CN114370965A

CN114370965A - Flexible drawing force detection equipment for wheel arch, door plate, spoiler and tail door

Info

Publication number: CN114370965A
Application number: CN202210042727.0A
Authority: CN
Inventors: 魏睐; 张莉; 郎敬考
Original assignee: Shenyang Minghua Mould & Plastic Technology Co ltd
Current assignee: Shenyang Minghua Mould & Plastic Technology Co ltd
Priority date: 2022-01-14
Filing date: 2022-01-14
Publication date: 2022-04-19

Abstract

The invention relates to flexible drawing force detection equipment for wheel arch, door plate, spoiler and tail gate, in particular to the technical field of drawing force detection. According to the invention, the tail gate fetal membrane base, the wheel arch fetal membrane base, the door plate fetal membrane base and the spoiler fetal membrane base are arranged, so that the drawing force detection of various products can be realized, meanwhile, the hook on the three-axis robot drives the products to move upwards to apply an acting force, and the recording is carried out when a preset numerical value is reached, so that the integral structure can ensure the difference and the measurement accuracy of the drawing force of different products in the test, the manual operation is saved, and the labor-saving and time-saving requirements are met.

Description

Flexible drawing force detection equipment for wheel arch, door plate, spoiler and tail door

Technical Field

The invention relates to the technical field of drawing force detection, in particular to flexible drawing force detection equipment for wheel trims, door plates, spoilers and tail doors.

Background

The wheel arch, the door plate, the spoiler and the tail door are combined together by welding process or gluing process, and the doghouse (buckle structure) area of the inner plate assembly buckle has the requirement of corresponding drawing force (the drawing force requirement of the wheel arch and the door plate is more than or equal to 200N, the drawing force requirement of the spoiler and the tail door is more than or equal to 300N), and the conventional drawing force detection method comprises the following steps: the hand-held tension meter applies force in the vertical direction to detect the drawing force, has strict requirements on the force and the operation method of operators, and has unstable accuracy, so that a flexible drawing force detection device for wheel brows, door plates, spoilers and tail gates is needed.

Disclosure of Invention

The invention aims to provide flexible drawing force detection equipment for wheel trims, door plates, spoilers and tail doors, which solves the problems of complex operation, time and labor waste, low accuracy and instability when the wheel trims, the door plates, the spoilers and the tail doors are subjected to tension detection.

The above object of the present invention can be achieved by the following technical solutions:

the invention provides a flexible drawing force detection device for a wheel arch, a door plate, a spoiler and a tail gate, which comprises a device frame main body, wherein a base is arranged in the device frame main body, a door plate fetal membrane base is arranged at the top of the base, a plurality of door plate fetal membrane blocks, a plurality of door plate pressing seats and a plurality of door plate hanging rings are arranged at the top of the door plate fetal membrane base, the same door plate fetal membrane body is arranged at the tops of the door plate fetal membrane blocks, the door plate hanging rings are arranged at the tops of the door plate fetal membrane bodies, the door plate pressing blocks are arranged at the tops of the door plate pressing seats, a mounting support is arranged at the top of the door plate fetal membrane base and is arranged in the device frame main body, a three-axis robot is arranged at the tops of the mounting supports, and a hook is arranged in the three-axis robot.

An electric cabinet box is arranged on one side of the equipment frame main body, and a power source can be provided for the electric cabinet box.

The grating is arranged on one side, close to the electric cabinet box, of the front side of the equipment frame main body, the operation button is arranged on the front side of the grating, and a user can conveniently operate the electric cabinet box provided by the invention through the arrangement of the grating and the operation button.

The electric fan is arranged on the top of the grating and is arranged on the front side of the top end of the equipment frame main body, and through the arrangement of the electric fan, the electric fan is convenient for blowing and radiating for operators, so that the comfort of users in use is improved.

The bottom of the equipment frame main body is provided with a plurality of hoofs which are arranged at intervals, and the stability of the equipment frame main body can be effectively improved through the arrangement of the hoofs.

The base both sides all are equipped with a plurality of storage drawers, storage drawer is located inside the equipment frame main part, and even interval sets up between a plurality of storage drawers, through storage drawer's setting, is convenient for store the placing to equipment.

The storage drawer is characterized in that a handle is arranged on the front side of the storage drawer, and the storage drawer is convenient to operate by a user through the arrangement of the handle, so that the convenience of the user in operation is improved.

The top of the base is provided with a spoiler fetal membrane base, the top of the spoiler fetal membrane base is provided with a plurality of spoiler fetal membrane blocks, a plurality of spoiler compression seats and a plurality of spoiler suspension rings, the spoiler fetal membrane blocks are positioned between the spoiler suspension rings and the spoiler compression seats, the spoiler suspension rings are positioned between the spoiler fetal membrane blocks, the spoiler compression blocks are arranged at the tops of the spoiler compression seats, products are limited and fixed through the corresponding spoiler compression blocks, then the hooks on the three-axis robot are matched with the spoiler suspension rings to drive the products to move upwards to apply acting force, the force value is not damaged or suddenly dropped in the continuous force application process, the force is continuously applied until the preset value is reached, the value is recorded, and the difference and the measurement accuracy of different products in the test drawing force can be ensured through the whole structure, the manual operation is saved, and the labor-saving and time-saving requirements are met.

The top of the base is provided with a tail gate fetal membrane base, the top of the tail gate fetal membrane base is provided with a plurality of tail gate fetal membrane blocks, a plurality of tail gate compression seats and a plurality of tail gate hanging rings, the tail gate fetal membrane blocks are positioned between the tail gate hanging rings and the tail gate pressing seat, the tail gate hanging rings are positioned between the tail gate fetal membrane blocks, the top of the tail gate pressing seat is provided with the tail gate pressing block, the product is limited and fixed by the corresponding tail gate compression block, and then the product is driven to move upwards to apply acting force by the matching of the hook on the three-axis robot and the tail gate hanging ring, the force is continuously applied until a preset numerical value is reached, the numerical value is recorded, the integral structure can ensure the difference and the measurement accuracy of different products in the test of the drawing force, the manual operation is saved, and the labor-saving and time-saving requirements are met.

The top of the base is provided with a wheel arch fetal membrane base, the top of the wheel arch fetal membrane base is provided with a plurality of wheel arch fetal membrane blocks, a plurality of wheel arch compressing seats and a plurality of wheel arch hanging rings, the wheel arch fetal membrane blocks are positioned between the wheel arch hanging rings and the wheel arch compressing seat, the wheel arch hanging rings are positioned between the wheel arch fetal membrane blocks, the wheel arch compressing seat is provided with a wheel arch compressing block at the top, the product is limited and fixed by the corresponding wheel arch compression block, and then the hook on the three-axis robot is matched with the wheel arch hanging ring to drive the product to move upwards to apply acting force, the force is continuously applied until a preset numerical value is reached, the numerical value is recorded, the integral structure can ensure the difference and the measurement accuracy of different products in the test of the drawing force, the manual operation is saved, and the labor-saving and time-saving requirements are met.

The flexible drawing force detection equipment for the wheel arch, the door plate, the spoiler and the tail door has the characteristics and advantages that:

according to the invention, the tail gate fetal membrane base, the wheel arch fetal membrane base, the door plate fetal membrane base and the spoiler fetal membrane base are arranged, so that the drawing force detection of various products can be realized, meanwhile, the hook on the three-axis robot drives the products to move upwards to apply an acting force, the products are not damaged or the force value does not drop suddenly in the continuous stress process, the force is continuously applied until a preset value is reached, the value is recorded, the integral structure can ensure the difference and the measurement accuracy of the drawing force of different products, the manual operation is saved, and the labor and time saving requirements are met.

Drawings

FIG. 1 is a front view of the overall construction of the present invention;

FIG. 2 is a front view of a door panel membrane base of the present invention;

FIG. 3 is a front view of the wheel arch fetal membrane base of the present invention;

FIG. 4 is a front view of the spoiler fetal membrane base of the present invention;

FIG. 5 is a front view of the tail gate fetal membrane base of the present invention.

In the figure: 1. an apparatus frame body; 2. a base; 3. a door panel fetal membrane base; 4. a door panel membrane block; 5. a door plate pressing seat; 6. a door panel hanging ring; 7. a door panel membrane body; 8. a door panel compression block; 9. mounting a bracket; 10. a three-axis robot; 11. hooking; 12. an electric cabinet box; 13. a grating; 14. an operation button; 15. an electric fan; 16. a hoof; 17. a storage drawer; 18. a spoiler fetal membrane base; 19. a spoiler tire block; 20. a spoiler compression seat; 21. a spoiler suspension loop; 22. a spoiler fetal membrane body; 23. a spoiler compression block; 24. a tail gate fetal membrane base; 25. a tail gate tire membrane block; 26. a tail gate compression seat; 27. a tail gate suspension loop; 28. a tail gate fetal membrane body; 29. a tail gate compression block; 30. a wheel arch fetal membrane base; 31. a wheel arch fetal membrane block; 32. a wheel arch pressing seat; 33. a wheel arch hanging ring; 34. a wheel arch fetal membrane body; 35. wheel arch compact heap.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

As shown in fig. 1 to 5, the present invention provides a flexible pullout force detection device for a wheel arch, a door panel, a spoiler, and a tail gate, which includes a device frame body 1, a base 2 is arranged in the equipment frame body 1, a door plate fetal membrane base 3 is arranged at the top of the base 2, the top of the door plate fetal membrane base 3 is provided with a plurality of door plate fetal membrane blocks 4, a plurality of door plate pressing bases 5 and a plurality of door plate hanging rings 6, the top of the door plate fetal membrane blocks 4 is provided with the same door plate fetal membrane body 7, the door plate hanging rings 6 are all arranged on the top of the door plate fetal membrane body 7, the top of the door panel pressing seat 5 is provided with a door panel pressing block 8, the top of the door panel fetal membrane base 3 is provided with a mounting bracket 9, inside equipment frame main part 1 was located to installing support 9, installing support 9 top is equipped with three-axis robot 10, three-axis robot 10 is inside to be equipped with couple 11.

An electric cabinet box 12 is arranged on one side of the equipment frame main body 1, and a power source can be provided for the invention through the arrangement of the electric cabinet box 12.

The grating 13 is arranged on one side, close to the electric cabinet box 12, of the front side of the equipment frame main body 1, the operating button 14 is arranged on the front side of the grating 13, and a user can conveniently operate the electric cabinet frame disclosed by the invention through the arrangement of the grating 13 and the operating button 14.

The electric fan 15 is arranged on the top of the grating 13, the electric fan 15 is arranged on the front side of the top end of the equipment frame main body 1, and due to the arrangement of the electric fan 15, air blowing and heat dissipation are facilitated for operators, so that the comfort of users in use is improved.

The bottom of the equipment frame body 1 is provided with a plurality of hooves 16, the plurality of hooves 16 are arranged at intervals, and the stability of the equipment frame can be effectively improved through the arrangement of the hooves 16.

2 both sides of base all are equipped with a plurality of storage drawers 17, storage drawers 17 are located 1 insides of equipment frame main part, and even interval sets up between a plurality of storage drawers 17, through storage drawers 17's setting, is convenient for store equipment and place.

Storage drawer 17 front side is equipped with the handle, through the setting of handle, and the user of being convenient for operates storage drawer 17, the convenience when having improved the user operation.

The implementation scenario is specifically as follows: through placing the product on base 2, then carry out spacing fixed to the product through door plant compact heap 8 that corresponds, later through couple 11 and the cooperation of door plant link 6 on the triaxial robot 10, drive the product upward movement and apply the effort, do not take place destruction or the power value does not appear dropping of abruptness at continuation atress in-process, then the power continuity is exerted, until reaching predetermined numerical value, record numerical value, and can be through writing the drawing force procedure, realize the application and the direction of different drawing forces, adapt to the detection of a plurality of drawing force requirements and a plurality of directions, and then make overall structure can ensure different products at the difference and the measurement accuracy of test drawing force, manual operation has been saved, labor saving and time saving requirements have been reached.

As shown in fig. 4, the invention provides a flexible pulling force detection device for a wheel arch, a door panel, a spoiler and a tail gate, wherein a spoiler fetal membrane base 18 is arranged at the top of a base 2, a plurality of spoiler fetal membrane blocks 19, a plurality of spoiler compression seats 20 and a plurality of spoiler suspension rings 21 are arranged at the top of the spoiler fetal membrane base 18, the same spoiler fetal membrane body 22 is arranged at the top of the spoiler fetal membrane blocks 19, the spoiler suspension rings 21 are all arranged at the top of the spoiler fetal membrane body 22, the spoiler compression seats 20 are provided with the spoiler compression blocks 23 at the top, products are limited and fixed by the corresponding spoiler compression blocks 23, then the products are driven to move upwards to exert an acting force by matching a hook 11 on a three-axis robot 10 with the spoiler suspension rings 21, the force is exerted constantly without being damaged or suddenly dropping the force value, the whole structure can ensure the difference and the measurement accuracy of different products in the test of the drawing force until reaching the preset value, thereby saving the manual operation and meeting the requirements of labor saving and time saving.

As shown in fig. 5, the invention provides a flexible pulling force detection device for a wheel arch, a door panel, a spoiler and a tail gate, wherein a tail gate fetal membrane base 24 is arranged on the top of a base 2, a plurality of tail gate fetal membrane blocks 25, a plurality of tail gate compression seats 26 and a plurality of tail gate hanging rings 27 are arranged on the top of the tail gate fetal membrane base 24, the same tail gate fetal membrane body 28 is arranged on the top of the tail gate fetal membrane blocks 25, the tail gate hanging rings 27 are all arranged on the top of the tail gate fetal membrane body 28, the tail gate compression blocks 29 are arranged on the top of the tail gate compression seats 26, a product is limited and fixed through the corresponding tail gate compression blocks 29, then a hook 11 on a three-axis robot 10 is matched with the tail gate hanging rings 27 to drive the product to move upwards to apply an acting force, the force is not damaged in a continuous force application process or the force value does not drop suddenly, the force is continuously applied until a predetermined value is reached, the numerical value is recorded, the difference and the measurement accuracy of different products in the process of testing the drawing force can be ensured by the integral structure, the manual operation is saved, and the labor-saving and time-saving requirements are met.

As shown in fig. 1 to 5, the present invention provides a flexible pulling force detection device for a wheel arch, a door panel, a spoiler, and a tailgate, wherein a wheel arch fetal membrane base 30 is disposed on the top of a base 2, a plurality of wheel arch fetal membrane blocks 31, a plurality of wheel arch compressing seats 32, and a plurality of wheel arch hanging rings 33 are disposed on the top of the wheel arch fetal membrane base 30, the same wheel arch fetal membrane body 34 is disposed on the top of the plurality of wheel arch fetal membrane blocks 31, the plurality of wheel arch hanging rings 33 are disposed on the top of the wheel arch fetal membrane body 34, a wheel arch compressing block 35 is disposed on the top of the wheel arch compressing seat 32, a product is limited and fixed by the corresponding wheel arch compressing block 35, and then a force is applied by the hook 11 on a three-axis robot 10 in cooperation with the wheel arch hanging rings 33 to drive the product to move upward, and the product is not damaged or dropped suddenly during a continuous force application, and is applied continuously until a predetermined value is reached, the numerical value is recorded, the difference and the measurement accuracy of different products in the process of testing the drawing force can be ensured by the integral structure, the manual operation is saved, and the labor-saving and time-saving requirements are met.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides a wheel arch, door plant, spoiler, the flexible drawing force check out test set of tail-gate which characterized in that: comprises an equipment frame main body (1), a base (2) is arranged in the equipment frame main body (1), the top of the base (2) is provided with a door plate fetal membrane base (3), the top of the door plate fetal membrane base (3) is provided with a plurality of door plate fetal membrane blocks (4), a plurality of door plate pressing bases (5) and a plurality of door plate hanging rings (6), the top of the door plate fetal membrane blocks (4) is provided with the same door plate fetal membrane body (7), the door plate hanging rings (6) are all arranged at the top of the door plate fetal membrane body (7), the top of the door panel pressing seat (5) is provided with a door panel pressing block (8), the top of the door panel fetal membrane base (3) is provided with a mounting bracket (9), inside equipment frame main part (1) was located in installing support (9), installing support (9) top is equipped with triaxial robot (10), triaxial robot (10) inside is equipped with couple (11).

2. The apparatus for detecting the flexible pulling force of a wheel arch, a door plate, a spoiler or a tailgate according to claim 1, wherein: an electric cabinet box (12) is arranged on one side of the equipment frame main body (1).

3. The apparatus for detecting the flexible pulling force of wheel arch, door plank, spoiler, tail gate according to claim 2, wherein: one side that equipment frame main part (1) front side is close to electric cabinet case (12) is equipped with grating (13), grating (13) front side is equipped with operating button (14).

4. The apparatus for detecting the flexible pulling force of wheel arch, door plank, spoiler, tail gate according to claim 3, wherein: an electric fan (15) is arranged at the top of the grating (13), and the electric fan (15) is arranged on the front side of the top end of the equipment frame main body (1).

5. The apparatus for detecting the flexible pulling force of a wheel arch, a door plate, a spoiler or a tailgate according to claim 1, wherein: the bottom of the equipment frame main body (1) is provided with a plurality of hoofs (16), and the plurality of hoofs (16) are arranged at intervals.

6. The apparatus for detecting the flexible pulling force of a wheel arch, a door plate, a spoiler or a tailgate according to claim 1, wherein: base (2) both sides all are equipped with a plurality of storage drawers (17), inside storage drawers (17) were located equipment frame main part (1), even interval set up between a plurality of storage drawers (17).

7. The apparatus for detecting the flexible pulling force of wheel arch, door plank, spoiler, tail gate according to claim 6, wherein: the front side of the storage drawer (17) is provided with a handle.

8. The apparatus for detecting the flexible pulling force of a wheel arch, a door plate, a spoiler or a tailgate according to claim 1, wherein: the spoiler tire membrane comprises a base (2), a spoiler tire membrane base (18) and spoilers, wherein the spoiler tire membrane base (18) is provided with a plurality of spoiler tire membrane blocks (19), a plurality of spoiler clamp seats (20) and a plurality of spoiler suspension rings (21) at the top, the spoiler tire membrane bodies (22) are arranged at the tops of the spoiler tire membrane blocks (19), the spoiler tire membrane bodies (22) are arranged at the tops of the spoiler suspension rings (21), and the spoiler clamp seats (20) are provided with spoiler clamp blocks (23) at the tops.

9. The apparatus for detecting the flexible pulling force of a wheel arch, a door plate, a spoiler or a tailgate according to claim 1, wherein: the novel tail gate tire film forming machine is characterized in that a tail gate tire film base (24) is arranged at the top of the base (2), a plurality of tail gate tire film blocks (25), a plurality of tail gate compression seats (26) and a plurality of tail gate hanging rings (27) are arranged at the top of the tail gate tire film base (24), the top of each tail gate tire film block (25) is provided with the same tail gate tire film body (28), the top of each tail gate tire film body (28) is provided with the corresponding tail gate hanging ring (27), and the top of each tail gate compression seat (26) is provided with the corresponding tail gate compression block (29).

10. The apparatus for detecting the flexible pulling force of a wheel arch, a door plate, a spoiler or a tailgate according to claim 1, wherein: base (2) top is equipped with wheel arch fetal membrane base (30), wheel arch fetal membrane base (30) top is equipped with a plurality of wheel arch fetal membrane pieces (31), a plurality of wheel arch compact seat (32) and a plurality of wheel arch link (33), and a plurality of wheel arch fetal membrane piece (31) tops are equipped with same wheel arch fetal membrane body (34), and wheel arch fetal membrane body (34) top is all located in a plurality of wheel arch link (33), wheel arch compact seat (32) top is equipped with wheel arch compact block (35).