CN114062403A

CN114062403A - CT device for scanning and detecting new energy battery based on X-ray

Info

Publication number: CN114062403A
Application number: CN202111346853.7A
Authority: CN
Inventors: 李书浩; 张超
Original assignee: Lima Precision Measurement Technology Suzhou Co ltd
Current assignee: Lima Precision Measurement Technology Suzhou Co ltd
Priority date: 2021-11-15
Filing date: 2021-11-15
Publication date: 2022-02-18

Abstract

The invention discloses a CT device for scanning and detecting a new energy battery based on X-rays, which comprises a base, a ray source component, a carrying platform component and a detector component, wherein the ray source component, the carrying platform component and the detector component are arranged on the base, the carrying platform component is positioned between the ray source component and the detector component, the ray source component adjusts the position of a ray source through a ray source Z-axis moving module, the carrying platform component adjusts the position of the new energy battery through a carrying platform X-axis moving module, a carrying platform Y-axis moving module and an R-axis rotating module, and the detector component adjusts the position of a detector through a detector X-axis moving module, a detector Y-axis moving module and a detector Z-axis moving module. The invention enables the new energy battery to complete all-dimensional detection by adjusting the position of each shaft, and has good imaging effect and high detection precision.

Description

CT device for scanning and detecting new energy battery based on X-ray

Technical Field

The invention relates to the field of industrial CT equipment, in particular to a CT device for scanning and detecting a new energy battery based on X rays.

Background

After the production of the new energy battery is completed, the structure of the new energy battery needs to be scanned and detected, and X-RAY detection is generally used, but the problems of imaging effect and detection precision exist.

Disclosure of Invention

The invention aims to provide a CT device for scanning and detecting a new energy battery based on X-rays.

The invention realizes the purpose through the following technical scheme: the utility model provides a CT device that new forms of energy battery carries out scanning detection based on X ray, the on-line screen storage device comprises a base, install the ray source subassembly on the base, cargo platform subassembly and detector subassembly, the cargo platform subassembly is located between ray source subassembly and the detector subassembly, the ray source subassembly passes through the position that ray source Z axle removed the module and adjusts the ray source, the cargo platform subassembly passes through cargo platform X axle and removes the module, cargo platform Y axle removes the position that module and R axle rotation module adjusted new forms of energy battery, the detector subassembly passes through detector X axle and removes the module, detector Y axle removes the position that module and detector Z axle removed the module adjustment detector.

Further, the ray source subassembly includes the ray source mount pad, install the ray source Z axle on the ray source mount pad and remove the module, remove the ray source support that the module is connected, install the ray source on the ray source support with ray source Z axle.

Furthermore, the ray source mount pad is equipped with ray source Z axle slide rail, and the ray source support is equipped with ray source Z axle slider, and ray source Z axle slider block is in ray source Z axle slide rail.

Furthermore, an X-axis sliding rail is arranged on the base.

Further, the cargo platform subassembly includes that the cargo platform X axle removes the module, removes the cargo platform base that the module is connected with the cargo platform X axle, and the bottom of cargo platform base is equipped with the cargo platform base and removes the slider, and the cargo platform base removes the slider block in X axle slide rail.

Further, the cargo platform base is equipped with cargo platform Y axle and removes the module, removes the cargo platform Y axle base that the module is connected with cargo platform Y axle, and the bottom of cargo platform Y axle base is equipped with cargo platform Y axle base and removes the slider, and the cargo platform base is equipped with cargo platform Y axle slide rail, and cargo platform Y axle base removes the slider block in cargo platform Y axle slide rail.

Furthermore, an R-axis rotating module is arranged on the Y-axis base of the carrying platform, and a positioning carrier is arranged on the R-axis rotating module.

Further, the detector assembly comprises a detector X-axis moving module and a detector X-axis moving base connected with the detector X-axis moving module, and the detector Z-axis moving assembly is installed on the detector X-axis moving base.

Furthermore, the detector Z-axis moving assembly is connected with a detector Y-axis moving assembly, and the detector Y-axis moving assembly is connected with a detector.

Compared with the prior art, the CT device for scanning and detecting the new energy battery based on the X-ray has the beneficial effects that: the new energy battery completes all-dimensional detection by adjusting the position of each shaft, and the imaging effect is good and the detection precision is high.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is one of the partial structural schematic diagrams of fig. 1.

Fig. 3 is a second partial schematic structural diagram of fig. 1.

Fig. 4 is a partial structural schematic diagram of fig. 3.

Fig. 5 is a third schematic view of a portion of the structure of fig. 1.

Fig. 6 is a partial structural schematic view of fig. 5.

Fig. 7 is a partial structural schematic view of fig. 6.

Detailed Description

Referring to fig. 1 to 7, a CT apparatus for performing scanning detection on a new energy battery based on X-rays includes a base 4, a radiation source assembly 1 mounted on the base 4, a stage assembly 2, and a detector assembly 3.

The stage assembly 2 is located between the radiation source assembly 1 and the detector assembly 3.

The base 1 is made of marble and is fixed.

Ray source subassembly 1 includes ray source mount pad 11, installs ray source Z axle removal module 15 on ray source mount pad 11, moves ray source support 12 that module 15 is connected, installs the ray source 13 on ray source support 12 with ray source Z axle.

The ray source Z-axis moving module 15 adopts a motor screw structure.

The ray source mounting seat 11 is provided with a ray source Z-axis slide rail 17, the ray source bracket 12 is provided with a ray source Z-axis slide block 18, and the ray source Z-axis slide block 18 is clamped on the ray source Z-axis slide rail 17.

The side of the radiation source mounting seat 11 is provided with a radiation source mounting seat supporting rod 111, which enhances the stability of the radiation source mounting seat.

The radiation source support 12 is provided with two gratings 14 for detecting the moving position of the object platform assembly 2 and avoiding the contact with the radiation source assembly 1.

A ray source limiting rod 16 is arranged below the ray source bracket 12 and used for limiting the downward displacement of the ray source 13 along the Z axis.

An X-axis sliding rail 5 is arranged on the base 4.

The object carrying platform assembly 2 comprises an object carrying platform X-axis moving module 21 and an object carrying platform base 23 connected with the object carrying platform X-axis moving module 21, wherein an object carrying platform base moving sliding block 22 is arranged at the bottom of the object carrying platform base 23, and the object carrying platform base moving sliding block 22 is clamped on an X-axis sliding rail 5.

The X-axis moving module 21 of the object carrying platform adopts a motor screw structure.

The loading platform base 23 is provided with a loading platform Y-axis moving module 24 and a loading platform Y-axis base 27 connected with the loading platform Y-axis moving module 24, the bottom of the loading platform Y-axis base 27 is provided with a loading platform Y-axis base moving slide block 26, the loading platform base 23 is provided with a loading platform Y-axis slide rail 25, and the loading platform Y-axis base moving slide block 26 is clamped on the loading platform Y-axis slide rail 25.

An R-axis rotation module 28 is arranged on the Y-axis base 27 of the carrying platform, and a positioning carrier 29 is arranged on the R-axis rotation module 28. The new energy battery is fixed on the positioning carrier.

The Y-axis moving module 24 of the carrying platform adopts a motor screw structure. The R-axis rotating module adopts a rotating cylinder structure. The R-axis rotating module can drive the positioning carrier to rotate.

The position of the new energy battery is adjusted through the carrying platform X-axis moving module, the carrying platform Y-axis moving module 44 and the R-axis rotating module of the carrying platform assembly.

The detector assembly 3 comprises a detector X-axis moving module 31 and a detector X-axis moving base 33 connected with the detector X-axis moving module 31, and a detector Z-axis moving assembly 34 is installed on the detector X-axis moving base 33.

The detector X-axis moving module 31 adopts a motor screw structure.

The bottom of the detector X-axis moving base 33 is provided with a detector X-axis moving base moving slide block 32, and the detector X-axis moving base moving slide block 32 is clamped on the X-axis slide rail 5.

The detector Z-axis moving assembly 34 includes a detector Z-axis moving base 341, the detector Z-axis moving base 341 is provided with a detector Z-axis moving module 343 and a detector Z-axis moving slide 342, and the detector Z-axis moving slide 342 is engaged with a detector Z-axis moving slide 344.

The detector Z-axis moving module 343 is of a motor-screw structure.

The detector Z-axis moving base 341 is provided with a detector Z-axis moving base support rod 345 to enhance the stability of the detector Z-axis moving base.

The detector Z-axis moving module 343 is connected with a detector Y-axis moving assembly 35, the detector Y-axis moving assembly 35 comprises a detector Y-axis moving base 351, the detector Y-axis moving base 351 is provided with a detector Y-axis moving module 352 and a detector Y-axis moving slide rail 353, the detector Y-axis moving slide rail 353 is clamped with a detector Y-axis moving slide block 354, and the detector Y-axis moving slide block 354 is connected with the detector 36.

The detector Y-axis moving module 352 adopts a motor screw structure.

A detector limiting rod 346 is arranged below the detector Y-axis moving assembly 35 and used for limiting the downward displacement of the Z axis of the detector.

The working principle of the invention is as follows:

firstly, manually placing a new energy battery on an object carrying platform, adjusting the position of each axis to enable the new energy battery to be positioned at the center of a ray source and a detector, and rotating an R axis for 360 ℃ to complete scanning; manually taking out the battery and putting the battery into the next battery, and circularly moving in the way. If the resolution is to be adjusted, the stage X-axis moving module 21 adjusts the distance from the product to the radiation source.

The invention enables the new energy battery to complete all-dimensional detection by adjusting the position of each shaft, and has good imaging effect and high detection precision.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. CT device that detects is scanned to new forms of energy battery based on X ray, its characterized in that: the utility model discloses a new forms of energy battery's position is adjusted to cargo platform subassembly through cargo platform X axle removal module, cargo platform Y axle removal module and R axle rotation module, detector assembly passes through detector X axle removal module, detector Y axle removal module and detector Z axle removal module adjustment detector's position.

2. The CT device for scanning and detecting the new energy battery based on the X-ray as claimed in claim 1, wherein: ray source subassembly includes the ray source mount pad, installs ray source Z axle removal module on the ray source mount pad, moves the ray source support that the module is connected, installs the ray source on the ray source support with ray source Z axle.

3. The CT device for scanning and detecting the new energy battery based on the X-ray as claimed in claim 2, wherein: the ray source mount pad is equipped with ray source Z axle slide rail, and the ray source support is equipped with ray source Z axle slider, and ray source Z axle slider block is in ray source Z axle slide rail.

4. The CT device for scanning and detecting the new energy battery based on the X-ray as claimed in claim 1, wherein: an X-axis sliding rail is arranged on the base.

5. The CT device for scanning and detecting the new energy battery based on the X-ray as claimed in claim 4, wherein: the carrying platform assembly comprises a carrying platform X-axis moving module and a carrying platform base connected with the carrying platform X-axis moving module, wherein a carrying platform base moving sliding block is arranged at the bottom of the carrying platform base, and the carrying platform base moving sliding block is clamped on an X-axis sliding rail.

6. The CT device for scanning and detecting the new energy battery based on the X-ray as claimed in claim 5, wherein: the carrying platform base is provided with a carrying platform Y-axis moving module and a carrying platform Y-axis base connected with the carrying platform Y-axis moving module, the bottom of the carrying platform Y-axis base is provided with a carrying platform Y-axis base moving sliding block, the carrying platform base is provided with a carrying platform Y-axis sliding rail, and the carrying platform Y-axis base moving sliding block is clamped on the carrying platform Y-axis sliding rail.

7. The CT device for scanning and detecting the new energy battery based on the X-ray as claimed in claim 6, wherein: and an R-axis rotating module is arranged on the Y-axis base of the carrying platform, and a positioning carrier is arranged on the R-axis rotating module.

8. The CT device for scanning and detecting the new energy battery based on the X-ray as claimed in claim 1, wherein: the detector assembly comprises a detector X-axis moving module and a detector X-axis moving base connected with the detector X-axis moving module, and the detector Z-axis moving assembly is mounted on the detector X-axis moving base.

9. The CT device for scanning and detecting the new energy battery based on the X-ray as claimed in claim 8, wherein: the detector Z-axis moving assembly is connected with a detector Y-axis moving assembly, and the detector Y-axis moving assembly is connected with a detector.