阅读说明：本技术 一种全方位x光检测机 (All-round X-ray detection machine ) 是由 黄杉杉 于 2020-12-22 设计创作，主要内容包括：本发明公开了一种全方位X光检测机,包括检测平台,调整模块,扫描装置和外部连接件,平台外壳固定安装在底部支座上,平台左齿条和平台右齿条滑动安装在底部支座上,调整外壳固定安装在中间承重块上,扫描外壳固定安装在调整中齿条上,通过检测平台检测需要检测的东西,调整模块根据现场使用需求和制度进行调整,调整后扫描电机运转转动传递给扫描斜齿,通过扫描斜齿传动力带动其他传动件最终传递给扫描齿条进行工作,扫描齿条其固定的结构件随着调整模块工作的配合进行物体的整体或者局部扫描工作,本发明可使用简单可在外部连接件上外接摄像头和传感器等配合工作增加使用范围,也可适用于机场火车站等人流集中的场所。(The invention discloses an omnibearing X-ray detector, comprising a detection platform, an adjusting module, a scanning device and an external connecting piece, wherein a platform shell is fixedly arranged on a bottom support, a platform left rack and a platform right rack are slidably arranged on the bottom support, the adjusting shell is fixedly arranged on a middle bearing block, the scanning shell is fixedly arranged on an adjusting middle rack, objects needing to be detected are detected through the detection platform, the adjusting module is adjusted according to the requirements and the system of field use, a scanning motor rotates and transmits the rotation to scanning helical teeth after being adjusted, other transmission parts are driven by the transmission force of the scanning helical teeth to finally transmit the rotation to the scanning rack for working, the structural part fixed by the scanning rack carries out the integral or local scanning work of the objects along with the cooperation of the operation of the adjusting module, the invention can simply increase the application range by the cooperation of an external camera, a sensor and the, and the method is also suitable for places with concentrated pedestrian flows, such as airport railway stations and the like.)

1. The utility model provides an all-round X-ray detector, includes testing platform (1), adjusting module (2), scanning device (3) and external connecting piece (4), its characterized in that:

the detection platform (1) comprises: the platform comprises a platform shell (101), a platform left rack (112) and a platform right rack (113);

the adjusting module (2) comprises: an adjusting shell (201) and an adjusting middle rack (220);

the scanning device (3) comprises: a scanning housing (301);

the external connecting piece (4) comprises: a middle bearing block (401) and a bottom support (402);

the platform is characterized in that the platform shell (101) is fixedly arranged on a bottom support (402), the platform left rack (112) and the platform right rack (113) are slidably arranged on the bottom support (402), the adjusting shell 201 is fixedly arranged on a middle bearing block (401), and the scanning shell (301) is fixedly arranged on the adjusting middle rack (220).

2. The omnidirectional X-ray detector of claim 1, wherein: the detection platform (1) further comprises: the platform comprises a platform motor (102), a platform fluted disc (103), a platform upper gear (104), a platform upper transmission shaft (105), a platform lower gear (106), a platform lower gear (107), a platform lower transmission shaft (108), a platform bearing plate (109), a platform left gear (110), a platform right gear (111), a platform linkage rod (114), a platform linkage fixing frame (115) and a platform (116), wherein the platform motor (102) is fixedly arranged on a platform shell (101), the platform fluted disc (103) is fixedly arranged on a platform motor (102) transmission shaft, the platform fluted disc (103) and the platform upper gear (104) form gear engagement, the platform upper gear (104) is fixedly arranged in the middle of the platform upper transmission shaft (105), the platform upper transmission shaft (105) is rotatably arranged on the platform shell (101), the platform lower gear (106) is fixedly arranged at one end of the platform upper transmission shaft (105), gear engagement is formed between a lower platform gear (106) and a lower platform gear (107), the lower platform gear (107) is fixedly mounted in the middle of a lower platform transmission shaft (108), the lower platform transmission shaft (108) is rotatably mounted on a platform bearing plate (109), the platform bearing plate (109) is fixedly mounted on a platform shell (101), a left platform gear (110) and a right platform gear (111) are respectively mounted at two ends of the lower platform transmission shaft (108), the left platform gear (110) and the right platform gear (111) are respectively in gear engagement with a left platform rack (112) and a right platform rack (113), and the middle of a platform linkage rod (114) is fixedly mounted on the left platform rack (112) and the right platform rack (113).

3. The omnidirectional X-ray detector of claim 1, wherein: the adjusting module (2) further comprises: an adjusting motor fixing plate (202), an adjusting motor (203), an adjusting right lower helical tooth (204), an adjusting right lower tooth (205), an adjusting right lower transmission shaft (206), an adjusting right middle gear (207), an adjusting right gear (208), an adjusting right transmission shaft (209), an adjusting right straight tooth (210), an adjusting middle toothed disc (211), an adjusting middle transmission shaft (212), an adjusting left tooth (213), an adjusting left toothed disc (214), an adjusting left transmission shaft (215), an adjusting left helical tooth (216), an adjusting middle helical tooth (217), an adjusting middle upper transmission shaft (218), an adjusting middle straight tooth (219) and an adjusting sliding block (221), wherein the adjusting motor fixing plate (202) is fixedly arranged on an adjusting shell (201), the adjusting motor (203) is fixedly arranged on the adjusting motor fixing plate (202), the adjusting right lower helical tooth (204) is fixedly arranged on the adjusting motor (203) transmission shaft, an adjusting right lower helical tooth (204) and an adjusting right lower tooth (205) form gear engagement, the adjusting right lower tooth (205) is fixedly arranged on an adjusting right lower transmission shaft (206), the adjusting right lower transmission shaft (206) is rotatably arranged on an adjusting shell (201), an adjusting right middle gear (207) is fixedly arranged in the middle of the adjusting right lower transmission shaft (206), the adjusting right middle gear (207) and the adjusting right gear (208) form gear engagement, the adjusting right gear (208) is fixedly arranged on an adjusting right transmission shaft (209), the adjusting right transmission shaft (209) is rotatably arranged on the adjusting shell (201), an adjusting right straight tooth (210) is fixedly arranged at one end of the adjusting right transmission shaft (209), the adjusting right straight tooth (210) and the adjusting middle tooth disk (211) form gear engagement, the adjusting middle tooth disk (211) is fixedly arranged in the middle of the adjusting middle transmission shaft (212), the adjusting middle transmission shaft (212) is rotatably arranged on the adjusting shell (201), an adjusting left tooth (213) is fixedly arranged on one side of an adjusting middle transmission shaft (212), the adjusting left tooth (213) and the adjusting left tooth disc (214) form gear engagement, the adjusting left tooth disc (214) is fixedly arranged at one end of the adjusting left transmission shaft (215), the adjusting left transmission shaft (215) is rotatably arranged on an adjusting shell (201), an adjusting left helical tooth (216) is fixedly arranged at the other end of the adjusting left transmission shaft (215), the adjusting left helical tooth (216) and the adjusting middle helical tooth (217) form gear engagement, the adjusting middle helical tooth (217) is fixedly arranged on one side of an adjusting upper middle transmission shaft (218), the adjusting upper middle transmission shaft (218) is rotatably arranged on the adjusting shell (201), an adjusting middle straight tooth (219) is fixedly arranged in the middle of the adjusting upper transmission shaft (218), the adjusting middle straight tooth (219) and the adjusting middle rack (220) form gear engagement, the adjusting middle rack (220) is slidably arranged on an adjusting sliding block (221), the adjusting sliding block (221) is fixedly arranged on the adjusting shell (201).

4. The omnidirectional X-ray detector of claim 1, wherein: the scanning device (3) further comprises: a scanning motor fixing plate (302), a scanning motor (303), scanning helical teeth (304), scanning helical teeth (305), a scanning middle transmission shaft (306), a scanning fluted disc (307), scanning middle teeth (308), a scanning transmission shaft (309), a scanning upper gear (310), a scanning rack (311), a scanning machine front sealing plate (312), a scanning power box (313), a scanning machine rear sealing plate (314) and a scanning machine (315), wherein the scanning motor fixing plate (302) is fixedly arranged on a scanning shell (301), the scanning motor (303) is fixedly arranged on the scanning motor fixing plate (302), the scanning helical teeth (304) are fixedly arranged on the scanning motor (303) transmission shaft, the scanning helical teeth (304) and the scanning middle helical teeth (305) form gear engagement, the scanning middle helical teeth (305) are fixedly arranged in the middle of the scanning middle transmission shaft (306), the scanning middle transmission shaft (306) is rotatably arranged on the scanning shell (301), the scanning fluted disc (307) is fixedly installed at one end of a scanning middle transmission shaft (306), the scanning fluted disc (307) and the scanning middle tooth (308) form gear engagement, the scanning middle tooth (308) is fixedly installed in the middle of the scanning transmission shaft (309), the scanning transmission shaft (309) is rotatably installed on a scanning shell (301), a scanning upper gear (310) is fixedly installed at one end of the scanning transmission shaft (309), the scanning upper gear (310) and a scanning rack (311) form gear engagement, the scanning rack (311) is fixedly installed on a front sealing plate (312) of a scanner, a scanning power supply box (313) is fixedly installed on the front sealing plate (312) of the scanner, a rear sealing plate (314) of the scanner is fixedly installed on the scanning power supply box (313), and the scanner (315) is fixedly installed between the scanning power supply box (313) and the rear sealing plate (314) of the scanner.

5. The omnidirectional X-ray detector of claim 2, wherein: the platform linkage rod (114) is slidably arranged on the platform linkage fixing frame (115).

6. The omnidirectional X-ray detector of claim 2, wherein: the platform (116) is fixedly arranged on the platform joint fixing frame (115).

7. The omnidirectional X-ray detector of claim 4, wherein: the back of the scanner front sealing plate (312) is fixedly arranged on the scanning shell (301).

8. The omnidirectional X-ray detector of claim 1, wherein: the middle bearing block (401) is fixedly arranged on the bottom support (40).

Technical Field

The invention relates to the field of detection, in particular to an omnibearing X-ray detector.

Background

The contrast and definition of the image are poor, it is difficult to observe organs with less difference in density and thickness and parts with larger difference in density and thickness, for example, the skull, abdomen, spine, pelvis, etc. are not suitable for perspective, and cannot leave objective records, so it is not convenient for reexamination of pathological changes, contrast, for foreign matters, no matter for medical or common products or packages, each angle light source of the multi-view X-ray foreign matter detector adopts self-using area shielding technology, and pertinence examination is performed on the foreign matters at the edge, but because the existing X-ray detection technology is not completely free of dead angle and perfect detection, the main defects of the detection capability which is easily interfered by electromagnetic and after perspective imaging are that the brightness of the screen is low, application number: CN201320423060 discloses a full-automatic X-ray inspection machine, which has the advantage of small volume and portability but is not perfect in detection capability.

Disclosure of Invention

In view of the above technical problems, the present invention provides an omnidirectional X-ray detector, which includes a detection platform, an adjustment module, a scanning device, and an external connection member.

The detection platform comprises: the platform comprises a platform shell, a platform left rack and a platform right rack; the adjustment module includes: adjusting the shell and adjusting the middle rack; the scanning device includes: scanning the housing; the external connection member includes: a middle bearing block and a bottom support; the platform shell is fixedly installed on the bottom support, the left platform rack and the right platform rack are slidably installed on the bottom support, the adjusting shell is fixedly installed on the middle bearing block, and the scanning shell is fixedly installed on the adjusting middle rack.

Further, an inspection platform further comprises: a platform motor is fixedly arranged on a platform shell, a platform fluted disc is fixedly arranged on the middle of the platform upper transmission shaft, the platform upper transmission shaft is rotatably arranged on the platform shell, the platform lower gear is fixedly arranged at one end of the platform upper transmission shaft, the platform lower gear is in gear engagement with the platform lower gear, the platform lower gear is fixedly arranged in the middle of the platform lower transmission shaft, the platform lower transmission shaft is rotatably arranged on the platform bearing plate, the platform bearing plate is fixedly arranged on the platform shell, the platform left gear and the platform right gear are respectively arranged at two ends of the platform lower transmission shaft, the platform left gear and the platform right gear respectively form gear engagement with the platform left rack and the platform right rack, and the middle of the platform linkage rod is fixedly installed on the platform left rack and the platform right rack.

Further, an adjustment module further comprises: an adjusting motor fixing plate is fixedly arranged on an adjusting shell, an adjusting motor is fixedly arranged on the adjusting motor fixing plate, an adjusting right lower transmission shaft is rotatably arranged on the adjusting shell, an adjusting right middle gear is fixedly arranged in the adjusting right lower transmission shaft, an adjusting right middle gear and an adjusting right gear form gear engagement, the adjusting right gear is fixedly arranged on an adjusting right transmission shaft, the adjusting right transmission shaft is rotatably arranged on an adjusting shell, an adjusting right straight tooth is fixedly arranged at one end of the adjusting right transmission shaft, the adjusting right straight tooth is meshed with the adjusting middle gear, the adjusting middle gear is fixedly arranged in the middle of the adjusting middle transmission shaft, the adjusting middle transmission shaft is rotatably arranged on the adjusting shell, an adjusting left tooth is fixedly arranged at one side of the adjusting middle transmission shaft and forms gear engagement with the adjusting left fluted disc, the adjusting left fluted disc is fixedly arranged at one end of the adjusting left transmission shaft, the adjusting left transmission shaft is rotatably arranged on the adjusting shell, the adjusting left helical tooth is fixedly arranged at the other end of the adjusting left transmission shaft, the adjusting left helical tooth forms gear engagement with the adjusting middle helical tooth, the adjusting middle helical tooth is fixedly arranged at one side, the adjusting upper transmission shaft is rotatably arranged on the adjusting shell, the adjusting middle straight tooth is fixedly arranged in the middle of the adjusting upper transmission shaft, the adjusting middle straight tooth and the adjusting middle rack form gear engagement, the adjusting middle rack is slidably arranged on the adjusting sliding block, and the adjusting sliding block is fixedly arranged on the adjusting shell.

Further, a scanning apparatus further includes: a scanning motor fixing plate is fixedly arranged on a scanning shell, a scanning motor is fixedly arranged on the scanning motor fixing plate, scanning helical teeth are fixedly arranged on a scanning motor transmission shaft and form gear engagement with the scanning helical teeth, scanning middle helical teeth are fixedly arranged in the middle of the scanning middle transmission shaft, the scanning middle transmission shaft is rotatably arranged on the scanning shell, the scanning fluted disc is fixedly arranged at one end of the scanning middle transmission shaft and forms gear engagement with the scanning middle teeth, the scanning middle teeth are fixedly arranged in the middle of the scanning transmission shaft, the scanning transmission shaft is rotatably arranged on the scanning shell, the scanning upper gear is fixedly arranged at one end of the scanning transmission shaft, the scanning upper gear and the scanning rack form gear engagement, the scanning rack is fixedly arranged on a front sealing plate of the scanner, the scanning power box is fixedly arranged on the front sealing plate of the scanner, the rear sealing plate of the scanner is fixedly arranged on the scanning power box, and the scanner is fixedly arranged between the scanning power box and the rear sealing plate of the scanner.

Further, a platform gangbar is slidably mounted on the platform joint fixing frame.

Further, a platform is fixedly arranged on the platform joint fixing frame.

Furthermore, the back of the front sealing plate of the scanner is fixedly arranged on the scanning shell.

Furthermore, a middle bearing block is fixedly arranged on the bottom support.

Compared with the prior art, the invention has the beneficial effects that: according to the test result and pathological diagnosis after the omnibearing detection, whether a certain part of the human body is normal can be judged; the invention can be widely applied to industrial flaw detection, crystal analysis and the like. In medicine, it is a special subject for diagnosis and treatment of diseases and plays an important role in the medical and health industry; the scanning device can be made into fluorescent screen, intensifying screen, input screen in image intensifier, etc. by using the fluorescence action in the ray diagnosis work.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 and 3 are schematic structural views of the detection platform of the present invention.

Fig. 4 and 5 are schematic structural diagrams of the adjusting module of the present invention.

Fig. 6 and 7 are schematic structural views of the scanning device of the present invention.

Fig. 8 is a schematic view of the external connection member according to the present invention.

Reference numerals: 1-detection platform; 2-adjusting the module; 3-a scanning device; 4-external connection; 101-a platform housing; 102-a platform motor; 103-a platform fluted disc; 104-a gear on the platform; 105-a platform upper transmission shaft; 106-lower platform gear; 107-platform lower teeth; 108-platform lower drive shaft; 109-platform bearing plate; 110-platform left gear; 111-platform right gear; 112-platform left rack; 113-platform right rack; 114-platform linkage; 115-platform joint fixing frame; 116-a platform; 201-adjusting the housing; 202-adjusting a motor fixing plate; 203-adjusting the motor; 204-adjusting the lower right oblique teeth; 205-adjusting the right lower teeth; 206-adjusting the right lower transmission shaft; 207-adjusting the right middle gear; 208-adjusting the right gear; 209-adjusting the right transmission shaft; 210-adjusting right straight teeth; 211-adjusting the middle fluted disc; 212-adjusting the middle drive shaft; 213-adjusting the left tooth; 214-adjusting the left fluted disc; 215-adjusting the left drive shaft; 216-adjusting left helical teeth; 217-adjusting the middle helical teeth; 218-adjusting the upper drive shaft; 219-adjusting the middle straight teeth; 220-adjusting the middle rack; 221-adjusting a slider; 301-scanning the housing; 302-scanning motor fixing plate; 303-a scanning motor; 304-scanning helical teeth; 305-scan middle helical teeth; 306-scanning the middle drive shaft; 307-scanning a fluted disc; 308-scan middle teeth; 309-scanning transmission shaft; 310-scanning the upper gear; 311-a scanning rack; 312-scanner front closing plate; 313-scanning power supply box; 314-scanner rear closing plate; 315-scanner; 401-middle bearing block; 402-bottom support.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

As shown in fig. 1, 2, 3, 4, 5, 6, 7 and 8, the omnidirectional X-ray detector comprises a detection platform 1, an adjustment module 2, a scanning device 3 and an external connector 4.

The detection platform 1 comprises: a platform housing 101, a platform left rack 112, and a platform right rack 113; the adjustment module 2 includes: an adjusting shell 201 and an adjusting middle rack 220; the scanning device 3 includes: the housing 301 is scanned; the external connection member 4 includes: a middle bearing block 401 and a bottom bracket 402.

The platform housing 101 is fixedly mounted on the bottom support 402, a platform left rack 112 and a platform right rack 113 are slidably mounted on the bottom support 402, an adjusting housing 201 is fixedly mounted on the middle bearing block 401, and a scanning housing 301 is fixedly mounted on the adjusting middle rack 220.

The testing platform 1 further comprises: a platform motor 102 is fixedly arranged on a platform shell 101, a platform fluted disc 103 is fixedly arranged on the transmission shaft of the platform motor 102, the platform fluted disc 103 is in gear engagement with the platform upper gear 104, the platform upper gear 104 is fixedly arranged in the middle of the platform upper transmission shaft 105, the platform upper transmission shaft 105 is rotatably arranged on the platform shell 101, the platform lower gear 106 is fixedly arranged at one end of the platform upper transmission shaft 105, the platform lower gear 106 is in gear engagement with the platform lower gear 107, the platform lower gear 107 is fixedly arranged in the middle of the platform lower transmission shaft 108, the platform lower transmission shaft 108 is rotatably arranged on the platform bearing plate 109, the platform bearing plate 109 is fixedly installed on the platform shell 101, the platform left gear 110 and the platform right gear 111 are respectively installed at two ends of the platform lower transmission shaft 108, the platform left gear 110 and the platform right gear 111 are respectively meshed with the platform left rack 112 and the platform right rack 113, the middle of the platform linkage rod 114 is fixedly installed on the platform left rack 112 and the platform right rack 113, the platform motor 102 rotates and transmits the driving force to the platform fluted disc 103, the driving force is finally transmitted to the platform left rack 112 and the platform right rack 113 through the platform fluted disc 103, when the platform linkage rod 114 in the middle is driven by the platform left rack 112 and the platform right rack 113 to move, the detection object on the platform 116 above the platform waits for the adjustment module 2 and the scanning device 3 module to work after moving.

The adjusting module 2 further comprises: an adjusting motor fixing plate 202 is fixedly arranged on an adjusting shell 201, an adjusting motor fixing plate 202, an adjusting motor 203, an adjusting right lower helical tooth 204, an adjusting right lower tooth 205, an adjusting right lower transmission shaft 206, an adjusting right middle gear 207, an adjusting right gear 208, an adjusting right transmission shaft 209, an adjusting right straight tooth 210, an adjusting middle tooth disc 211, an adjusting middle transmission shaft 212, an adjusting left tooth 213, an adjusting left tooth disc 214, an adjusting left transmission shaft 215, an adjusting left helical tooth 216, an adjusting middle helical tooth 217, an adjusting upper transmission shaft 218, an adjusting middle straight tooth 219 and an adjusting sliding block 221, the adjusting motor fixing plate 202 is fixedly arranged on the adjusting motor fixing plate 202, the adjusting right lower helical tooth 204 is fixedly arranged on the transmission shaft of the adjusting motor 203, the adjusting right lower helical tooth 204 and the adjusting right lower tooth 205 form gear engagement, the adjusting right lower tooth 205 is fixedly arranged on the adjusting right lower transmission shaft 206, the adjusting right lower transmission shaft 206 is rotatably arranged on the adjusting shell, an adjusting right middle gear 207 is fixedly arranged in the middle of an adjusting right lower transmission shaft 206, the adjusting right middle gear 207 and the adjusting right gear 208 form gear engagement, the adjusting right gear 208 is fixedly arranged on an adjusting right transmission shaft 209, the adjusting right transmission shaft 209 is rotatably arranged on an adjusting shell 201, an adjusting right straight tooth 210 is fixedly arranged at one end of the adjusting right transmission shaft 209, the adjusting right straight tooth 210 and the adjusting middle toothed disc 211 form gear engagement, the adjusting middle toothed disc 211 is fixedly arranged in the middle of the adjusting middle transmission shaft 212, the adjusting middle transmission shaft 212 is rotatably arranged on the adjusting shell 201, an adjusting left tooth 213 is fixedly arranged at one side of the adjusting middle transmission shaft 212, the adjusting left tooth 213 and the adjusting left toothed disc 214 form gear engagement, the adjusting left toothed disc 214 is fixedly arranged at one end of the adjusting left transmission shaft 215, the adjusting left transmission shaft 215 is rotatably arranged on the adjusting shell 201, and the adjusting, the left adjusting helical gear 216 and the middle adjusting helical gear 217 form gear engagement, the middle adjusting helical gear 217 is fixedly mounted on one side of an upper adjusting transmission shaft 218, the upper adjusting transmission shaft 218 is rotatably mounted on the adjusting shell 201, a middle adjusting straight gear 219 is fixedly mounted in the middle of the upper adjusting transmission shaft 218, the middle adjusting straight gear 219 and a middle adjusting rack 220 form gear engagement, the middle adjusting rack 220 is slidably mounted on an adjusting sliding block 221, the adjusting sliding block 221 is fixedly mounted on the adjusting shell 201, the adjusting motor 203 runs and rotates to transmit the middle adjusting right-side lower helical gear 204, transmission force of the right-side lower helical gear 204 is adjusted to drive other transmission members to finally transmit the middle adjusting rack 220 to rotate, and the scanning shell 301 fixed on the middle adjusting rack 220 works along with the adjusting module 2.

The scanning device 3 further includes: a scanning motor fixing plate 302, a scanning motor 303, a scanning helical gear 304, a scanning helical gear 305, a scanning middle transmission shaft 306, a scanning fluted disc 307, a scanning middle gear 308, a scanning transmission shaft 309, a scanning upper gear 310, a scanning rack 311, a scanning machine front sealing plate 312, a scanning power box 313, a scanning machine rear sealing plate 314 and a scanning machine 315, wherein the scanning motor fixing plate 302 is fixedly arranged on a scanning shell 301, the scanning motor 303 is fixedly arranged on the scanning motor fixing plate 302, the scanning helical gear 304 is fixedly arranged on the scanning motor 303 transmission shaft, the scanning helical gear 304 and the scanning middle helical gear 305 form gear engagement, the scanning middle helical gear 305 is fixedly arranged in the middle of the scanning middle transmission shaft 306, the scanning middle transmission shaft 306 is rotatably arranged on the scanning shell 301, the scanning fluted disc 307 is fixedly arranged at one end of the scanning middle transmission shaft 306, the scanning fluted disc 307 and the scanning middle gear 308 form gear engagement, the scanning middle gear 308 is fixedly arranged, the scanning transmission shaft 309 is rotatably installed on the scanning shell 301, the scanning upper gear 310 is fixedly installed at one end of the scanning transmission shaft 309, the scanning upper gear 310 and the scanning rack 311 form gear engagement, the scanning rack 311 is fixedly installed on a front sealing plate 312 of a scanner, a scanning power box 313 is fixedly installed on the front sealing plate 312 of the scanner, a rear sealing plate 314 of the scanner is fixedly installed on a scanning power box 313, the scanner 315 is fixedly installed between the scanning power box 313 and the rear sealing plate 314 of the scanner, the scanning motor 303 rotates and transmits the rotation to the scanning helical teeth 304, the transmission force of the scanning helical teeth 304 drives other transmission parts to be finally transmitted to the scanning rack 311 to work, and the fixed structural parts of the scanning rack 311 perform the whole or local scanning work of the object along with the matching of the work of the.

Platform linkage 114 is slidably mounted on platform linkage mount 115. The platform 116 is fixedly mounted on the platform holder 115. The scanner front cover plate 312 is fixedly mounted on the scanning housing 301 at the back. The middle bearing block 401 is fixedly mounted on the bottom bracket 402.

The working principle of the invention is as follows: the platform motor 102 rotates and transmits the force to the platform fluted disc 103, the force is finally transmitted to the platform left rack 112 and the platform right rack 113 through the platform fluted disc 103, when the platform left rack 112 and the platform right rack 113 drive the platform linkage rod 114 in the middle to move, after the detected object on the upper platform 116 moves, the operation of the adjusting module 2 and the scanning device 3 module is waited, the rotation of the adjusting motor 203 is transmitted to the lower oblique tooth 204 on the right side of the adjustment, the transmission force of the right lower helical gear 204 is adjusted to drive other transmission parts to be finally transmitted to the adjusting middle rack 220 for rotation, the scanning shell 301 fixed on the adjusting middle rack 220 works along with the adjustment module 2, the scanning motor 303 rotates to transmit to the scanning helical gear 304, the transmission force of the scanning helical teeth 304 drives other transmission parts to be finally transmitted to the scanning rack 311 to work, and the fixed structural part of the scanning rack 311 performs overall or local scanning work of the object along with the matching of the work of the adjusting module 2.