Full-automatic ultraviolet surface treatment equipment for wood product surface carving and rounding
By designing the detection and irradiation mechanisms of a fully automated ultraviolet surface treatment equipment, the lamp positions are automatically detected and adjusted, solving the problem of manual shadow inspection in existing technologies and improving the irradiation pass rate and processing efficiency of carved rounded corners.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- CHUANGXUAN (CHANGSHU) LASER TECH CO LTD
- Filing Date
- 2026-03-18
- Publication Date
- 2026-06-09
Smart Images

Figure CN122165768A_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of ultraviolet surface treatment technology, specifically to a fully automatic ultraviolet surface treatment device for carving rounded corners on the surface of wood products. Background Technology
[0002] During the process of carving rounded corners on the surface of wood products, ultraviolet (UV) light equipment is required to complete the curing process of the UV primer or UV topcoat on the carved rounded corners of the wood product surface by irradiation.
[0003] A utility model patent with publication number CN203635458U discloses an ultraviolet light treatment machine. Rubber or polymer materials placed on a conveyor mechanism generate active groups under ultraviolet light irradiation. These active groups eventually form a network structure, improving the adhesion between the rubber or polymer surface and the adhesive. This eliminates the need for water treatment in the bonding process between rubber or polymer materials. However, after the irradiation is complete, manual inspection is required to check for shadows on workpieces with complex geometries before placing and irradiating those workpieces. Summary of the Invention
[0004] To overcome the problem of needing to manually inspect workpieces with complex geometric shapes for shadows after the light treatment, and then placing and treating workpieces with shadows, this invention provides a fully automatic ultraviolet surface treatment device for carving rounded corners on wood products, including a machine body, and further including: A conveyor belt is disposed inside the machine body; A processing box is mounted on the top of the machine body and positioned above the conveyor belt; An inspection box is installed outside the processing box, and a conveyor belt is used to control the wood products to pass through the processing box and the inspection box in sequence. An irradiation mechanism is located inside the processing box. The irradiation mechanism includes a first lifting rod, a moving component is installed at the bottom of the first lifting rod, and a lifting component is provided outside the moving component. The first lifting rod is used to control the moving component and the lifting component to irradiate the carved rounded corners of the wooden product surface on the conveyor belt with ultraviolet light on the X-axis and Y-axis. The testing mechanism is located inside the testing box. The testing mechanism includes a third lifting rod, and a detector is installed on the outside of the third lifting rod. The third lifting rod controls the relative distance between the detector and the rounded corner of the carved wood surface.
[0005] Preferably, the irradiation mechanism further includes: A frame, which is installed inside the processing box, with the first lifting rod installed at the bottom of the frame; The first motor housing is installed at the bottom of the frame. The first motor housing contains a first motor, and the output end of the first motor is equipped with a rotating component.
[0006] Preferably, the rotating assembly includes: The second lifting rod is connected to the output end of the first motor; A connecting frame, which is connected to the telescopic end of the second lifting rod; A first adjusting component is installed on the outside of the connecting frame, and a first lamp tube is installed on the outside of the first adjusting component. A second lifting rod is used to adjust the relative height between the first lamp tube and the rotating assembly.
[0007] Preferably, the moving component includes: A connecting frame, which is connected to the telescopic end of the first lifting rod; A movable frame is installed on the outside of a connecting frame, and a second lamp tube is installed inside the movable frame; The first adjusting rod is installed at the bottom of the movable frame; A magnetic plate is connected to the end of a first adjusting rod away from the movable frame. The first adjusting rod is used to drive the lifting assembly to move. The second adjusting rod is installed at the bottom of the connecting frame.
[0008] Preferably, the lifting assembly includes: The first arc-shaped plate is connected to the end of the second adjusting rod away from the connecting frame; An adjustment frame is installed on the outside of the first arc-shaped plate, and three adjustment frames are provided; The third lamp tube is installed inside the adjustment frame, which is used to adjust the relative height between the third lamp tube and the first arc-shaped plate.
[0009] Preferably, the lifting assembly further includes: The first groove is formed inside the first arc-shaped plate; A spring, which is mounted inside the first groove; The second arc-shaped plate is connected to the end of the spring away from the first groove; A connecting frame is installed on the outside of the second arc-shaped plate.
[0010] Preferably, the lifting assembly further includes: A ring plate is installed outside the second arc-shaped plate and is slidably connected to the outside of the third lamp tube; An adhesive rod is installed inside the connecting frame.
[0011] Preferably, the testing mechanism further includes: The second motor housing is installed inside the detection box, and the second motor is installed inside the second motor housing. The third lifting rod is connected to the output end of the second motor. A central shaft, which is connected to the telescopic end of the third lifting rod; The third adjusting rod is installed outside the central shaft and is connected to the detector. The third adjusting rod is used to control the position of the detector.
[0012] Preferably, the testing mechanism further includes: The first outer ring is sleeved on the outside of the central shaft, and a through groove is opened inside the first outer ring; The second outer ring is sleeved on the outside of the central shaft. The inside of the second outer ring is provided with a second groove, and a connecting box is installed on the outside of the second outer ring. The second adjusting component is installed at the bottom of the second motor housing. A magnetic block is installed at the bottom of the second adjusting component. The second adjusting component is used to control the magnetic block to fix the second outer ring, thereby fixing the connecting box.
[0013] This invention provides a fully automated ultraviolet surface treatment device for carving rounded corners on the surface of wood products. It has the following beneficial effects: 1. This fully automatic ultraviolet (UV) surface treatment equipment for carving rounded corners on wooden products utilizes a detection mechanism. The detector lenses are pre-treated before use, and four detectors move in circles with different radii to determine the approximate location of areas with substandard illumination. This allows for adjustment of the position of the first lamp in the rotating assembly based on these areas, enabling localized rotational illumination treatment of the substandard regions. In existing UV surface treatment equipment, after illumination, manual inspection is required for workpieces with complex geometric shapes to check for shadows before placing and illuminating those with shadows. Therefore, this detection and illumination mechanism allows for timely inspection of workpieces after illumination, enabling secondary processing of shadowed workpieces and avoiding multiple manual transport and inspection steps.
[0014] 2. This fully automatic ultraviolet surface treatment equipment for rounded corners of carved wooden products utilizes an illumination mechanism and a rotating component. After the moving and lifting components illuminate the entire wooden product, four first lamps move in circles with different radii to provide a wide-range rotating illumination of the top of the product, minimizing areas with substandard rounded corners. As the detector detects areas with substandard illumination, the first adjusting component adjusts the horizontal and vertical positions of the first lamps, ensuring they illuminate the affected rounded corners and improving the pass rate of the rounded corner illumination on the wooden product surface.
[0015] 3. The fully automatic ultraviolet light surface treatment equipment for carving rounded corners on the surface of wooden products is equipped with a lifting component and three third lamps at both ends of the treatment box. The three third lamps are respectively located at three trisection points within the first arc plate, which improves the uniformity of light coverage and reduces the shadow range when the carved rounded corners on the surface of wooden products are illuminated.
[0016] 4. This fully automatic ultraviolet surface treatment equipment for carving rounded corners on wooden products uses lifting and moving components. The conveyor belt controls the wooden products to pass sequentially through two sets of third lamps in the treatment box. The two sets of third lamps complete the irradiation of the wooden products on the Y-axis, while the second lamps, which move horizontally, complete the irradiation of the wooden products on the X-axis. During the movement of the second lamps, the magnetic plate drives the ring plate to scrape the third lamps, preventing the third lamps from being affected by dust and impurities after long-term fixation. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the overall structure of the present invention; Figure 2 This is a structural schematic diagram from another perspective of the present invention; Figure 3 This is a schematic diagram of the irradiation mechanism of the present invention; Figure 4 This is a schematic diagram of the rotating component of the present invention; Figure 5 This is a schematic diagram of the structure of the moving component of the present invention; Figure 6 This is a schematic diagram of the lifting assembly of the present invention; Figure 7 This is a schematic diagram of the structure of the detection box of the present invention; Figure 8 This is a schematic diagram of the detection mechanism of the present invention; Figure 9 For the present invention Figure 8 A schematic diagram of the structure at point A in the middle.
[0018] In the diagram: 1. Machine body; 2. Conveyor belt; 3. Processing box; 4. Irradiation mechanism; 401. Frame; 402. First motor box; 403. Rotating assembly; 4031. Second lifting rod; 4032. Connecting frame; 4033. First adjusting component; 4034. First lamp tube; 404. First lifting rod; 405. Moving assembly; 4051. Connecting frame; 4052. Moving frame; 4053. Second lamp tube; 4054. First adjusting rod; 4055. Magnetic plate; 4056. Second adjusting rod; 406. Lifting assembly; 4061. First arc plate; 4 062, First groove; 4063, Spring; 4064, Second arc plate; 4065, Connecting frame; 4066, Adjusting frame; 4067, Third lamp tube; 4068, Annular plate; 4069, Adhesive rod; 5, Detection box; 6, Detection mechanism; 601, Second motor box; 602, Third lifting rod; 603, First outer ring; 604, Second outer ring; 605, Third adjusting rod; 606, Detector; 607, Second adjusting component; 608, Connecting box; 609, Magnetic block; 610, Through groove; 611, Second groove; 612, Central shaft. Detailed Implementation
[0019] The present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments. The embodiments of the present invention are given for illustrative and descriptive purposes only, and are not intended to be exhaustive or to limit the invention to the forms disclosed. Many modifications and variations will be apparent to those skilled in the art. The embodiments were chosen and described to better illustrate the principles and practical application of the invention, and to enable those skilled in the art to understand the invention and design various embodiments with various modifications suitable for a particular purpose.
[0020] like Figures 1-9 As shown, the present invention provides a technical solution: a fully automatic ultraviolet light surface treatment device for carving rounded corners on the surface of wood products is described below.
[0021] Including body 1, it also includes: Conveyor belt 2 is installed inside the machine body 1; Processing box 3, which is equipped with a wind control system, is installed on the top of the machine body 1 and is positioned above the conveyor belt 2. Inspection box 5 is installed outside of processing box 3. One side of inspection box 5 is connected to processing box 3. A groove is opened at the bottom of the other side of inspection box 5 to facilitate the removal of wooden products from the groove. Conveyor belt 2 is used to drive wooden products through processing box 3 and inspection box 5 in sequence. Irradiation mechanism 4 is located inside the processing box 3. Irradiation mechanism 4 includes a first lifting rod 404, which is an electric push rod. A moving component 405 is installed at the bottom of the first lifting rod 404, and a lifting component 406 is provided outside the moving component 405. The first lifting rod 404 is used to control the moving component 405 and the lifting component 406 to irradiate the carved rounded corners of the wooden products on the conveyor belt 2 with ultraviolet light on the X-axis and Y-axis. The detection mechanism 6 is located inside the detection box 5. The detection mechanism 6 includes a third lifting rod 602, which is an electric push rod. A detector 606 is installed outside the third lifting rod 602. The detector 606 is an infrared thermal imager and is connected to an external display. The third lifting rod 602 controls the relative distance between the detector 606 and the rounded corner of the carved wood surface.
[0022] When using the equipment, workers place the wooden products to be irradiated on conveyor belt 2. Conveyor belt 2 carries the wooden products into processing box 3. Conveyor belt 2 stops running, and irradiation mechanism 4 begins to irradiate the carved rounded corners of the wooden product surface with ultraviolet light. After the irradiation is completed, conveyor belt 2 carries the wooden products into testing box 5, where detector 606 tests the irradiation effect. If the wooden product fails the test, conveyor belt 2 carries the wooden product back to processing box 3 for a second irradiation treatment; if the wooden product passes the test, conveyor belt 2 carries the wooden product away from testing box 5, completing the irradiation process.
[0023] Irradiation mechanism 4 also includes: The frame 401 is installed inside the processing box 3, and the first lifting rod 404 is installed at the bottom of the frame 401; The first motor housing 402 is installed at the bottom of the frame 401. The first motor housing 402 contains a first motor, and the output end of the first motor is equipped with a rotating component 403.
[0024] Rotating assembly 403 includes: The second lifting rod 4031 is configured as an electric push rod and is connected to the output end of the first motor. Connecting frame 4032, which is connected to the telescopic end of the second lifting rod 4031; The first adjusting member 4033 is installed on the outside of the connecting frame 4032. The first lamp tube 4034 is installed on the outside of the first adjusting member 4033. There are four first adjusting members 4033. Each first adjusting member 4033 consists of an electric push rod in the horizontal direction and an electric push rod in the vertical direction.
[0025] The process of using rotating component 403 to perform the first light exposure on wooden products: After the moving component 405 and the lifting component 406 have performed overall illumination on the wooden product, the electric push rods in the horizontal direction of the four first adjusting components 4033 are adjusted to different strokes, and the first motor in the first motor box 402 is turned on. The first motor drives the second lifting rod 4031, the connecting frame 4032, the first adjusting component 4033 and the first lamp tube 4034 to rotate. The four first lamp tubes 4034 perform circular motions of different radii to perform large-scale rotational illumination on the top of the wooden product.
[0026] The process of using rotating component 403 to perform secondary polishing on wooden products: As detector 606 detects an area with substandard illumination, the first adjusting member 4033 is adjusted according to the detection mechanism 6, thereby adjusting the position of the first lamp tube 4034 in the horizontal and vertical directions, so that the first lamp tube 4034 illuminates the substandard carved rounded corner.
[0027] By setting up an illumination mechanism and a rotating component 403, after the moving component 405 and the lifting component 406 perform overall illumination on the wooden product, four first lamps 4034 perform circular motions of different radii to perform large-scale rotational illumination on the top of the wooden product, minimizing the number of unqualified carved rounded corner areas. As the detector 606 detects unqualified areas, the first adjusting component 4033 is adjusted according to the detection mechanism 6, thereby adjusting the position of the first lamps 4034 in the horizontal and vertical directions, so that the first lamps 4034 illuminate the unqualified carved rounded corners, improving the pass rate of illumination for carved rounded corners on the surface of the wooden product.
[0028] The moving component 405 includes: Connecting frame 4051, which is connected to the telescopic end of the first lifting rod 404; The movable frame 4052 is composed of a horizontally positioned electric push rod and a ring frame. The movable frame 4052 is installed outside the connecting frame 4051. The second lamp tube 4053 is installed inside the movable frame 4052. The horizontally positioned electric push rod in the movable frame 4052 is used to control the movement of the second lamp tube 4053 to illuminate the carved rounded corners of the wooden product surface. The first adjusting rod 4054 is configured as a rod whose length can be manually adjusted, and the first adjusting rod 4054 is installed at the bottom of the movable frame 4052; Magnetic plate 4055 is connected to the end of the first adjusting rod 4054 away from the movable frame 4052; The second adjusting rod 4056 is a rod whose length can be manually adjusted, and the second adjusting rod 4056 is installed at the bottom of the connecting frame 4051.
[0029] The process of using the movable component 405 to polish the rounded corners of carved wooden surfaces: As the wooden product remains in the processing box 3, the first lifting rod 404 is activated. The first lifting rod 404 drives the connecting frame 4051, the moving frame 4052, and the second lamp tube 4053 to move downwards. The second lamp tube 4053 is located below the rotating component 403. The electric push rod in the moving frame 4052, which is in the horizontal direction, is activated to the reciprocating motion mode. The electric push rod drives the ring frame and the second lamp tube 4053 to reciprocate. The second lamp tube 4053 begins to illuminate the top of the wooden product.
[0030] Lifting assembly 406 includes: The first arc plate 4061 is connected to the end of the second adjusting rod 4056 away from the connecting frame 4051; Adjustment frame 4066 is composed of an adjustment column and a limiting ring in the vertical direction. Adjustment frame 4066 is installed on the outside of the first arc plate 4061. Three adjustment frames 4066 are provided. The third lamp tube 4067 is installed inside the adjusting bracket 4066; The first groove 4062 is formed inside the first arc plate 4061; Spring 4063 is installed inside the first groove 4062; The second arc-shaped plate 4064 is connected to the end of the spring 4063 away from the first groove 4062; A connecting frame 4065 is provided on the outside of the connecting frame 4065. The triangular plate is made of magnetic material. The connecting frame 4065 is installed on the outside of the second arc plate 4064. The annular plate 4068 is installed outside the second arc-shaped plate 4064 and is slidably connected to the outside of the third lamp tube 4067. Adhesive rod 4069 is installed inside the connecting frame 4065, and the worker selects and installs the adhesive rod 4069 of the corresponding length.
[0031] The process of using the lifting assembly 406 to illuminate the rounded corners of carved wooden products: As the wooden products follow the conveyor belt 2 into the processing box 3, the third lamp tube 4067 begins to illuminate the wooden products. Furthermore, the three third lamp tubes 4067 are positioned at three equal division points within the first arc-shaped plate 4061, improving the uniformity of light coverage and reducing the shadow range when illuminating the rounded corners of the carved wooden product surface.
[0032] The working process of using lifting assembly 406 to handle the third lamp tube 4067: The electric push rod in the horizontal direction of the movable frame 4052 is turned into reciprocating motion mode. The electric push rod drives the ring frame, the first adjusting rod 4054 and the magnetic plate 4055 to reciprocate. During the movement, the magnetic plate 4055 is attracted to the triangular plate outside the connecting frame 4065, and drives the triangular plate and the connecting frame 4065 to move. The triangular plate and the connecting frame 4065 drive the second arc plate 4064 and the ring plate 4068 to move. The ring plate 4068 begins to scrape the outer surface of the third lamp tube 4067, promoting the falling of impurities onto the adhesive rod 4069, so as to prevent the third lamp tube 4067 from affecting the lighting work due to the adhesion of dust and impurities after long-term fixation.
[0033] By setting up the lifting component 406, three third lamp tubes 4067 are set at both ends of the processing box 3, and the three third lamp tubes 4067 are respectively located at three trisection points within the first arc plate 4061, thereby improving the uniformity of light coverage and reducing the shadow range when illuminating the rounded corners of the carved wooden product surface.
[0034] By setting up the lifting component 406 and the moving component 405, the conveyor belt 2 controls the wooden products to pass sequentially through the two sets of third lamps 4067 in the processing box 3. The two sets of third lamps 4067 complete the work of irradiating the wooden products on the Y-axis, and the second lamp 4053, which moves in the horizontal direction, completes the work of irradiating the wooden products on the X-axis. During the movement of the second lamp 4053, the magnetic plate 4055 drives the annular plate 4068 to scrape the third lamp 4067, so as to prevent the third lamp 4067 from being affected by the adhesion of dust and impurities after being fixed for a long time.
[0035] Testing agency 6 also includes: The second motor box 601 is installed inside the detection box 5. The second motor is installed inside the second motor box 601. The third lifting rod 602 is connected to the output end of the second motor. The central shaft 612 is connected to the telescopic end of the third lifting rod 602; The third adjusting rod 605 is configured as a rod whose length can be manually adjusted. The third adjusting rod 605 is installed outside the central shaft 612 and is connected to the detector 606. The first outer ring 603 is sleeved on the outside of the central shaft 612, and a through groove 610 is opened inside the first outer ring 603; The second outer ring 604 is sleeved on the outside of the central shaft 612. The second outer ring 604 has a second groove 611 inside, and magnetic material is placed in the second groove 611. A connecting box 608 is installed on the outside of the second outer ring 604. A cleaning plate is detachably installed inside the connecting box 608. A scale strip is installed on the bottom of the connecting box 608. The second adjusting component 607 is composed of an electric push rod in the vertical direction and an L-shaped rod. The second adjusting component 607 is installed at the bottom of the second motor housing 601, and a magnetic block 609 is installed at the bottom of the second adjusting component 607.
[0036] The lens of detector 606 is processed using detection mechanism 6: Before using the equipment, adjust the stroke of the third lifting rod 602 according to the size of this batch of wooden products, and adjust the multiple third adjusting rods 605 to different lengths. Activate the electric push rod in the vertical direction of the second adjusting component 607. The electric push rod drives the magnetic block 609 through the through slot 610 into the second groove 611, where the magnetic block 609 is attracted and fixed.
[0037] The second motor in the second motor housing 601 is turned on, causing the central shaft 612, the first outer ring 603, the third adjusting rod 605, and the detector 606 to deflect. The second outer ring 604 cannot deflect, and the lens at the bottom of the detector 606 repeatedly contacts the cleaning plate inside the connecting box 608, causing impurities to gradually detach from the lens. Then, the electric push rod in the second adjusting component 607, which is in the vertical direction, is adjusted to its initial state. The magnetic block 609 follows the electric push rod and disengages from the second groove 611. The second outer ring 604 begins to deflect with the central shaft 612, and the impurities gradually slide off under the rotation of the detection mechanism 6.
[0038] The lighting effect of the carved rounded corners on the surface of the wood product was tested using testing agency 6. As the wooden product enters the testing chamber 5, the second motor in the second motor box 601 is turned on. The second motor drives the central shaft 612, the first outer ring 603, the third adjusting rod 605, and the detector 606 to deflect. The detector 606, which performs circular motions of different radii, detects the illumination of the carved rounded corners on the surface of the wooden product. The thermal image is observed on an external display. If the illumination is qualified, the wooden product is heated evenly and shows a uniform and expected temperature distribution on the thermal image. If the illumination is unqualified, the wooden product will produce abnormal thermal images such as local overheating, insufficient temperature, or uneven temperature distribution.
[0039] Based on the stroke of the third adjusting rod 605 corresponding to the detector 606 that detected the defective area, the first adjusting member 4033 in the rotating assembly 403 is adjusted, thereby adjusting the position of the first lamp tube 4034 and performing local rotating illumination treatment on the defective area.
[0040] By setting up the detection mechanism 6, the lens of the detector 606 is pre-processed before use, and the four detectors 606 are made to perform circular motions with different radii to determine the approximate location of the unqualified lighting area. This facilitates the adjustment of the position of the first lamp tube 4034 in the rotating assembly 403 according to the unqualified area, and then performs local rotating lighting treatment on the unqualified area.
[0041] Working principle: When using the equipment, the worker places the wooden product to be irradiated on the conveyor belt 2. The conveyor belt 2 carries the wooden product into the processing box 3. When the conveyor belt 2 stops running, the irradiation mechanism 4 begins to irradiate the carved rounded corners of the wooden product with ultraviolet light.
[0042] As the wooden product remains in the processing box 3, the first lifting rod 404 is activated. The first lifting rod 404 drives the connecting frame 4051, the moving frame 4052, and the second lamp tube 4053 to move downwards. The second lamp tube 4053 is located below the rotating component 403. The electric push rod in the moving frame 4052, which is in the horizontal direction, is activated to the reciprocating motion mode. The electric push rod drives the ring frame and the second lamp tube 4053 to reciprocate. The second lamp tube 4053 begins to illuminate the top of the wooden product. Simultaneously, the electric push rod drives the ring frame, the first adjusting rod 4054, and the magnetic plate 4055 to reciprocate. During the movement of the magnetic plate 4055, it attracts the triangular plate located outside the connecting frame 4065, and drives the triangular plate and the connecting frame 4065 to move. The triangular plate and the connecting frame 4065 drive the second arc plate 4064 and the ring plate 4068 to move. The ring plate 4068 begins to scrape the outer surface of the third lamp tube 4067, promoting the falling of impurities onto the adhesive rod 4069, thus preventing the third lamp tube 4067 from affecting the lighting work due to the adhesion of dust and impurities after long-term fixation.
[0043] As the wooden products follow the conveyor belt 2 into the processing box 3, the third lamp tube 4067 begins to illuminate the wooden products. Furthermore, the three third lamp tubes 4067 are positioned at three equal division points within the first arc-shaped plate 4061, improving the uniformity of light coverage and reducing the shadow range when illuminating the rounded corners of the carved wooden product surface.
[0044] After the moving component 405 and the lifting component 406 have performed overall illumination on the wooden product, the electric push rods in the horizontal direction of the four first adjusting components 4033 are adjusted to different strokes, and the first motor in the first motor box 402 is turned on. The first motor drives the second lifting rod 4031, the connecting frame 4032, the first adjusting component 4033 and the first lamp tube 4034 to rotate. The four first lamp tubes 4034 perform circular motions of different radii to perform large-scale rotational illumination on the top of the wooden product.
[0045] After the irradiation work is completed, the conveyor belt 2 carries the wooden products into the testing box 5, where the detector 606 tests the irradiation effect of the wooden products. If the wooden products fail the test, the conveyor belt 2 carries the wooden products back to the processing box 3 for secondary irradiation treatment.
[0046] As the wooden product enters the testing chamber 5, the second motor in the second motor box 601 is turned on. The second motor drives the central shaft 612, the first outer ring 603, the third adjusting rod 605, and the detector 606 to deflect. The detector 606, which performs circular motions of different radii, detects the illumination of the carved rounded corners on the surface of the wooden product. The thermal image is observed on an external display. If the illumination is qualified, the wooden product is heated evenly and shows a uniform and expected temperature distribution on the thermal image. If the illumination is unqualified, the wooden product will produce abnormal thermal images such as local overheating, insufficient temperature, or uneven temperature distribution.
[0047] Based on the stroke of the third adjusting rod 605 corresponding to the detector 606 that detected the defective area, the first adjusting member 4033 in the rotating assembly 403 is adjusted, thereby adjusting the position of the first lamp tube 4034 and performing local rotating illumination treatment on the defective area.
[0048] If the wood products pass the inspection, the conveyor belt 2 will move the wood products away from the inspection box 5 to complete the illumination process.
[0049] Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all of them. All other embodiments obtained by those skilled in the art and related fields based on the embodiments of the present invention without inventive effort should fall within the scope of protection of the present invention. Structures, devices, and operating methods not specifically described and explained in the present invention, unless otherwise specified or limited, shall be implemented according to conventional means in the art.
Claims
1. A fully automatic ultraviolet surface treatment device for carving rounded corners on the surface of wood products, comprising a machine body (1), characterized in that, Also includes: Conveyor belt (2), the conveyor belt (2) is disposed inside the body (1); Processing box (3), the processing box (3) is installed on the top of the machine body (1), the processing box (3) is positioned above the conveyor belt (2); The detection box (5) is installed outside the processing box (3); Irradiation mechanism (4), the irradiation mechanism (4) is set inside the processing box (3), the irradiation mechanism (4) includes a first lifting rod (404), a moving component (405) is installed at the bottom of the first lifting rod (404), and a lifting component (406) is provided outside the moving component (405). The first lifting rod (404) is used to control the moving component (405) and the lifting component (406) to irradiate the carved rounded corners of the wooden products on the conveyor belt (2) with ultraviolet light on the X-axis and Y-axis. The testing mechanism (6) is located inside the testing box (5). The testing mechanism (6) includes a third lifting rod (602). A detector (606) is provided on the outside of the third lifting rod (602). The third lifting rod (602) controls the relative distance between the detector (606) and the rounded corner of the carved wood surface.
2. The fully automatic ultraviolet surface treatment equipment for carving rounded corners on the surface of wood products according to claim 1, characterized in that: The irradiation mechanism (4) further includes: A frame (401) is installed inside the processing box (3), and the first lifting rod (404) is installed at the bottom of the frame (401); The first motor housing (402) is installed at the bottom of the frame (401). The first motor housing (402) is equipped with a first motor, and the output end of the first motor is equipped with a rotating component (403).
3. The fully automatic ultraviolet surface treatment equipment for carving rounded corners on the surface of wood products according to claim 2, characterized in that: The rotating assembly (403) includes: The second lifting rod (4031) is connected to the output end of the first motor; A connecting frame (4032) is connected to the telescopic end of the second lifting rod (4031); A first adjusting member (4033) is installed on the outside of the connecting frame (4032), and a first lamp tube (4034) is installed on the outside of the first adjusting member (4033).
4. The fully automatic ultraviolet surface treatment equipment for carving rounded corners on the surface of wood products according to claim 1, characterized in that: The moving component (405) includes: A connecting frame (4051) is connected to the telescopic end of the first lifting rod (404); A movable frame (4052) is installed on the outside of the connecting frame (4051), and a second lamp tube (4053) is installed inside the movable frame (4052). The first adjusting rod (4054) is installed at the bottom of the movable frame (4052); A magnetic plate (4055) is connected to the end of the first adjusting rod (4054) away from the movable frame (4052); The second adjusting rod (4056) is installed at the bottom of the connecting frame (4051).
5. The fully automatic ultraviolet surface treatment equipment for carving rounded corners on the surface of wood products according to claim 4, characterized in that: The lifting assembly (406) includes: The first arc plate (4061) is connected to the end of the second adjusting rod (4056) away from the connecting frame (4051); An adjustment bracket (4066) is installed on the outside of the first arc-shaped plate (4061), and three adjustment brackets (4066) are provided; The third lamp tube (4067) is installed inside the adjusting bracket (4066).
6. The fully automatic ultraviolet surface treatment equipment for carving rounded corners on the surface of wood products according to claim 5, characterized in that: The lifting assembly (406) also includes: The first groove (4062) is formed inside the first arc-shaped plate (4061); A spring (4063) is mounted inside a first groove (4062); The second arc-shaped plate (4064) is connected to the end of the spring (4063) away from the first groove (4062); A connecting frame (4065) is mounted on the outside of the second arc-shaped plate (4064).
7. The fully automatic ultraviolet surface treatment equipment for carving rounded corners on the surface of wood products according to claim 6, characterized in that: The lifting assembly (406) also includes: A ring plate (4068) is installed outside the second arc plate (4064) and is slidably connected to the outside of the third lamp tube (4067); Adhesive rod (4069), which is installed inside the connecting frame (4065).
8. The fully automatic ultraviolet surface treatment equipment for carving rounded corners on the surface of wood products according to claim 1, characterized in that: The testing facility (6) also includes: The second motor box (601) is installed inside the detection box (5). The second motor is installed inside the second motor box (601). The third lifting rod (602) is connected to the output end of the second motor. A central shaft (612) is connected to the telescopic end of the third lifting rod (602); The third adjusting rod (605) is installed outside the central shaft (612) and is connected to the detector (606).
9. The fully automatic ultraviolet surface treatment equipment for carving rounded corners on the surface of wood products according to claim 8, characterized in that: The testing facility (6) also includes: The first outer ring (603) is sleeved on the outside of the central shaft (612), and a through groove (610) is opened inside the first outer ring (603). The second outer ring (604) is sleeved on the outside of the central shaft (612). The second outer ring (604) has a second groove (611) inside. A connecting box (608) is installed on the outside of the second outer ring (604). The second adjusting member (607) is installed at the bottom of the second motor housing (601), and a magnetic block (609) is installed at the bottom of the second adjusting member (607).