CN212301276U - Wire scanning detection lighting assembly for surface defects of silk ingots - Google Patents

Abstract

The utility model belongs to the technical field of the silk spindle check out test set, especially, relate to a detection lighting assembly is swept to silk spindle surface defect line. The utility model discloses, the setting is in spindle transmission path department and be located by line scanning mechanism, including setting up in spindle transmission path one side and to the line scanning light source of spindle side emission line type light. The utility model discloses a set up the line and sweep the light source, can throw light on to the spindle surface and detect, the line sweeps the line type light of light source and is on a parallel with spindle axis or both form the contained angle in the projection axis of spindle side, and the projection of line type light in the spindle side extends to the other end from spindle one end, guarantee to examine time measuring at the illumination, can not take place to omit the spindle surface, whether for discover the spindle surface has disconnected silk and external defect, sweep light source installation component through multidimension degree adjustable line simultaneously and make things convenient for staff to adjust position and the angle of sweeping the light source to the line, avoid appearing the illumination and detect the dead angle, the practicality is higher, the adjustment is simple and convenient.

Description

Wire scanning detection lighting assembly for surface defects of silk ingots

Technical Field

The utility model belongs to the technical field of the silk spindle check out test set, a detection lighting assembly is swept to silk spindle surface defect line is related to.

Background

At present, the appearance of a chemical fiber spindle is affected by flaws on the chemical fiber spindle, the grade of the spindle is also affected, and even a yarn breaking phenomenon occurs, so that a downstream production link is affected. At present, when general detection equipment detects the surface of a silk ingot, because the lighting effect is poor, the detection dead angle is easy to appear, and the position and the angle of the existing lighting device are difficult to adjust, so that the practicability is lower.

In order to overcome the defects of the prior art, people continuously explore and provide various solutions, for example, a chinese patent discloses a chemical fiber spindle rotation detection mechanism [ application number: 201820691027.3], including the lift owner seat, first crossbeam and second crossbeam, be provided with the module section bar along vertical direction on the lift owner seat, the module section bar is kept away from the one side of lift owner seat and is fixed with the module mounting panel, one side that the module section bar was kept away from to the module mounting panel is provided with the shaft coupling seat, the upper end of shaft coupling seat is provided with servo motor, the inside of shaft coupling seat is provided with the shaft coupling, servo motor's expansion end runs through behind the shaft coupling seat with the upper end fixed connection of shaft coupling, the lower extreme of shaft coupling is connected with three and grabs the cylinder, be provided with three movable clamping jaw on the three cylinder of grabbing, be fixed with a grabs. The mechanism can drive the chemical fiber spindle to horizontally rotate when detecting the external defects of the chemical fiber spindle, so that each part of the chemical fiber spindle is recorded by a camera fixed outside. However, the scheme still has the defects of poor lighting effect, easy occurrence of detection dead angles, difficulty in adjusting the position and the angle of the detection equipment and low practicability.

Disclosure of Invention

The utility model aims at the above-mentioned problem, a detection lighting assembly is swept to silk spindle surface defect line is provided.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

the utility model provides a detection lighting components is swept to silk spindle surface defect line, sets up in silk spindle transmission path department and be located the line scanning mechanism by side, including setting up in silk spindle transmission path one side and sweeping the light source to the line of silk spindle side emission line type light, the line sweep the line type light of light source and be on a parallel with silk spindle axis or both form the contained angle at the projection axis of silk spindle side, and the projection of line type light in silk spindle side extends to the other end from silk spindle one end, the line sweep the light source and sweep light source installation component setting in the frame through multidimension degree adjustable line.

In foretell filament spindle surface defect line is swept and is detected lighting components, the line sweep light source installation component including the line sweep light source fixing base, the line sweep the light source and fix and hang and establish on the line sweep light source fixing base, the line sweep light source fixing base and link to each other with horizontal sliding rod through first lockable connecting seat, horizontal sliding rod extend towards the filament spindle, horizontal sliding rod pass through second lockable connecting seat and vertical slide bar and link to each other, vertical slide bar fix in the frame.

In the filament surface defect line scanning detection lighting assembly, a first lockable connecting seat is provided with a first C-shaped hole, a horizontal sliding rod is cylindrical and penetrates through the first C-shaped hole, and a locking part which folds the first C-shaped hole and tightly holds the horizontal sliding rod is arranged on the first lockable connecting seat; the second lockable connecting seat is provided with a second C-shaped hole, the horizontal sliding rod penetrates through the second C-shaped hole, and a locking piece which folds the second C-shaped hole and tightly holds the horizontal sliding rod is arranged on the second lockable connecting seat; the second lockable connecting seat on be equipped with third C type hole, vertical slide bar be cylindrical and wear to locate in the third C type hole, second lockable connecting seat on be equipped with and draw in the retaining member of third C type hole and hold vertical slide bar tightly.

In the above-mentioned detection lighting assembly is swept to filament spindle surface defect line, vertical slide bar on still be equipped with and be located the line and sweep light source top and towards the last light filling lamp of filament spindle, last light filling lamp be the bar and at horizontal extension.

In foretell filament spindle surface defect line is swept and is detected lighting components, last light filling lamp fix on last light filling lamp stand, last light filling lamp stand one end be fixed with the first horizontal slide bar of horizontal extension, first horizontal slide bar pass through third lockable connecting seat and link to each other with the horizontal slide bar of second, and the axis of first horizontal slide bar and the horizontal slide bar of second forms the contained angle, the horizontal slide bar of second pass through fourth lockable connecting seat with vertical slide bar links to each other.

In the filament surface defect line scanning detection lighting assembly, a fourth C-shaped hole is formed in the third lockable connecting seat, the first transverse sliding rod is cylindrical and penetrates through the fourth C-shaped hole, and a locking piece which folds the fourth C-shaped hole and tightly holds the first transverse sliding rod is arranged on the third lockable connecting seat; the third lockable connecting seat is also provided with a fifth C-shaped hole, the second transverse sliding rod is cylindrical and penetrates through the fifth C-shaped hole, and a locking piece which folds the fifth C-shaped hole and tightly holds the second transverse sliding rod is arranged on the third lockable connecting seat; a sixth C-shaped hole is formed in the fourth lockable connecting seat, the second transverse sliding rod penetrates through the sixth C-shaped hole, and a locking piece which folds the sixth C-shaped hole and tightly holds the second transverse sliding rod is arranged on the fourth lockable connecting seat; the fourth lockable connecting seat is also provided with a seventh C-shaped hole, the vertical sliding rod penetrates through the seventh C-shaped hole, and a locking piece which folds the seventh C-shaped hole and tightly holds the vertical sliding rod is arranged on the fourth lockable connecting seat.

In foretell detection lighting components is swept to silk spindle surface defect line, the line sweep light source below and be equipped with the lower light filling lamp towards the silk spindle, lower light filling lamp be the bar and transversely extend, lower light filling lamp pass through the lower light filling installation component setting of multidimension degree adjustable in the frame.

In foretell filament spindle surface defect line is swept and is detected lighting components, lower light filling installation component include light filling lamp stand down, lower light filling lamp fix on light filling lamp stand down, lower light filling lamp stand on be fixed with first keysets, first keysets on the horizontal rotation of lockable ground be connected with the second keysets, the second keysets fix on fifth lockable connecting seat, fifth lockable connecting seat link to each other with vertical lower light filling slide bar that sets up in the frame.

In the wire scanning detection lighting assembly for the surface defects of the filament ingots, at least one first sliding groove extending horizontally is arranged on the first adapter plate, at least one second sliding groove extending horizontally is arranged on the second adapter plate, an included angle is formed by central axes of the first sliding groove and the second sliding groove, and the first sliding groove and the second sliding groove are locked through a fastener; the fifth lockable connecting seat on be equipped with eighth C type hole, lower light filling slide bar wear to locate in the eighth C type hole, the fifth lockable connecting seat on be equipped with and draw in eighth C type hole and hold the retaining member of light filling slide bar down tightly.

In the filament surface defect line scanning detection illumination assembly, a backlight source which is positioned above a line scanning light source is also arranged right above the filament transmission channel, and the backlight source is a surface light source and is connected with the frame through a multi-dimensional adjustable backlight source installation assembly.

Compared with the prior art, the utility model has the advantages of:

1. the utility model discloses a set up the line and sweep the light source, can throw light on to the spindle surface and detect, the line sweeps the line type light of light source and is on a parallel with spindle axis or both form the contained angle in the projection axis of spindle side, and the projection of line type light in the spindle side extends to the other end from spindle one end, guarantee to examine time measuring at the illumination, can not take place to omit the spindle surface, whether for discover the spindle surface has disconnected silk and external defect, sweep light source installation component through multidimension degree adjustable line simultaneously and make things convenient for staff to adjust position and the angle of sweeping the light source to the line, avoid appearing the illumination and detect the dead angle, the practicality is higher, the adjustment is simple and convenient.

2. The utility model discloses a light filling lamp and lower light filling lamp in setting play and carry out the effect of light filling to silk spindle top and bottom, avoid silk spindle top and bottom shade to cause and detect the inaccuracy and not complete, the light filling area is sufficient, and the light filling effect is better.

3. The utility model discloses a set up backlight source and can provide even background light source, the light source is comparatively even, further improves the accuracy that detects.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

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

Fig. 2 is a schematic structural view in another direction of the present invention.

Fig. 3 is a schematic structural view of a line-scanning light source mounting assembly.

Fig. 4 is a schematic view of a partial structure of the present invention.

In the figure: the optical fiber cable transmission device comprises a fiber spindle transmission channel 1, a line scanning mechanism 2, a line scanning light source 3, a line scanning light source installation component 4, a rack 5, a line scanning light source fixing seat 6, a first lockable connecting seat 7, a horizontal sliding rod 8, a second lockable connecting seat 9, a vertical sliding rod 10, an upper light supplement lamp 11, an upper light supplement lamp seat 12, a first transverse sliding rod 13, a third lockable connecting seat 14, a second transverse sliding rod 15, a fourth lockable connecting seat 16, a lower light supplement lamp 17, a lower light supplement installation component 18, a lower light supplement lamp seat 19, a first adapter plate 20, a second adapter plate 21, a fifth lockable connecting seat 22, a lower light supplement sliding rod 23, a first sliding groove 24, a second sliding groove 25, a backlight source 26, a backlight source installation component 27 and a fiber spindle 100.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in fig. 1, 2, 3, and 4, a filament ingot surface defect line scanning detection illumination assembly is disposed at a filament ingot transmission channel 1 and located beside a line scanning mechanism 2, and includes a line scanning light source 3 disposed at one side of the filament ingot transmission channel 1 and emitting line-type light to a side surface of a filament ingot 100, a projection central axis of the line-type light of the line scanning light source 3 at the side surface of the filament ingot 100 is parallel to a central axis of the filament ingot 100 or forms an included angle therebetween, a projection of the line-type light at the side surface of the filament ingot 100 extends from one end of the filament ingot 100 to the other end thereof, and the line scanning light source 3 is disposed on a frame 5 through a multi-dimensionally adjustable line scanning light source mounting assembly 4.

In this embodiment, when the filament spindle 100 moves through the filament spindle transmission channel 1, the light source 3 is swept through the line to carry out illumination detection on the surface of the filament spindle, the line is swept to form an included angle in which the line type light of the light source 3 is parallel to the central axis of the filament spindle 100 or in which the line type light forms an included angle, and the projection of the line type light on the side of the filament spindle 100 extends from one end of the filament spindle 100 to the other end, so as to ensure that the omission does not occur on the surface of the filament spindle 100 when illumination detection is carried out, so as to find out whether the filament spindle has a broken filament and an external defect on the surface of the filament spindle, and meanwhile, the light source installation assembly 4 is swept through the multi-dimensional adjustable line to facilitate the adjustment of the position and the angle of the light source.

As shown in fig. 1, 3 and 4, the line-scanning light source installation assembly 4 includes a line-scanning light source fixing seat 6, the line-scanning light source 3 is fixedly suspended on the line-scanning light source fixing seat 6, the line-scanning light source fixing seat 6 is connected with a horizontal sliding rod 8 through a first lockable connecting seat 7, the horizontal sliding rod 8 extends towards a filament spindle 100, the horizontal sliding rod 8 is connected with a vertical sliding rod 10 through a second lockable connecting seat 9, and the vertical sliding rod 10 is fixed on a frame 5.

Specifically, the linear scanning light source fixing seat 6 is used for fixing the linear scanning light source 3, the position of the linear scanning light source 3 close to or far away from one end of the filament spindle can be quickly adjusted by adjusting the position of the first lockable connecting seat 7 on the horizontal sliding rod 8, and the position of the linear scanning light source 3 in the vertical direction can be quickly adjusted by adjusting the position of the second lockable connecting seat 9 on the vertical sliding rod 10.

As shown in fig. 3, a first C-shaped hole is formed in the first lockable connecting seat 7, the horizontal sliding rod 8 is cylindrical and penetrates through the first C-shaped hole, and a locking member for folding the first C-shaped hole and tightly holding the horizontal sliding rod 8 is arranged on the first lockable connecting seat 7; a second C-shaped hole is formed in the second lockable connecting seat 9, the horizontal sliding rod 8 penetrates through the second C-shaped hole, and a locking piece which folds the second C-shaped hole and tightly holds the horizontal sliding rod 8 is arranged on the second lockable connecting seat 9; second lockable connecting seat 9 on be equipped with third C type hole, vertical slide bar 10 be cylindrical and wear to locate in the third C type hole, second lockable connecting seat 9 on be equipped with and draw in third C type hole and hold tightly the retaining member of vertical slide bar 10.

In this embodiment, the retaining member all plays fixed position's effect, when needs adjusting position, with the retaining member loosen can, adjust the back that finishes, with the retaining member fastening fixed can, first C type hole, second C type hole and third C type hole make things convenient for first lockable connecting seat 7, second lockable connecting seat 9 to carry out position control, avoid at the adjusting position in-process, angular deviation appears.

Referring to fig. 1 and 3, an upper light supplement lamp 11 located above the linear scanning light source 3 and facing the filament ingot 100 is further disposed on the vertical sliding rod 10, and the upper light supplement lamp 11 is strip-shaped and extends in the transverse direction.

In this embodiment, go up light filling lamp 11 and play the effect of carrying out the light filling to the spindle top, avoid the spindle top shade to cause and detect the inaccuracy and not complete face, go up light filling lamp 11 and be the bar and at horizontal extension, the light filling area is sufficient, and the light filling effect is better.

It is shown in fig. 3 that combine, last light filling lamp 11 fix on last light filling lamp stand 12, last light filling lamp stand 12 one end be fixed with the first horizontal slide bar 13 of horizontal extension, first horizontal slide bar 13 link to each other with the horizontal slide bar 15 of second through third lockable connecting seat 14, and the axis of first horizontal slide bar 13 and the horizontal slide bar 15 of second forms the contained angle, the horizontal slide bar 15 of second through fourth lockable connecting seat 16 with vertical slide bar 10 links to each other.

In this embodiment, when the position of light filling lamp 11 in needs adjustment, the position of light filling lamp 11 can be adjusted fast through the position of removing third lockable connecting seat 14 or fourth lockable connecting seat 16, and it is convenient simple to adjust, and the practicality is stronger.

Referring to fig. 2 and 3, a fourth C-shaped hole is formed in the third lockable connecting seat 14, the first transverse sliding rod 13 is cylindrical and penetrates through the fourth C-shaped hole, and a locking member for drawing the fourth C-shaped hole and tightly holding the first transverse sliding rod 13 is arranged on the third lockable connecting seat 14; the third lockable connecting seat 14 is further provided with a fifth C-shaped hole, the second transverse sliding rod 15 is cylindrical and penetrates through the fifth C-shaped hole, and the third lockable connecting seat 14 is provided with a locking piece which folds the fifth C-shaped hole and tightly holds the second transverse sliding rod 15; a sixth C-shaped hole is formed in the fourth lockable connecting seat 16, the second transverse sliding rod 15 penetrates through the sixth C-shaped hole, and a locking piece which folds the sixth C-shaped hole and tightly holds the second transverse sliding rod 15 is arranged on the fourth lockable connecting seat 16; fourth lockable connecting seat 16 on still be equipped with seventh C type hole, vertical slide bar 10 wear to locate in the seventh C type hole, fourth lockable connecting seat 16 on be equipped with and draw in seventh C type hole and hold the retaining member of vertical slide bar 10 tightly.

Specifically speaking, fourth C type hole, fifth C type hole, sixth C type hole and seventh C type hole make things convenient for third lockable connecting seat 14, fourth lockable connecting seat 16 to carry out position control, avoid at the adjusting position in-process, angular deviation appears, after the adjustment, the retaining member plays the effect of fixed locking.

Referring to fig. 2 and 4, a lower light supplement lamp 17 facing the spindle 100 is arranged below the line scanning light source 3, the lower light supplement lamp 17 is strip-shaped and extends transversely, and the lower light supplement lamp 17 is arranged on the rack 5 through a multi-dimensional adjustable lower light supplement mounting assembly 18.

In this embodiment, lower light filling lamp 17 plays the effect of carrying out the light filling to the spindle bottom, avoids the spindle bottom shade to appear to cause and detect the inaccuracy and not completely, and lower light filling lamp 17 is the bar and transversely extends, and the light filling area is sufficient, and the light filling effect is better, and light filling installation component 18 can make things convenient for the position and the angle of light filling lamp 17 under the quick adjustment under the multidimension degree adjustable, and the adjustment is simple and convenient.

As shown in fig. 4, the lower light supplement mounting assembly 18 includes a lower light supplement lamp holder 19, the lower light supplement lamp 17 is fixed to the lower light supplement lamp holder 19, a first adapter plate 20 is fixed to the lower light supplement lamp holder 19, the first adapter plate 20 is horizontally connected to a second adapter plate 21 in a rotatable manner, the second adapter plate 21 is fixed to a fifth lockable connecting seat 22, and the fifth lockable connecting seat 22 is connected to a lower light supplement sliding rod 23 vertically arranged on the frame 5.

In this embodiment, when the angle of light filling lamp 17 under needs to be adjusted, through the normal running fit between first keysets 20 and the second keysets 21, adjust the angle of first keysets 20 and light filling lamp 17 down, when the upper and lower position of light filling lamp 17 under needs to be adjusted, through adjusting fifth lockable connecting seat 22 for fifth lockable connecting seat 22 removes along 23 axial directions of light filling slide bar down, can carry out the adjustment of position about light filling lamp 17 carries out fast.

Referring to fig. 4, the first adapter plate 20 is provided with at least one first sliding groove 24 extending horizontally, the second adapter plate 21 is provided with at least one second sliding groove 25 extending horizontally, an included angle is formed between central axes of the first sliding groove 24 and the second sliding groove 25, and the first sliding groove 24 and the second sliding groove 25 are locked by a fastener; fifth lockable connecting seat 22 on be equipped with eighth C type hole, lower light filling slide bar 23 wear to locate in the eighth C type hole, fifth lockable connecting seat 22 on be equipped with and draw in eighth C type hole and hold down the retaining member of light filling slide bar 23 tightly.

In this embodiment, the angle of light filling lamp 17 under first spout 24 and the convenient adjustment of second spout 25, the angle deviation can be avoided appearing at the removal in-process in fifth lockable connecting seat 22 in eighth C type hole.

As shown in fig. 1, a backlight source 26 located above the line scanning light source 3 is further disposed right above the filament conveying channel 1, the backlight source 26 is a surface light source and is connected to the frame 5 through a multi-dimensional adjustable backlight source mounting assembly 27, the backlight source 26 can provide a uniform background light source, the light source is uniform, the detection accuracy is further improved, and when the position and the angle of the backlight source 26 need to be adjusted, the adjustment can be performed quickly through the multi-dimensional adjustable backlight source mounting assembly 27.

The utility model discloses a theory of operation is:

when the filament spindle 100 moves through the filament spindle transmission channel 1, the light source 3 is swept through the line to carry out illumination detection on the surface of the filament spindle, the line sweeps the projection central axis of the line type light of the light source 3 to the side of the filament spindle 100 to be parallel to the central axis of the filament spindle 100 or to form an included angle between the projection central axis and the projection central axis, and the projection of the line type light to the side of the filament spindle 100 extends from one end of the filament spindle 100 to the other end, so that the illumination detection time can be ensured, omission can not happen on the surface of the filament spindle 100, whether the filament surface has broken filaments and external defects can be found, meanwhile, the light source installation component 4 is swept through the line with the adjustable multiple dimensions, so that a worker can adjust the position and the angle of the light source.

Light source fixing base 6 is swept to line and is used for fixed line to sweep light source 3, and through adjusting the position of first lockable connecting seat 7 on horizontal sliding rod 8, but quick adjustment line sweeps light source 3 to the position that is close to or keeps away from silk spindle one end, through adjusting the position on vertical slide bar 10 of second lockable connecting seat 9, but quick adjustment line sweeps light source 3 in the position of vertical direction.

The upper light supplement lamp 11 plays a role in supplementing light to the top of the spindle, so as to avoid the shadow appearing on the top of the spindle, thereby causing inaccurate and incomplete detection, the upper light supplement lamp 11 is strip-shaped and extends transversely, the light supplement area is sufficient, the light supplement effect is good, when the position of the upper light supplement lamp 11 needs to be adjusted, the position of the upper light supplement lamp 11 can be quickly adjusted by moving the position of the third lockable connecting seat 14 or the fourth lockable connecting seat 16, the adjustment is convenient and simple, the practicability is strong, the lower light supplement lamp 17 plays a role in supplementing light to the bottom of the spindle, the shadow is prevented from appearing at the bottom of the spindle, thereby cause and detect the inaccuracy and not complete, lower light filling lamp 17 is the bar and at horizontal extension, and the light filling area is sufficient, and the light filling effect is better, and light filling installation component 18 can make things convenient for position and the angle of light filling lamp 17 under the quick adjustment under the multidimension degree adjustable, and the adjustment is simple and convenient.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein will be apparent to those skilled in the art without departing from the spirit of the invention.

Although the terms of the filament spindle transmission channel 1, the line scanning mechanism 2, the line scanning light source 3, the line scanning light source installation component 4, the frame 5, the line scanning light source fixing seat 6, the first lockable connecting seat 7, the horizontal sliding rod 8, the second lockable connecting seat 9, the vertical sliding rod 10, the upper supplementary light lamp 11, the upper supplementary light lamp holder 12, the first horizontal sliding rod 13, the third lockable connecting seat 14, the second horizontal sliding rod 15, the fourth lockable connecting seat 16, the lower supplementary light lamp 17, the lower supplementary light installation component 18, the lower supplementary light lamp holder 19, the first adapter plate 20, the second adapter plate 21, the fifth lockable connecting seat 22, the lower supplementary light sliding rod 23, the first sliding groove 24, the second sliding groove 25, the backlight source 26, the backlight source installation component 27, the filament spindle 100, and the like are used more often, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention and should not be interpreted as imposing any additional limitations that are contrary to the spirit of the present invention.

Claims (10)

1. The utility model provides a detection lighting components is swept to silk spindle surface defect line, sets up and just is located line scanning mechanism (2) by silk spindle transmission path (1), its characterized in that, including setting up in silk spindle transmission path (1) one side and sweep light source (3) to the line of silk spindle (100) side emission line type light, the line sweep the line type light of light source (3) and be on a parallel with silk spindle (100) axis or both form the contained angle at the projection axis of silk spindle (100) side, and the projection of line type light in silk spindle (100) side extends to the other end from silk spindle (100) one end, line sweep light source installation component (4) through multidimension adjustable line and set up on frame (5) light source (3) are swept to the line.

2. The wire scanning detection lighting assembly for the surface defects of the silk ingots according to claim 1, wherein the wire scanning light source installation assembly (4) comprises a wire scanning light source fixing seat (6), the wire scanning light source (3) is fixedly suspended on the wire scanning light source fixing seat (6), the wire scanning light source fixing seat (6) is connected with a horizontal sliding rod (8) through a first lockable connecting seat (7), the horizontal sliding rod (8) extends towards the silk ingots (100), the horizontal sliding rod (8) is connected with a vertical sliding rod (10) through a second lockable connecting seat (9), and the vertical sliding rod (10) is fixed on the rack (5).

3. The wire scanning detection illumination assembly for the surface defects of the silk ingots according to claim 2, wherein a first C-shaped hole is formed in the first lockable connecting seat (7), the horizontal sliding rod (8) is cylindrical and penetrates through the first C-shaped hole, and a locking member which folds the first C-shaped hole and tightly holds the horizontal sliding rod (8) is arranged on the first lockable connecting seat (7); a second C-shaped hole is formed in the second lockable connecting seat (9), the horizontal sliding rod (8) penetrates through the second C-shaped hole, and a locking piece which folds the second C-shaped hole and tightly holds the horizontal sliding rod (8) is arranged on the second lockable connecting seat (9); second lockable connecting seat (9) on be equipped with third C type hole, vertical slide bar (10) be cylindrical and wear to locate in the third C type hole, second lockable connecting seat (9) on be equipped with and draw in third C type hole and hold the retaining member of vertical slide bar (10) tightly.

4. The filament spindle surface defect line scanning detection lighting assembly according to claim 2, wherein an upper light supplement lamp (11) which is located above the line scanning light source (3) and faces the filament spindle (100) is further arranged on the vertical sliding rod (10), and the upper light supplement lamp (11) is strip-shaped and extends transversely.

5. The filament surface defect line scanning detection lighting assembly according to claim 4, wherein the upper light supplement lamp (11) is fixed on an upper light supplement lamp holder (12), one end of the upper light supplement lamp holder (12) is fixed with a first transverse sliding rod (13) extending transversely, the first transverse sliding rod (13) is connected with a second transverse sliding rod (15) through a third lockable connecting seat (14), an included angle is formed between central axes of the first transverse sliding rod (13) and the second transverse sliding rod (15), and the second transverse sliding rod (15) is connected with the vertical sliding rod (10) through a fourth lockable connecting seat (16).

6. The wire scanning detection illumination assembly for the surface defects of the silk ingots according to claim 5, wherein a fourth C-shaped hole is formed in the third lockable connecting seat (14), the first transverse sliding rod (13) is cylindrical and penetrates through the fourth C-shaped hole, and a locking member for closing the fourth C-shaped hole and tightly holding the first transverse sliding rod (13) is arranged on the third lockable connecting seat (14); the third lockable connecting seat (14) is also provided with a fifth C-shaped hole, the second transverse sliding rod (15) is cylindrical and penetrates through the fifth C-shaped hole, and a locking piece which folds the fifth C-shaped hole and tightly holds the second transverse sliding rod (15) is arranged on the third lockable connecting seat (14); a sixth C-shaped hole is formed in the fourth lockable connecting seat (16), the second transverse sliding rod (15) penetrates through the sixth C-shaped hole, and a locking piece which folds the sixth C-shaped hole and tightly holds the second transverse sliding rod (15) is arranged on the fourth lockable connecting seat (16); the fourth lockable connecting seat (16) is further provided with a seventh C-shaped hole, the vertical sliding rod (10) penetrates through the seventh C-shaped hole, and a locking piece which folds the seventh C-shaped hole and tightly holds the vertical sliding rod (10) is arranged on the fourth lockable connecting seat (16).

7. The filament ingot surface defect line scanning detection lighting assembly according to any one of claims 1 to 6, wherein a lower light supplement lamp (17) facing the filament ingot (100) is arranged below the line scanning light source (3), the lower light supplement lamp (17) is strip-shaped and extends transversely, and the lower light supplement lamp (17) is arranged on the rack (5) through a multi-dimensional adjustable lower light supplement mounting assembly (18).

8. The filament surface defect line scanning detection lighting assembly according to claim 7, wherein the lower light supplement mounting assembly (18) comprises a lower light supplement lamp holder (19), the lower light supplement lamp (17) is fixed on the lower light supplement lamp holder (19), a first adapter plate (20) is fixed on the lower light supplement lamp holder (19), the first adapter plate (20) is connected with a second adapter plate (21) in a lockable horizontal rotating mode, the second adapter plate (21) is fixed on a fifth lockable connecting seat (22), and the fifth lockable connecting seat (22) is connected with a lower light supplement sliding rod (23) vertically arranged on the rack (5).

9. The wire spindle surface defect line scanning detection lighting assembly according to claim 8, wherein at least one first sliding groove (24) extending horizontally is formed in the first adapter plate (20), at least one second sliding groove (25) extending horizontally is formed in the second adapter plate (21), an included angle is formed between central axes of the first sliding groove (24) and the second sliding groove (25), and the first sliding groove (24) and the second sliding groove (25) are locked through a fastener; fifth lockable connecting seat (22) on be equipped with eighth C type hole, lower light filling slide bar (23) wear to locate in the eighth C type hole, fifth lockable connecting seat (22) on be equipped with and draw in eighth C type hole and hold the retaining member of light filling slide bar (23) down tightly.

10. The wire ingot surface defect line scanning detection illumination assembly according to any one of claims 1 to 6, wherein a backlight source (26) positioned above the line scanning light source (3) is further arranged right above the wire ingot conveying channel (1), and the backlight source (26) is a surface light source and is connected with the frame (5) through a multi-dimensional adjustable backlight source mounting assembly (27).

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