CN219656763U - Instrument board beam assembly examines utensil - Google Patents

Abstract

The utility model relates to the technical field of automobile part detection, in particular to a gauge for an instrument board beam assembly, which comprises a detection box; support rods are vertically arranged on two sides of the interior of the detection box; clamping driving mechanisms are arranged at two ends of the detection box, and each clamping driving mechanism comprises a spline shaft, a spline sleeve, a clamping plate, a linear driving mechanism, a power assembly A, a swivel and a connecting rod; the inside top of detecting the case is fixed with rectangular frame, and rectangular frame's inboard is provided with the mount pad, installs the power component B that is used for driving the mount pad along controlling the direction and removes on the rectangular frame to the power component C that is used for driving the mount pad along fore-and-aft direction removal is still installed on the rectangular frame, and X light detector and detection lens are installed to the bottom of mount pad. The X-ray detector and the detection lens arranged in the utility model can move in two dimensions and drive the instrument board beam assembly to rotate in a matched manner, thereby expanding the detection range and avoiding the occurrence of detection dead angles.

Description

Instrument board beam assembly examines utensil

Technical Field

The utility model relates to the technical field of automobile part detection, in particular to a gauge for an instrument board beam assembly.

Background

The automobile instrument board beam (cross car) is used for supporting equipment and decoration required by human-computer interface control, and forms a cockpit safety system together with other safety parts, so that structural parts for protecting drivers and passengers in an automobile are provided, the strength and the rigidity of the automobile instrument board beam are primary indexes of performance, along with the development of society, particularly the pursuit and the furth of high-quality, personalized, fashionable, convenient and rapid life style by people in the new century, the ecological ideas and sustainable development are deep and intensive, more and higher requirements are provided for the research of material science and the processing and forming technology of materials, the updating of materials are accelerated, the existing uneconomic materials are replaced by novel energy-saving, environment-friendly, light-weight and high-performance materials, and the welding precision is required to be measured after the welding of the instrument beam assembly is completed.

Chinese patent with issued publication number CN218329841U discloses a gauge for detecting welding accuracy of an instrument panel beam assembly. The technical proposal comprises: the cabinet body, the rear side at cabinet body top is equipped with two sets of horizontal sliders, and the inboard fixed mounting of horizontal sliders has the pick-up plate, and fixed mounting has pressure sensor on the pick-up plate, and the inside rear side fixed mounting of cabinet body has two sets of horizontal motors, and the output fixed mounting of horizontal motor has horizontal threaded rod.

The above-disclosed patents still suffer from the following drawbacks: the detection range of the two groups of installed X-ray detectors has dead angles, and when the instrument board beam assembly is placed in the cabinet body, the upper ends of the instrument board beam assembly can be detected, so that the detection is incomplete.

Disclosure of Invention

The utility model aims at solving the technical problems in the background technology and provides an instrument board beam assembly gauge.

The technical scheme of the utility model is as follows: a gauge for a beam assembly of an instrument panel comprises a detection box; the detection box is rotatably provided with a box door; the two sides of the inside of the detection box are vertically provided with supporting rods, and the top ends of the two supporting rods are fixed with semicircular rings; the two ends of the detection box are provided with clamping driving mechanisms, each clamping driving mechanism comprises a spline shaft, a spline sleeve, a clamping plate, a linear driving mechanism, a power assembly A, a swivel and a connecting rod, the spline sleeve is rotatably arranged on the detection box, the spline shaft is slidably arranged on the spline sleeve, the inner end of the spline shaft is connected with the clamping plate, the swivel is rotatably arranged at the outer end of the spline shaft, the linear driving mechanism is arranged on the detection box, an output shaft of the linear driving mechanism is fixed with the swivel through the connecting rod, the power assembly A comprises a servo motor A, a gear and a toothed ring, the servo motor A is arranged on the detection box, the gear is fixed on the output shaft of the servo motor A, and the toothed ring is fixed on the periphery of the spline sleeve and is meshed and connected with the gear; the inside top of detecting the case is fixed with rectangular frame, and rectangular frame's inboard is provided with the mount pad, installs the power component B that is used for driving the mount pad along controlling the direction and removes on the rectangular frame to the power component C that is used for driving the mount pad along fore-and-aft direction removal is still installed on the rectangular frame, and X light detector and detection lens are installed to the bottom of mount pad.

Preferably, sliding holes are formed in the periphery of the rectangular frame, movable sliding blocks A are slidably arranged in the two sliding holes on the left side and the right side, movable sliding blocks B are slidably arranged in the two sliding holes on the front side and the rear side, the power assembly B comprises a servo motor B and a threaded rod A, the threaded rod A is rotatably arranged between the two movable sliding blocks A, and the servo motor B is arranged on the movable sliding block A on one side and the output shaft of the servo motor B is connected with the threaded rod A; the power assembly C comprises a servo motor C and a threaded rod B, the threaded rod B is rotatably arranged between the two movable sliding blocks B, the servo motor C is arranged on the movable sliding block B on one side, and an output shaft of the servo motor C is connected with the threaded rod B.

Preferably, rubber pads are adhered to the clamping plates at two sides.

Preferably, the bottom end of the detection box is fixed with a plurality of supporting legs, and self-locking universal wheels are arranged at the bottom ends of the supporting legs.

Preferably, the door is made of transparent glass.

Compared with the prior art, the technical scheme provided by the utility model has the following beneficial technical effects: when detecting instrument board crossbeam assembly, open the chamber door, place the both ends of instrument board crossbeam assembly respectively on the semicircle ring of both sides, then start the straight line actuating mechanism work of both sides simultaneously, the grip block of drive both sides is close to each other, thereby realize the centre gripping to instrument board crossbeam assembly fixed, X light detector and the detection lens that set up can carry out quality testing to instrument board crossbeam assembly, can drive the mount pad two-dimensional removal under power component A and power component B's cooperation work, and then drive the removal of X light detector and detection lens, can adjust the testing position of X light detector and detection lens, can drive the grip block through the power component that sets up and rotate, and then drive the rotation of instrument board crossbeam assembly, the detection scope has been enlarged, avoid appearing detecting the dead angle.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic structural view of a rectangular frame according to the present utility model.

FIG. 3 is a schematic diagram of a semicircular ring according to the present utility model.

Reference numerals: 1. a detection box; 101. a door; 2. a rectangular frame; 201. a slide hole; 3. a dashboard cross beam assembly; 4. a spline shaft; 5. a linear driving mechanism; 6. a spline housing; 7. a clamping plate; 81. a servo motor A; 82. a gear; 83. a toothed ring; 9. a rubber pad; 10. a swivel; 11. a connecting rod; 12. a semicircular ring; 13. a support rod; 14. a support leg; 15. self-locking universal wheels; 16. a mounting base; 17. an X-ray detector; 18. detecting a lens; 19. moving the sliding block A; 20. a moving slide B; 211. a servo motor B; 212. a threaded rod A; 221. a servo motor C; 222. and a threaded rod B.

Detailed Description

As shown in fig. 1-3, the instrument board beam assembly gauge provided by the utility model comprises a detection box 1; the detection box 1 is rotatably provided with a box door 101, and the box door 101 is made of transparent glass; the bottom end of the detection box 1 is fixed with a plurality of supporting legs 14, and the bottom ends of the supporting legs 14 are provided with self-locking universal wheels 15; the two sides of the inside of the detection box 1 are vertically provided with supporting rods 13, and the top ends of the two supporting rods 13 are respectively fixed with a semicircular ring 12; the two ends of the detection box 1 are provided with clamping driving mechanisms, each clamping driving mechanism comprises a spline shaft 4, a spline sleeve 6, clamping plates 7, a linear driving mechanism 5, a power component A, a rotating ring 10 and a connecting rod 11, the spline sleeve 6 is rotatably arranged on the detection box 1, the spline shafts 4 are slidably arranged on the spline sleeves 6, the inner ends of the spline shafts 4 are connected with the clamping plates 7, rubber pads 9 are adhered to the clamping plates 7 on two sides, the rotating ring 10 is rotatably arranged at the outer ends of the spline shafts 4, the linear driving mechanism 5 is arranged on the detection box 1, an output shaft of the linear driving mechanism 5 is fixed with the rotating ring 10 through the connecting rod 11, the power component A comprises a servo motor A81, a gear 82 and a toothed ring 83, the servo motor A81 is arranged on the detection box 1, the gear 82 is fixed on the output shaft of the servo motor A81, and the toothed ring 83 is fixed on the periphery of the spline sleeve 6 and is in meshed connection with the gear 82; the inner top end of the detection box 1 is fixedly provided with a rectangular frame 2, the inner side of the rectangular frame 2 is provided with an installation seat 16, the rectangular frame 2 is provided with a power component B for driving the installation seat 16 to move along the left-right direction, the rectangular frame 2 is also provided with a power component C for driving the installation seat 16 to move along the front-back direction, the periphery of the rectangular frame 2 is provided with slide holes 201, the slide holes 201 positioned at the left side and the right side are respectively provided with a movable slide block A19 in a sliding manner, the slide holes 201 positioned at the front side and the rear side are respectively provided with a movable slide block B20 in a sliding manner, the power component B comprises a servo motor B211 and a threaded rod A212, the threaded rod A212 is rotatably arranged between the two movable slide blocks A19, the servo motor B211 is arranged on the movable slide block A19 at one side, and the output shaft of the servo motor B211 is connected with the threaded rod A212; the power assembly C comprises a servo motor C221 and a threaded rod B222, the threaded rod B222 is rotatably arranged between the two movable sliding blocks B20, the servo motor C221 is arranged on the movable sliding block B20 on one side, and an output shaft of the servo motor C221 is connected with the threaded rod B222; an X-ray detector 17 and a detection lens 18 are mounted at the bottom end of the mount 16.

The working principle of the utility model is as follows: when detecting instrument board beam assembly 3, open chamber door 101, place the both ends of instrument board beam assembly 3 respectively on semicircle ring 12 of both sides, then start the work of the sharp actuating mechanism 5 of both sides simultaneously, the grip block 7 of drive both sides is close to realize the centre gripping fixed to instrument board beam assembly 3, X light detector 17 and the detection lens 18 of setting can carry out quality testing to instrument board beam assembly 3, can drive mount pad 16 two-dimensional removal under power component A and power component B's cooperation work, and then drive X light detector 17 and detection lens 18's removal, can adjust the testing position of X light detector 17 and detection lens 18 from this, can drive grip block 7 through the power component of setting and rotate, and then drive instrument board beam assembly 3's rotation, the detection range has been enlarged, avoid appearing detecting the dead angle.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited thereto, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims (5)

1. The instrument board beam assembly detection tool is characterized by comprising a detection box (1); a box door (101) is rotatably arranged on the detection box (1); the two sides of the inside of the detection box (1) are vertically provided with supporting rods (13), and the top ends of the two supporting rods (13) are respectively fixed with a semicircular ring (12); the two ends of the detection box (1) are provided with clamping driving mechanisms, each clamping driving mechanism comprises a spline shaft (4), a spline sleeve (6), a clamping plate (7), a linear driving mechanism (5), a power assembly A, a rotating ring (10) and a connecting rod (11), the spline sleeve (6) is rotatably arranged on the detection box (1), the spline shaft (4) is slidably arranged on the spline sleeve (6), the inner end of the spline shaft (4) is connected with the clamping plate (7), the rotating ring (10) is rotatably arranged at the outer end of the spline shaft (4), the linear driving mechanism (5) is arranged on the detection box (1), an output shaft of the linear driving mechanism (5) is fixed with the rotating ring (10) through the connecting rod (11), the power assembly A comprises a servo motor A (81), a gear (82) and a toothed ring (83), the servo motor A (81) is arranged on the detection box (1), the gear (82) is fixed on the output shaft of the servo motor A (81), and the toothed ring (83) is fixed on the periphery of the spline sleeve (6) and meshed with the gear (82). The detection box comprises a detection box body and is characterized in that a rectangular frame (2) is fixed at the top end of the inside of the detection box body (1), an installation seat (16) is arranged on the inner side of the rectangular frame body (2), a power component B for driving the installation seat (16) to move in the left-right direction is installed on the rectangular frame body (2), a power component C for driving the installation seat (16) to move in the front-back direction is also installed on the rectangular frame body (2), and an X-ray detector (17) and a detection lens (18) are installed at the bottom end of the installation seat (16).

2. The instrument board beam assembly detection tool according to claim 1, wherein sliding holes (201) are formed in the periphery of the rectangular frame (2), movable sliding blocks A (19) are slidably arranged in the two sliding holes (201) on the left side and the right side, movable sliding blocks B (20) are slidably arranged in the two sliding holes (201) on the front side and the rear side, the power assembly B comprises a servo motor B (211) and a threaded rod A (212), the threaded rod A (212) is rotatably arranged between the two movable sliding blocks A (19), the servo motor B (211) is arranged on the movable sliding block A (19) on one side, and an output shaft of the servo motor B is connected with the threaded rod A (212); the power assembly C comprises a servo motor C (221) and a threaded rod B (222), the threaded rod B (222) is rotatably arranged between the two movable sliding blocks B (20), the servo motor C (221) is arranged on one movable sliding block B (20) and the output shaft of the servo motor C is connected with the threaded rod B (222).

3. The instrument board beam assembly gauge according to claim 1, wherein rubber pads (9) are adhered to the clamping plates (7) on both sides.

4. The instrument board beam assembly gauge according to claim 1, wherein a plurality of supporting legs (14) are fixed at the bottom end of the detection box (1), and self-locking universal wheels (15) are arranged at the bottom ends of the supporting legs (14).

5. The instrument panel beam assembly gauge of claim 1, wherein the door (101) is made of transparent glass.