CN212031293U - Target self-adaptive visible near-infrared detection light source posture adjusting device - Google Patents
Target self-adaptive visible near-infrared detection light source posture adjusting device Download PDFInfo
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- CN212031293U CN212031293U CN202020823181.9U CN202020823181U CN212031293U CN 212031293 U CN212031293 U CN 212031293U CN 202020823181 U CN202020823181 U CN 202020823181U CN 212031293 U CN212031293 U CN 212031293U
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Abstract
The utility model relates to a target self-adaptive visible near-infrared detection light source posture adjusting device, which comprises a panel, wherein a fixed plate is arranged above the panel in parallel and is connected with the panel in a sliding way through a bracket structure; the fixed plate is provided with an installation through groove, the edge of the installation through groove is provided with a plurality of light source modules, and each light source module is respectively and rotatably connected with the edge of the installation through groove; the panel is equipped with the integrating sphere with the corresponding position of installation logical groove, and the light that the light source module sent passes the fruit that awaits measuring and reachs the integrating sphere, and the integrating sphere sets signal processing mechanism, and signal processing mechanism is used for carrying out the analysis in order to obtain the detection map to the light that the integrating sphere collected. This near-infrared fruit detection device can realize the regulation to light intensity through opening the light source module of different quantity, and the emergent light angle of light source module can be adjusted in a flexible way, and application scope is wider. In addition, the three-dimensional adjustment of the position of the light source module can be realized through the support structure, and the precision and the efficiency of the position adjustment are improved.
Description
Technical Field
The utility model relates to a fruit detects technical field, in particular to visible near-infrared detection light source gesture adjusting device of target self-adaptation.
Background
The traditional fruit quality detection method belongs to destructive detection, and has the disadvantages of complex sample pretreatment operation, long detection period and strong subjectivity. Therefore, the rapid nondestructive testing technology is gradually becoming the mainstream of the fruit industry testing. In recent years, the visible-near infrared spectrum technology has better spectrum transmittance and smaller influence of detection parameters on detection precision, and the same detection parameter can almost adapt to quality detection of most small thin-skinned fruits under full spectrum transmission, so that the visible-near infrared spectrum technology is better applied. However, for different large thick-skinned fruits, the passability of nondestructive detection signals is relatively poor due to factors such as large difference of fruit shapes, complex internal structure, more cellulose content and the like, and quality detection can only be completed by adopting a semi-transmission mode at present. The semi-transmission detection process requires that visible-near infrared light pass through the fruit interior as much as possible to carry more internal quality information, and also needs to reduce the attenuation of the spectral signal in the fruit as much as possible. In order to achieve the required detection effect, higher requirements are provided for adjusting light source parameters, such as light source angle, illumination intensity, distance between a light source and a target, and the like, and accurate detection data cannot be obtained if any light source parameter is inappropriate. At present, the adjustment process of the light source parameters is mainly realized through manual adjustment, for example, a tester directly changes the placement position of light source equipment to achieve the purposes of adjusting the angle of the light source and changing the distance between the light source and a target; or by placing a plurality of light source devices to achieve the purpose of increasing the illumination intensity. The light source parameter adjusting device directly achieves the purpose of adjusting the light source parameters by manually moving the light source device, is relatively low in accuracy, is easy to introduce human errors, needs to consume a large amount of manpower and material resources in the whole adjusting process, and is not beneficial to reduction of the detection cost. Therefore, it is very important to develop a near-infrared fruit detection device with freely adjustable light source position.
SUMMERY OF THE UTILITY MODEL
In order to solve the technical problems, the utility model provides a target self-adaptive visible near-infrared detection light source posture adjusting device, which comprises a horizontally arranged panel, wherein the panel is used for placing fruits to be detected, a fixed plate is arranged above the panel in parallel, and the fixed plate is connected with the panel in a sliding way through a bracket structure; the fixing plate is provided with an installation through groove, the edge of the installation through groove is provided with a plurality of light source modules, and each light source module is respectively and rotatably connected with the edge of the installation through groove; the panel is equipped with the integrating sphere that is used for collecting light with the corresponding position of installation logical groove, the light that the light source module sent passes the fruit that awaits measuring and arrives the integrating sphere, the integrating sphere sets signal processing mechanism, signal processing mechanism is used for carrying out the analysis in order to obtain the detection map to the light that the integrating sphere collected.
Furthermore, the light source module includes the lamp body and the lamp stand that links to each other with the lamp body, the lamp stand sets up U type seat, the lamp stand rotates and sets up in U type seat, U type seat passes through the marginal position that carousel mechanism set up in the logical groove of installation.
Furthermore, the lamp holder is provided with a mounting through hole, the mounting through hole is perpendicular to the axis of the lamp holder, a rotating shaft is arranged in the mounting through hole, the two ends of the U-shaped seat are respectively provided with a first fixing hole and a second fixing hole matched with the rotating shaft, one end of the rotating shaft penetrates through the first fixing hole and the first motor, and the other end of the rotating shaft penetrates through the second fixing hole and is connected with the bearing seat.
Further, carousel mechanism includes circular revolving stage and sets up the annular fixed station in the circular revolving stage outside, circumference sliding connection is followed to the lateral surface of circular revolving stage and the medial surface of annular fixed station, circular revolving stage one side and U type seat fixed connection, the opposite side sets the second motor, the second motor is used for driving circular revolving stage at the internal rotation of annular fixed station, the annular fixed station leads to the marginal fixed connection in groove with the installation.
Furthermore, the medial surface of annular fixed station is equipped with the annular groove, and the annular groove sets up along the circumference of annular fixed station, the lateral surface of circular revolving stage be equipped with a plurality of with annular groove assorted slider, a plurality of sliders evenly set up along the circumference of circular revolving stage.
Furthermore, the support structure comprises two support components arranged on two opposite sides of the fixing plate, and each support component comprises a first support arm, a second support arm, a third support arm and a fourth support arm; the third supporting arm and the fourth supporting arm are respectively and fixedly arranged on the panel and are parallel to each other; the second support arm is arranged in parallel with the panel, two ends of the second support arm are respectively connected with the third support arm and the fourth support arm in a sliding manner, and the second support arm is arranged vertically to the third support arm and the fourth support arm; the first supporting arm is perpendicular to the panel, and the corresponding one end of first supporting arm and panel slides and sets up on the second supporting arm, first supporting arm is equipped with the spout with the corresponding one side of fixed plate, be equipped with on the fixed plate with spout assorted slider.
Furthermore, a first driving device is arranged on the first supporting arm and used for driving the fixing plate to slide on the first supporting arm; the second supporting arm is provided with a second driving device in a matching way, and the second driving device is used for driving the first supporting arm to slide on the second supporting arm; and a third driving device is arranged on the third supporting arm and used for driving the second supporting arm to slide on the third supporting arm and the fourth supporting arm.
Further, the panel still is equipped with the electricity cabinet case with fixed plate back of the body one side mutually, be equipped with control button on the electricity cabinet case, control button is used for realizing the automatically regulated to the light source module position.
Furthermore, the panel still is equipped with the dust cover body in one side of carrying on the back mutually with the electricity cabinet case, the dust cover body can be dismantled with the panel and be connected.
Furthermore, the electric cabinet box and the dustproof cover body are respectively provided with a plurality of cooling fans.
The utility model discloses the beneficial technological effect who plays as follows:
compared with the prior art, the utility model discloses a visible near-infrared detection light source gesture adjusting device of target self-adaptation, this near-infrared fruit detection device set up a plurality of light source modules simultaneously through the edge that leads to the groove in the installation for in the testing process, operating personnel can select the quantity of opening the light source module as required, thereby realize the regulation to light source intensity. Meanwhile, each light source module is rotatably installed on the U-shaped seat through the rotating shaft, and the U-shaped seat is connected to the edge position of the through groove through the turntable mechanism, so that the light emitting angle of each light source module has flexible adjustability, and the detection requirements of various fruits are met. In addition, the fixed plate among this near-infrared fruit detection device links to each other with the panel through the supporting structure who has triaxial position regulatory function, has realized adjusting by a wide margin light source module spatial position, has simplified the regulation degree of difficulty of light source module greatly, has improved position control's precision and efficiency, is convenient for realize the accurate detection to the fruit that awaits measuring.
Drawings
Fig. 1 is a schematic view of an overall structure of a target adaptive visible near-infrared detection light source posture adjustment device in embodiment 1.
Fig. 2 is a schematic view showing a connection relationship between the light source module, the fixing plate, the supporting structure, the panel and the integrating sphere in embodiment 1.
Fig. 3 is a schematic view illustrating a rotational connection relationship between the light source module and the U-shaped seat in embodiment 1.
Fig. 4 is a schematic view of the turntable mechanism in embodiment 1.
FIG. 5 is a schematic view showing a connection relationship between the light source module, the U-shaped base and the turntable mechanism in embodiment 1.
FIG. 6 is a schematic diagram showing the position relationship among the light source module, the fixing plate, the supporting structure, the panel and the cabinet in embodiment 1
Reference numerals:
1-panel, 2-fixing plate, 3-installation through groove, 4-light source module, 5-integrating sphere, 6-signal processing mechanism, 7-U-shaped seat, 8-rotary table mechanism, 9-electric cabinet box, 10-control button, 11-dustproof cover body, 12-heat dissipation fan, 13-first supporting arm, 14-second supporting arm, 15-third supporting arm, 16-fourth supporting arm, 17-connecting rod, 18-rotating shaft, 19-first motor, 20-bearing seat, 21-first screw hole, 22-circular rotary table, 23-annular fixing table, 24-second screw hole, 25-second motor and 26-third screw hole.
The drawings are for illustrative purposes only and are not to be construed as limiting the patent; for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted; the same or similar reference numerals correspond to the same or similar parts; the terms describing positional relationships in the drawings are for illustrative purposes only and are not to be construed as limiting the patent.
Detailed Description
The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the invention easier to understand for those skilled in the art and will therefore make the scope of the invention more clearly defined.
Example 1:
as shown in fig. 1-2, the present embodiment provides a target-adaptive visible near-infrared detection light source posture adjustment device, which includes a horizontally disposed panel 1, where the panel 1 is used for placing fruits to be detected. The fixed plate 2 is arranged above the panel 1 in parallel, the distance between the fixed plate 2 and the panel 1 is greater than the height of the fruit to be measured, and the fixed plate 2 is connected with the panel 1 in a sliding mode through a support structure so as to achieve adjustability of the position of the fixed plate 2. The installation has been seted up on fixed plate 2 and has been led to groove 3, and the installation leads to groove 3 and be circular, is located the central point of fixed plate 2 and puts, and the edge that the groove 3 was led to in the installation is equipped with a plurality of light source module 4, and a plurality of light source module 4 evenly set up along the edge that the groove 3 was led to in the installation. In this embodiment, 12 light source modules 4 are disposed at the edge of the through groove 3, and the light source modules 4 are halogen lamps. Each light source module 4 is connected with the edge rotation of installing through groove 3 respectively, and light source module 4 can realize pitch angle regulation promptly and control the regulation of angle. The panel 1 has seted up the mounting hole in leading to groove 3 corresponding position with the installation, and the mounting hole internal fixation is equipped with at least one integrating sphere 5 that is used for collecting light, and 5 preferred 4 of integrating sphere quantity, 4 integrating spheres 5 symmetry settings in the mounting hole, and set up under leading to groove 3 in the installation. The light emitted by the light source module 4 can pass through the fruit to be measured and reach the integrating sphere 5. Signal processing means 6 is disposed in integrating sphere 5. In this embodiment, the signal processing mechanism 6 is a computer device equipped with corresponding processing software, and the integrating sphere 5 is connected to the computer device through an optical fiber. The integrating sphere 5 transmits the collected light energy to the signal processing mechanism 6, and the signal processing mechanism 6 analyzes the light collected by the integrating sphere 5 to obtain a detection spectrum.
As shown in fig. 3, the light source module 4 preferably includes a lamp body and a lamp holder connected to the lamp body, the lamp holder is provided with a U-shaped seat 7, the lamp holder is rotatably disposed in the U-shaped seat 7, and the U-shaped seat 7 is disposed at an edge position of the installation through groove 3 through a rotating disc mechanism 8. In this embodiment, a mounting through hole is formed in the lamp holder, the mounting through hole is perpendicular to the axis of the lamp holder, and a rotating shaft 18 is inserted into the mounting through hole. The two ends of the U-shaped seat 7 are respectively provided with a first fixing hole and a second fixing hole which are matched with the rotating shaft 18, one end of the rotating shaft 18 penetrates through the first fixing hole to be connected with the first motor 19, and the other end of the rotating shaft 18 penetrates through the second fixing hole to be connected with the bearing seat 20. In practical use, the first motor 19 drives the light source module 4 to rotate in the U-shaped seat 7 through the rotating shaft 18, so as to adjust the pitch angle of the light source module 4.
As shown in fig. 4 and 5, preferably, the turntable mechanism 8 includes a circular turntable 22 and an annular fixed table 23 disposed outside the circular turntable 22, and an outer side surface of the circular turntable 22 is slidably connected to an inner side surface of the annular fixed table 23 in a circumferential direction, that is, the circular turntable 22 can rotate in the circumferential direction inside the annular fixed table 23. One side of the circular rotary table 22 is fixedly connected with the U-shaped seat 7, the other side of the circular rotary table is provided with a second motor 25, the second motor 25 is used for driving the circular rotary table 22 to rotate in the annular fixed table 23, and the annular fixed table 23 is fixedly connected with the edge of the installation through groove 3. In this embodiment, the inner side surface of the annular fixed table 23 is provided with an annular groove, the annular groove is arranged along the circumferential direction of the annular fixed table 23, the outer side surface of the circular turntable 22 is provided with a plurality of sliders matched with the annular groove, the plurality of sliders are evenly arranged along the circumferential direction of the circular turntable 22, and the circular turntable 22 is arranged in the annular fixed table 23 through the rotation of the sliders. Of course, the connection structure between the circular turntable 22 and the annular fixing table 23 is not limited to the annular groove and the sliding block, for example, the outer side surface of the circular turntable 22 may also be provided with an annular protrusion along the circumferential direction, so that the annular protrusion and the annular groove are matched to realize the sliding connection therebetween, which is not limited herein. In this embodiment, be equipped with two first screw 21 on the U type seat 7, be equipped with on the circular revolving stage 22 with first screw 21 assorted second screw 24, U type seat 7 passes through double-screw bolt and circular revolving stage 22 fixed connection, just third screw 26 has still been seted up on the annular fixed station 23, the marginal position department that the groove 3 was led to in the installation seted up with third screw 26 assorted fourth screw, annular fixed station 23 passes through the fixed edge that sets up at the groove 3 that leads to in the installation of double-screw bolt, and annular fixed station 23 sets up in fixed plate 2 and panel 1 one side of carrying on the back mutually with the back of the body.
As shown in fig. 1, 2 and 6, the supporting structure preferably includes two supporting members disposed at opposite sides of the fixing plate 2, and the two supporting members are used to fix the fixing plate 2 above the panel 1 in parallel. Each support assembly includes a first support arm 13, a second support arm 14, a third support arm 15, and a fourth support arm 16. The third support arm 15 and the fourth support arm 16 are respectively fixed on the panel 1 and are parallel to each other, and the third support arm 15 and the fourth support arm 16 which are parallel to each other are used as an X-axis slide arm. The second support arm 14 is arranged in parallel with the panel 1, two ends of the second support arm 14 are respectively connected with the third support arm 15 and the fourth support arm 16 in a sliding manner, the second support arm 14 is vertically arranged with the third support arm 15 and the fourth support arm 16, and the second support arm 14 serves as a Y-axis sliding arm. First support arm 13 sets up with panel 1 is perpendicular, and first support arm 13 slides with the corresponding one end of panel 1 and sets up on second support arm 14, and first support arm 13 is equipped with the spout in one side corresponding with fixed plate 2, be equipped with on fixed plate 2 with spout assorted slider, fixed plate 2 can be followed the axis direction of first support arm 13 and slided, first support arm 13 is as Z axle slide arm. In this embodiment, install first guide rail on third support arm 15 and the fourth support arm 16 respectively, the both ends of second support arm 14 are equipped with the first spout with first guide rail assorted, the second guide rail is installed with the corresponding one side of first support arm 13 to second support arm 14, first support arm 13 is equipped with the second spout with second guide rail assorted with the corresponding one end of panel 1. Of course, the sliding connection of the third support arm 15, the fourth support arm 16 and the second support arm 14, and the sliding connection of the second support arm 14 and the first support arm 13 are not limited to the above connection structure, and all the sliding connections should be within the protection scope as long as the sliding connections can be realized. In addition, a first driving device is also arranged on the first supporting arm 13 and used for driving the fixing plate 2 to slide on the first supporting arm 13; a second driving device is arranged on the second supporting arm 14 and is used for driving the first supporting arm 13 to slide on the second supporting arm 14; a third driving device is provided on the third support arm 15, and the third driving device is used for driving the second support arm 14 to slide on the third support arm 15 and the fourth support arm 16. In this embodiment, the first driving device, the second driving device and the third driving device are cylinders.
As shown in fig. 1 and 6, preferably, the panel 1 is further provided with an electric cabinet box 9 on the side opposite to the fixing plate 2, the electric cabinet box 9 is provided with a plurality of control buttons 10, and the control buttons 10 are used for automatically adjusting the position of the light source module 4. In this embodiment, be equipped with 12 on-off control buttons on the electric cabinet, 12 on-off control buttons respectively with 12 light source module electric connection, 12 on-off control buttons are used for controlling 12 light source module's switch and luminance, still be equipped with 2 motor control buttons and 3 drive arrangement control buttons on the electric cabinet 9 in addition, wherein 2 motor control buttons respectively with first motor 19 and second motor 25 control connection, and 3 drive arrangement control buttons then respectively with first drive arrangement, second drive arrangement and third drive arrangement control connection. In this embodiment, the control connection between each light source module 4, the first motor 19, the second motor 25, the first driving device, the second driving device, and the third driving device and the corresponding control button 10 can be realized by a control circuit board in the prior art, and the control circuit board is relatively mature in technology and is not described herein again. Of course, the control circuit board is not the only way to implement control connection, and other control connection manners adopted between the control button 10 and the light source module 4, the first motor 19, the second motor 25, the first driving device, the second driving device, and the third driving device also fall within the protection scope of the present solution, which is not limited herein.
As shown in fig. 1, as preferred, panel 1 still is equipped with the dust cover body 11 in the one side of carrying on the back with the electricity cabinet case 9, and the dust cover body 11 can be dismantled with panel 1 and be connected, if joint, spiro union etc. seted up operating window on the dust cover body 11, operating window is convenient for wait putting into or taking out of fruit, is furnished with the lid on the operating window, and the lid rotates with the dust cover body 11 to be connected. Still be provided with a plurality of radiator fan 12 on electric cabinet case 9 and the dust cover body 11 respectively to avoid the inside temperature of the dust cover body 11 to rise, influence normal testing process.
The near-infrared fruit detection device disclosed by the embodiment is used as follows:
taking the pineapple as an example of the fruit to be measured for specific description, the pineapple to be measured needs to be placed on the panel 1 and placed between the light source module and the 4 integrating sphere 5. Then the angle of the light source, the distance between the light source and the fruit to be detected and the illumination intensity are adjusted so as to adapt to the batch detection of the follow-up fruit. In the process of adjusting the angle of the light source, the light source and the fruit to be measured are controlled firstlyThe distance between the upper surfaces was 40cm, the illumination intensity was 100W, and the initial value of the light source angle was set to 25 degrees, while keeping these two parameters constant. The light source angle here refers to an acute angle between the light emitted from the light source module 4 and the surface of the fruit to be measured. Under the condition that the light source angle is 25 degrees, the signal processing mechanism 6 acquires the first detection map Y1. Then under the condition that other parameters are not changed, the angle of the light source is increased by 5 degrees (the increment of the angle of the light source can be freely set according to the requirement), and then the signal processing mechanism 6 is utilized to obtain a second detection map Y2Then the first detection spectrum Y is detected1And a second detection pattern Y2Comparing and calculating a second detection map Y2Relative to the first detection pattern Y1Transmittance increase amplitude RYD. Wherein R isYD=(RY2-RY1)/RY1*100%,RYDFor increasing the amplitude of the transmission, RY2Is a second detection pattern Y2Of (b) and RY1Is the first detection spectrum Y1The transmittance of (2). Meanwhile, respectively counting the first detection atlas Y1And a second detection pattern Y2Characteristic number R ofN1And RN2And calculating a second detection spectrum Y2Relative to the first detection pattern Y1By a characteristic number increase amplitude RND,RND=(RN2-RN1)/RN1100%. The characteristic number here refers to the number of peaks and valleys. If R isYD> 5% and RND> -5%, continue to increase the light source angle by 5 degrees and repeat the above analysis process until RYDLess than or equal to 5% or RNDLess than or equal to-5%, the transmission increase range R is consideredYDAnd the characteristic number increase amplitude RNDThe sensitivity to the variation of the light source angle is reduced, and the light source angle at that moment is regarded as the optimal light source angle. And after the angle of the light source is adjusted, continuously adjusting the illumination intensity. In the process of adjusting the illumination intensity, the angle of the light source is kept to be the optimal angle of the light source, the distance between the light source and the upper surface of the fruit to be measured is kept to be 40cm, and the fruit to be measured is turned on under the condition that the two parameters are not changed12 halogen lamps, and the initial value of the light intensity of each halogen lamp is set to 100 w. Then the pineapple to be detected is placed between the light source module 4 and the integrating sphere 5, and a third detection spectrum Y is obtained by the signal processing mechanism 63Then, under the condition that other parameters are not changed, the illumination intensity of each light source module 4 is increased to 200w, and the signal processing mechanism 6 is used again to obtain the fourth detection map Y4. Comparing the third detection pattern Y3And a fourth detection pattern Y4Further, the fourth detection pattern Y is obtained using the above-mentioned transmittance increase amplitude calculation formula and the feature quantity increase amplitude calculation formula4Relative to the third detection pattern Y3Transmittance increase amplitude RYDAnd the characteristic number increase amplitude RNDWhen R isYD> 5% and RND> -5%, the illumination intensity of each light source module 4 can be increased by 100w, and the above adjustment process is repeated. Up to RYDLess than or equal to 5% or R ND5% or less, in which case the transmission can be considered to increase by an extent RYDAnd the characteristic number increase amplitude RNDThe sensitivity to the change in the illumination intensity is decreased, the increase in the illumination intensity is stopped, and the illumination intensity at that time is taken as the optimum illumination intensity. After the optimal light source angle and the optimal illumination intensity are determined, the light source angle can be set as the optimal light source angle, the illumination intensity is set as the optimal illumination intensity, and then the distance between the light source and the fruit to be measured is further adjusted under the condition. In the process of adjusting the distance between the light source and the fruit to be detected, the distance between the light source and the fruit to be detected is set to be 40cm, then the pineapple to be detected is placed between the light source module 4 and the integrating sphere 5, and a fifth detection spectrum Y is obtained through the signal processing mechanism 65Then, under the condition of keeping other conditions unchanged, the distance between the light source and the pineapple to be detected is shortened by 3cm, and the signal processing mechanism 6 is utilized again to obtain a sixth detection atlas Y6. Comparing the fifth detection pattern Y5And a sixth detection pattern Y6Further, the fifth detection pattern Y is obtained using the above-mentioned transmittance increase amplitude calculation formula and the feature quantity increase amplitude calculation formula5Relative to the sixth detection pattern Y6Transmittance increase amplitude RYDAnd the characteristic number increase amplitude RND. If R isYD> 2% and RND> -2%, the distance between the light source and the pineapple to be measured can be further shortened by 3cm, and the above adjustment process is repeated. If R isYDNot more than 2% or RNDLess than or equal to-2%, the transmission increase range R is consideredYDAnd the characteristic number increase amplitude RNDThe sensitivity to the distance change between the light source and the pineapple to be detected is reduced, at the moment, the distance between the light source and the pineapple to be detected is stopped to be shortened, and the distance between the light source and the pineapple to be detected at the moment is regarded as the optimal distance. Thus, the angles of the light sources, the distances between the light sources and the fruits to be detected and the illumination intensity are all adjusted. And finally, setting the light source angle as the optimal light source angle, setting the distance between the light source and the fruit to be detected as the optimal distance, setting the illumination intensity as the optimal illumination intensity, and completing the quality detection of the batch pineapples under the condition.
In this embodiment, in the process of adjusting the illumination intensity, only a part of the light source modules 4 may be selected to be turned on according to actual needs, that is, a part of the light source modules 4 is turned on, and another part of the light source modules 4 is turned off, and then the illumination intensity of the light source modules 4 in the turned on state is adjusted. The number of the light source modules 4 to be turned on is determined by the experimenter according to the specific situation of the fruit to be tested, and is not limited herein. The process of turning on a part of the light source modules 4 and adjusting the light intensity of the part of the light source modules 4 is similar to the above-mentioned process of adjusting the light intensity, and is not described herein again.
The near-infrared fruit detection device provided by the embodiment can realize flexible adjustment of the position of the light source and the angle of the light rays, simplifies the adjustment difficulty of light source parameters, avoids human errors, achieves a better nondestructive detection signal acquisition effect, and improves the detection precision.
It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.
Claims (10)
1. The target self-adaptive visible near-infrared detection light source posture adjusting device is characterized by comprising a horizontally arranged panel (1), wherein the panel (1) is used for placing fruits to be detected, a fixing plate (2) is arranged above the panel (1) in parallel, and the fixing plate (2) is in sliding connection with the panel (1) through a support structure; an installation through groove (3) is formed in the fixing plate (2), a plurality of light source modules (4) are arranged at the edge of the installation through groove (3), and each light source module (4) is rotatably connected with the edge of the installation through groove (3) respectively; panel (1) is equipped with integrating sphere (5) that are used for collecting light with the corresponding position of installation logical groove (3), the light that light source module (4) sent passes the fruit that awaits measuring and reaches integrating sphere (5), integrating sphere (5) set signal processing mechanism (6), signal processing mechanism (6) are used for carrying out the analysis in order to obtain the detection map to the light that integrating sphere (5) were collected.
2. The target-adaptive visible near-infrared detection light source posture adjusting device as claimed in claim 1, characterized in that the light source module (4) comprises a lamp body and a lamp holder connected with the lamp body, the lamp holder is provided with a U-shaped seat (7), the lamp holder is rotatably arranged in the U-shaped seat (7), and the U-shaped seat (7) is arranged at the edge position of the installation through groove (3) through a turntable mechanism (8).
3. The target adaptive visible near-infrared detection light source posture adjusting device as claimed in claim 2, wherein the lamp holder is provided with a mounting through hole, the mounting through hole is perpendicular to an axis of the lamp holder, a rotating shaft (18) is arranged in the mounting through hole, two ends of the U-shaped seat (7) are respectively provided with a first fixing hole and a second fixing hole matched with the rotating shaft (18), one end of the rotating shaft (18) penetrates through the first fixing hole to be connected with a first motor (19), and the other end of the rotating shaft (18) penetrates through the second fixing hole to be connected with the bearing seat (20).
4. The target adaptive visible near-infrared detection light source posture adjusting device as claimed in claim 2, wherein the turntable mechanism (8) comprises a circular turntable (22) and an annular fixing table (23) arranged outside the circular turntable (22), the outer side surface of the circular turntable (22) is connected with the inner side surface of the annular fixing table (23) in a sliding manner along the circumferential direction, one side of the circular turntable (22) is fixedly connected with the U-shaped seat (7), the other side of the circular turntable is provided with a second motor (25), the second motor (25) is used for driving the circular turntable (22) to rotate in the annular fixing table (23), and the annular fixing table (23) is fixedly connected with the edge of the installation through groove (3).
5. The target adaptive visible near-infrared detection light source posture adjusting device as claimed in claim 4, wherein an inner side surface of the annular fixing table (23) is provided with an annular groove, the annular groove is arranged along a circumferential direction of the annular fixing table (23), an outer side surface of the circular turntable (22) is provided with a plurality of sliding blocks matched with the annular groove, and the plurality of sliding blocks are uniformly arranged along the circumferential direction of the circular turntable (22).
6. The target adaptive visible near-infrared detection light source posture adjustment device according to claim 1, wherein the support structure comprises two support members disposed on opposite sides of the fixed plate (2), each support member comprising a first support arm (13), a second support arm (14), a third support arm (15) and a fourth support arm (16); the third supporting arm (15) and the fourth supporting arm (16) are respectively fixedly arranged on the panel (1) and are parallel to each other; the second supporting arm (14) is arranged in parallel with the panel (1), two ends of the second supporting arm (14) are respectively connected with the third supporting arm (15) and the fourth supporting arm (16) in a sliding manner, and the second supporting arm (14) is arranged vertically to the third supporting arm (15) and the fourth supporting arm (16); first support arm (13) set up with panel (1) is perpendicular, and first support arm (13) slide with the corresponding one end of panel (1) and set up on second support arm (14), first support arm (13) are equipped with the spout in one side corresponding with fixed plate (2), be equipped with on fixed plate (2) with spout assorted slider.
7. The target adaptive visible near infrared detection light source posture adjusting device as claimed in claim 6, characterized in that a first driving device is provided on the first support arm (13), and the first driving device is used for driving the fixing plate (2) to slide on the first support arm (13); a second driving device is arranged on the second supporting arm (14) and used for driving the first supporting arm (13) to slide on the second supporting arm (14); and a third driving device is arranged on the third supporting arm (15) and used for driving the second supporting arm (14) to slide on the third supporting arm (15) and the fourth supporting arm (16).
8. The target adaptive visible near-infrared detection light source posture adjusting device as claimed in any one of claims 1-7, wherein the panel (1) is further provided with an electric cabinet box (9) on the side opposite to the fixing plate (2), the electric cabinet box (9) is provided with a control button (10), and the control button (10) is used for realizing automatic adjustment of the position of the light source module (4).
9. The target adaptive visible near-infrared detection light source posture adjusting device as claimed in claim 8, wherein the panel (1) is further provided with a dust-proof cover (11) on a side opposite to the electric cabinet (9), and the dust-proof cover (11) is detachably connected with the panel (1).
10. The target adaptive visible near-infrared detection light source posture adjustment device according to claim 9, wherein a plurality of cooling fans (12) are respectively provided on the electric cabinet (9) and the dust-proof cover (11).
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Cited By (3)
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CN111443060A (en) * | 2020-05-15 | 2020-07-24 | 广东省农业科学院农产品公共监测中心 | Target self-adaptive visible near-infrared detection light source posture adjusting device and method |
CN113125459A (en) * | 2021-04-16 | 2021-07-16 | 合肥泰禾智能科技集团股份有限公司 | Improve reflector structure of fruit surface detection camera uniformity of picking up picture |
WO2023176492A1 (en) * | 2022-03-17 | 2023-09-21 | パナソニックIpマネジメント株式会社 | Image capture system |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111443060A (en) * | 2020-05-15 | 2020-07-24 | 广东省农业科学院农产品公共监测中心 | Target self-adaptive visible near-infrared detection light source posture adjusting device and method |
CN111443060B (en) * | 2020-05-15 | 2024-10-22 | 广东省农业科学院农产品公共监测中心 | Target self-adaptive visible near infrared detection light source posture adjusting device and method |
CN113125459A (en) * | 2021-04-16 | 2021-07-16 | 合肥泰禾智能科技集团股份有限公司 | Improve reflector structure of fruit surface detection camera uniformity of picking up picture |
WO2023176492A1 (en) * | 2022-03-17 | 2023-09-21 | パナソニックIpマネジメント株式会社 | Image capture system |
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