CN115183175A

CN115183175A - Diffused light source system based on hyperspectral cable detector

Info

Publication number: CN115183175A
Application number: CN202210663327.1A
Authority: CN
Inventors: 仇群辉; 陆海强; 刘强强; 钱进; 范炜杰; 沈菁菁; 王冬林; 范云涛; 周竹菁
Original assignee: Jiaxing Hengchuang Electric Equipment Co ltd; Jiaxing Power Supply Co of State Grid Zhejiang Electric Power Co Ltd
Current assignee: Jiaxing Hengchuang Electric Equipment Co ltd; Jiaxing Power Supply Co of State Grid Zhejiang Electric Power Co Ltd
Priority date: 2022-06-13
Filing date: 2022-06-13
Publication date: 2022-10-14
Anticipated expiration: 2042-06-13
Also published as: CN115183175B

Abstract

The utility model relates to a cable check out test set's field, especially, relate to a diffuse light source system based on hyperspectral cable detector, the mounting bracket is included, locate the mounting bracket and carry out the light source of illumination to the cable that awaits measuring, there is the interval in light source irradiation direction place straight line and the cable section that awaits measuring, the light source is equipped with and makes light source ejection of light ray carry out diffuse reflection with the diffuse reflection piece on the section of uniform irradiation to the cable that awaits measuring, the light source evenly sets up the array around the cable section that awaits measuring, possess the light that the array light source jetted out behind the diffuse reflection of diffuse reflection piece, can evenly shine to the section of the cable that awaits measuring, make the more accurate effect of testing result.

Description

Diffused light source system based on hyperspectral cable detector

Technical Field

The application relates to the field of cable detection equipment, in particular to a diffuse light source system based on a hyperspectral cable detector.

Background

In order to conveniently detect whether the copper content in the cable conductor reaches the standard or not, a hyperspectral imaging technology is used, namely, a light source system irradiates the section of the cable to be detected, then a hyperspectral imager acquires and analyzes a spectrogram of the cable to be detected, and then the copper content in the cable conductor to be detected is output.

The light source used in the existing detection is generally a linear light source, and the linear light source directly irradiates towards the section of the cable to be detected.

Aiming at the related technologies, bright spots are easily formed when a linear light source directly irradiates the cross section of the cable to be detected, so that the consistency of the spectrum formed by the hyperspectral imager is poor, and the defect that the detection result is greatly influenced exists.

Disclosure of Invention

In order to reduce the influence on the cable detection result, the application provides a diffuse light source system based on a hyperspectral cable detector.

The application provides a diffuse light source system based on hyperspectral cable detector adopts following technical scheme.

The utility model provides a diffused light source system based on hyperspectral cable detector, includes the mounting bracket, locates the mounting bracket and carries out irradiant light source to the cable that awaits measuring, there is the interval in light source irradiation direction place straight line and the cable section that awaits measuring, and the light source is equipped with and makes light source ejection of light carry out the diffuse reflection with the diffuse reflection piece on the section of uniform irradiation to the cable that awaits measuring, and the light source evenly sets up the array around the cable section that awaits measuring.

Through adopting above-mentioned technical scheme, the light that the light source jetted out disperses to form soft light behind the diffuse reflection piece to the light source can not the direct irradiation cable section that awaits measuring, makes the cable section light intensity that awaits measuring be difficult for crossing bright, makes the cable section that awaits measuring be difficult for forming the facula, so that the spectrum uniformity that makes the high spectral imaging appearance form is better, reduces the influence that the cable testing result that awaits measuring received.

Optionally, the mounting bracket includes the frame, can dismantle the installing frame of connecting in the frame, locate the removal frame of installing frame, rotate and connect in installing frame and threaded connection in the removal screw rod that removes the frame, locate the installing frame and make the removal screw rod rotate so that remove the frame along the cable axial displacement's that awaits measuring screw motor, locate and remove the frame and drive the several regulating part of whole light sources along with removing frame synchronous motion.

Through adopting above-mentioned technical scheme, screw motor drives the removal screw rod and rotates for interval between whole light sources and the cable that awaits measuring can obtain certain adjustment, makes after the installation of whole light sources is accomplished, and holistic luminance is comparatively even on the cable section that awaits measuring, but when whole luminance is on the high side or on the low side, can carry out the adjustment that suits.

Optionally, each adjusting portion includes a slot rod disposed on the moving frame, a monotonic screw rod rotatably connected to the slot rod, a screw rod block in threaded connection with the monotonic screw rod and slidably connected to the slot rod and driving a corresponding light source to move along the axial direction of the cable to be tested, and a screw knob rotatably connected to the slot rod and driving the monotonic screw rod to rotate.

By adopting the technical scheme, the screw knob is rotated, so that the monotonic screw is rotated, the screw block can drive one corresponding light source to move synchronously, and the corresponding light source can be adjusted independently when illumination brightness is uneven at a certain position corresponding to the end face of the cable to be measured.

Optionally, the light source is rotatably connected to the screw rod block, the light source rotation axis direction is perpendicular to the axis direction of the cable to be measured, a worm wheel coaxially and fixedly connected to the light source rotation axis is rotatably connected to the screw rod block, the worm wheel is meshed with a worm rotatably connected to the screw rod block, and the worm is coaxially and fixedly connected with a worm knob exposed out of the screw rod block.

By adopting the technical scheme, the worm knob is rotated, so that the worm, the worm wheel and the light source synchronously rotate, and when the corresponding light source cannot meet the regulation requirement only by moving along the axial direction of the cable to be measured, the irradiation angle of the light source can be properly adjusted, so that one part or the whole illumination brightness on the section of the cable to be measured can be adjusted in a larger range.

Optionally, the light source sets up the peripheral department of diffuse reflection piece and rotates to be connected in the screw block, and the grooved bar is located and moves frame one side department that deviates from the installing frame, and the diffuse reflection piece flushes in the installing frame and keeps away from a side surface of frame.

Through adopting above-mentioned technical scheme for at light source pivoted in-process, the difficult part of light that the light source jetted out can receive blockking of installing frame, makes the light source be difficult more directly shine to the cable that awaits measuring on.

Optionally, the light sources are arranged in four groups, and two light sources are arranged in each group.

Through adopting above-mentioned technical scheme, set the light source into four groups and every group is two to the light source number as far as possible satisfies the sectional even illumination requirement of cable that awaits measuring, and the sectional illumination luminance of cable that awaits measuring also is difficult too bright or too dark can be better adjust in the illumination intensity interval that is fit for.

Optionally, the two groove rods corresponding to the light sources in the same group are detachably connected to one screw rod block, the two screw rod blocks corresponding to the two light sources in the same group are in threaded connection with the same two-way screw rod, the length direction of the two-way screw rod is the radial direction of the cable to be tested, the thread directions of the two sides of the central point of the two-way screw rod are opposite, the two screw rod blocks connected with the same two-way screw rod are respectively located at the positions with equal distance on the two sides of the central point of the two-way screw rod, and the end parts of the two-way screw rod are coaxially and fixedly connected with a screw rod knob.

Through adopting above-mentioned technical scheme, rotate the lead screw knob for two-way lead screw rotates and is close to or keeps away from in order to drive two lead screw blocks that correspond synchronous mutually, makes two light sources of the same group can be close to or keep away from mutually, to the cable that awaits measuring of the great different models of radius difference, can make the adjustment of adaptability, makes the illumination luminance on the cable section that awaits measuring can obtain the adjustment that suits.

Optionally, each slot rod can be slidably connected to the screw block along the length direction of the corresponding bidirectional screw.

Through adopting above-mentioned technical scheme for when detecting the heterotypic sectional cable that awaits measuring, can be to the heterotypic section of the cable that awaits measuring, the slotted rod that the independent adjustment corresponds for the light source that the slotted rod corresponds can make the position change that corresponds, and the illumination that receives can be more even with better messenger heterotypic sectional cable that awaits measuring.

Optionally, the groove rod is provided with an end groove, the inner wall of the end groove is connected to the screw rod block in a sliding mode along the length direction of the bidirectional screw rod, and the screw rod block is in threaded connection with a fastening bolt capable of abutting against the groove rod.

Through adopting above-mentioned technical scheme for when the adjustment of individual light source is carried out, fastening bolt unscrew for the grooved bar can remove, and the lead screw piece receives fastening bolt's injecing simultaneously in the end groove, makes the light source can only follow two-way lead screw length direction and stabilize the removal, screws fastening bolt after removing to target in place.

Optionally, one side department that the installing frame was kept away from to the frame can dismantle and be connected with fan frame, and fan frame can evenly dismantle and be connected with the several with the radiator fan that the hot-air between fan frame and the installing frame sent out.

Through adopting above-mentioned technical scheme for a large amount of heats that produce at the time of several light source during operation can in time be sent away by cooling fan, so that the light source can stably carry out work in the testing process.

In summary, the present application includes at least one of the following benefits:

1. the light intensity of the section of the cable to be detected is not too bright, so that the section of the cable to be detected is not easy to form light spots, the spectrum formed by the hyperspectral imager is better in consistency, and the influence on the detection result of the cable to be detected is reduced;

2. after all the light sources are installed, the overall brightness of the cross section of the cable to be measured is uniform, and when the overall brightness is higher or lower, the adjustment can be carried out adaptively.

Drawings

FIG. 1 is a schematic view of the main structure of the present application as viewed from a side of the mounting frame;

FIG. 2 is a schematic view with the fan frame removed to better show the structure between the fan frame and the mounting frame;

FIG. 3 is a schematic diagram of the associated structure at one light source;

fig. 4 is an enlarged view of fig. 2 at a.

Description of reference numerals: 1. a mounting frame; 2. a light source; 21. a connecting rod; 22. a waist-shaped opening; 23. a wire port; 24. a screw block chute; 25. a sheet cover; 26. a light-transmitting hole; 27. a screw knob; 3. a diffuse reflection sheet; 31. a worm; 32. a worm knob; 33. a lead screw block; 34. a bidirectional lead screw; 35. a lead screw knob; 36. an end slot; 37. fastening a bolt; 38. a fan frame; 39. a heat radiation fan; 4. a frame; 41. installing a frame; 42. moving the frame; 43. moving the screw; 44. a screw motor; 45. a slot bar; 46. an adjustment section; 47. a monotonous screw; 48. a screw block; 49. a worm gear.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses diffuse light source system based on hyperspectral cable detector, refer to fig. 1, include through the inside mounting bracket 1 that can dismantle the connection of going on of screw and hyperspectral cable detector, mounting bracket 1 is vertical, the horizontal center line direction of mounting bracket 1 is unanimous with the cable axis direction that awaits measuring, mounting bracket 1 evenly encircles around the horizontal center line of self and installs four group's light source 2, light source 2 can be the halogen lamp, every group light source 2 sets up two, four sides of four group's light source 2 one-to-ones of group square, two sets of vertical radial arrangement of cable that awaits measuring and the remaining two sets of horizontal radial arrangement of cable that awaits measuring promptly.

Refer to fig. 2 and 3, a side department laminating of every light source 2 ejection of light has diffuse reflection piece 3, diffuse reflection piece 3 can be atomizing glass, make the light that light source 2 jetted out carry out diffuse reflection, every light source 2's direction of illumination all is towards in mounting bracket 1 and slightly towards in the cable section one side slope that awaits measuring, make the light that light source 2 jetted out shine to the cable that awaits measuring on luminance be difficult for crossing bright and even, light source 2 sets up 3 departments of diffuse reflection piece and pegs graft and has piece lid 25, piece lid 25 passes through screw detachable connection in light source 2, piece lid 25 supports tightly in the surface that diffuse reflection piece 3 deviates from light source 2, piece lid 25 runs through and has seted up light trap 26, light trap 26 radius is less than diffuse reflection piece 3, for the light that passes through diffuse reflection piece 3 can shine smoothly in light trap 26.

Referring to fig. 1 and 2, the mounting frame 1 includes a vertical frame 4, a horizontal center line direction of the frame 4 is consistent with an axis direction of a cable to be tested, the frame 4 has a plurality of line ports 23 formed therethrough, a power line of a corresponding light source 2 in each line port 23 is penetrated, the frame 4 is detachably connected with a mounting frame 41 near a vertical side of the cable to be tested through screws, the mounting frame 41 is vertical and has a horizontal center line consistent with a horizontal center line of the frame 4, a distance between an inner periphery and an outer periphery of the mounting frame 41 is much larger than a distance between the inner periphery and the outer periphery of the frame 4, the light source 2 is located at a vertical side of the mounting frame 41 away from the cable to be tested, a moving frame 42 which is vertical is installed at one side of the mounting frame 41 facing the light source 2, a horizontal center line of the moving frame 42 is consistent with a horizontal center line of the mounting frame 41, the moving frame 42 is slidably connected to an inner wall of the frame 4 along the horizontal center line of the mounting frame, four corners of the mounting frame 41 are rotatably connected with moving screws 43, a length direction of the moving screw 43 is consistent with a horizontal center line of the mounting frame 41, the moving screw 43 is connected to the moving frame 42 through four screws, and the screw rod 42, and the screw rod is connected to a movable frame 42, and a movable motor 44, and a movable screw rod 42 capable of moving motor capable of moving along with four screws so that the screw rod 42 and moving the screw rod can move the screw rod 42.

Referring to fig. 2 and 4, the movable frame 42 is rotatably connected with four bidirectional screws 34 towards the vertical side of the light source 2, each bidirectional screw 34 corresponds to a group of light sources 2, the length direction of each bidirectional screw 34 is consistent with the setting direction of a corresponding group of light sources 2, the thread directions of two sides of the central point of each bidirectional screw 34 are opposite, the two sides of the central point of each bidirectional screw 34 are in equal threaded connection with screw blocks 33 at equal intervals, the screw blocks 33 are attached to the vertical surface of the movable frame 42 to slide, each screw block 33 corresponds to one light source 2, one end of each bidirectional screw 34 is coaxially and fixedly connected with a screw knob 35, the screw knob 35 is rotated, the bidirectional screws 34 are rotated, two screw blocks 33 corresponding to the same bidirectional screw 34 are close to or far away from each other, the interval between two corresponding light sources 2 in the same group can be adjusted, and when the radius of the cable to be measured is greatly changed, the illumination uniformity of the section of the cable to be measured can be adjusted. The lead screw knob 35 can also be replaced with a stepper motor.

Referring to fig. 2 and 3, the moving frame 42 is provided with a plurality of adjusting portions 46 for driving all the light sources 2 to synchronously move along with the moving frame 42, each adjusting portion 46 includes eight groups of two groove rods 45 installed on one side of each screw rod block 33, the length direction of each groove rod 45 is consistent with the horizontal central line direction of the moving frame 42, a connecting rod 21 is integrally formed between one ends of the two groove rods 45 in the same group close to the screw rod block 33, the same end groove 36 is formed between the connecting rod 21 and the two corresponding groove rods 45, the end groove 36 penetrates through opposite sides of the two corresponding groove rods 45, the inner wall of the end groove 36 is slidably connected to the screw rod block 33 along the length direction of the two-way screw rod 34, a waist-shaped opening 22 is formed in the side of the connecting rod 21 facing the horizontal central line of the moving frame 42, the waist-shaped opening 22 is communicated with the end groove 36, the length direction of the waist-shaped opening 22 is consistent with the length direction of the two-way screw rod 34, the screw rod block 33 is in threaded connection with a fastening bolt 37, the fastening bolt 37 penetrates through the corresponding waist-shaped opening 22, the head of the fastening bolt 37 can be tightly attached to the side of the connecting rod 21, so that the side of the connecting rod 21 is not easy to move along the corresponding groove rods 45.

Referring to fig. 2 and 4, each light source 2 is located between a corresponding set of two channel bars 45, the adjusting portion 46 further includes eight sets of two-in-one screw blocks 48, two peripheral symmetrical positions of the side surface of the light emitted by the light source 2 are respectively and rotatably connected with one screw block 48, two screw blocks 48 in the same set are respectively and slidably connected with one set of two channel bars 45 in the corresponding set, each channel bar 45 is penetrated along the length direction thereof to be provided with a screw block sliding groove 24, the screw block 48 is slidably connected with the inner wall of the screw block sliding groove 24 along the length direction of the corresponding screw block sliding groove 24, one channel bar 45 in two channel bars 45 in the same set is rotatably connected with a monotone screw 47, the monotone screw 47 is penetrated along the length direction of the corresponding channel bar 45 and is in threaded connection with the corresponding screw block 48, one end of the channel bar 45 provided with the screw block sliding groove 24 far away from the moving frame 42 is rotatably connected with a screw knob 27, the screw knob 27 is coaxially and fixedly connected with the monotone screw 47, the screw 27 is rotated, and the screw bar 27 can drive a corresponding light source 2 to move. The screw knob 27 can also be replaced by a stepping motor.

Referring to fig. 3, a worm wheel 49 is rotatably connected to one screw block 48 far away from the monotonic screw 47 in the same group, the worm wheel 49 is coaxially and fixedly connected to a rotation point of the light source 2, the worm wheel 49 is engaged with the worm 31 rotatably connected to the inside of the screw block 48, the outer wall of the screw block 48 exposed out of the corresponding screw block chute 24 is rotatably connected with the worm knob 32, the worm knob 32 is coaxially and fixedly connected to the worm 31, and the worm knob 32 is rotated to rotate the worm 31 and the worm wheel 49, so that the irradiation angle of the light source 2 can be correspondingly adjusted. The worm knob 32 can also be replaced by a stepper motor.

Referring to fig. 1, the fan frame 38 is detachably connected to one side of the frame 4 away from the mounting frame 41 through screws, the specification of the fan frame 38 is consistent with that of the mounting frame 41, the four corners of the fan frame 38 are detachably connected with the cooling fans 39 through screws, and the cooling fans 39 discharge heat accumulated between the mounting frame 41 and the fan frame 38, generated when the four light sources 2 work, in time through an air extraction mode. And the length of the inner side peripheral edge of the movable frame 42 is greater than that of the inner side peripheral edge of the installation frame 41, and the diffuse reflection sheet 3 is always positioned between the fan frame 38 and the installation frame 41, so that the diffuse reflection sheet 3 does not exceed the corresponding inner peripheral edge of the installation frame 41, and light rays emitted by the light source 2 are not easy to directly irradiate on a cable to be measured.

The implementation principle of the diffuse light source system based on the hyperspectral cable detector is as follows: the light that light source 2 jetted out carries out the diffuse reflection through diffuse reflection piece 3, make the light that light source 2 jetted out softer, the while is relegated and is removed frame 42 and drive whole light source 2 along the bulk movement of the cable axis direction that awaits measuring, and rotate screw knob 27 to the removal of single light source 2 along the cable axis direction that awaits measuring, rotate the rotation of the adjustment of contained angle between worm knob 32 to single light source 2 central line and the cable axis that awaits measuring, rotate the synchronous adjustment of lead screw knob 35 to interval between two light sources 2 of the same group, loosen fastening bolt 37 soon to the unilateral adjustment of interval between two light sources 2 of the same group, make the illumination that the section of the cable that awaits measuring received more even, luminance is more suitable.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a diffused light source system based on hyperspectral cable detector, includes mounting bracket (1), locates mounting bracket (1) and carries out irradiant light source (2) to the cable that awaits measuring, its characterized in that: light source (2) irradiation direction place straight line and the cable section that awaits measuring have the interval, and light source (2) are equipped with and make light source (2) emit light and carry out diffuse reflection with diffuse reflection piece (3) on the section of evenly shining the cable that awaits measuring, and light source (2) are around the cable section that awaits measuring evenly to set up the array.

2. The diffuse light source system based on the hyperspectral cable detector as claimed in claim 1, wherein: mounting bracket (1) includes frame (4), can dismantle and connect in installing frame (41) of frame (4), locate removal frame (42) of installing frame (41), rotate and connect in installing frame (41) and threaded connection in removal screw rod (43) of removing frame (42), locate installing frame (41) and make removal screw rod (43) rotate so that remove frame (42) along the screw motor (44) of awaiting measuring cable axial displacement, locate and remove frame (42) and drive whole light source (2) along with removing several regulating part (46) of frame (42) synchronous motion.

3. The diffuse light source system based on the hyperspectral cable detector as claimed in claim 2, wherein: every regulation portion (46) all including locating slot pole (45) that remove frame (42), rotate monotonous screw rod (47) of connecting in slot pole (45), threaded connection in monotonous screw rod (47) and sliding connection in slot pole (45) and drive corresponding light source (2) along the screw rod piece (48) that awaits measuring cable axial displacement, rotate and connect in slot pole (45) and drive monotonous screw rod (47) pivoted screw knob (27).

4. The hyperspectral cable detector-based diffused light source system according to claim 3, wherein: the light source (2) is rotatably connected to the screw block (48), the rotating axis direction of the light source (2) is perpendicular to the axis direction of a cable to be tested, a worm wheel (49) which is coaxially and fixedly connected to the rotating shaft of the light source (2) is rotatably connected to the screw block (48), the worm wheel (49) is meshed with a worm (31) which is rotatably connected to the screw block (48), and the worm (31) is coaxially and fixedly connected with a worm knob (32) which is exposed out of the screw block (48).

5. The hyperspectral cable detector-based diffused light source system according to claim 4, wherein: light source (2) set up the periphery department rotation of diffuse reflection piece (3) and connect in screw block (48), and grooved bar (45) are located and move frame (42) and deviate from installing frame (41) one side department, and diffuse reflection piece (3) flush and keep away from a side surface of frame (4) in installing frame (41).

6. The hyperspectral cable detector-based diffused light source system according to claim 3, wherein: the light sources (2) are arranged in four groups, and each group comprises two light sources.

7. The hyperspectral cable detector-based diffused light source system according to claim 6, wherein: two with the group equal detachable of channel bar (45) that light source (2) correspond is connected with a lead screw piece (33), two lead screw pieces (33) that two light sources (2) of the same group correspond have same two-way lead screw (34), two-way lead screw (34) length direction is the radial of the cable that awaits measuring, the screw direction of two-way lead screw (34) central point both sides is opposite, two lead screw pieces (33) that same two-way lead screw (34) are connected are located two-way lead screw (34) central point both sides equidistance department respectively, the coaxial fixedly connected with lead screw knob (35) of two-way lead screw (34) tip.

8. The hyperspectral cable detector-based diffused light source system according to claim 7, wherein: each groove rod (45) can be connected to the screw rod block (33) in a sliding mode along the length direction of the corresponding bidirectional screw rod (34).

9. The hyperspectral cable detector-based diffuse light source system according to claim 8, wherein: an end groove (36) is formed in the groove rod (45), the inner wall of the end groove (36) is connected to the screw rod block (33) in a sliding mode along the length direction of the bidirectional screw rod (34), and the screw rod block (33) is in threaded connection with a fastening bolt (37) capable of abutting against the groove rod (45).

10. The diffuse light source system based on the hyperspectral cable detector as claimed in claim 2, wherein: frame (4) are kept away from one side department of installing frame (41) and can be dismantled and be connected with fan frame (38), and fan frame (38) can evenly be dismantled and be connected with several cooling fan (39) that send out the hot-air between fan frame (38) and installing frame (41).