CN111623682A

CN111623682A - Car roof detects frock

Info

Publication number: CN111623682A
Application number: CN202010560341.XA
Authority: CN
Inventors: 林欣
Original assignee: Chongqing Tuode Precision Machinery Co ltd
Current assignee: Chongqing Tuode Precision Machinery Co ltd
Priority date: 2020-06-18
Filing date: 2020-06-18
Publication date: 2020-09-04

Abstract

The invention discloses an automobile ceiling detection tool, which comprises a base plate, wherein a plurality of mounting seats are arranged on the base plate, ceiling periphery simulation blocks are connected to the mounting seats in a turnover manner, a central mounting plate is also arranged on the mounting seats, skylight periphery simulation blocks are arranged on the central mounting plate in a sliding manner, a bottom supporting mechanism is arranged at the position, corresponding to a ceiling handle mounting hole, a sun shield mounting hole and a ceiling boss column, on the base plate, and a positioning pin or a tightening pin is arranged on the bottom supporting mechanism; the bottom plate is also provided with a self-suction type overturning positioning mechanism which corresponds to the position of the magnet mounting hole on the ceiling; still include tilting mechanism, tilting mechanism respectively with the position phase-match of ceiling handrail mounting hole, sunshading board mounting hole and ceiling boss post, connect on the tilting mechanism that ceiling boss post corresponds and detect piece or locating piece, the buckle is installed to ceiling handrail mounting hole and sunshading board mounting hole in, be connected with on the tilting mechanism that ceiling handrail mounting hole and sunshading board mounting hole correspond the position with buckle matched with zip.

Description

Car roof detects frock

Technical Field

The invention relates to the technical field of automobile roofs, in particular to an automobile roof detection tool.

Background

In the composition structure of an automobile, a ceiling is a significant part, and a skylight is installed on a general automobile ceiling, and the skylight has a negative pressure ventilation function, and the interior of the ceiling also has a certain protection effect on a passenger, so the ceiling is an automobile part which needs to be strictly detected.

For ceiling products shown in the attached drawing 12, currently, common checking fixture tools can only detect the peripheral profile of the ceiling product and the peripheral profile of the skylight, and cannot detect other positions at the same time, so that the ceiling product is easy to have assembly problems due to unqualified other positions during assembly, and the production efficiency of the ceiling product is directly influenced; if other positions are detected, corresponding tooling equipment needs to be redesigned, and the cost is high.

Disclosure of Invention

Aiming at the technical problems at present, the invention provides a detection tool for an automobile ceiling, which can simulate the loading state to detect each position of the ceiling.

In order to achieve the above purpose, the invention provides the following technical scheme:

a vehicle ceiling detection tool comprises a base plate, wherein a plurality of mounting seats are arranged on the base plate, ceiling periphery simulation blocks are connected to the mounting seats at positions close to the periphery of a ceiling in a turnover mode, central mounting plates are arranged on the mounting seats at positions close to skylight positions of the ceiling and are parallel to the base plate, the skylight periphery simulation blocks are arranged on the central mounting plates in a sliding mode, bottom supporting mechanisms are movably arranged on the base plate in the vertical direction at positions corresponding to a ceiling handle mounting hole, a sun shield mounting hole and a ceiling boss column, a positioning pin and a screwing pin are installed on each bottom supporting mechanism as required, and the positioning pins are installed on the mounting seats at positions corresponding to the ceiling mounting holes;

the self-suction type overturning and positioning mechanism is also arranged on the bottom plate, corresponds to the position of the magnet mounting hole on the ceiling and is matched with the magnet on the ceiling to position the ceiling;

the turnover mechanisms are detachably mounted on the mounting seats close to the periphery of the bottom plate, the turnover mechanisms are respectively matched with the positions of the ceiling handrail mounting holes, the sun shield mounting holes and the ceiling boss columns, and when the peripheral profile of the ceiling and the peripheral profile of the skylight are detected, all the turnover mechanisms do not work; when the ceiling boss column is detected, a detection block is connected to the turnover mechanism corresponding to the ceiling boss column, and the ceiling boss column can extend into the detection block during detection; when detecting the ceiling assembly, the locating piece is connected on the tilting mechanism that the ceiling boss corresponds position department, and the ceiling boss post is stretched into and is fixed a position the ceiling in this locating piece, and the buckle is installed to ceiling handrail mounting hole and sunshading board mounting hole in, be connected with on the tilting mechanism that ceiling handrail mounting hole and sunshading board mounting hole correspond the position with buckle matched with zip.

According to the technical scheme, when the peripheral outline of the skylight and the peripheral outline of the ceiling are detected, the turnover mechanism is turned outwards or detached, the bottom support mechanism is lifted to a working state, the positioning pin is installed on the installation seat corresponding to the position of the ceiling installation hole and one of the sunshade board installation holes, then the ceiling is placed on a tool, the tightening pin is inserted into the ceiling handrail installation hole, the sunshade board installation hole and the corresponding bottom support mechanism for positioning, and the peripheral outline of the skylight and the peripheral outline of the ceiling are detected through the peripheral skylight simulation block, the peripheral ceiling simulation block and the corresponding detection tools; when the ceiling boss column is detected, the ceiling after the first state detection is finished is detached, then installation and positioning are carried out again, specifically, the product is positioned by repeating the positioning process, then the detection block is connected to the two turnover mechanisms at the corresponding positions of the ceiling boss column, the turnover mechanisms are turned to the working state, and the ceiling boss column is detected by using the detection block; when detecting the ceiling assembly, the ceiling in the last detection state is disassembled and the corresponding accessories are installed, and the specific process is as follows: move down bottom sprag mechanism, the initial positioning process of repetition state one, put the ceiling on this frock, then connect the locating piece on two tilting mechanisms that correspond position department with the ceiling boss post, then these two tilting mechanisms overturn, the ceiling boss post can stretch into these two locating blocks and fix a position, inhale mutually with the magnet on the ceiling from the activity of inhaling formula upset locating mechanism, connect the zip on the tilting mechanism that ceiling handrail mounting hole and sunshading board mounting hole correspond the position, install the buckle in ceiling handrail mounting hole and the sunshading board mounting hole, the zip cooperatees with the buckle and accomplishes the location of ceiling product, then simulate the piece all around through the skylight, the ceiling simulates the piece all around and detects with corresponding ceiling assembly of examining, one set of frock is shared to three kinds of detection states, and can find out the problem of the concrete position department of ceiling product fast.

Preferably, the self-suction type overturning and positioning mechanism comprises a first cylinder fixed on the bottom plate along the vertical direction, the movable end of the first cylinder can extend out of the central mounting plate, the movable end of the first cylinder is hinged with a first overturning arm, and the free end of the first overturning arm is connected with a suction iron block;

and a first base is arranged at the position, right below the first turnover arm, on the central mounting plate, and one end, close to the first cylinder, of the first turnover arm is hinged on the first base.

According to the scheme, the first air cylinder drives the first overturning arm to rotate around a hinged point with the first base and the movable end of the first air cylinder when moving, and the tightly-attracting iron block on the first overturning arm is attracted with the magnet on the ceiling to position the ceiling after the first air cylinder overturns in place.

Preferably, the upper end of the first base is provided with a turnover limiting seat, the turnover limiting seat is provided with a through groove, and the first turnover arm is clamped in the through groove in a working state.

According to the scheme, the first overturning arm is just clamped in the through groove in the overturning limiting seat after overturning, so that the first overturning arm is prevented from shaking in a use procedure, and the positioning precision and the detection precision are improved.

Preferably, a connecting support plate is arranged on the mounting seat at a position close to the periphery of the ceiling, a plurality of second overturning seats are connected to the connecting support plate side by side, a second overturning arm is rotatably connected to a position below the second overturning seat, one end of the second overturning arm is hinged to the second overturning seat, the other end of the second overturning arm is connected with a ceiling periphery simulation block at a corresponding position, screw holes are arranged at corresponding positions of the second overturning seat and the second overturning arm, and a tightening stud is screwed in each screw hole.

Connect the ceiling on the mount pad with the simulation piece all around can overturning, can avoid the ceiling product to place and produce the interference with other part structures when this frock is gone up, specifically, when will placing the ceiling product, can unscrew the screw bolt earlier, overturn the second upset arm downwards around second upset seat, wait the ceiling product place the back then overturn the second upset arm to operating condition, the ceiling is at operating position around the simulation piece this moment, fix in screwing second upset seat and second upset arm through screwing the screw bolt, can carry out follow-up detection operation after with this location.

Preferably, a clamping groove with a downward opening is formed in the second overturning seat, the width of the clamping groove is the same as that of the second overturning arm, and the second overturning arm is clamped in the clamping groove in the working state.

This scheme, second upset arm upset when working condition is located the draw-in groove on the second upset seat, and stability is better on the one hand, and on the other hand security is higher.

Preferably, the bottom support mechanism comprises a second cylinder fixed on the bottom plate along the vertical direction, the movable end of the second cylinder is connected with a support block, a connecting hole is formed in the support block, and the positioning pin and the tightening pin can be installed in the connecting hole in the support block at the corresponding position.

According to the scheme, the positioning pin or the screwing pin is inserted into the corresponding connecting hole according to the requirement in actual use.

Preferably, the turnover mechanism comprises a third turnover seat connected to the mounting seat, a third turnover arm is connected to the third turnover seat in a turnover manner, and the detection block or the positioning block is detachably connected to the free end of the third turnover arm;

and one end of the gas spring is fixed on the third overturning seat, and the other end of the gas spring is fixed on the third overturning arm.

This scheme drives through tilting mechanism's upset and detects piece or locating piece and realize the location and the detection to the relevant position of ceiling, and the air spring is used for alleviateing the gravity of upset in-process second upset arm simultaneously, has guaranteed the stability of upset process.

Preferably, the detection block comprises a first connecting plate connected to the third overturning arm, a first fixing block is connected to the first connecting plate, a detection pin is fixed to the first fixing block, a detection hole is formed in the detection pin along the axial direction of the detection pin, and in the working state, the ceiling boss column can stretch into the detection hole.

Preferably, the positioning block comprises a second connecting plate connected to the third overturning arm, a second fixing block is connected to the second connecting plate, a positioning plate is connected to the lower end of the second fixing block, a positioning hole is formed in the positioning plate, and the center line of the positioning hole is perpendicular to the horizontal plane.

Compared with the prior art, the invention has the beneficial effects that: the invention can not only detect the outline of the skylight and the outline of the periphery of the ceiling, but also simulate the loading state to detect other positions on the ceiling, the first detection state is to detect the outline of the skylight and the outline of the periphery of the ceiling, the second state is to detect the roof boss column, and the third state is to detect the roof assembly, the three states are completed on the same set of equipment, the detection of the next state can be rapidly performed after one state is completed, the loading state of the ceiling is completely simulated, the loading state of the ceiling is consistent with the loading state, the position which can not be detected by the traditional detection tool can be detected, and the problem can be accurately found. Meanwhile, the problem detection is quick, the space is saved, the detection time is shortened, and the manufacturing cost is reduced.

Description of the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram of the present invention in a first detection state;

FIG. 3 is a schematic structural view of the sunroof periphery simulation block and the ceiling periphery simulation block of FIG. 2 with the portions removed;

FIG. 4 is a schematic structural diagram of the present invention in a second detection state;

FIG. 5 is a schematic structural view of the sunroof periphery simulation block and the ceiling periphery simulation block of FIG. 4 removed;

FIG. 6 is a schematic structural diagram of the present invention in a third testing state;

FIG. 7 is a schematic structural view of the sunroof periphery simulation block and the ceiling periphery simulation block of FIG. 6 removed;

FIG. 8 is a schematic structural diagram of a detection block according to the present invention;

FIG. 9 is a schematic view of a positioning block according to the present invention;

FIG. 10 is an enlarged view taken at I in FIG. 2;

FIG. 11 is a schematic structural view of a self-priming flip positioning mechanism of the present invention;

fig. 12 is a schematic structural view of the ceiling product of the present invention.

Detailed Description

The present invention will be described in further detail with reference to test examples and specific embodiments. It should be understood that the scope of the above-described subject matter is not limited to the following examples, and any techniques implemented based on the disclosure of the present invention are within the scope of the present invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

In the description of the present invention, unless otherwise specified and limited, it is to be noted that the terms "mounted," "connected," and "connected" are to be interpreted broadly, and may be, for example, a mechanical connection or an electrical connection, a communication between two elements, a direct connection, or an indirect connection via an intermediate medium, and specific meanings of the terms may be understood by those skilled in the art according to specific situations.

The tool for detecting the automobile ceiling as shown in the attached figures 1 to 12 comprises a bottom plate 1 arranged along the horizontal direction, the bottom plate 1 is provided with a plurality of mounting seats 2, the mounting seats 2 at the positions close to the periphery of the ceiling are connected with ceiling periphery simulation blocks 3, the ceiling periphery simulation blocks 3 are simulation blocks simulating the periphery structure of the ceiling, and the simulation block 3 around the ceiling is composed of different sections, each section corresponds to the corresponding position around the ceiling, in order to facilitate positioning and installation, in the embodiment, the ceiling periphery simulation block 3 corresponding to the front end part of the ceiling is slidably arranged on the installation base 2 through the matching of a slide rail and a slide block, the ceiling periphery simulation block 3 corresponding to the A/B/C column is directly connected to the installation base 2 at the corresponding position, the simulation blocks 3 on the periphery of the ceiling corresponding to other parts are connected to the mounting seats 2 at corresponding positions in a turnable way. The simulation blocks 3 around the ceiling can also be connected on the mounting base 2 in a turnover mode. The specific turning manner in this embodiment is: the mounting seat 2 at the corresponding position is provided with a connecting support plate 91, the connecting support plate 91 is connected with a plurality of second turnover seats 92 side by side, the second turnover seats 92 are parallel to the horizontal plane, the position below the second turnover seats 92 is rotatably connected with a second turnover arm 93, one end of the second turnover arm 93 is hinged on the second turnover seats 92, the other end is a free end, the free end is connected with a corresponding ceiling periphery simulation block 3 through a simulation block connecting plate 94, the corresponding positions of the second turnover seats 92 and the second turnover arm 93 are provided with screw holes 95, the central lines of the screw holes 95 are perpendicular to the horizontal plane, and screwing studs are screwed in the screw holes 95 in the working state.

Meanwhile, a clamping groove 920 with a downward opening is formed in the second overturning seat 92, the width of the clamping groove 920 is the same as that of the second overturning arm 93, the second overturning arm 93 is hinged to one end, close to the connecting support plate 91, of the clamping groove 920, and the second overturning arm 93 is clamped in the clamping groove 920 in the working state.

The central mounting plate 5 is arranged on the mounting seat 2 close to the position of the skylight of the ceiling, the central mounting plate 5 is parallel to the bottom plate 1, the skylight periphery simulation block 6 is arranged on the central mounting plate 5 in a sliding mode, the skylight periphery simulation block 6 is a simulation block for simulating the skylight periphery structure and is composed of different sections, and each section is matched with the skylight periphery structure at the corresponding position. In order to avoid interference in the product positioning process, the skylight periphery simulation block 6 is arranged on the central mounting plate 5 in a sliding mode through the matching of the sliding rails and the sliding blocks, the skylight periphery simulation block 6 slides inwards along the sliding rails to reserve a position when a ceiling product is mounted, and the skylight periphery simulation block slides to a specified position after being mounted to detect.

The bottom support mechanism 4 is movably arranged on the bottom plate 1 along the vertical direction at the position corresponding to the ceiling handle mounting hole 104, the sun visor mounting hole 102 and the ceiling boss column 103, the bottom support mechanism 4 comprises a second cylinder 41 fixed on the bottom plate 1 along the vertical direction, the movable end of the second cylinder 41 is connected with a support block 42, a connecting hole 43 is arranged on the support block 42, and a positioning pin 11 or a tightening pin 12 is arranged in the connecting hole 43 according to requirements. And a positioning pin 11 is mounted on the mounting seat 2 at a position corresponding to the ceiling mounting hole 101.

Eight sets of self-suction type overturning positioning mechanisms 7 are further arranged on the bottom plate 1, the positions of the self-suction type overturning positioning mechanisms 7 correspond to the positions of the magnet mounting holes 105 in the ceiling, and after the magnets are mounted, the self-suction type overturning positioning mechanisms 7 attract the magnets in the ceiling to compress and position the ceiling.

Specifically, the self-priming turnover positioning mechanism 7 includes a first cylinder 71 fixed on the bottom plate 1 along the vertical direction, the movable end of the first cylinder 71 can pass through the through hole 51 on the central mounting plate 5, and a first turnover arm 72 is hinged to the movable end of the first cylinder 71, the free end of the first turnover arm 72 is connected with a tightening iron block 73, in order to avoid the too large attraction force between the tightening iron block 73 and the magnet, a hole 731 can be formed on the tightening iron block 73, so as to reduce the contact area with the magnet.

A first base 74 is provided on the central mounting plate 5 at a position directly below the first invert arm 72, and one end of the first invert arm 72 near the first cylinder 71 is hinged to the first base 74. An overturning limiting seat 75 is arranged at the upper end of the first base 74, a through groove is arranged on the overturning limiting seat 75, and the first overturning arm 72 is clamped in the through groove in the working state.

Detachably installs tilting mechanism 8 on the mount pad 2 that is close to bottom plate 1 periphery position department, and tilting mechanism 8 is including connecting third upset seat 81 on mount pad 2, and this third upset seat 81 is gone up and is connected with third upset arm 82 with overturning, and the upset mode adopts current mode, and a plurality of tilting mechanism 8 correspond with the position of ceiling handrail mounting hole 104, sunshading board mounting hole 102 and ceiling boss post 103 respectively. A gas spring 84 is also arranged on the tilting mechanism 8, one end of the gas spring 84 being fixed to the third tilting mount 81 and the other end thereof being fixed to the third tilting arm 82.

When the peripheral profile degree of the ceiling and the peripheral profile degree of the skylight are detected, all the turnover mechanisms 8 do not work; when the ceiling boss column 103 is detected, the detection block 83 is connected to the turnover mechanism 8 corresponding to the ceiling boss column 103, and the ceiling boss column 103 can extend into the detection block 83 during detection; when detecting the ceiling assembly, connect locating piece 85 on the tilting mechanism 8 of ceiling boss 103 corresponding position department, ceiling boss 103 stretches into in this locating piece 85 and fixes a position the ceiling, installs the buckle in ceiling handrail mounting hole 104 and the sunshading board mounting hole 102, is connected with on the tilting mechanism 8 of ceiling handrail mounting hole 104 and the sunshading board mounting hole 102 corresponding position with buckle matched with zip 86, buckle and zip 86 all adopt current structure.

The detection block 83 includes a first connection plate 830 connected to the third flipping arm 82, the first connection plate 830 is connected to a first fixing block 831, the first fixing block 831 is fixed with a detection pin 832, a detection hole 833 is formed at the lower end of the detection pin 832 along the axial direction of the detection pin 832, and the ceiling boss column 103 can extend into the detection hole 833 during the working state.

The positioning block 85 comprises a second connecting plate 850 connected to the third turning arm 82, a second fixing block 851 is connected to the second connecting plate 850, a positioning plate 852 is connected to the lower end of the second fixing block 851, a positioning hole 853 is formed in the positioning plate 852, the center line of the positioning hole 853 is perpendicular to the horizontal plane, and the ceiling boss 103 extends into the positioning hole 853 for positioning in the working state.

The using process and principle of the invention are as follows:

when detecting the peripheral profile of the skylight and the peripheral profile of the ceiling, the turnover mechanism 8 is turned outwards or detached from the mounting seat 2, the bottom support mechanism 4 is lifted to a working state, the positioning pin 11 is mounted on the mounting seat 2 corresponding to the position of the ceiling mounting hole 101 and the bottom support mechanism 4 corresponding to one of the sunshade mounting holes 104, then the ceiling is placed on a tool, the tightening pin 12 is inserted into the ceiling handrail mounting hole 104, the sunshade mounting hole 102 and the corresponding bottom support mechanism 4 for positioning, and the peripheral profile of the skylight and the peripheral profile of the ceiling are detected through the peripheral simulation block 6 of the ceiling, the peripheral simulation block 3 of the ceiling and the corresponding detection tools;

when the ceiling boss column 103 is detected, the ceiling after the first state detection is finished is detached, then installation and positioning are carried out again, specifically, the ceiling product is positioned by repeating the positioning process, then the detection block 83 is connected to the two turnover mechanisms 8 at the corresponding positions of the ceiling boss column 103, the turnover mechanisms 8 are turned over to the working state, and the ceiling boss column 103 is detected by using the detection block 83;

when the ceiling assembly is detected, the ceiling in the last detection state is disassembled to install corresponding ceiling accessories, and the specific process is as follows: moving the bottom supporting mechanism 4 downwards, repeating the initial positioning process in the first state, placing the ceiling on the tool, connecting the upper positioning blocks 85 on the two turnover mechanisms 8 at the positions corresponding to the ceiling boss columns 103, then turning over the two turnover mechanisms 8, enabling the ceiling boss columns 103 to extend into the two positioning blocks 85 for positioning, starting to act through the self-suction turnover positioning mechanism 7, driving the tightening iron blocks 73 to turn over and attract magnets on the ceiling, connecting the pull locks 86 on the turnover mechanisms 8 at the positions corresponding to the ceiling handrail mounting holes 104 and the sun shield mounting holes 102, mounting buckles in the ceiling handrail mounting holes 104 and the sun shield mounting holes 102, matching the pull locks 86 with the buckles to complete the positioning of the ceiling product, detecting the ceiling assembly through the surrounding simulation blocks 6, the ceiling surrounding simulation blocks 3 and the corresponding ceiling detection tools, and realizing that three detection states share one tool, and the problem of the specific position of the ceiling product can be found out quickly.

The foregoing describes preferred embodiments of the present invention. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims

1. The utility model provides a car roof detects frock which characterized in that: comprises a bottom plate (1), a plurality of mounting seats (2) are arranged on the bottom plate (1), a ceiling periphery simulation block (3) is connected on the mounting seat (2) close to the periphery of the ceiling in a turnover way, a central mounting plate (5) is arranged on the mounting seat (2) close to the position of the skylight of the ceiling, the central mounting plate (5) is parallel to the bottom plate (1), the skylight periphery simulation block (6) is arranged on the central mounting plate (5) in a sliding way, a bottom support mechanism (4) is movably arranged on the bottom plate (1) along the vertical direction at the position corresponding to the ceiling handle mounting hole (104), the sun shield mounting hole (102) and the ceiling boss column (103), the bottom supporting mechanism (4) is provided with a positioning pin (11) and a tightening pin (12) according to requirements, a positioning pin (11) is arranged on the mounting seat (2) corresponding to the position of the ceiling mounting hole (101);

the self-suction type turning positioning mechanism (7) is further arranged on the bottom plate (1), the self-suction type turning positioning mechanism (7) corresponds to the position of the magnet mounting hole (105) in the ceiling, and the self-suction type turning positioning mechanism (7) is matched with the magnet on the ceiling to position the ceiling;

the turnover mechanisms (8) are detachably mounted on the mounting seat (2) close to the periphery of the bottom plate (1), the turnover mechanisms (8) are respectively matched with positions of a ceiling handrail mounting hole (104), a sun visor mounting hole (102) and a ceiling boss column (103), and when the contour degree of the periphery of the ceiling and the contour degree of the periphery of the skylight are detected, all the turnover mechanisms (8) do not work; when the ceiling boss column (103) is detected, a detection block (83) is connected to the turnover mechanism (8) corresponding to the ceiling boss column (103), and the ceiling boss column (103) can extend into the detection block (83) during detection; when detecting a ceiling assembly, a positioning block (85) is connected to the turnover mechanism (8) at the position corresponding to the ceiling boss (103), the ceiling boss (103) extends into the positioning block (85) to position the ceiling, a buckle is installed in the ceiling handrail installation hole (104) and the sun shield installation hole (102), and a zipper (86) matched with the buckle is connected to the turnover mechanism (8) at the position corresponding to the ceiling handrail installation hole (104) and the sun shield installation hole (102).

2. The automobile ceiling detection tool according to claim 1, characterized in that: the self-suction type overturning positioning mechanism (7) comprises a first air cylinder (71) fixed on the bottom plate (1) along the vertical direction, the movable end of the first air cylinder (71) can extend out of the central mounting plate (5), the movable end of the first air cylinder (71) is hinged with a first overturning arm (72), and the free end of the first overturning arm (72) is connected with a suction iron block (73);

a first base (74) is arranged at a position, right below the first overturning arm (72), on the central mounting plate (5), and one end, close to the first air cylinder (71), of the first overturning arm (72) is hinged to the first base (74).

3. The automobile ceiling detection tool according to claim 2, characterized in that: the upper end of the first base (74) is provided with a turnover limiting seat (75), the turnover limiting seat (75) is provided with a through groove, and the first turnover arm (72) is clamped in the through groove in a working state.

4. The automobile ceiling detection tool according to claim 1, characterized in that: be equipped with joint support board (91) on mount pad (2) of the position department of being close to the ceiling periphery, be connected with a plurality of second upset seats (92) side by side on this joint support board (91), the position department that lies in its below on this second upset seat (92) rotates and is connected with second upset arm (93), and the one end of this second upset arm (93) articulates second upset seat (92), the other end are connected with ceiling of corresponding position department simulation piece (3) all around the corresponding position department of second upset seat (92) and second upset arm (93) is equipped with screw (95), and the spiro union has the screw bolt of screwing up in this screw (95).

5. The automobile ceiling detection tool according to claim 4, characterized in that: a clamping groove (920) with a downward opening is formed in the second overturning seat (92), the width of the clamping groove (920) is the same as that of the second overturning arm (93), and the second overturning arm (93) is clamped in the clamping groove (920) in the working state.

6. The automobile ceiling detection tool according to claim 1, characterized in that: the bottom supporting mechanism (4) comprises a second air cylinder (41) fixed on the bottom plate (1) along the vertical direction, a supporting block (42) is connected to the movable end of the second air cylinder (41), a connecting hole (43) is formed in the supporting block (42), and the positioning pin (11) and the tightening pin (12) can be installed in the connecting hole (43) in the supporting block (42) at the corresponding position.

7. The automobile ceiling detection tool according to claim 1, characterized in that: the turnover mechanism (8) comprises a third turnover seat (81) connected to the mounting seat (2), a third turnover arm (82) is connected to the third turnover seat (81) in a turnover mode, and the detection block (83) or the positioning block (85) is detachably connected to the free end of the third turnover arm (82);

the turning device further comprises a gas spring (84), one end of the gas spring (84) is fixed on the third turning seat (81), and the other end of the gas spring (84) is fixed on the third turning arm (82).

8. The automobile ceiling detection tool according to claim 7, characterized in that: the detection block (83) comprises a first connecting plate (830) connected to the third overturning arm (82), a first fixing block (831) is connected to the first connecting plate (830), a detection pin (832) is fixed to the first fixing block (831), a detection hole (833) is formed in the detection pin (832) along the axial direction of the detection pin, and in the working state, the ceiling boss column (103) can stretch into the detection hole (833).

9. The automobile ceiling detection tool according to claim 7, characterized in that: the positioning block (85) comprises a second connecting plate (850) connected to the third turnover arm (82), a second fixing block (851) is connected to the second connecting plate (850), a positioning plate (852) is connected to the lower end of the second fixing block (851), a positioning hole (853) is formed in the positioning plate (852), and the center line of the positioning hole (853) is perpendicular to the horizontal plane.