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CN-224216597-U - Bilateral flat-plate fixed type inclined 2.5-dimensional X-RAY detector

CN224216597UCN 224216597 UCN224216597 UCN 224216597UCN-224216597-U

Abstract

The utility model discloses a bilateral flat-plate fixed type inclined 2.5-dimensional X-RAY detector which comprises an objective table device, an X-RAY receiving device arranged above the objective table device and an X-RAY transmitting device arranged below the objective table device, wherein the X-RAY receiving device comprises a mounting rack and mounting cross beams connected between two ends of the mounting rack, two ends of one side of each mounting cross beam are respectively connected with a first fixing plate, and one side of each first fixing plate is also provided with an X-RAY receiving mechanism. The utility model adopts a double-inclined flat plate fixed structure, simplifies the whole framework into a simple structure by simplifying redundant components, not only effectively reduces the space occupation rate of equipment, but also ensures compact and exquisite overall layout, and brings more flexible and efficient solutions for site planning and equipment deployment in industrial production.

Inventors

  • WEN QUAN
  • WANG EYU
  • HU YI
  • Gan Chuhao

Assignees

  • 深圳市卓茂科技有限公司

Dates

Publication Date
20260508
Application Date
20250527

Claims (9)

  1. 1. The bilateral flat-plate fixed type inclined 2.5-dimensional X-RAY detector is characterized by comprising an objective table device, an X-RAY receiving device arranged above the objective table device and an X-RAY transmitting device arranged below the objective table device, wherein the X-RAY receiving device comprises a mounting rack and mounting crossbeams connected between two ends of the mounting rack, one side of each mounting crossbeam is respectively connected with a first fixing plate, one side of each first fixing plate is also respectively provided with an X-RAY receiving mechanism, the middle of one side of each mounting crossbeam is connected with a second fixing plate, one side of each second fixing plate is also provided with a visual positioning mechanism, and one end of each X-RAY receiving mechanism for receiving signals is obliquely downwards arranged towards the direction of the objective table device.
  2. 2. The dual sided flat panel stationary tilt 2.5-dimensional X-RAY detector of claim 1, wherein the X-RAY receiving mechanism comprises a first adjustment plate disposed obliquely to one side of the first fixed plate, a second adjustment plate disposed to one side of the first adjustment plate, a mounting riser disposed perpendicular to the second adjustment plate and connected to the second adjustment plate, and an X-RAY receiver mounted to one side of the mounting riser.
  3. 3. The dual sided flat panel stationary tilt 2.5-dimensional X-RAY detector of claim 2, wherein the X-RAY receiver comprises a receiving mount mounted to one side of a mounting riser, and a flat panel detector mounted to the receiving mount.
  4. 4. The dual-sided flat panel stationary tilt 2.5-dimensional X-RAY detector of claim 3, wherein the receiving mounting base further comprises a heat sink mounted at both ends thereof, the heat sink comprising a heat sink base and a plurality of heat sink fins arranged at one side of the heat sink base in parallel and spaced apart relation.
  5. 5. The double-sided flat panel stationary tilt 2.5-dimensional X-RAY detector of claim 4, wherein the other side of the mounting riser is further connected with a stiffener.
  6. 6. The bilateral flat-plate fixed type inclination 2.5-dimensional X-RAY detector according to claim 1, wherein the visual positioning mechanism comprises a connecting transverse plate connected to one side of a second fixed plate, a connecting vertical plate connected to one end of the bottom of the connecting transverse plate, a camera adjusting seat arranged on one side of the connecting vertical plate and an industrial camera arranged on one side of the camera adjusting seat, the bottom of the connecting vertical plate is further connected with a light source connecting seat, one side of the light source connecting seat is further connected with a light source connecting plate, the bottom of the light source connecting plate is further connected with a light source mounting plate, the light source mounting plate is arranged below the industrial camera, a first through hole is further formed in the position, corresponding to the industrial camera, of the top of the light source mounting plate, and an annular light source is further arranged at the bottom of the light source mounting plate.
  7. 7. The bilateral flat-plate fixed type inclination 2.5-dimensional X-RAY detector according to claim 1, wherein the objective table device comprises a mounting bottom plate, Y-axis translation plates and bearing frames, wherein two ends of the top of the mounting bottom plate are respectively provided with a Y-axis sliding rail, one side of each Y-axis sliding rail is correspondingly provided with a Y-axis translation mechanism, two ends of the bottom of the Y-axis translation plates are respectively and slidably arranged on the Y-axis sliding rail, two ends of the bottom of the Y-axis translation plates are respectively and correspondingly connected with the Y-axis translation mechanism, a second through hole is formed in the middle of the top of the Y-axis translation plates, two sides of the top of the Y-axis translation plates are respectively provided with an X-axis sliding rail, one side of each X-axis sliding rail is correspondingly provided with an X-axis translation mechanism, the bearing frames are slidably arranged on the X-axis sliding rails and are connected with the X-axis translation mechanism, and a third through hole is further formed at the position corresponding to the top of each bearing frame and the second through hole.
  8. 8. The dual sided flat panel stationary tilt 2.5-dimensional X-RAY detector of claim 1, wherein the X-RAY emitting device comprises an emitting mount, a Z-axis lift mechanism mounted on the emitting mount, a Z-axis lift mount coupled to the Z-axis lift mechanism, and an X-RAY emitter mounted on the Z-axis lift mount.
  9. 9. The bilateral flat-plate fixed type inclination 2.5-dimensional X-RAY detector according to claim 8 is characterized in that the emission fixing frame comprises an emission base, an emission mounting plate and an emission mounting seat, wherein two ends of the top of the emission base are respectively connected with a limiting seat, limiting guide grooves in L-shaped structures are respectively formed in opposite sides of the two limiting seats, the emission mounting plate is arranged on the emission base, two ends of the emission mounting plate are respectively inserted into the limiting guide grooves, a first mounting block is further mounted at one end of the top of the emission base, a first fine adjustment screw connected with the emission mounting plate is further mounted on the first mounting block, a second mounting block is further connected to one end, far away from the first fine adjustment screw, of the emission mounting plate, a second fine adjustment screw connected with the emission mounting seat is further mounted on the second mounting block, and the Z-axis lifting mechanism is mounted on the emission mounting seat.

Description

Bilateral flat-plate fixed type inclined 2.5-dimensional X-RAY detector Technical Field The utility model relates to the technical field of X-RAY detection, in particular to a bilateral flat-plate fixed type inclined 2.5-dimensional X-RAY detector. Background In the electronic manufacturing industry, X-RAY detection techniques are widely used for non-destructive inspection of internal structures and defects of electronic products. Conventional X-RAY inspection apparatuses generally employ a single-plate rotation type structure, and acquire image data of different angles by rotating a plate through 360 °. However, the rotating mechanism makes the whole equipment have larger volume and more occupied space, is difficult to adapt to the requirements of modern compact production lines, has higher manufacturing cost and increases the equipment purchase and use cost of enterprises. Disclosure of utility model The utility model aims to provide a bilateral flat-plate fixed type inclined 2.5-dimensional X-RAY detector, which adopts a structure of a dual-inclined flat-plate fixed type, simplifies the whole framework by simplifying redundant components, effectively reduces the space occupation rate of equipment, ensures compact and exquisite whole layout, and brings more flexible and efficient solutions for site planning and equipment deployment in industrial production. In order to achieve the above purpose, the following technical scheme is adopted: The bilateral flat-plate fixed type inclination 2.5-dimensional X-RAY detector comprises an objective table device, an X-RAY receiving device arranged above the objective table device and an X-RAY transmitting device arranged below the objective table device, wherein the X-RAY receiving device comprises a mounting rack and mounting crossbeams connected between two ends of the mounting rack, one side of each mounting crossbeam is respectively connected with a first fixing plate, one side of each first fixing plate is also respectively provided with an X-RAY receiving mechanism, the middle part of one side of each mounting crossbeam is connected with a second fixing plate, one side of each second fixing plate is also provided with a visual positioning mechanism, and one ends of the X-RAY receiving mechanisms for receiving signals are obliquely downwards arranged towards the direction of the objective table device. Further, the x-ray receiving mechanism comprises a first adjusting plate obliquely arranged on one side of the first fixing plate, a second adjusting plate arranged on one side of the first adjusting plate, a mounting vertical plate perpendicular to the second adjusting plate and connected with the second adjusting plate, and an x-ray receiver arranged on one side of the mounting vertical plate. Further, the x-ray receiver comprises a receiving mounting seat arranged on one side of the mounting vertical plate, and a flat panel detector arranged on the receiving mounting seat. Furthermore, the two ends of the receiving and mounting seat are also provided with radiators, and the radiator comprises a radiating seat and a plurality of radiating fins which are arranged on one side of the radiating seat in parallel at intervals. Further, the other side of the installation vertical plate is also connected with a reinforcing rib. Further, the visual positioning mechanism comprises a connecting transverse plate connected to one side of the second fixing plate, a connecting vertical plate connected to one end of the bottom of the connecting transverse plate, a camera adjusting seat arranged on one side of the connecting vertical plate, and an industrial camera arranged on one side of the camera adjusting seat, wherein the bottom of the connecting vertical plate is also connected with a light source connecting seat, one side of the light source connecting seat is also connected with a light source connecting plate, the bottom of the light source connecting plate is also connected with a light source mounting plate, the light source mounting plate is arranged below the industrial camera, a first through hole is formed in the position, corresponding to the industrial camera, of the top of the light source mounting plate, and an annular light source is further arranged at the bottom of the light source mounting plate. The object stage device comprises a mounting bottom plate, Y-axis translation plates and bearing frames, wherein two ends of the top of the mounting bottom plate are respectively provided with a Y-axis sliding rail, one side of each Y-axis sliding rail is correspondingly provided with a Y-axis translation mechanism, two ends of the bottom of each Y-axis translation plate are respectively and slidably arranged on one Y-axis sliding rail, two ends of the bottom of each Y-axis translation plate are respectively and correspondingly connected with one Y-axis translation mechanism, a second through hole is formed in the middle of the top of each Y-axis translation plate