CN220455197U - X-ray detection equipment for coiled battery - Google Patents

Abstract

The utility model discloses X-ray detection equipment for a wound battery, which comprises a bearing device, an X-ray emitting device arranged below the bearing device, and an X-ray receiving device arranged above the bearing device, wherein the X-ray emitting device comprises a first X-ray receiving device and a second X-ray receiving device; a visual navigation mechanism and an indication positioning mechanism are also arranged above the bearing device; the indication positioning mechanism comprises a positioning mounting plate, a rotary fixing seat connected with one side of the positioning mounting plate, a rotary block which is arranged on the rotary fixing seat and can do rotary motion relative to the rotary fixing seat, and a laser positioner which is arranged on the rotary block. The utility model is provided with the indicating and positioning mechanism, so that a worker can conveniently and quickly place a product to be detected at a preset detection position, the detection efficiency is improved, and meanwhile, the utility model is also provided with the visual navigation mechanism, and the intelligent navigation detection mechanism has the advantages of intelligent navigation detection function, high automation degree, high detection efficiency, reasonable overall design, compact structure, simplicity and convenience in operation and strong practicability.

Description

X-ray detection equipment for coiled battery

Technical Field

The utility model relates to the technical field of lithium battery detection, in particular to X-ray detection equipment for a coiled battery.

Background

A lithium battery is a battery composed of cells assembled and formed in a winding manner, and is also called a winding battery, and a winding battery commonly used at present is a power winding battery, a digital winding battery, a cylindrical winding battery, and a button winding battery. In the production process of lithium batteries, quality detection is an extremely important ring, and if unqualified products are detected to flow into the market, a series of potential safety hazards can be increased.

Because the internal structure and the density of the battery are different, the absorption capacity to the X-rays are different, so that the X-ray image can clearly show the fine structure inside a detected sample, therefore, the defects of the internal structure, the circuit and the like of the lithium battery can be detected by adopting an X-ray detector, most of the existing X-ray detectors do not have a positioning function, workers or external transfer mechanisms cannot quickly pick and place products to be detected, further the working efficiency is affected, and meanwhile, the degree of automation is low, the operation is complicated, the manual operation intervention is more, the visual positioning and automatic navigation detection functions are mostly not provided, and the detection efficiency is low.

Disclosure of Invention

The utility model aims to provide X-ray detection equipment for a coiled battery, which is provided with an indication positioning mechanism, so that a worker can conveniently and quickly place a product to be detected at a preset detection position through the indication positioning mechanism, the detection efficiency is improved, and meanwhile, the X-ray detection equipment is also provided with a visual navigation mechanism, has an intelligent navigation detection function, and is high in automation degree and detection efficiency, reasonable in overall design, compact in structure, simple and convenient to operate and strong in practicability.

In order to achieve the above purpose, the following technical scheme is adopted:

the X-ray detection equipment for the wound battery comprises a bearing device, an X-ray emitting device arranged below the bearing device and an X-ray receiving device arranged above the bearing device; a visual navigation mechanism and an indication positioning mechanism are also arranged above the bearing device; the indication positioning mechanism comprises a positioning mounting plate, a rotary fixing seat connected with one side of the positioning mounting plate, a rotary block which is arranged on the rotary fixing seat and can do rotary motion relative to the rotary fixing seat, and a laser positioner which is arranged on the rotary block.

Further, a first mounting cavity penetrating to the bottom of the rotary fixing seat is formed in the top of the rotary fixing seat, and a pin shaft is further arranged between the upper parts of the two sides of the first mounting cavity; the rotating block is arranged in the first mounting cavity, and the upper part of the rotating block is rotationally connected with the rotating fixing seat through a pin shaft; the laser positioner is arranged at the bottom of the rotating block.

Further, the outer walls of the two sides of the rotary fixing seat are respectively provided with an arc-shaped guide slot hole communicated with the first installation cavity, and a locking hole is further formed in the position, corresponding to the arc-shaped guide slot hole, of one side of the rotary block.

Further, the visual navigation mechanism comprises two fixed clamping seats, a mounting pillar connected between the two fixed clamping seats, an adjusting clamping block mounted on the mounting pillar, and a camera component mounted on the adjusting clamping block.

Further, the visual navigation mechanism further comprises a left-right angle adjusting plate and a front-back angle adjusting plate; the left-right angle adjusting plate and the front-back angle adjusting plate are of L-shaped structures; the L-shaped transverse end of the left and right angle adjusting plate is provided with a first arc-shaped adjusting slot hole, and the left and right angle adjusting plate is arranged on the adjusting clamping block through the first arc-shaped adjusting slot hole; the L-shaped transverse end of the front-rear angle adjusting plate is connected with the L-shaped vertical end of the left-right angle adjusting plate through the second arc-shaped adjusting slot; the camera component is detachably arranged on the L-shaped vertical end of the front-back angle adjusting plate.

Further, the bearing device comprises a Y-axis translation mechanism, an X-axis translation mechanism connected with the Y-axis translation mechanism, and a bearing platform connected with the X-axis translation mechanism and used for bearing a product to be detected.

Further, the x-ray emission device comprises an emission installation frame, a first lifting mechanism arranged on one side of the emission installation frame, a first lifting seat connected with the first lifting mechanism, and an x-ray emitter arranged on the first lifting seat.

Further, the x-ray receiving device comprises a receiving installation frame, a second lifting mechanism arranged on one side of the receiving installation frame, a second lifting seat connected with the second lifting mechanism, and an x-ray receiver arranged on the second lifting seat.

Further, the X-ray detection device for the wound battery also comprises a rack; the bearing device, the x-ray transmitting device, the x-ray receiving device and the visual navigation mechanism are all arranged on the frame.

By adopting the scheme, the utility model has the beneficial effects that:

this detection machine is equipped with indicates positioning mechanism, through indicating positioning mechanism, can be convenient for the staff quick put the product that awaits measuring in predetermined testing position, improves detection efficiency, simultaneously, still is equipped with visual navigation mechanism, possesses intelligent navigation and detects the function, degree of automation is high, detection efficiency is high, and whole reasonable in design, compact structure, easy operation are convenient, and the practicality is strong.

Drawings

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a perspective view of the carrying device of the present utility model;

FIG. 3 is a perspective view of the indexing positioning mechanism of the present utility model;

FIG. 4 is a perspective view of the visual navigation mechanism of the present utility model;

FIG. 5 is a perspective view of an x-ray emitting device of the present utility model;

FIG. 6 is a perspective view of an x-ray receiving device of the present utility model;

wherein, the attached drawings mark and illustrate:

1-a carrying device; 2-x-ray emitting means;

3-x-ray receiving means; 4-visual navigation mechanism;

5-an indication positioning mechanism; 6-a frame;

11-Y axis translation mechanism; 12-X axis translation mechanism;

13-a carrying platform; 21-an emission mounting rack;

22-a first lifting mechanism; 23-a first lifting seat;

a 24-x-ray emitter; 25-an emission shield;

31-receiving the mounting frame; 32-a second lifting mechanism;

a 33-x-ray receiver; 34—a receiving shield;

41-a fixed clamping seat; 42-mounting posts;

43-adjusting the clamping blocks; 44-a camera assembly;

45-left and right angle adjusting plates; 46-front-rear angle adjusting plate;

47-a first arc-shaped adjustment slot; 48-a second arc-shaped adjusting slot;

51—positioning a mounting plate; 52-rotating the fixed seat;

53-a rotating block; 54—a first mounting cavity;

55-arc-shaped guide slots; 56-locking holes.

Detailed Description

The utility model will be described in detail below with reference to the drawings and the specific embodiments.

Referring to fig. 1 to 6, the present utility model provides a wound battery X-ray detection apparatus including a carrier 1, an X-ray emitting device 2 disposed below the carrier 1, and an X-ray receiving device 3 disposed above the carrier 1; a visual navigation mechanism 4 and an indication positioning mechanism 5 are also arranged above the bearing device 1; the indication positioning mechanism 5 comprises a positioning mounting plate 51, a rotation fixing seat 52 connected with one side of the positioning mounting plate 51, a rotation block 53 which is arranged on the rotation fixing seat 52 and can rotate relative to the rotation fixing seat, and a laser positioner which is arranged on the rotation block 53.

Wherein, the top of the rotary fixing seat 52 is provided with a first installation cavity 54 penetrating to the bottom thereof, and a pin shaft is also installed between the upper parts of the two sides of the first installation cavity 54; the rotating block 53 is arranged in the first mounting cavity 54, and the upper part of the rotating block 53 is rotatably connected with the rotating fixed seat 52 through a pin shaft; the laser locator is arranged at the bottom of the rotating block 53; the outer walls of the two sides of the rotary fixing seat 52 are respectively provided with an arc-shaped guide slot hole 55 communicated with the first mounting cavity 54, and a locking hole 56 is also formed at the position, corresponding to the arc-shaped guide slot hole 55, of one side of the rotary block 53; the visual navigation mechanism 4 comprises two fixed clamping seats 41, a mounting pillar 42 connected between the two fixed clamping seats 41, an adjusting clamping block 43 arranged on the mounting pillar 42, and a camera component 44 arranged on the adjusting clamping block 43; the visual navigation mechanism 4 further comprises a left-right angle adjusting plate 45 and a front-back angle adjusting plate 46; the left-right angle adjusting plate 45 and the front-rear angle adjusting plate 46 are both in an L-shaped structure; the L-shaped transverse end of the left-right angle adjusting plate 45 is provided with a first arc-shaped adjusting slot 47, and the left-right angle adjusting plate 45 is arranged on the adjusting clamp block 43 through the first arc-shaped adjusting slot 47; the L-shaped transverse end of the front-rear angle adjusting plate 46 is provided with a second arc-shaped adjusting slot 48, and the L-shaped transverse end of the front-rear angle adjusting plate 46 is connected with the L-shaped vertical end of the left-right angle adjusting plate 45 through the second arc-shaped adjusting slot 48; the camera assembly 44 is detachably mounted on the L-shaped vertical end of the front-rear angle adjustment plate 46.

The bearing device 1 comprises a Y-axis translation mechanism 11, an X-axis translation mechanism 12 connected with the Y-axis translation mechanism 11, and a bearing platform 13 connected with the X-axis translation mechanism 12 and used for bearing a product to be detected; the x-ray emission device 2 comprises an emission installation frame 21, a first lifting mechanism 22 arranged on one side of the emission installation frame 21, a first lifting seat 23 connected with the first lifting mechanism 22, and an x-ray emitter 24 arranged on the first lifting seat 23; the x-ray receiving device 3 comprises a receiving installation frame 31, a second lifting mechanism 32 arranged on one side of the receiving installation frame 31, a second lifting seat connected with the second lifting mechanism 32, and an x-ray receiver 33 arranged on the second lifting seat; the X-ray detection equipment of the wound battery also comprises a rack 6; the bearing device 1, the x-ray transmitting device 2, the x-ray receiving device 3 and the visual navigation mechanism 4 are all arranged on the stand 6.

The working principle of the utility model is as follows:

with continued reference to fig. 1 to 6, in this embodiment, the inspection machine further includes a rack 6, as shown in fig. 1, the x-ray emitting device 2 is installed at a lower portion of the rack 6, and an industrial personal computer is also installed at a lower portion of the rack 6, the carrying device 1 is installed at a middle portion of the rack 6, and is used for carrying a product to be inspected (in this embodiment, the product to be inspected may be a battery of a plurality of different process types), and the x-ray receiving device 3, the visual navigation mechanism 4 and the indication positioning mechanism 5 are all installed at an upper portion of the rack 6; in this embodiment, the laser positioner (may be a laser, a laser positioner, etc.) may transmit a cross cursor (may also be a cursor with other shapes) onto the carrying platform 13 of the carrying mechanism, so as to use this as a positioning point (predetermined detection position), so that a worker places an object to be detected at this position, improving working efficiency, in specific working, firstly, according to the position of the cross cursor sent by the laser positioner, placing a product to be detected at a corresponding position on the carrying platform 13, then, shooting by the vision guide rail mechanism, obtaining positioning position information of the product to be detected, and transmitting the positioning information to the background, after the background is analyzed, providing a corresponding detection path, then controlling the carrying platform 13 via the Y-axis translation mechanism 11 and the X-axis translation mechanism 12, driving the product to be detected to move according to the predetermined detection path, and then completing testing, and the background automatically analyzing whether the product to be detected is an OK product (qualified product) or an NG product (unqualified product) according to the testing result, so that the worker classifies the specific product:

in an embodiment, the Y-axis translation mechanism 11 and the X-axis translation mechanism 12 of the carrying device 1 may adopt a linear motor module, or adopt a motor screw transmission mode to drive the carrying platform 13 to do biaxial translation motion, where the carrying platform 13 is not limited, and may be made of carbon fiber material, so as to avoid scratch damage of the product to be tested; in one embodiment, the first lifting mechanism 22 of the x-ray emission device 2 adopts a transmission mode of a motor, a synchronous belt and a screw rod, so that the lifting stability of the first lifting seat 23 can be ensured; in one embodiment, the two ends of the top of the first lifting seat 23 are respectively provided with a reinforced clamping plate, and the x-ray emitter 24 is arranged between the reinforced clamping plates; in one embodiment, the x-ray emitter 24 includes an emitter housing, an x-ray source mounted within the emitter housing, and an emitter shield 25 disposed on top of the emitter housing (to prevent the x-ray source from being damaged by external impact); in one embodiment, the second lifting mechanism 32 of the x-ray receiving device 3 includes a lifting installation seat, an adjusting screw rod installed in the lifting installation seat, and an adjusting hand wheel installed at one end of the adjusting screw rod, the second lifting seat is connected with the adjusting screw rod, and the second lifting seat can be driven to lift by the adjusting hand wheel and the adjusting screw rod so as to adjust the height of the x-ray receiver 33, so that detection of different multiplying powers is facilitated; in one embodiment, the x-ray receiver 33 includes a flat panel detector or image intensifier, and a receive shield 34 disposed over the x-ray receiver 33.

In one embodiment, two fixing holders 41 of the visual navigation mechanism 4 are installed at intervals on the upper part of the frame 6, and an adjusting clamp block 43 is sleeved on the installation support column 42, in this embodiment, a left-right angle adjusting plate 45 and a front-back angle adjusting plate 46 are provided, so that the left-right and front-back installation angles of the camera assembly 44 can be adjusted (after the corresponding angles are adjusted, screws or other limiting pieces are installed in the first arc-shaped adjusting slotted holes 47 and the second arc-shaped adjusting slotted holes 48, and the two fixing clamp holders are fixed simply and conveniently) so as to adapt to different use requirements; in an embodiment, the rotating block 53 is mounted in the first mounting cavity 54 of the rotating fixing seat 52 through a shaft, and can rotate around the pin shaft to adjust the irradiation angle, and after the angle adjustment is completed, a screw or other locking member can be mounted in the locking hole 56 for locking, which is simple and convenient.

The foregoing description of the preferred embodiment of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (9)

1. The X-ray detection equipment for the wound battery is characterized by comprising a bearing device, an X-ray emitting device arranged below the bearing device and an X-ray receiving device arranged above the bearing device; a visual navigation mechanism and an indication positioning mechanism are also arranged above the bearing device; the indication positioning mechanism comprises a positioning mounting plate, a rotary fixing seat connected with one side of the positioning mounting plate, a rotary block which is arranged on the rotary fixing seat and can do rotary motion relative to the rotary fixing seat, and a laser positioner which is arranged on the rotary block.

2. The X-ray detection apparatus for wound battery according to claim 1, wherein a first installation cavity penetrating to the bottom of the rotary fixing seat is formed at the top of the rotary fixing seat, and a pin shaft is further installed between the upper parts of two sides of the first installation cavity; the rotating block is arranged in the first mounting cavity, and the upper part of the rotating block is rotationally connected with the rotating fixing seat through a pin shaft; the laser positioner is arranged at the bottom of the rotating block.

3. The X-ray detection apparatus for wound battery according to claim 2, wherein the outer walls of both sides of the rotary fixing base are respectively provided with an arc-shaped guide slot hole communicated with the first installation cavity, and a locking hole is further provided at a position corresponding to the arc-shaped guide slot hole at one side of the rotary block.

4. The wound battery X-ray detection apparatus of claim 1, wherein the visual navigation mechanism comprises two fixed clamps, a mounting post connected between the two fixed clamps, an adjustment clamp block mounted on the mounting post, and a camera assembly mounted on the adjustment clamp block.

5. The wound battery X-ray detection apparatus of claim 4, wherein the visual navigation mechanism further comprises a left-right angle adjustment plate, a front-back angle adjustment plate; the left-right angle adjusting plate and the front-back angle adjusting plate are of L-shaped structures; the L-shaped transverse end of the left and right angle adjusting plate is provided with a first arc-shaped adjusting slot hole, and the left and right angle adjusting plate is arranged on the adjusting clamping block through the first arc-shaped adjusting slot hole; the L-shaped transverse end of the front-rear angle adjusting plate is connected with the L-shaped vertical end of the left-right angle adjusting plate through the second arc-shaped adjusting slot; the camera component is detachably arranged on the L-shaped vertical end of the front-back angle adjusting plate.

6. The wound battery X-ray detection apparatus of claim 1, wherein the carrying device comprises a Y-axis translation mechanism, an X-axis translation mechanism coupled to the Y-axis translation mechanism, and a carrying platform coupled to the X-axis translation mechanism and configured to carry a product to be detected.

7. The wound battery X-ray inspection apparatus of claim 1, wherein the X-ray emitting device comprises an emitting mounting frame, a first elevating mechanism mounted on one side of the emitting mounting frame, a first elevating base connected to the first elevating mechanism, and an X-ray emitter mounted on the first elevating base.

8. The wound battery X-ray inspection apparatus of claim 1, wherein the X-ray receiving device comprises a receiving mount, a second elevating mechanism mounted on a side of the receiving mount, a second elevating mount coupled to the second elevating mechanism, and an X-ray receiver mounted on the second elevating mount.

9. The wound battery X-ray detection apparatus of claim 1, further comprising a gantry; the bearing device, the x-ray transmitting device, the x-ray receiving device and the visual navigation mechanism are all arranged on the frame.