring reference, the placement distance between the calibration support and the measuring reference is measured, and the calibration of auxiliary driving devices such as a camera, a radar and the like is carried out.

Currently, the calibration operation for aligning the center line of the calibration bracket with the longitudinal center line of the vehicle is complicated, and it is difficult to quickly and accurately align the center line of the calibration bracket with the longitudinal center line of the vehicle.

SUMMERY OF THE UTILITY MODEL

The present invention aims at solving at least one of the technical problems in the related art to a certain extent. Therefore, an object of the utility model is to provide a calibration support, include:

a main frame;

the calibration seats are provided with at least two calibration seats, the calibration seats are arranged on the main frame at intervals along the vertical direction, each calibration seat is provided with a light receiving surface used for receiving a planar laser beam emitted by a laser along the longitudinal direction of the vehicle, a centering mark is arranged on the light receiving surface, and the centering mark is positioned in the middle of the calibration seat;

the centering marks on the at least two calibration seats jointly define a centering plane, the centering plane is perpendicular to the light receiving surface, the light receiving surface is intersected with the center line of the main frame, the center line of the main frame is on the centering plane, and the center line of the main frame extends along the height direction of the main frame.

Preferably, according to the utility model discloses an embodiment, every have a plurality of marks scales on the sensitive surface, it is a plurality of mark the scale is along the perpendicular to the orientation of median plane is interval setting in proper order, the centering mark is in a plurality of the intermediate position of mark the scale, at least two a plurality of mark seat mark the scale one-to-one, corresponding each the mark line is injectd the skew reference surface jointly, the skew reference surface with the sensitive surface is perpendicular.

Preferably, according to an embodiment of the present invention, the main frame includes:

the adjusting seat is in threaded connection with a plurality of adjusting support legs, and the adjusting support legs are arranged along the height direction of the adjusting seat;

the lifting assembly is arranged on the adjusting seat along the central line direction of the main frame, at least two calibration seats are arranged on the lifting assembly at intervals along the vertical direction, and the calibration seats are driven to lift by the lifting assembly;

the sliding rail is detachably mounted on the calibration seat, and the length direction of the sliding rail is perpendicular to the centering plane;

the lifting assembly is connected with the adjusting seat through the locking mechanism, and the locking mechanism can be switched between a locking position and an unlocking position; when the locking mechanism is in the locking position, the lifting assembly is locked and fixed on the adjusting seat; when the locking assembly is located at the unlocking position, the locking mechanism releases the locking of the lifting assembly.

Preferably, according to an embodiment of the present invention, the calibration seat comprises:

the rear end of the connecting part is connected with the lifting assembly;

the bearing part is connected with the connecting part and extends towards the front end of the connecting part, and the sliding rail is detachably mounted on the bearing part.

Preferably, according to the utility model discloses an embodiment, the mounting groove that extends from left right direction has on the bearing portion, the protruding at least two locating pieces that are equipped with in the mounting groove, the slide rail bottom have with the constant head tank of locating piece looks adaptation, work as the slide rail is installed during the bearing portion, the locating piece inlays to be established in the constant head tank.

Preferably, according to the utility model discloses an embodiment, be equipped with the reference column that upwards extends perpendicularly in the mounting groove, the reference column is established two between the locating piece, be equipped with in the slide rail with the locating hole of reference column looks adaptation, work as the slide rail is installed during the bearing portion, the reference column is worn to establish in the locating hole.

Preferably, according to the utility model discloses an embodiment, the embedded position sleeve that is equipped with of slide rail, the position sleeve has the stiff end that meets and cup joints the end, the stiff end passes through locking bolted connection to be fixed on the slide rail, the cup joint end is located the stiff end below, form in the cup joint end the locating hole and with the reference column is pegged graft each other.

Preferably, according to an embodiment of the present invention, the top of the connecting portion is provided with a fastening assembly, the fastening assembly can pivot between a fastening position and a releasing position, and when the fastening assembly pivots to the fastening position, the slide rail is fastened to the supporting portion by the fastening assembly; when the abutting assembly pivots to the release position, the abutting assembly releases the abutting on the sliding rail, so that the sliding rail can be removed from the bearing part.

Preferably, according to the utility model discloses an embodiment, the subassembly of holding tightly includes fastener and holding member, threaded connection is in on the connecting portion behind the fastener passes the holding member, the holding member is around the axis of fastener is rotatable, when screwing up behind the fastener, the holding member receives the fastener roof pressure and fixes.

Preferably, according to the utility model discloses an embodiment, the piece that supports has pivot portion and supports tight portion, pivot portion cover is located on the fastener, support tight portion and connect in the pivot portion just extends along the horizontal direction, support tight portion and rotate the back and can support and press on the slide rail.

Preferably, according to the utility model discloses an embodiment, the calibration seat is still including establishing the spacing piece of connecting portion both sides, spacing piece extends to lifting unit's both sides are in order to restrict the calibration seat removes in the horizontal direction.

Preferably, according to an embodiment of the present invention, the locking mechanism includes:

the sleeve is fixed on the lifting assembly;

the locking piece is arranged in the sleeve in a penetrating mode;

the elastic piece is sleeved on the locking piece and positioned in the sleeve, the first end of the elastic piece abuts against the locking piece, and the second end of the elastic piece abuts against the lifting assembly;

the locking piece is configured to be capable of downwards pressing a preset distance along the axial direction of the locking piece and then rotating a preset angle, so that the lifting assembly and the adjusting seat can be locked and fixed.

Preferably, according to an embodiment of the present invention, the locking member includes:

the shaft part is arranged in the sleeve in a penetrating mode, the upper end of the shaft part extends out of the top of the sleeve, and the lower end of the shaft part penetrates to the bottom of the lifting assembly and penetrates through the adjusting seat;

the operating part is arranged at the upper end of the shaft part, extends along the radial direction of the shaft part and is used for being operated by a user to drive the shaft part to move;

the limiting part is arranged at the lower end of the shaft part and extends along the radial direction of the shaft part so as to move together with the shaft part;

when the operation part is pressed downwards along the axial direction of the shaft part for a preset distance and then rotates for a preset angle, the limiting part stops below the bottom of the adjusting seat so as to lock and fix the lifting assembly and the adjusting seat.

Preferably, according to the utility model discloses an embodiment, have on the regulation seat with the through-hole that spacing portion corresponds the setting, work as the operation portion is followed the axial of axial region is pressed down after the predetermined distance and is rotated predetermined angle again, spacing portion passes backstop is in behind the through-hole the bottom below of regulation seat.

Preferably, according to an embodiment of the present invention, a limiting groove is disposed at the bottom of the adjusting seat, the limiting portion can rotate in the limiting groove, the bottom of the limiting groove has a first limiting surface and a second limiting surface, and the through hole is disposed in the limiting groove and located between the first limiting surface and the second limiting surface;

when the operating part is pressed downwards along the axial direction of the shaft part for a preset distance and then rotates for a preset angle, the limiting part penetrates through the through hole to stop on the first limiting surface and the second limiting surface.

Preferably, according to an embodiment of the present invention, the slide rail is provided with a slip-preventing mechanism, the slip-preventing mechanism includes:

a sliding plate slidably mounted on the sliding rail;

the hanging plate is used for hanging the radar calibration piece and is fixed on the sliding plate;

the limiting assembly is arranged on the sliding plate, and is provided with an operating piece which can pivot between a locking position and an unlocking position; when the operating piece is in the locking position, the sliding plate is locked and fixed on the sliding rail; when the operating piece is in the unlocking position, the sliding plate can slide on the sliding rail.

Preferably, according to an embodiment of the present invention, the limiting assembly further includes:

the fixed sleeve is fixed on the sliding plate;

one end of the locking shaft is embedded in the sliding groove of the sliding rail and can slide, the other end of the locking shaft penetrates through the sliding plate and the fixed sleeve and extends out of the fixed sleeve, and the operating part is pivoted with the other end of the locking shaft.

Preferably, according to an embodiment of the present invention, one side of the sliding groove close to the sliding plate has a stopper wall, and the locking shaft has a stopper portion protruding in a radial direction thereof, the stopper portion being located in the sliding groove and being capable of stopping on the stopper wall.

Preferably, according to an embodiment of the present invention, the operating member includes an operating end and a pivot end, the operating end is used for being operated by a user, the pivot end has an eccentric hole, the eccentric hole is pivotally connected to the other end of the locking shaft by a pivot pin, and when the operating end is operated to force the operating member to rotate by a predetermined angle, the operating member is located at the locking position.

Preferably, according to the utility model discloses an embodiment, be equipped with the recess on the fixed cover, the pin joint end support lean on in the recess, the pin joint end has the convex part, works as operating parts rotates when predetermined angle, the convex part extrusion promotes fixed cover, so that fixed cover will the sliding plate compresses tightly to be fixed on the slide rail.

Preferably, according to the utility model discloses an embodiment, the plane direction of hitch plate with the plane direction of sliding plate is parallel and inject a space that articulates jointly, be equipped with on the hitch plate and articulate the groove, the hitching member has on the radar marking piece, the hitching member is suitable for the hookup and connects in articulate the inslot, the hitch plate will a part backstop of hitching member is in articulate in the space.

Preferably, according to the utility model discloses an embodiment, the lower extreme of body frame is attached with the angle scale mark that is used for receiving the plane laser beam of laser instrument along the vertical transmission of vehicle, the plane of angle scale mark place with centering plane mutually perpendicular, and 90 degrees scale marks on the angle scale mark are in on the centering plane.

The utility model also provides a calibration equipment, include:

a laser for emitting a planar laser beam along a longitudinal centerline of the vehicle;

according to the calibration support, the planar laser beams emitted by the laser device are projected on at least two light receiving surfaces to form a linear laser line.

The utility model provides a mark support, when the central line that will mark the support aligns the calibration with the vertical central line of vehicle, through the plane laser beam projection that launches along the vertical central line of vehicle on two calibration seats of body frame, make plane laser beam projection be a style of calligraphy on the sensitive surface, then adjust the body frame, make two centering marks on two sensitive surfaces coincide with a style of calligraphy laser line of projection on the sensitive surface jointly, the central line that can mark the support aligns with the vertical central line of vehicle, its calibration convenient operation, it is quick and accurate.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a calibration bracket provided in an embodiment of the present invention;

fig. 2 is a schematic structural view of a slide rail, a calibration seat and a slip-stopping mechanism provided in an embodiment of the present invention;

FIG. 3 is a cross-sectional view A-A shown in FIG. 2;

fig. 4 is a schematic structural diagram of a calibration seat provided in an embodiment of the present invention;

fig. 5 is a schematic structural view of a lifting assembly and an adjusting base provided in an embodiment of the present invention;

FIG. 6 is a cross-sectional view B-B shown in FIG. 5;

FIG. 7 is an enlarged view of the portion C shown in FIG. 6;

fig. 8 is a schematic structural view of another view angle of the lifting assembly and the adjusting base provided in the embodiment of the present invention;

FIG. 9 is an enlarged view of portion D of FIG. 8;

fig. 10 is a schematic structural view of a locking mechanism provided in an embodiment of the present invention;

fig. 11 is an exploded view of the lift assembly and adjustment base provided in an embodiment of the present invention;

fig. 12 is a partial structural view of a slide rail and a slip prevention mechanism provided in an embodiment of the present invention;

fig. 13 is a schematic view of another partial structure of the slide rail and the anti-slip mechanism (hidden radar marker) according to the embodiment of the present invention;

FIG. 14 is a cross-sectional view C-C shown in FIG. 13;

FIG. 15 is an enlarged view of section E shown in FIG. 14;

fig. 16 is a schematic structural view of a slip prevention mechanism provided in an embodiment of the present invention;

fig. 17 is an exploded view of a stop assembly provided in an embodiment of the present invention;

fig. 18 is a schematic structural diagram of a calibration apparatus provided in an embodiment of the present invention.

The reference numbers illustrate:

10. a main frame; 101. angle scale marks;

11. an adjusting seat; 111. adjusting the support legs; 112. a through hole; 113. a limiting groove; 1131. a first limiting surface; 1132. a second limiting surface;

12. a lifting assembly; 121. a hollow seat; 122. a slide bar; 123. a lifting seat; 1231. a linear bearing; 124. a drive assembly; 1241. a worm; 1242. a worm gear; 1243. a gear; 1244. a hand wheel; 125. a rack; 126. a base plate;

13. a slide rail; 131. a positioning sleeve; 1311. a fixed end; 1312. a sleeving end; 1313. positioning holes; 132. a chute; 133. a stopper wall; 134. positioning a groove;

14. a locking mechanism; 141. a sleeve; 142. a locking member; 1421. a shaft portion; 1422. an operation section; 1423. a limiting part; 1424. a stopper portion; 143. an elastic member;

20. a calibration seat; 201. a light receiving surface; 202. marking in a centering way; 2021. centering the plane; 203. calibrating scales; 2031. offsetting a reference plane; 204. a connecting portion; 2041. a threaded hole; 205. a bearing part; 2051. mounting grooves; 206. positioning blocks; 207. a positioning column; 208. a limiting sheet;

21. a propping component; 211. an abutting piece; 2111. a pivot part; 2112. a tightening part; 2113. a through hole; 212. a fastener;

30. a slip-stopping mechanism;

31. a sliding plate;

32. a hanging plate; 321. a hanging groove; 322. a hanging space;

33. a limiting component; 331. an operating member; 3311. an operation end; 3312. a pivoting end; 3313. a convex portion; 3314. an eccentric hole; 332. fixing a sleeve; 3321. a groove; 333. a lock shaft; 3331. a stopper portion;

34. a radar scaling member; 341. hanging and connecting pieces;

40. a laser; 401. a planar laser beam.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention, and all other embodiments obtained by those skilled in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "circumferential", "radial", and the like, indicate the orientation or positional relationship indicated based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The utility model discloses mark support and calibration equipment of embodiment is described in detail with the accompanying drawing below.

Referring to fig. 1, 4 and 18, a calibration bracket provided in an embodiment of the present invention includes a main frame 10 and calibration seats 20, where at least two calibration seats 20 are provided and are spaced apart from each other in a vertical direction on the main frame 10, each calibration seat 20 has a light receiving surface 201 for receiving a planar laser beam 401 emitted by a laser 40 in a longitudinal direction of a vehicle, where a centering mark 202 is provided on the light receiving surface 201, and the centering mark 202 is located in a middle position of the calibration seat 20; the centering marks 202 on at least two of the calibration seats 20 jointly define a centering plane 2021, the centering plane 2021 is perpendicular to the light receiving surface 201, the light receiving surface 201 intersects with a center line of the main frame 10, the center line of the main frame 10 is on the centering plane 2021, and the center line of the main frame 10 extends along the height direction of the main frame 10.

The alignment mark 202 may be an alignment line or an alignment point, and a straight line may be formed by the planar laser beam 401 irradiated on the two light receiving surfaces 201, it can be understood that a laser straight line formed by the projection of the planar laser beam 401 on the surface of the calibration base 20 may form a certain angle and position deviation with the alignment mark 202 on the calibration base 20, so that the positions of the two alignment marks 202 on the two calibration bases 20 and the planar laser beam 401 may be adjusted by adjusting the position of the main frame 10 in the calibration process, so that the laser straight lines formed by the planar laser beam 401 on the two light receiving surfaces 201 coincide with the two alignment marks 202, and the center line of the calibration support is calibrated to be aligned with the longitudinal center line of the vehicle; it can be understood that when the planar laser beam 401 is projected on the two light receiving surfaces 201, two ends of the formed laser straight line respectively coincide with the two centering marks 202, and when one end of the laser straight line does not coincide with the centering mark 202, the calibration support can be adjusted so that both ends coincide with the two centering marks 202.

In other embodiments, when there are more than two calibration seats 20, when the center line of the calibration bracket is adjusted to be aligned with the longitudinal center line of the vehicle, calibration of the calibration bracket can be completed only by aligning two ends of the planar laser beam 401 with the centering marks 202, and the calibration operation is simple.

It is understood that the light receiving surface 201 may be obliquely disposed on the calibration base 20, or may be vertically disposed on the calibration base 20, the centering plane 2021 is located at the center of the main frame 10 and perpendicular to the light receiving surface 201, and when the plane laser beam 401 is parallel to the centering plane 2021 during calibration, the calibration stand may be adjusted to make the centering plane 2021 and the plane laser beam 401 coincide, and to align the two ends of the laser line formed by the plane laser beam 401 with the two centering marks 202, thereby completing calibration.

The utility model provides a mark support, when the central line that will mark the support aligns the calibration with the vertical central line of vehicle, through the plane laser beam 401 projection launched along the vertical central line of vehicle on two calibration seats 20 of body frame 10, make plane laser beam 401 projection be a style of calligraphy on the sensitive surface 201, then adjust body frame 10, make two alignment mark 202 on two sensitive surfaces 201 coincide with a style of calligraphy plane laser beam 401 of projection on the sensitive surface 201 jointly, can mark the central line that marks the support and align with the vertical central line of vehicle, its calibration convenient operation, it is quick and accurate.

Referring to fig. 1 and 4, each light receiving surface 201 has a plurality of calibration marks 203, the calibration marks 203 are sequentially spaced in a direction perpendicular to the centering plane 2021, the centering mark 202 is located at a middle position of the calibration marks 203, the calibration marks 203 of at least two calibration seats 20 are in one-to-one correspondence, lines of the corresponding calibration marks 203 jointly define an offset reference surface 2031, and the offset reference surface 2031 is perpendicular to the light receiving surface 201.

In this embodiment, the offset reference surfaces 2031 are parallel to each other, the centering plane 2021 is located in the middle of the offset reference surfaces 2031, when the calibration support is not aligned with the planar laser beam 401, the planar laser beam 401 may be located on any one of the offset reference surfaces 2031, or may be located away from the offset reference surfaces 2031, for example, not irradiated on the light receiving surface 201 of the calibration base 20, therefore, when the calibration support is adjusted to be aligned with the planar laser beam 401, the planar laser beam 401 is projected onto two light receiving surfaces 201 by moving the calibration support, the planar laser beam 401 is projected onto any two calibration scales 203, the planar laser beam 401 is located on the corresponding offset reference surface 2031, in order to make the center line of the calibration support correspond to the planar laser beam 401, the centering mark 202 is aligned with the planar laser beam 401 by continuously moving and adjusting the calibration support, therefore, the center line of the calibration bracket can be calibrated to be aligned with the longitudinal center line of the vehicle, and calibration is completed.

Specifically, the main frame 10 comprises an adjusting seat 11, a lifting assembly 12, a slide rail 13 and a locking mechanism 14, wherein a plurality of adjusting support legs 111 are connected to the adjusting seat 11 in a threaded manner, and the adjusting support legs 111 are arranged along the height direction of the adjusting seat 11; the lifting assembly 12 is arranged on the adjusting seat 11 along the central line direction of the main frame 10, at least two calibration seats 20 are arranged on the lifting assembly 12 at intervals along the vertical direction, and at least one calibration seat 20 is driven by the lifting assembly 12 to lift; the slide rail 13 is detachably mounted on the calibration base 20, and the length direction of the slide rail 13 is perpendicular to the centering plane 2021; the lifting assembly 12 is connected with the adjusting seat 11 through a locking mechanism 14, and the locking mechanism 14 can be switched between a locking position and an unlocking position; when the locking mechanism 14 is in the locking position, the lifting assembly 12 is locked and fixed on the adjusting seat 11; when the locking mechanism 14 is in the unlocked position, the locking mechanism 14 unlocks the lifting assembly 12.

In this embodiment, when the calibration support and the planar laser beam 401 are aligned in a fine tuning manner, the main frame 10 can adjust the pitch angle and the roll angle by using the adjusting support legs 111, and the adjusting support legs 111 penetrate through the adjusting seat 11 and can abut against the ground, in the calibration process, the adjusting support legs 111 can stably place the calibration support on the ground, and then the adjusting support legs 111 are adjusted according to the positions of the planar laser beam 401 on the two light receiving surfaces 201, so that the adjusting support legs 111 drive the main frame 10 to complete the angle adjustment of the pitch angle and the roll angle, and thus the two ends of the planar laser beam 401 are aligned with the two centering marks 202 in a superposition manner; it can be understood that the angle can be finely adjusted when the angle is adjusted by the adjusting support legs 111, so that the alignment accuracy of the calibration support and the longitudinal center line of the vehicle is higher, and the calibration is more accurate.

After the center line of the calibration bracket is aligned with the longitudinal center line of the vehicle, the length direction of the slide rail 13 is perpendicular to the centering plane 2021, so as to ensure that the light receiving surface 201 is perpendicular to the longitudinal center line of the vehicle, and further, the parallelism between the slide rail 13 and the measuring reference can be calibrated by using the center line of the front bumper or the front wheel of the vehicle as a distance measuring reference, so as to accurately measure the placing distance between the calibration bracket and the measuring reference.

It can be understood that the calibration base 20 is arranged on the lifting assembly 12, and the slide rail 13 is arranged on the calibration base 20, so that the height of the slide rail 13 can be adjusted through the lifting assembly 12, and further the slide rail 13 is adjusted to a proper height for calibration; it can be understood that the lifting component 12 and the adjusting seat 11 can be disassembled after calibration is completed through the detachable arrangement between the lifting component 12 and the adjusting seat 11, so that the storage is more convenient; moreover, the adjusting seat 11 can be made of cast iron, wherein cast iron is mainly a general name of alloy consisting of iron, carbon and silicon, and the adjusting seat 11 made of cast iron is heavier in whole, better in stability and more beneficial to calibration operation.

Referring to fig. 5 and 11, the lifting assembly 12 includes a hollow seat 121, a sliding rod 122, a lifting seat 123 and a driving assembly 124, wherein the hollow seat 121 is fixed on the adjusting seat 11; the sliding rod 122 is fixed in the hollow seat 121; the lifting seat 123 is arranged in the hollow seat 121 and sleeved on the sliding rod 122 to be lifted; the driving assembly 124 is fixed on the hollow seat 121 and is in transmission connection with the lifting seat 123, for driving the lifting seat 123 to move relative to the hollow seat 121.

The bottom of the sliding rod 122 is fixed with a bottom plate 126, the hollow seat 121 and the bottom plate 126 are fixed together and accommodate the sliding rod 122, the bottom plate 126 is fixed together with the adjusting seat 11 through the locking mechanism 14, the sliding rod 122 and the adjusting seat 11 are fixed together, and further the lifting seat 123, the sliding rod 122 and the driving component 124 are fixed together on the adjusting seat 11, and the sliding rod 122 can be provided with two linear bearings 1231, the two linear bearings 1231 are fixed on the lifting seat 123 corresponding to the position of the sliding rod 122, the linear bearings 1231 can be movably sleeved on the sliding rod 122, the lifting seat 123 can be driven to lift in the vertical direction through the driving component 124, and the sliding rail 13 is installed on the lifting seat 123, so that the lifting seat 123 drives the sliding rail 13 to lift, and the height of the sliding rail 13 can be adjusted.

In addition, a rack 125 is arranged on the lifting seat 123, the rack 125 is parallel to the sliding rod 122 along the length direction, the driving component 124 comprises a worm 1241, a worm wheel 1242, a gear 1243 and a hand wheel 1244, and the worm 1241 is rotatably installed on the hollow seat 121 and is arranged perpendicular to the rack 125 at an interval; the worm wheel 1242 is in meshing transmission with the worm 1241, the worm wheel 1242 is fixedly connected with a worm wheel shaft (not marked in the figure), one end of the worm wheel shaft is rotatably installed on the hollow seat 121 and is perpendicular to the worm 1241, and the other end of the worm wheel shaft extends to one side of the rack 125; a gear 1243 is provided on the worm wheel shaft and engaged with the rack 125 to drive the rack 125 to move when the worm wheel 1242 rotates; the hand wheel 1244 is provided at an end of the worm 1241, for driving the worm 1241 to rotate.

In this embodiment, when the lifting seat 123 is lifted or lowered, the hand wheel 1244 is rotated to drive the worm 1241 and the worm wheel 1242 for transmission, and the gear 1243 drives the rack 125 to drive the lifting seat 123 to lift or lower the hollow seat 121, wherein in some other embodiments, the worm 1241 and the worm wheel 1242 may be driven by a motor or the like, so that the adjustment manner is more diversified and is simpler and more convenient.

Referring to fig. 4, the calibration base 20 includes a connecting portion 204 and a supporting portion 205, and a rear end of the connecting portion 204 is connected to the lifting assembly 12; the support portion 205 is connected to the connecting portion 204 and extends toward the front end of the connecting portion 204, and the slide rail 13 is detachably mounted on the support portion 205. When the calibration base 20 is installed, the bolt can penetrate through the connecting part 204 to be fixed with the lifting support, so that the calibration base 20 is fixed, then when the sliding rail 13 is installed, the sliding rail 13 can be directly placed on the bearing part 205, so that the bearing part 205 supports the sliding rail 13, the sliding rail 13 is fixed, and the installation is simpler.

Further, the supporting portion 205 has a mounting groove 2051 extending from left to right, at least two positioning blocks 206 are convexly disposed in the mounting groove 2051, the bottom of the slide rail 13 has positioning slots 134 adapted to the positioning blocks 206, and when the slide rail 13 is mounted on the supporting portion 205, the positioning blocks 206 are embedded in the positioning slots 134.

It can be understood that, when the slide rail 13 is placed on the supporting portion 205, the positioning block 206 is embedded in the positioning slot 134 at the bottom of the slide rail 13, so that the positioning block 206 limits and fixes the slide rail 13, and the bottom of the slide rail 13 can be attached to the supporting portion 205, and thus, the slide rail 13 is more stably mounted on the supporting portion 205; optionally, the positioning block 206 may be detachably connected to the supporting portion 205, for example, the positioning block 206 may be fixed in the mounting groove 2051 by using a bolt, and the width of the positioning slot 134 is the same as that of the positioning block 206, and the positioning block 206 may be set to have a width gradually reduced from bottom to top, so that the positioning block 206 may be embedded into the positioning slot 134 more quickly and accurately, and the mounting and fixing of the slide rail 13 are more convenient.

Specifically, a positioning column 207 extending vertically and upwardly is disposed in the mounting groove 2051, the positioning column 207 is disposed between at least two positioning blocks 206, a positioning hole 1313 adapted to the positioning column 207 is disposed in the slide rail 13, and when the slide rail 13 is mounted on the supporting portion 205, the positioning column 207 is disposed in the positioning hole 1313 in a penetrating manner.

In the embodiment, the positioning column 207 is higher than the positioning blocks 206, so that the slide rail 13 can be mounted more accurately and stably, the positioning column 207 is combined with the two positioning blocks 206, when the slide rail 13 is mounted, the positioning column 207 can be accurately inserted into the positioning hole 1313, and when the slide rail 13 is continuously put down, the two positioning blocks 206 can be accurately embedded into the positioning grooves 134, so that the slide rail 13 is mounted, and the mounting is simple and convenient; it can be understood that, when the slide rail 13 is installed on the supporting portion 205, the slide rail 13 is limited by the two positioning blocks 206 in the horizontal direction, so that the slide rail 13 cannot rotate, thereby ensuring that the position of the slide rail 13 is more accurate and is not easy to deviate.

In other embodiments, the positioning block 206 and the positioning column 207 may also be installed at the bottom of the slide rail 13, and the positioning slot 134 and the positioning sleeve 131 are disposed on the supporting portion 205, so that the slide rail 13 can also be installed quickly, that is, the positions of the positioning column 207 and the positioning block 206 may be set according to actual requirements, so that the installation of the slide rail 13 is simpler and more stable.

Referring to fig. 2 to 4, a positioning sleeve 131 is embedded in the slide rail 13, the positioning sleeve 131 has a fixed end 1311 and a sleeved end 1312, the fixed end 1311 is connected and fixed to the slide rail 13 through a locking bolt, the sleeved end 1312 is located below the fixed end 1311, and a positioning hole 1313 is formed in the sleeved end 1312 and is inserted into the positioning column 207.

In this embodiment, when fixing the positioning sleeve 131 on the sliding rail 13, the fixing end 1311 of the positioning sleeve 131 can be locked and fixed by the locking bolt, so that the positioning sleeve 131 can be fixed in the sliding rail 13, and the whole structure is more compact and reliable, therefore, when installing the sliding rail 13, the sliding rail 13 can be directly sleeved on the positioning column 207 through the sleeve-joint end 1312 of the positioning sleeve 131, so that the positioning column 207 is located in the positioning hole 1313, and the sliding rail 13 is positioned and installed, and the installation is simple and convenient.

Specifically, the top of the connecting portion 204 is provided with the abutting assembly 21, the abutting assembly 21 can pivot between the abutting position and the releasing position, and when the abutting assembly 21 pivots to the abutting position, the sliding rail 13 is abutted and fixed on the supporting portion 205 by the abutting assembly 21; when the abutting assembly 21 pivots to the release position, the abutting assembly 21 releases the abutting of the slide rail 13, so that the slide rail 13 can be removed from the supporting portion 205.

When the abutting assembly 21 pivots to the abutting position, the abutting assembly 21 can abut against the top of the sliding rail 13, so that the sliding rail 13 is pressed on the bearing part 205, the sliding rail 13 is limited to move in the vertical direction, and the sliding rail 13 is limited to move in both the horizontal direction and the vertical direction through the combination of the abutting assembly 21 and the positioning block 206, so that the sliding rail 13 is fixed more stably, and the installation is rapid and convenient.

Specifically, the fastening assembly 21 includes a fastening member 212 and a fastening member 211, the fastening member 212 is screwed to the connecting portion 204 after passing through the fastening member 211, the fastening member 211 is rotatable around an axis of the fastening member 212, and after the fastening member 212 is tightened, the fastening member 211 is pressed and fixed by the fastening member 212.

In this embodiment, when the abutting member 211 abuts against the sliding rail 13, the abutting member 211 can be screwed and fixed by the fastening member 212, so that the abutting member 211 cannot rotate, and further, the abutting member 211 can be prevented from rotating when in use, so as to fix the sliding rail 13, and the stability is better; it can be understood that, in some other embodiments, an elastic buckle may be disposed on the fastening piece 211, and when the fastening piece 211 is rotated to the top of the slide rail 13, the fastening piece 211 may be fastened to the slide rail 13 through the elastic buckle, so that the fastening piece 211 cannot rotate, the slide rail 13 is fixed more stably, and the installation is simpler and more convenient.

Further, the fastening piece 211 has a pivot portion 2111 and a fastening portion 2112, the pivot portion 2111 is pivotally connected to the connecting portion 204 around its own axis, and the axis of the pivot portion 2111 extends vertically; the fastening portion 2112 is connected to the pivot portion 2111, extends in the horizontal direction, and is pivotable between a fastening position and a release position with the pivot portion 2111.

When the sliding rail 13 is mounted on the calibration seat 20, the top of the sliding rail 13 and the bottom surface of the abutting portion 2112 are at the same horizontal position, and the abutting portion 2112 is rotated to the top of the sliding rail 13 relative to the pivoting portion 2111 by rotating the abutting portion 2112, so that the abutting portion 2112 abuts against the top of the sliding rail 13, the sliding rail 13 is abutted and fixed, the sliding rail 13 is limited to move in the vertical direction, and the sliding rail 13 is mounted on the calibration seat 20 more stably; that is to say, when the slide rail 13 is installed, the slide rail 13 only needs to be horizontally placed on the calibration seat 20, and then the installation of the slide rail 13 can be completed by abutting and fixing the abutting component 21, so that the installation step is simple, and the calibration efficiency can be improved.

It is understood that in other embodiments, the sliding rail 13 and the calibration base 20 may be fixed by a threaded connection or a snap connection, and the sliding rail 13 may be fixed on the calibration base 20 more stably.

Further, the pivot portion 2111 is provided with a through hole 2113 extending vertically, the connecting portion 204 is provided with a threaded hole 2041, and the fastener 212 passes through the through hole 2113 and then is in threaded connection with the threaded hole 2041, so as to fix the pivot portion 2111 on the connecting portion 204; the fastening piece 212 can be a bolt, and the fastening piece 212 penetrates through the through hole 2113 and is in threaded connection with the threaded hole 2041, so that the fastening piece 212 can fix the abutting piece 211 by the bolt, the abutting piece 211 abuts against the sliding rail 13, stability is better, and installation is more convenient.

Specifically, the calibration base 20 further includes a limiting piece 208 disposed at two sides of the connecting portion 204, and the limiting piece 208 extends to two sides of the lifting assembly 12 to limit the calibration base 20 to move in the horizontal direction. The limiting piece 208 extends from the calibration base 20 to the lifting support, so that the calibration base 20 can be clamped by the limiting piece 208, the calibration base 20 can be limited more stably in the horizontal direction through the combination of the limiting piece 208 and the positioning block 206, and the calibration base 20 and the sliding rail 13 can be prevented from shifting in the calibration process.

Referring to fig. 8 to 10, the locking mechanism 14 includes a sleeve 141, a locking member 142 and an elastic member 143, wherein the sleeve 141 is fixed on the lifting assembly 12; the locking piece 142 is arranged in the sleeve 141 in a penetrating way; the elastic part 143 is sleeved on the locking part 142 and is located in the sleeve 141, a first end of the elastic part 143 abuts against the locking part 142, and a second end of the elastic part 143 abuts against the lifting assembly 12; the locking member 142 is configured to be pressed downward along the axial direction thereof for a predetermined distance and then rotated for a predetermined angle, so as to lock and fix the lifting assembly 12 and the adjustment base 11.

In this embodiment, when the locking member 142 is pressed by a user, the elastic member 143 can be compressed to move axially toward the adjusting seat 11, so that the locking member 142 is in the unlocking position, and the locking member 142 can rotate in the unlocking position; when the locking member 142 is released, the elastic force of the elastic member 143 can push the locking member 142 to move axially toward a direction away from the adjusting seat 11, so that the locking member 142 is elastically supported by the elastic member 143, and the locking member 142 cannot rotate.

Further, the locking member 142 includes a shaft portion 1421, an operating portion 1422, a limiting portion 1423 and a stopping portion 1424, the shaft portion 1421 is disposed in the sleeve 141, an upper end of the shaft portion 1421 extends out from a top of the sleeve 141, a lower end of the shaft portion 1421 penetrates to a bottom of the lifting assembly 12 and penetrates through the adjusting seat 11; an operating portion 1422 is disposed on the upper end of the shaft 1421 and extends along the radial direction of the shaft 1421, for being operated by a user to drive the shaft 1421 to move; the limiting portion 1423 is disposed at the lower end of the shaft portion 1421 and extends along the radial direction of the shaft portion 1421 to move together with the shaft portion 1421; when the operating portion 1422 is pressed downward along the axial direction of the shaft portion 1421 for a predetermined distance and then rotated for a predetermined angle, the limiting portion 1423 stops under the bottom of the adjusting seat 11, so as to lock and fix the lifting assembly 12 and the adjusting seat 11; optionally, the circumferential surface of the shaft portion 1421 is formed to protrude in the radial direction and is located in the sleeve 141, and a stop portion 1424 is provided, and the first end of the elastic member 143 abuts against the stop portion 1424.

That is, when the locking member 142 is pressed by force, the stopping portion 1424 moves along with the shaft portion 1421 and pushes the compression elastic member 143, so that the shaft portion 1421 can rotate, and in a specific operation, the pressing and the rotation can be performed through the operation portion 1422; when the locking member 142 is released, the elastic member 143 can push the stopping portion 1424 to elastically move, and the shaft portion 1421 is sprung, and the limiting portion 1423 is sprung along with the shaft portion 1421, so that the limiting portion 1423 is elastically stopped at the bottom of the adjusting seat 11.

Referring to fig. 9, the adjusting base 11 has a through hole 112 corresponding to the limiting portion 1423, and when the operating portion 1422 is pressed downward along the axial direction of the shaft portion 1421 for a predetermined distance and then rotated for a predetermined angle, the limiting portion 1423 passes through the through hole 112 and stops below the bottom of the adjusting base 11.

In this embodiment, when the lifting assembly 12 is installed, the lifting assembly 12 is disposed on the adjusting base 11, the limiting portion 1423 is aligned with the through hole 112 on the adjusting base 11, so that the lifting assembly 12 is horizontally placed on the adjusting base 11, then the operating portion 1422 is pressed down by applying force and compresses the elastic member 143, so that the limiting portion 1423 passes through the through hole 112 and enters the lower portion of the adjusting base 11, and then the operating portion 1422 is rotated to rotate the limiting portion 1423 by a predetermined angle, so that the limiting portion 1423 is elastically stopped by the elastic member 143 to abut against the bottom of the adjusting base 11.

Furthermore, the bottom of the adjusting seat 11 is provided with a limiting groove 113, the limiting portion 1423 can rotate in the limiting groove 113, the bottom of the limiting groove 113 is provided with a first limiting surface 1131 and a second limiting surface 1132, and the through hole 112 is arranged in the limiting groove 113 and located between the first limiting surface 1131 and the second limiting surface 1132; when the operating portion 1422 is pressed downward along the axial direction of the shaft portion 1421 by a predetermined distance and then rotated by a predetermined angle, the limiting portion 1423 passes through the through hole 112 to stop against the first limiting surface 1131 and the second limiting surface 1132.

The first limiting surface 1131 and the second limiting surface 1132 form an included angle of 90 degrees, when the limiting portion 1423 is pressed to pass through the through hole 112 and enter the bottom of the adjusting seat 11, the limiting portion 1423 is rotated by a predetermined angle to enter the limiting groove 113, the operating portion 1422 is loosened, the elastic member 143 pushes the stopping portion 1424 and drives the shaft portion 1421 and the limiting portion 1423 to bounce together, and the limiting portion 1423 is stopped on the first limiting surface 1131 and the second limiting surface 1132, so that the fixing of the lifting assembly 12 and the adjusting seat 11 is completed; it is understood that the predetermined angle may be greater than 0 degrees, less than or equal to 90 degrees; therefore, the elastic member 143 can keep the position of the position limiter 1423 at the locked position all the time, when the lifting assembly 12 is disassembled, the operation portion 1422 is rotated to drive the shaft portion 1421 and the position limiter 1423 to rotate, when the position limiter 1423 rotates to correspond to the through hole 112, the elastic force of the elastic member 143 pushes the position limiter 1423 to bounce up into the through hole 112, so that the position limiter 1423 is separated from the position limiter groove 113, and then the lifting assembly 12 and the adjusting seat 11 are disassembled, thereby completing the disassembly of the lifting assembly 12 and the adjusting seat 11, therefore, the lifting assembly 12 and the adjusting seat 11 can be assembled and disassembled by simple operation of the locking member 142, the assembly and the disassembly are quicker and more convenient, and the calibration step is more simplified.

Referring to fig. 12 to 15, a slip-preventing mechanism 30 is disposed on the sliding rail 13, the slip-preventing mechanism 30 includes a sliding plate 31 and a hanging plate 32 for hanging a radar calibration piece 34, the sliding plate 31 is slidably mounted on the sliding rail 13, and the hanging plate 32 is fixed on the sliding plate 31; the limiting component 33 is arranged on the sliding plate 31, the limiting component 33 is provided with an operating component 331, and the operating component 331 can pivot between a locking position and an unlocking position; when the operating member 331 is in the locking position, the sliding plate 31 is locked and fixed on the sliding rail 13; when the operating member 331 is in the unlocking position, the slide plate 31 can slide on the slide rail 13.

In this embodiment, the radar calibration piece 34 is used for aligning and correcting the measurement position on the automobile, so when calibrating the radar calibration piece 34, the calibration can be performed on the calibration bracket, when installing, the radar calibration piece 34 can be hung on the hanging plate 32, then the position of the radar calibration piece 34 is adjusted through the sliding plate 31, and the movement of the sliding plate 31 is limited through the limiting component 33, so that the position of the radar calibration piece 34 is limited.

The operating part 331 is pivoted to the unlocking position, so that the sliding plate 31 is unlocked, then the sliding plate 31 is pushed to move on the sliding rail 13, and the operating part 331 is pivoted to the locking position, so that the sliding plate 31 can be locked and fixed on the sliding rail 13, then the radar calibration part 34 is hung on the hanging plate 32, further the position of the radar calibration part 34 is limited and fixed, the limiting operation is more convenient, the operation is simple in the calibration process, and the stability is better.

Referring to fig. 15 and 17, the limiting assembly 33 further includes a fixing sleeve 332 and a locking shaft 333, the fixing sleeve 332 is fixed on the sliding plate 31; one end of the locking shaft 333 is inserted into the sliding groove 132 of the sliding rail 13 and is slidable, the other end of the locking shaft 333 passes through the sliding plate 31 and the fixing sleeve 332 and extends out of the fixing sleeve 332, and the operating element 331 is pivotally connected to the other end of the locking shaft 333. The fixing sleeve 332 is fixed on the sliding plate 31 through screws and can slide on the sliding rail 13 together with the sliding plate 31, and the locking shaft 333 can also move along with the sliding plate 31, so that the position of the sliding plate 31 can be limited at any position of the sliding rail 13 through the limiting component 33, and the adjustment is more convenient and simpler.

Further, one side of the sliding groove 132 adjacent to the sliding plate 31 has a stop wall 133, the locking shaft 333 has a stop portion 3331 protruding in a radial direction thereof, and the stop portion 3331 is located in the sliding groove 132 and can be stopped on the stop wall 133.

In the embodiment, the sliding plate 31 and the stop wall 133 are sandwiched by the fixing sleeve 332 and the stop part 3331, and when the locking shaft 333 moves toward the direction approaching the stop wall 133, the fixing sleeve 332 moves toward the direction departing from the stop wall 133 with respect to the locking shaft 333, so that the sliding plate 31 is unlocked; when the fixing sleeve 332 moves towards the direction of the stop wall 133 and the locking shaft 333 drives the stop part 3331 to move towards the direction away from the stop wall 133, the stop part 3331 and the fixing sleeve 332 approach each other, so that the sliding plate 31 and the stop wall 133 are clamped by being squeezed together, and the sliding plate 31 is fixed, so that the clamping is more stable, and the limiting is more accurate and reliable.

Specifically, the operating member 331 includes an operating end 3311 and a pivoting end 3312 connected to each other, the operating end 3311 is used for being operated by a user, the pivoting end 3312 has an eccentric hole 3314, the eccentric hole 3314 is pivoted to the other end of the locking shaft 333 through a pivot pin, and when the operating end 3311 is operated to force the operating member 331 to rotate by a predetermined angle, the operating member 331 is at a locking position.

In this embodiment, the predetermined angle may be 90 degrees, and when the operating element 331 is rotated to the predetermined angle, the operating element 331 pushes the fixing sleeve 332 to move toward the stop wall 133, and pulls the locking shaft 333 to drive the stop portion 3331 to move toward the stop wall 133, so that the sliding plate 31 and the sliding rail 13 are tightly attached to each other to lock and fix the sliding plate 31 on the sliding rail 13; it can be understood that when the operating element 331 is rotated in the opposite direction by a predetermined angle, the fixing sleeve 332 moves away from the stop wall 133, and the stop portion 3331 moves away from the stop wall 133, so that the sliding plate 31 and the sliding rail 13 move away from each other to unlock the sliding plate 31, thereby facilitating and simplifying the operation and improving the stability.

Further, as shown in fig. 16 and 17, the fixing sleeve 332 is provided with a groove 3321, the pivot end 3312 abuts against the groove 3321, the pivot end 3312 is provided with a protrusion 3313 away from the eccentric hole 3314, when the operating element 331 rotates a predetermined angle (90 degrees), the protrusion 3313 rotates into the groove 3321 to press and push the fixing sleeve 332, and the locking shaft 333 and the fixing sleeve 332 move relatively, so that the fixing sleeve 332 presses and fixes the sliding plate 31 on the sliding rail 13.

In this embodiment, when the sliding plate 31 is slidable, the operating element 331 can be rotated by a predetermined angle to rotate the protrusion 3313 into the groove 3321, and the fixing sleeve 332 is pushed and pressed to make the fixing sleeve 332 and the stopping part 3331 approach each other, so that the fixing sleeve 332 presses the sliding plate 31 against the sliding rail 13 to keep the sliding plate 31 in a pressed state; when the sliding plate 31 is pressed and locked, the operating element 331 is rotated reversely by a predetermined angle, so that the protrusion 3313 is rotated to be away from the groove 3321, the fixing sleeve 332 is released from the pressing and pushing state and moves in a direction away from the stop wall 133, and the sliding plate 31 is released from the pressed state, so that the sliding plate 31 can slide, and the positions of the sliding plate 31 and the hanging plate 32 can be adjusted.

Further, the plane direction of the hanging plate 32 is parallel to the plane direction of the sliding plate 31 and defines a hanging space 322 together, a hanging groove 321 is formed on the hanging plate 32, a hanging member 341 is formed on the radar calibration member 34, and the hanging member 341 is adapted to be hung in the hanging groove 321, so that the hanging plate 32 stops a part of the hanging member 341 in the hanging space 322. Wherein, when installing radar calibration piece 34, can directly articulate the hookup piece 341 of radar calibration piece 34 on hookup board 32 for sliding plate 31 and hookup board 32 can be with the centre gripping of hookup piece 341, and then make radar calibration piece 34 fixed on hookup board 32, and the installation is more simple and convenient.

Referring to fig. 1, 5 and 18, an angle scale 101 for receiving a planar laser beam 401 emitted from a laser in the longitudinal direction of the vehicle is attached to the lower end of the main frame 10, the plane on which the angle scale 101 is located is perpendicular to the centering plane 2021, and the 90-degree scale on the angle scale 101 is located on the centering plane 2021. When the planar laser beam 401 is projected onto the light receiving surface 201, the degree of the deviation angle between the laser line and the centering mark 202 can be conveniently known by observing the correspondence between the laser line formed on the angle scale mark 101 by the planar laser beam 401 and the angle scale mark 101, that is, when the planar laser beam 401 is irradiated onto the light receiving surface 201 and is overlapped with the centering mark 202, the planar laser beam 401 indicates the position of the 90-degree scale line, so that the calibration of the calibration bracket and the longitudinal center line of the vehicle is completed.

Referring to fig. 18, the present invention further provides a calibration device, including a laser 40 and the calibration bracket as described above, wherein the laser 40 is used for emitting a planar laser beam 401 along the longitudinal centerline of the vehicle; the plane laser beam 401 emitted by the laser 40 is projected on at least two light receiving surfaces 201 to form a linear laser line.

The utility model provides a calibration equipment, laser instrument 40 can set up on the vertical central line of car, use simultaneously to mark the support and carry out the calibration, make plane laser beam 401 that laser instrument 40 shines out can shine on two calibration seat 20 through removing body frame 10, and align with two centering marks 202, ensure to mark the support and be the vertical state with the vertical central line of vehicle, through going up and down slide rail 13, and adjust limited slip mechanism 30 on slide rail 13 and make limited slip mechanism 30 roughly align with the automobile tire side, use bumper or front wheel central line before the vehicle as the range finding benchmark, measure the distance between calibration support and the measurement benchmark and mark the distance etc. of support and automobile wheel center through the tape measure with limited slip mechanism 30, make the degree of accuracy that supplementary driving devices such as camera and radar scaling piece 34 markd high.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

The above only be the preferred embodiment of the utility model discloses a not consequently restriction the utility model discloses a patent range, all are in the utility model discloses a conceive, utilize the equivalent structure transform of what the content was done in the description and the attached drawing, or direct/indirect application all is included in other relevant technical field the utility model discloses a patent protection within range.

Claims

1. A calibration support, comprising:

a main frame;

2. The calibration support according to claim 1, wherein each of the light receiving surfaces has a plurality of calibration scales thereon, the calibration scales are sequentially spaced in a direction perpendicular to the centering plane, the centering mark is located at a middle position of the calibration scales, the calibration scales of at least two of the calibration bases correspond to each other, corresponding calibration scale lines together define an offset reference surface, and the offset reference surface is perpendicular to the light receiving surface.

3. Calibration support according to claim 2, characterized in that the main frame comprises:

4. Calibration support according to claim 3, characterized in that said calibration seat comprises:

the rear end of the connecting part is connected with the lifting assembly;

5. The calibration support according to claim 4, wherein the support portion has a mounting groove extending from left to right, at least two positioning blocks are disposed in the mounting groove in a protruding manner, the bottom of the slide rail has positioning grooves adapted to the positioning blocks, and when the slide rail is mounted on the support portion, the positioning blocks are embedded in the positioning grooves.

6. The calibration support according to claim 5, wherein a positioning post extending vertically upward is disposed in the mounting groove, the positioning post is disposed between two of the positioning blocks, a positioning hole is disposed in the slide rail and is adapted to the positioning post, and when the slide rail is mounted on the supporting portion, the positioning post is inserted into the positioning hole.

7. The calibration support according to claim 6, wherein a positioning sleeve is embedded in the slide rail, the positioning sleeve has a fixed end and a sleeved end, the fixed end is fixed on the slide rail through a locking bolt, the sleeved end is located below the fixed end, and the positioning hole is formed in the sleeved end and is inserted into the positioning column.

8. The calibration support according to claim 4, wherein a resisting component is disposed at a top of the connecting portion, the resisting component is pivotable between a resisting position and a releasing position, and when the resisting component pivots to the resisting position, the slide rail is fixed on the support portion by the resisting component; when the abutting assembly pivots to the release position, the abutting assembly releases the abutting on the sliding rail, so that the sliding rail can be removed from the bearing part.

9. The calibration bracket as set forth in claim 8, wherein the abutting assembly comprises a fastening member and an abutting member, the fastening member is screwed to the connecting portion after passing through the abutting member, the abutting member is rotatable around an axis of the fastening member, and the abutting member is pressed and fixed by the fastening member after the fastening member is tightened.

10. The calibration support according to claim 9, wherein the tightening member has a pivot portion and a tightening portion, the pivot portion is sleeved on the fastening member, the tightening portion is connected to the pivot portion and extends in a horizontal direction, and the tightening portion can press against the slide rail after rotating.

11. The calibration support according to claim 4, wherein the calibration base further comprises limiting pieces disposed at two sides of the connecting portion, and the limiting pieces extend to two sides of the lifting assembly to limit the calibration base from moving in a horizontal direction.

12. Calibration support according to claim 3, characterised in that said locking mechanism comprises:

the sleeve is fixed on the lifting assembly;

the locking piece is arranged in the sleeve in a penetrating mode;

13. Calibration support according to claim 12, characterized in that said locking member comprises:

14. The calibration bracket according to claim 13, wherein the adjustment seat has a through hole corresponding to the position-limiting portion, and when the operation portion is pressed downward along the axial direction of the shaft portion by a predetermined distance and then rotated by a predetermined angle, the position-limiting portion passes through the through hole and then stops below the bottom of the adjustment seat.

15. The calibration support according to claim 14, wherein a bottom of the adjustment seat is provided with a limiting groove, the limiting portion is capable of rotating in the limiting groove, the bottom of the limiting groove is provided with a first limiting surface and a second limiting surface, and the through hole is provided in the limiting groove and located between the first limiting surface and the second limiting surface;

16. The calibration support according to claim 3, wherein a slip-preventing mechanism is provided on the slide rail, and the slip-preventing mechanism comprises:

a sliding plate slidably mounted on the sliding rail;

17. The calibration support of claim 16, wherein said spacing assembly further comprises:

the fixed sleeve is fixed on the sliding plate;

18. The calibration support according to claim 17, wherein the sliding slot has a stop wall on a side thereof adjacent to the sliding plate, and the locking shaft has a stop portion protruding in a radial direction thereof, and the stop portion is located in the sliding slot and can be stopped on the stop wall.

19. The calibration bracket of claim 18, wherein the operating member includes an operating end and a pivoting end connected to each other, the operating end being configured to be operated by a user, the pivoting end having an eccentric hole pivotally connected to the other end of the locking shaft via a pivot pin, and the operating member being in the locking position when the operating end is operated to force the operating member to rotate a predetermined angle.

20. The calibration bracket as set forth in claim 19, wherein said retainer has a groove, said pivot end abuts against said groove, said pivot end has a protrusion away from said eccentric hole, and when said operating member rotates by said predetermined angle, said protrusion pushes said retainer so that said retainer presses and fixes said sliding plate to said slide rail.

21. The calibration bracket of claim 16, wherein the hook plate and the sliding plate together define a hooking space, the hook plate is provided with a hooking groove, the radar calibration member is provided with a hook adapted to be hooked in the hooking groove, and the hook plate stops a portion of the hook in the hooking space.

22. The calibration support according to claim 1, wherein an angle scale mark for receiving a planar laser beam emitted by a laser along the longitudinal direction of the vehicle is attached to the lower end of the main frame, the plane of the angle scale mark is perpendicular to the centering plane, and a 90-degree scale mark on the angle scale mark is on the centering plane.

23. A calibration apparatus, comprising:

a calibration support according to any one of claims 1 to 22, wherein the projection of the planar laser beam emitted by said laser onto at least two of said light-receiving surfaces forms a line laser line.