CN113984796A

CN113984796A - Finite Angle Scanning Detection Device

Info

Publication number: CN113984796A
Application number: CN202111237346.XA
Authority: CN
Inventors: 孙晓峰; 张超
Original assignee: Lima Optoelectronic Technology Beijing Co ltd
Current assignee: Lima Optoelectronic Technology Beijing Co ltd
Priority date: 2021-10-21
Filing date: 2021-10-21
Publication date: 2022-01-28

Abstract

The invention discloses a limited angle scanning detection device, which comprises a base, a detection cell support frame arranged on the base, and a rotary detection assembly which is arranged on the base in a sliding manner and is matched with the detection cell support frame for use; the rotary detection assembly comprises a detection frame and a detection body which is rotatably connected to the detection frame, a detection ray source is arranged on the detection body, a detector is also arranged on the detection body corresponding to the detection ray source, whether the battery cell is located at a detection position is detected through the detector, and the battery cell is detected through the detection ray source to form a pre-detection type detection structure; the electric core is arranged in and is detected electric core support frame, detects body for rotating the setting, detects ray source and detector and is relatively fixed setting, detects the body rotation, drives and surveys ray source and detector and carry out the detection to electric core, detects and uses the front of electric core to be 0 reference perpendicularly, includes the detection of 0 at least, +90 degrees, -90 three angle, forms limited angle scanning detection structure.

Description

Limited angle scanning detection device

Technical Field

The invention relates to an automatic production technology and automatic production equipment, in particular to a limited angle scanning detection device.

Background

In the automated production technical field, especially in the automatic preparation technical field of electric core, need detect after the electric core production preparation, the detection of electric core is including openly detecting and the side detects, and the electric core detection in present stage needs to correspond and sets up openly to detect carrier and side and detect the carrier, and the side detects the carrier and can convertible, carries out side and detects the back and overturn to another side and detect, and the detection mode in present stage exists and needs the solution problem:

1) corresponding carriers are required to be correspondingly arranged corresponding to the battery cores of different types, so that the production resources are seriously wasted, and the equipment structure is complicated due to the overturning setting of the carriers;

2) the front detection and the side detection of the battery cell need to be carried out on different equipment, a plurality of detection equipment needs to be set, and the detection efficiency is influenced by more detection flows;

3) after the carrier loads electric core, carry to the setting that detects of detection department, check out test set length is long, seriously occupies the production place, is unfavorable for the implementation of enterprise's optimization production.

Therefore, it is necessary to provide a limited angle scanning detection device to solve the above problems.

Disclosure of Invention

The invention aims to provide a limited angle scanning detection device.

The technical scheme is as follows:

a limited angle scanning detection device comprises a base, a detection cell support frame arranged on the base, and a rotary detection assembly which is arranged on the base in a sliding manner and is matched with the detection cell support frame for use;

the rotary detection assembly comprises a detection frame and a detection body which is rotatably connected to the detection frame, a detection ray source is arranged on the detection body, a detector is also arranged on the detection body corresponding to the detection ray source, whether the battery cell is located at a detection position is detected through the detector, and the battery cell is detected through the detection ray source to form a pre-detection type detection structure;

the electric core is arranged in and is detected electric core support frame, detects body for rotating the setting, detects ray source and detector and is relatively fixed setting, detects the body rotation, drives and surveys ray source and detector and carry out the detection to electric core, detects and uses the front of electric core to be 0 reference perpendicularly, includes the detection of 0 at least, +90 degrees, -90 three angle, forms limited angle scanning detection structure.

Furthermore, the detection frame is in a circular plate shape, the middle part of the detection frame is provided with a detection groove, and the detection body is provided with a detection corresponding groove for the detection groove.

Further, the detection frame is fixedly connected with a cable follow-up frame, a cable follow-up body is correspondingly and rotatably arranged on the cable follow-up frame, and the cable follow-up body is connected with the detection body through a connecting plate to form a cable follow-up type anti-winding structure.

Furthermore, the detection body and the cable follow-up body are both connected with a rotation driving cylinder body, the rotation driving cylinder body is driven by a motor and a rotation structure, and the rotation driving structure is composed of a gear driving structure.

Further, the detector comprises a detector setting frame arranged on the detection body through a sliding adjusting structure and a detection body arranged on the detector setting frame, and a sliding detection height adjusting type detection structure is formed.

Furthermore, the detection ray source comprises a ray source setting frame arranged on the detection body through a sliding adjustment structure and a ray source arranged on the ray source setting frame, so that a ray detection height adjusting type detection mechanism is formed.

Further, the slide adjusting structure includes the slide subassembly that the slide rail slider combination formed and the fixing clip that corresponds the slide subassembly setting, and surveys altitude mixture control formula detection mechanism through the slip and form and detect effective regulation formula and detect and set for the structure.

Furthermore, an integrated detection body setting structure is correspondingly formed by detecting an effective adjusting type detection setting structure and a cable follow-up type anti-winding structure.

Furthermore, the bottom of base is provided with x axle drive assembly, and rotation type detection subassembly is connected in x axle drive assembly, and the base still corresponds x axle drive assembly, rotation type detection subassembly and is provided with the slip direction subassembly.

Furthermore, a y-axis driving assembly is arranged on the base corresponding to the detection cell supporting frame.

Furthermore, the detection battery cell support frame comprises a Z-axis driving assembly and a battery cell support plate connected to the Z-axis driving assembly.

Further, the battery core supporting plate forms a battery core detection position adjusting structure through a y-axis driving assembly and a Z-axis driving assembly, the rotary type detection assembly forms a slide adjusting type rotation detection structure through an x-axis driving assembly, and then the battery core detection position adjusting structure and the slide adjusting type rotation detection structure form a flexible battery core detection structure capable of corresponding to battery cores of different specifications.

Furthermore, the x-axis driving assembly, the y-axis driving assembly and the Z-axis driving assembly are all composed of linear driving devices, and one of the linear driving devices can directly use a screw rod structure.

Compared with the prior art, the invention can be compatible with the detection of the electric cores of different models by setting the flexible electric core detection structure, and the front and two sides of the electric core are completed by the rotary detection structure, thereby reducing the setting of different detection equipment, and further effectively implementing the high-efficiency insurance detection and the optimized production of enterprises.

Drawings

FIG. 1 is a schematic diagram of the present invention.

FIG. 2 is a second schematic structural diagram of the present invention.

Fig. 3 is a third schematic structural diagram of the present invention.

FIG. 4 is a fourth schematic view of the present invention.

FIG. 5 is a fifth schematic view of the present invention.

Detailed Description

Example (b):

referring to fig. 1 to 5, the present embodiment shows a limited angle scanning detection apparatus, which includes a base 1, a detection cell support frame 2 disposed on the base 1, and a rotary detection assembly 3 slidably disposed on the base 1 and used in cooperation with the detection cell support frame 2;

the rotary detection assembly 3 comprises a detection frame 31 and a detection body 32 rotatably connected to the detection frame 31, wherein a detection radiation source 4 is arranged on the detection body 32, a detector 5 is also arranged on the detection body 32 corresponding to the detection radiation source 4, whether the battery cell 100 is located at a detection position is detected through the detector 5, and the detection of the battery cell 100 is completed through the detection radiation source 4 to form a pre-detection type detection structure;

electric core 100 is arranged in and is detected electric core support frame 2, detects body 32 and sets up for rotating, detects source of radiation 4 and detector 5 and sets up for relatively fixed, detects body 32 and rotates, drives and surveys source of radiation 4 and detector 5 and carry out the detection to electric core, detects and uses the perpendicular 0 reference that is of the front of electric core 100, includes the detection of 0 at least, +90 degree, -90 three angle, forms limited angle scanning and detects the structure.

The detection frame 31 is a circular plate, a detection groove is formed in the middle of the detection frame, and a detection corresponding groove is formed in the detection groove by the detection body 32.

The detection frame 31 is fixedly connected with a cable follow-up frame 33, the cable follow-up frame 33 is correspondingly and rotatably provided with a cable follow-up body 34, and the cable follow-up body 34 and the detection body 32 are connected through a connecting plate 35 to form a cable follow-up type anti-winding structure.

The detecting body 32 and the cable follower 34 are connected to a rotation driving cylinder 36, and the rotation driving cylinder 36 is driven by a motor and a rotation driving structure 37, which is constituted by a gear driving structure.

The probe 5 includes a probe mounting frame 51 mounted on the detection body 32 via a slide adjusting mechanism 6, and a detection body 52 mounted on the probe mounting frame 51, and forms a slide detection height adjusting type detection mechanism.

The detection radiation source 4 includes a radiation source installation frame 41 installed on the detection body 32 through the slide adjusting mechanism 6, and a radiation source 42 installed on the radiation source installation frame 41, and forms a radiation detection height adjusting type detection mechanism.

The sliding adjustment structure 6 comprises a sliding assembly formed by combining sliding rails and sliding blocks and a fixing clamp arranged corresponding to the sliding assembly, and the sliding adjustment structure and the ray detection height adjustment type detection mechanism form a detection effective adjustment type detection setting structure.

The integrated detection body setting structure is formed by detecting an effective adjusting type detection setting structure and a cable follow-up type anti-winding structure correspondingly.

The bottom of base 1 is provided with x axle drive assembly 11, and rotation type determine module 4 connects in x axle drive assembly 11, and the base still corresponds rotation type determine module 3 and is provided with the slip direction subassembly.

A y-axis driving assembly 12 is arranged on the base 1 corresponding to the detection cell support frame 2.

The detection cell support frame 2 includes a Z-axis drive assembly 21, and a cell support plate 22 connected to the Z-axis drive assembly 21.

The battery core supporting plate 22 forms a battery core detection position adjusting structure through the y-axis driving component 12 and the Z-axis driving component 21, the rotary type detection component 3 forms a slide adjusting type rotation detection structure through the x-axis driving component 11, and then the battery core detection position adjusting structure and the slide adjusting type rotation detection structure form a flexible battery core detection structure capable of corresponding to battery cores of different specifications.

The x-axis driving assembly 11, the y-axis driving assembly 12 and the Z-axis driving assembly 21 are all composed of linear driving devices, and one of them can directly use a lead screw structure.

Wherein:

according to the embodiment, the scanning times can be determined according to the length of the battery cell and the effective scanning length, and meanwhile, the rotation scanning speed can be adjusted by adjusting the rotating speed of the motor;

and (3) adopting a mode of scanning while reconstructing and processing, and finishing the imaging analysis result of the scanned part in the whole scanning process.

Compared with the prior art, this embodiment detects the settlement of structure through the flexible electric core, can be compatible with the detection of the electric core of different models, and the front of electric core and both sides are accomplished through the detection structure of rotation type, reduce different check out test set for, and then the high efficiency that the insurance detected goes on and the effective implementation of enterprise optimization production.

What has been described above are merely some embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the invention.

Claims

1. A limited angle scanning detection device is characterized in that: the device comprises a base, a detection cell support frame arranged on the base, and a rotary detection assembly which is arranged on the base in a sliding manner and is matched with the detection cell support frame for use;

2. The limited angle scanning detection device of claim 1, wherein: the detection frame is fixedly connected with a cable follow-up frame, the cable follow-up frame is correspondingly and rotatably provided with a cable follow-up body, and the cable follow-up body and the detection body are connected through a connecting plate to form a cable follow-up type anti-winding structure.

3. A limited angle scan detection device according to claim 2, wherein: the detection body and the cable follow-up body are both connected with a rotation driving cylinder body, the rotation driving cylinder body is driven by a motor and a rotation structure, and the rotation driving structure is composed of a gear driving structure.

4. A limited angle scanning detection apparatus as claimed in claim 3, wherein: the detector comprises a detector setting frame arranged on the detection body through a sliding adjustment structure and a detection body arranged on the detector setting frame, and a sliding detection height adjustment type detection structure is formed.

5. The limited angle scanning detection device according to claim 4, wherein: the detection ray source comprises a ray source setting frame arranged on the detection body through a sliding adjustment structure and a ray source arranged on the ray source setting frame, and a ray detection height adjusting type detection mechanism is formed.

6. The limited angle scanning detection device according to claim 5, wherein: the sliding adjustment structure comprises a sliding assembly formed by combining sliding rails and sliding blocks and a fixing clamp corresponding to the sliding assembly, and the sliding adjustment structure and the ray detection height adjustment type detection mechanism form a detection effective adjustment type detection setting structure.

7. The limited angle scanning detection device according to claim 6, wherein: the integrated detection body setting structure is formed by detecting an effective adjusting type detection setting structure and a cable follow-up type anti-winding structure correspondingly.

8. The limited angle scan detection device of claim 7, wherein: the electric core supporting plate forms an electric core detection position adjusting structure through a y-axis driving assembly and a Z-axis driving assembly, and the rotary type detection assembly forms a sliding adjustment type rotation detection structure through an x-axis driving assembly.

9. The limited angle scan detection device of claim 8, wherein: the flexible battery cell detection structure capable of corresponding to battery cells of different specifications is formed by the battery cell detection position adjusting structure and the sliding adjusting type rotation detection structure.

10. The limited angle scan detection device of claim 9, wherein: the x-axis driving assembly, the y-axis driving assembly and the Z-axis driving assembly are all composed of linear driving devices.