CN210788681U

CN210788681U - Skylight plastic detection tool

Info

Publication number: CN210788681U
Application number: CN201921913576.1U
Authority: CN
Inventors: 宋翠苹
Original assignee: Kunshan Jingna Testing Technology Co ltd
Current assignee: Kunshan Jingna Testing Technology Co ltd
Priority date: 2019-11-07
Filing date: 2019-11-07
Publication date: 2020-06-19
Anticipated expiration: 2029-11-07

Abstract

The utility model discloses a skylight plastic detection tool, include device support, workstation, positioning movement subassembly, radian determine module, go up plastic subassembly fixed plate, plastic subassembly fixed plate and skylight plastic subassembly down, the workstation is located on the device support, go up the plastic subassembly fixed plate and locate the workstation top, the workstation bottom is located to plastic subassembly down, two sets of skylight plastic subassemblies are respectively the symmetry located on the plastic subassembly fixed plate and on the plastic subassembly fixed plate down, the radian determine module is located on the workstation and locates the rear of skylight plastic subassembly, positioning movement subassembly is located on the workstation and is located between skylight plastic subassembly and the radian determine module. The utility model belongs to the technical field of skylight glass plastic, specifically provide one kind through scanning sensor at X and the epaxial removal in Y coordinate carry out complete scanning to the skylight to cooperation plastic extruded article extrudees the skylight and corrects skylight plastic detection tool.

Description

Skylight plastic detection tool

Technical Field

The utility model relates to a skylight glass plastic technical field specifically indicates a skylight plastic detection tool.

Background

The automobile skylight is arranged on the roof, so that air in the automobile can be effectively circulated, the fresh air can enter the automobile skylight, and meanwhile, the automobile window can also meet the requirements of wide visual field and mobile shooting.

The precision degree of skylight structure directly influences the car and uses experience to feel, influences the life of car. Through the manual detection sunroof radian error big, it is inefficient, consequently, research and development a trimmer that can effectively solve above-mentioned problem is the technical problem that needs urgent solution at present.

SUMMERY OF THE UTILITY MODEL

For solving the above-mentioned current difficult problem, the utility model provides a through scanning sensor at X and the epaxial removal in Y coordinate to carry out complete scanning to the skylight to cooperation plastic extruded article extrudees the skylight and corrects skylight plastic detection tool.

The utility model adopts the following technical scheme: the utility model relates to a skylight plastic detection tool, include device support, workstation, location removal subassembly, radian determine module, go up plastic subassembly fixed plate, plastic subassembly fixed plate and skylight plastic subassembly down, the workstation is located on the device support, go up the plastic subassembly fixed plate and locate the workstation top, the below of plastic subassembly fixed plate is located and is located down to the workstation bottom down to the plastic subassembly, skylight plastic subassembly is equipped with two sets ofly, two sets of skylight plastic subassemblies are respectively the symmetry locate on the plastic subassembly fixed plate with on the lower plastic subassembly fixed plate, radian determine module locates on the workstation and locates the rear of skylight plastic subassembly, the location removal subassembly is located on the workstation and is located between skylight plastic subassembly and the radian determine module.

Further, the radian detection assembly comprises a detection support, an X-direction detection driving motor, an X-direction detection moving member, an X-direction detection driving screw, a Y-direction detection driving motor, a Y-direction detection driving screw, a Y-direction detection moving member, a limiting shaft and a scanning sensor, wherein the detection support is arranged on the workbench, the X-direction detection driving screw is rotatably arranged on the detection support, the X-direction detection moving member is slidably arranged on the X-direction detection driving screw and is meshed with the X-direction detection driving screw, the X-direction detection driving motor is arranged on the detection support, the X-direction detection driving screw is connected with the output end of the X-direction detection driving motor, the Y-direction detection driving screw is rotatably arranged on the X-direction detection moving member, the Y-direction detection driving motor is arranged on the X-direction detection moving member, and the Y-direction detection driving screw is connected with the output end of the, the limiting shaft is arranged on the X-direction detection moving piece, the Y-direction detection moving piece is slidably arranged on the limiting shaft, the Y-direction detection moving piece is slidably arranged on the Y-direction detection driving screw rod and meshed with the Y-direction detection driving screw rod, the scanning sensor is arranged on the Y-direction detection moving piece, and the scanning sensor is driven to move on X and Y coordinate axes to completely scan the skylight by driving the X-direction detection driving motor and the Y-direction detection driving motor.

Furthermore, the positioning moving assembly comprises a positioning fixing piece, a positioning driving screw rod, a positioning driving motor, a positioning moving piece, a clamping driving hydraulic rod and a clamping piece, the positioning fixing piece is arranged on the workbench, one end of the positioning fixing piece is arranged below the upper shaping assembly fixing plate, the other end of the positioning fixing piece is arranged below the scanning sensor and close to the detection bracket, a positioning screw rod placing groove is arranged on the positioning fixing piece, the positioning driving screw rod is rotatably arranged in the positioning screw rod placing groove, the positioning driving motor is arranged at one end of the positioning fixing piece, the positioning driving screw rod penetrates through the positioning fixing piece and is connected with the output end of the positioning driving motor, the positioning moving piece is slidably arranged on the positioning fixing piece and is meshed with the positioning driving screw rod, a positioning groove is arranged on the positioning moving piece, and the clamping driving hydraulic rod is arranged, the clamping piece is arranged on the clamping driving hydraulic rod and arranged in the positioning groove, two groups of positioning moving pieces are arranged, the width between the two groups of positioning moving pieces is smaller than that of the skylight, the skylight to be detected is inserted into the positioning groove, and then the clamping driving hydraulic rod is driven to move downwards until the clamping piece presses and clamps the skylight.

Furthermore, a shaping driving hydraulic rod and a shaping extrusion part are arranged in the skylight shaping component, the shaping driving hydraulic rod is symmetrically arranged on the upper shaping component fixing plate and the lower shaping component fixing plate, and the shaping extrusion part is arranged on the shaping driving hydraulic rod.

Furthermore, a plurality of groups of shaping driving hydraulic rods are uniformly arranged on the upper shaping component fixing plate and the lower shaping component fixing plate at intervals respectively, a lower shaping piece through hole is formed in the workbench, shaping driving hydraulic rods on the lower shaping component fixing plate can penetrate through the lower shaping piece through hole and are arranged on the skylight in a contact manner, the number of the lower shaping piece through holes is equal to that of the shaping driving hydraulic rods on the lower shaping component fixing plate and corresponds to that of the shaping driving hydraulic rods on the lower shaping component fixing plate one by one, the radian of the skylight is detected by the radian detection component and then detected data are transmitted to an external computer for analysis and comparison, if the radian is unqualified, the skylight is driven by the positioning moving component to move between the upper shaping component fixing plate and the skylight shaping components on the lower shaping component fixing plate, and then the computer selects and drives the shaping driving hydraulic rods at, drive the plastic extruded article through plastic drive hydraulic stem and carry out extrusion plastic correction to the skylight, remove once more through the location removal subassembly after correcting and carry out the secondary and detect the judgement skylight radian to the skylight below and whether correct the target in place through the radian measuring subassembly.

Furthermore, the two groups of positioning moving assemblies are symmetrically arranged on two sides of the lower shaping piece through hole and between the shaping assemblies on the upper shaping assembly fixing plate and the lower shaping assembly fixing plate, and the two groups of positioning moving members are used for supporting and fixing the skylight from two sides.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: according to the scheme, the skylight shaping detection jig realizes fixed clamping of the skylight through the positioning moving assembly and freely moves between the radian detection assembly and the skylight shaping assembly; the skylight is completely scanned by driving and detecting an X-direction driving motor and a Y-direction driving motor to enable a scanning sensor to move on X and Y coordinate axes; drive the plastic extruded article through plastic drive hydraulic stem and carry out extrusion plastic correction to the skylight, can remove once more through the location removal subassembly after correcting and carry out the secondary to the skylight and detect whether correct the target in place of skylight radian to the radian determine subassembly below, efficient, the precision is high, can effectively improve product quality.

Drawings

Fig. 1 is a schematic structural view of a skylight shaping and detecting jig of the present invention;

fig. 2 is a schematic structural view of a radian detection assembly of a skylight shaping and detecting jig of the present invention;

fig. 3 is a schematic structural view of a positioning and moving assembly of the skylight shaping and detecting jig of the present invention;

fig. 4 is the utility model relates to a skylight plastic detection tool positioning movement subassembly A part enlargements.

The device comprises a device support, a working table, a positioning moving component, a detection component, an radian detection component, a detection component fixing plate, a device support, a working table, a positioning moving component, a detection support, a detection component, a radian detection component, a detection component fixing plate, a lower shaping component fixing plate, a working table, a skylight shaping component, a working table, a working.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in figures 1-4, the skylight shaping and detecting tool of the utility model comprises a device bracket 1, a workbench 2, a positioning and moving component 3, a radian detecting component 4, an upper shaping component fixing plate 5, a lower shaping component fixing plate 6 and a skylight shaping component 7, the workbench 2 is arranged on the device bracket 1, the upper shaping component fixing plate 5 is arranged at the top of the workbench 2, the lower shaping component is arranged at the bottom of the workbench 2 and below the lower shaping component fixing plate 6, two groups of skylight shaping components 7 are arranged, the two groups of skylight shaping components 7 are respectively and symmetrically arranged on the upper shaping component fixing plate 5 and the lower shaping component fixing plate 6, radian detecting component 4 locates on workstation 2 and locates skylight plastic component 7's rear, location removal subassembly 3 locates on workstation 2 and locates between skylight plastic component 7 and the radian detecting component 4.

The radian detection assembly 4 comprises a detection support 8, a detection X-direction driving motor 9, a detection X-direction moving member 10, a detection X-direction driving screw 11, a detection Y-direction driving motor 12, a detection Y-direction driving screw 13, a detection Y-direction moving member 14, a limit shaft 27 and a scanning sensor 15, wherein the detection support 8 is arranged on the workbench 2, the detection X-direction driving screw 11 is rotatably arranged on the detection support 8, the detection X-direction moving member 10 is slidably arranged on the detection X-direction driving screw 11 and is meshed with the detection X-direction driving screw, the detection X-direction driving motor 9 is arranged on the detection support 8, the detection X-direction driving screw 11 is connected with the output end of the detection X-direction driving motor 9, the detection Y-direction driving screw 13 is rotatably arranged on the detection X-direction moving member 10, the detection Y-direction driving motor 12 is arranged on the detection X-direction moving member 10, the detection Y-direction driving screw 13 is connected with the output end of the, the limiting shaft 27 is arranged on the detection X-direction moving part 10, the detection Y-direction moving part 14 is slidably arranged on the limiting shaft 27, the detection Y-direction moving part 14 is slidably arranged on the detection Y-direction driving lead screw 13 and meshed with the detection Y-direction driving lead screw, and the scanning sensor 15 is arranged on the detection Y-direction moving part 14. The positioning and moving assembly 3 comprises a positioning and fixing member 16, a positioning driving screw 17, a positioning driving motor 18, a positioning moving member 19, a clamping and driving hydraulic rod 20 and a clamping member 21, the positioning and fixing member 16 is arranged on the workbench 2, one end of the positioning and fixing member 16 is arranged below the upper shaping assembly fixing plate 5, the other end of the positioning and fixing member 16 is arranged below the scanning sensor 15 and close to the detection bracket 8, a positioning screw placing groove 22 is arranged on the positioning and fixing member 16, the positioning driving screw 17 is rotatably arranged in the positioning screw placing groove 22, the positioning driving motor 18 is arranged at one end of the positioning and fixing member 16, the positioning driving screw 17 penetrates through the positioning and fixing member 16 and is connected with the output end of the positioning and driving motor 18, the positioning moving member 19 is slidably arranged on the positioning and fixing member 16 and is meshed with the positioning driving screw 17, and a positioning, the clamping driving hydraulic rod 20 is arranged on the top wall of the positioning groove 23, the clamping pieces 21 are arranged on the clamping driving hydraulic rod 20 and in the positioning groove 23, two groups of positioning moving pieces 19 are arranged, and the width between the two groups of positioning moving pieces 19 is smaller than that of the skylight. The skylight shaping component 7 is internally provided with a shaping driving hydraulic rod 24 and a shaping extrusion part 25, the shaping driving hydraulic rod 24 is symmetrically arranged on the upper shaping component fixing plate 5 and the lower shaping component fixing plate 6, and the shaping extrusion part 25 is arranged on the shaping driving hydraulic rod 24. The shaping driving hydraulic rods 24 are respectively arranged on the upper shaping assembly fixing plate 5 and the lower shaping assembly fixing plate 6 at intervals, a plurality of groups are arranged on the workbench 2 at intervals, lower shaping piece through holes 26 are formed in the workbench 2, the shaping driving hydraulic rods 24 on the lower shaping assembly fixing plate 6 can penetrate through the lower shaping piece through holes 26 to be arranged on the skylight in a contact mode, and the number of the lower shaping piece through holes 26 is equal to that of the shaping driving hydraulic rods 24 on the lower shaping assembly fixing plate 6 and corresponds to that of the shaping driving hydraulic rods 24 on the lower shaping assembly fixing plate 6 one. The two groups of positioning moving assemblies 3 are symmetrically arranged at two sides of the lower shaping piece through hole 26 and between the shaping assemblies on the upper shaping assembly fixing plate 5 and the lower shaping assembly fixing plate 6.

When the device is used specifically, a skylight to be detected is inserted into the positioning groove 23, then the clamping driving hydraulic rod 20 is driven to move downwards until the clamping piece 21 presses and clamps the skylight, the scanning sensor 15 moves on the X and Y coordinate axes by driving and detecting the X-direction driving motor 9 and the Y-direction driving motor 12 to completely scan the skylight, the radian of the skylight is detected by the radian detection component 4, then the detected data is transmitted to an external computer for analysis and comparison, if the radian is not qualified, the skylight is driven to move between the skylight shaping components 7 on the upper shaping component fixing plate 5 and the lower shaping component fixing plate 6 through the positioning moving component 3, then the computer selects and drives the shaping driving hydraulic rod 24 at the corresponding position according to the radian shaping requirements of different parts of the skylight, and the shaping driving hydraulic rod 24 drives the shaping piece 25 to extrude, shape and correct the skylight, after the correction is finished, the positioning moving component 3 is moved to the position below the radian detection component 4 again to perform secondary detection on the skylight so as to judge whether the radian of the skylight is corrected in place or not, and if the radian of the skylight is not corrected in place, secondary correction is performed.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims

1. The utility model provides a skylight plastic detection tool which characterized in that: including device support, workstation, location removal subassembly, radian determine module, go up plastic subassembly fixed plate, plastic subassembly fixed plate and skylight plastic subassembly down, the workstation is located on the device support, go up the plastic subassembly fixed plate and locate the workstation top, the below of plastic subassembly fixed plate is located and is located down to the workstation bottom to plastic subassembly down, skylight plastic subassembly is equipped with two sets ofly, two sets of skylight plastic subassemblies are the symmetry respectively and locate on the plastic subassembly fixed plate and on the plastic subassembly fixed plate down, the radian determine module is located on the workstation and is located the rear of skylight plastic subassembly, location removal subassembly is located on the workstation and is located between skylight plastic subassembly and the radian determine module.

2. The skylight shaping and detecting jig of claim 1, characterized in that: the radian detection assembly comprises a detection support, a detection X-direction driving motor, a detection X-direction moving member, a detection X-direction driving lead screw, a detection Y-direction driving motor, a detection Y-direction driving lead screw, a detection Y-direction moving member, a limiting shaft and a scanning sensor, wherein the detection support is arranged on a workbench, the detection X-direction driving lead screw is rotatably arranged on the detection support, the detection X-direction moving member is slidably arranged on the detection X-direction driving lead screw and is meshed with the detection X-direction driving lead screw, the detection X-direction driving motor is arranged on the detection support, the detection X-direction driving lead screw is connected with the output end of the detection X-direction driving motor, the detection Y-direction driving lead screw is rotatably arranged on the detection X-direction moving member, the detection Y-direction driving motor is arranged on the detection X-direction moving member, the detection Y-direction driving lead screw is connected with the output end of the detection, the detection Y-direction moving piece is slidably arranged on the limiting shaft, the detection Y-direction moving piece is slidably arranged on the detection Y-direction driving screw rod and meshed with the detection Y-direction driving screw rod, and the scanning sensor is arranged on the detection Y-direction moving piece.

3. The skylight shaping and detecting jig of claim 2, characterized in that: the positioning and moving assembly comprises a positioning fixing piece, a positioning driving screw rod, a positioning driving motor, a positioning moving piece, a clamping driving hydraulic rod and a clamping piece, the positioning fixing piece is arranged on the workbench, one end of the positioning fixing piece is arranged below the fixing plate of the upper shaping assembly, the other end of the positioning fixing piece is arranged below the scanning sensor and close to the detection bracket, a positioning screw rod placing groove is arranged on the positioning fixing piece, the positioning driving screw rod is rotatably arranged in the positioning screw rod placing groove, the positioning driving motor is arranged at one end of the positioning fixing piece, the positioning driving screw rod penetrates through the positioning fixing piece and is connected with the output end of the positioning driving motor, the positioning moving piece is slidably arranged on the positioning fixing piece and is meshed with the positioning driving screw rod, a positioning groove is arranged on the positioning moving piece, and the clamping, the clamping piece is arranged on the clamping driving hydraulic rod and in the positioning groove, two groups of positioning moving pieces are arranged, and the width between the two groups of positioning moving pieces is smaller than that of the skylight.

4. The skylight shaping and detecting jig of claim 3, characterized in that: the skylight shaping component is internally provided with a shaping driving hydraulic rod and a shaping extrusion part, the shaping driving hydraulic rod is symmetrically arranged on the upper shaping component fixing plate and the lower shaping component fixing plate, and the shaping extrusion part is arranged on the shaping driving hydraulic rod.

5. The skylight shaping and detecting jig of claim 4, characterized in that: the shaping driving hydraulic rods are respectively arranged on the upper shaping assembly fixing plate and the lower shaping assembly fixing plate at intervals, a plurality of groups are arranged on the workbench at intervals, lower shaping piece through holes are formed in the workbench, the shaping driving hydraulic rods on the lower shaping assembly fixing plate can penetrate through the lower shaping piece through holes to be arranged on the skylight in a contact mode, and the number of the lower shaping piece through holes is equal to that of the shaping driving hydraulic rods on the lower shaping assembly fixing plate in a one-to-one correspondence mode.

6. The skylight shaping and detecting jig of claim 5, characterized in that: the two groups of positioning moving assemblies are symmetrically arranged on two sides of the through hole of the lower shaping piece and are arranged between the shaping assemblies on the upper shaping assembly fixing plate and the lower shaping assembly fixing plate.