Booth with adjustable light source
By setting up a lifting device inside the imaging device, the ring-shaped light source can be raised and lowered, which solves the problem of blurred imaging when the optical image measuring instrument measures chamfers, edges, irregular shapes and patterns, and improves the measurement effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG ZHONGWANG AUTOMATION TECH CO LTD
- Filing Date
- 2025-10-13
- Publication Date
- 2026-06-19
AI Technical Summary
Existing optical image measuring instruments suffer from unsatisfactory measurement results when measuring chamfers, edges, irregular shapes and patterns because the angle of the ring-shaped light source is fixed and cannot be raised or lowered, resulting in blurred CCD images, low contrast, and poor measurement performance.
A cantilevered imaging device with adjustable light source was designed. The ring-shaped light source is raised and lowered by setting a lifting device inside the imaging device. The lifting device includes a fixed base and a lifting mechanism, which are fixed inside the housing and the ring-shaped light source is raised and lowered by adjusting components.
The measurement effect of the cantilever imager has been improved. By adjusting the lifting device of the light source, the CCD imaging quality has been improved, and the contrast and clarity of the measurement have been enhanced.
Smart Images

Figure CN224382530U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the technical field of image measuring instruments, and in particular to a cantilever image measuring instrument with an adjustable light source. Background Technology
[0002] Traditional optical image measuring instruments are high-precision, high-efficiency, and high-reliability measuring instruments that integrate optics, mechanics, electronics, and computer image processing technologies. An optical magnification system magnifies the object being measured, and a CCD camera system acquires image features, which are then input into a computer. This allows for the efficient detection of the contours, surface shapes, dimensions, angles, and positions of various complex and precision parts, enabling microscopic inspection and quality control. They are widely used in the measurement of machinery, electronics, aerospace, molds, gears, terminal blocks, circuit board contacts, hardware and plastics, magnetic materials, electronic circuits, components, watch mechanical parts, precision jigs, plastics, hardware, and computer peripherals industries.
[0003] In existing technologies, when optical image measuring instruments measure the chamfers, edges, irregular shapes, patterns, and forms of objects, the limited angle of the ring-shaped LED light source and its inability to be raised or lowered result in blurred CCD imaging, low contrast, and unsatisfactory measurement effects. Utility Model Content
[0004] This utility model provides a cantilever imager with an adjustable light source, which enables the ring-shaped light source to be raised and lowered, thereby improving the measurement effect of the cantilever imager.
[0005] To achieve the aforementioned objectives, this application adopts the following technical solution:
[0006] A cantilever imaging system with adjustable light source, including
[0007] A lifting device is installed inside the imaging device; the housing of the imaging device is provided with a first connection hole, the lifting device includes a fixed base and a lifting mechanism provided on the fixed base, and the opposite side walls of the fixed base are provided with second connection holes, the second connection holes corresponding to the first connection holes, so that the fixed base is placed inside the housing and fixed inside the housing, so that the lifting device is fixed inside the housing;
[0008] The ring-shaped LED light source is installed in the lifting device, and the imaging device is located above the ring-shaped LED light source.
[0009] In some alternative embodiments, the housing is provided with a through hole, through which the lifting device passes through the housing.
[0010] In some optional embodiments, the lifting mechanism includes a base plate, a lifting hinge connected to the base plate, a top plate connected to the lifting hinge, and an adjusting assembly connected to the lifting hinge, wherein the A end of the lifting hinge, the B end of the lifting hinge, the top plate, and the base plate are hinged together.
[0011] In some alternative embodiments, end A of the lifting hinge is connected to the top plate, and end B of the lifting hinge is connected to the bottom plate.
[0012] In some alternative embodiments, the base plate and the top plate are symmetrically arranged about the center line of the lifting hinge as an axis of symmetry.
[0013] In some alternative embodiments, the middle part of the lifting hinge is further provided with at least two adjusting seats, and the adjusting seats are hinged to the lifting hinge.
[0014] In some optional embodiments, the adjusting seat is provided with adjusting holes and limiting holes, and the centers of the limiting holes on each adjusting seat are located on the same axis. A support rod passes through the limiting holes of the adjusting seat, wherein one end of the support rod is fixed to the limiting hole.
[0015] In some optional embodiments, the adjustment assembly includes an adjustment rotating head and an adjustment screw connected to the adjustment rotating head, the adjustment rotating head passing through the through hole into the housing.
[0016] In some alternative embodiments, the adjusting hole has an internal thread, and the adjusting screw engages with the internal thread of the adjusting hole.
[0017] The cantilever imaging system with adjustable light source provided in this application has the following beneficial effects:
[0018] In the technical solution adopted in this application, a cantilever imager with an adjustable light source has a lifting device located inside the imager. The lifting device is installed on a fixed base and the lifting mechanism is fixed inside the housing by the fixed base. The ring light source is located in the lifting device, and the imager is located above the ring light source, which enables the ring light source to be raised and lowered, thereby improving the measurement effect of the cantilever imager. Attached Figure Description
[0019] Other features, objects, and advantages of this application will become more apparent from the following detailed description of non-limiting embodiments with reference to the accompanying drawings:
[0020] Figure 1 This is a perspective view of a cantilever imaging device with an adjustable light source according to this application;
[0021] Figure 2This is a structural diagram of the lifting device in a cantilever imaging device with an adjustable light source according to this application;
[0022] Figure 3 This is a structural diagram of the lifting device in a cantilever imaging device with an adjustable light source, from another perspective, according to this application.
[0023] Figure 4 This is a structural diagram of the lifting device in a cantilever imaging device with an adjustable light source, from another perspective, according to this application.
[0024] Figure 5 yes Figure 3 Enlarged view of circle A shown;
[0025] Figure 6 This is a structural diagram of the sliding door panel in a cantilever imaging device with an adjustable light source according to this application;
[0026] Figure 7 This is a partial structural diagram of the sliding door panel of a cantilever imaging device with adjustable light source according to this application, taken from another perspective.
[0027] Figure 8 This is a perspective view of the slide groove in a cantilever imaging device with an adjustable light source according to this application;
[0028] Figure 9 This is a structural diagram of the lifting device in a cantilever imaging device with an adjustable light source, from another perspective, according to this application.
[0029] Figure 10 This is a perspective view of the mounting base in a cantilever imaging device with an adjustable light source according to this application;
[0030] Figure 11 This is a structural diagram of the driven wheel assembly and the drive wheel assembly in a cantilever imaging device with an adjustable light source according to this application.
[0031] Figure label:
[0032] 10. Imaging device; 11. Housing; 12. Through hole; 13. Sliding door panel device; 14. Sliding door panel; 15. Slide bar; 16. Slide groove;
[0033] 20. Lifting device; 21. Fixed base; 211. Opening; 212. Driven wheel assembly; 213. Drive wheel assembly; 214. Protective shell; 216. Drive handle; 217. Limiting groove; 22. Lifting mechanism; 221. Base plate; 222. Lifting hinge; 223. Top plate; 224. Adjusting assembly; 2241. Adjusting rotating head; 2242. Adjusting screw; 225. Adjusting seat; 226. Adjusting hole; 227. Limiting hole; 228. Rack; 229. Limiting rod; 2291. First guide plate; 2292. Second guide plate; 23. Support rod;
[0034] 30. Ring-shaped LED light source. Detailed Implementation
[0035] The specific embodiments of this application are described below with reference to the accompanying drawings and examples. Through the content described in this specification, those skilled in the art can clearly and completely understand the technical solution, the technical problem solved, and the resulting technical effects of this application. It is understood that the specific embodiments described herein are only for explaining this application and not for limiting it. Furthermore, for ease of description, only the parts related to this application are shown in the accompanying drawings.
[0036] It should be noted that the structures, proportions, sizes, etc., shown in the accompanying drawings are only for the purpose of assisting those skilled in the art in understanding and reading the contents described in the specification, and are not intended to limit the conditions under which this application can be implemented. Therefore, they have no substantial technical significance. Any modifications to the structure, changes in the proportional relationships, or adjustments to the size should fall within the scope of the technical content disclosed in this application, provided that they do not affect the effects and purposes that this application can produce.
[0037] The use of terms such as "first," "second," and "the" does not imply quantity limitation and may indicate singular or plural. The terms "comprising," "including," "having," and any variations thereof used in this application are intended to cover non-exclusive inclusion; for example, processes, methods, systems that include a series of steps or modules.
[0038] The product or equipment is not limited to the listed steps or units, but may also include steps or units not listed, or other steps or units inherent to these processes, methods, products, or equipment. Terms such as “connection,” “linking,” and “coupled” used in this application are not limited to physical or mechanical connections, but may also include direct or indirect electrical connections.
[0039] It should also be noted that the longitudinal section corresponding to the embodiment of this application can be the section corresponding to the front view direction, the transverse section can be the section corresponding to the right view direction, and the horizontal section can be the section corresponding to the top view direction.
[0040] Furthermore, where there is no conflict, the embodiments and features described in this application can be combined with each other. This application will now be described in detail with reference to the accompanying drawings and embodiments.
[0041] refer to Figure 1 and Figure 2 , Figure 1 This is a perspective view of a cantilever imaging device with an adjustable light source according to this application. Figure 2This is a structural diagram of the lifting device in a cantilever imaging system with an adjustable light source, as described in this application. Figure 1 and Figure 2 As shown, a cantilevered imaging device with an adjustable light source includes an imaging device 10, a lifting device 20 disposed inside the imaging device 10, and a ring-shaped LED light source 30 disposed on the lifting device 20. The imaging device 10 is located above the ring-shaped LED light source 30.
[0042] Continue to refer to Figure 1 and Figure 2 Please refer to them together. Figure 3 , Figure 3 This is a structural diagram of the lifting device in a cantilever imaging system with an adjustable light source, from another perspective, according to this application. Figure 1 , Figure 2 and Figure 3 As shown, the housing 11 of the imaging device 10 has a through hole 12, through which the lifting device 20 passes. The housing 11 also has a first connecting hole (not shown in the figure). The lifting device 20 includes a fixed base 21 and a lifting mechanism 22 disposed on the fixed base 21. The opposite side walls of the fixed base 21 have second connecting holes (not shown in the figure). The second connecting holes correspond to the first connecting holes and are engaged with bolts to place the fixed base 21 inside the housing 11 and fix it inside the housing 11, thereby fixing the lifting device 20 inside the housing 11. The lifting mechanism 22 includes a base plate 221, a lifting hinge 222 connected to the base plate 221, a top plate 223 connected to the lifting hinge 222, and an adjustment assembly 224 connected to the lifting hinge 222. The base plate 221 and the top plate 223 are symmetrically arranged about the center line of the lifting hinge 222 as the axis of symmetry. Specifically, the A end of the lifting hinge 222 is connected to the top plate 223, and the B end of the lifting hinge 222 is connected to the base plate 221. The A end of the lifting hinge 222, the B end of the lifting hinge 222, the top plate 223, and the base plate 221 are hinged together.
[0043] Continue to refer to Figure 3 Please refer to them together. Figure 4 and Figure 5 , Figure 4 This is a structural diagram of the lifting device in a cantilever imaging system with an adjustable light source, from another perspective, according to this application. Figure 5 yes Figure 3 An enlarged view of circle A shown. Figure 3 , Figure 4 and Figure 5As shown, the middle part of the lifting hinge 222 is also provided with at least two adjusting seats 225. The adjusting seats 225 are provided with adjusting holes 226 and limiting holes 227. The adjusting holes 226 are provided with internal threads (not shown in the figure). The adjusting seats 225 and the lifting hinge 222 are hinged. The centers of the limiting holes 227 on each adjusting seat 225 are located on the same axis. A support rod 23 passes through the limiting holes 227 of the adjusting seat 225. One end of the support rod 23 is fixed to the limiting hole 227, thereby realizing the fixation between the support rod 23 and the adjusting seat 225. The adjustment assembly 224 includes an adjustment rotating head 2241 and an adjustment screw 2242 connected to the adjustment rotating head 2241. The adjustment rotating head 2241 passes through the housing 11 via a through hole 12 for adjustment. The adjustment screw 2242 engages with the internal thread of the adjustment hole 226, so that the adjustment screw 2242 rotates under the drive of the adjustment rotating head 2241. The interaction between the adjustment screw 2242 and the adjustment hole 226 achieves the lifting and lowering of the lifting hinge 222. The annular LED light source 30 is disposed on the outer wall of the top plate 223 of the lifting mechanism 22.
[0044] refer to Figure 6 , Figure 7 , Figure 8 , Figure 9 , Figure 10 and Figure 11 , Figure 6 This is a structural diagram of the sliding door panel in a cantilever imaging device with an adjustable light source, as described in this application. Figure 7 This is a partial structural diagram of the sliding door panel of a cantilever imaging device with adjustable light source according to this application, taken from another perspective. Figure 8 This is a perspective view of the slide groove in a cantilever imaging device with an adjustable light source according to this application. Figure 9 This is a structural diagram of the lifting device in a cantilever imaging system with an adjustable light source, from another perspective, according to this application. Figure 10 This is a perspective view of the mounting base in a cantilever imaging device with an adjustable light source, as described in this application. Figure 11 This is a structural diagram of the driven wheel assembly and drive wheel assembly in a cantilever imaging device with an adjustable light source, as described in this application. Figure 6 , Figure 7 , Figure 8 , Figure 9 , Figure 10 and Figure 11As shown, a sliding door panel device 13 is provided at the front of the housing 11. The sliding door panel device 13 includes a sliding door panel 14, a slide bar 15 disposed on the sliding door panel 14, and a slide groove 16 that cooperates with the slide bar 15. The slide groove 16 is disposed on the inner side wall of the housing 11 to facilitate the sliding door panel 14 to be pushed and pulled open. It should be noted that the slide bar 15 and the slide groove 16 are matched. The slide bar 15 or the slide groove 16 includes, but is not limited to, T-shaped, triangular, etc. The bottom of the base plate 221 of the lifting mechanism 22 is provided with a rack 228, and the bottom of the base plate 221 is also provided with limiting rods 229 on both sides of the rack 228. The limiting rods 229 are provided with a first guide plate 2291 and a second guide plate 2292. The top of the fixed seat 21 is provided with an opening 211, and the driven wheel assembly 212 is provided inside the opening 211. The drive wheel assembly 213, which is matched with the driven wheel assembly 212, is provided on the inner side wall of the top of the fixed seat 21. The drive wheel assembly 213 is sleeved on the protective shell 214. A drive handle 216 is connected to the drive wheel assembly 213. The drive handle 216 passes through the outside of the protective shell 214. The top of the fixed seat 21 is provided with a rack 228 on both sides of the rack 228. A limiting groove 217 is provided around the opening 211. The limiting groove 217 cooperates with the first guide plate 2291 and the second guide plate 2292, so that the first guide plate 2291 and the second guide plate 2292 clamp the top of the fixed seat 21 through the limiting groove 217. This allows the lifting mechanism 22 to be adjusted horizontally by rotating the drive handle 216, in cooperation between the drive wheel assembly 213 and the driven wheel assembly 212, and under the action of the limiting rod 229, the first guide plate 2291, and the second guide plate 2292. Specifically, during operation, the operator pushes the sliding door panel to open the sliding door, and then manually rotates the drive handle to adjust the ring light source in the horizontal direction. Here, the cantilever imager with adjustable light source has a lifting device 20 located inside the imager 10. The lifting device 20 has a lifting mechanism 22 installed on a fixed base 21 and the lifting mechanism 22 is fixed inside the housing 11 by the fixed base 21. The ring light source 30 is installed in the lifting device 20, and the imager 10 is located above the ring light source 30, which enables the ring light source 30 to be raised and lowered, thus improving the measurement effect of the cantilever imager.
[0045] Although this application has been described and illustrated with reference to specific embodiments thereof, such description and illustration are not limiting of this application. It will be readily understood by those skilled in the art that various changes can be made and equivalent elements can be substituted within embodiments without departing from the true spirit and scope of this application as defined by the appended claims. Illustrations may not be drawn to scale. Differences may exist between the technical representation in this application and actual implementation due to variables in the manufacturing process, etc. Other embodiments of this application may exist that are not specifically described. The description and illustrations should be considered illustrative rather than restrictive. Modifications can be made to adapt particular circumstances, materials, composition, methods, or processes to the objectives, spirit, and scope of this application. All such modifications fall within the scope of the appended claims. While the methods disclosed herein have been described with reference to specific operations performed in a particular order, it should be understood that these operations can be combined, subdivided, or reordered to form equivalent methods without departing from the teachings of this application. Therefore, unless specifically indicated herein, the order and grouping of operations do not limit this application.
Claims
1. A cantilevered image projector with adjustable light source, characterized in that, include A lifting device (20) is installed inside the imaging device (10); the housing (11) of the imaging device (10) is provided with a first connection hole, the lifting device (20) includes a fixed base (21) and a lifting mechanism (22) provided on the fixed base (21), the opposite side walls of the fixed base (21) are provided with second connection holes, the second connection holes correspond to the first connection holes, so that the fixed base (21) is placed inside the housing (11) and fixed inside the housing (11), so that the lifting device (20) is fixed inside the housing (11); The ring-shaped light source is located on the lifting device (20), and the imaging device (10) is located above the ring-shaped light source.
2. The cantilevered imager with regulated light source of claim 1, wherein, The housing (11) is provided with a through hole (12), and the lifting device (20) passes through the housing (11) through the through hole (12).
3. The cantilevered imager with regulated light source of claim 2, wherein, The lifting mechanism (22) includes a base plate (221), a lifting hinge (222) connected to the base plate (221), a top plate (223) connected to the lifting hinge (222), and an adjustment component (224) connected to the lifting hinge (222). The A end of the lifting hinge (222), the B end of the lifting hinge (222), the top plate (223), and the base plate (221) are hinged together.
4. The cantilevered imager with regulated light source of claim 3, wherein, The A end of the lifting hinge (222) is connected to the top plate (223), and the B end of the lifting hinge (222) is connected to the bottom plate (221).
5. The cantilevered imager with regulated light source of claim 4, wherein, The bottom plate (221) and the top plate (223) are symmetrically arranged with the center line of the lifting hinge (222) as the axis of symmetry.
6. The cantilevered imager with regulated light source of claim 5, wherein, The middle part of the lifting hinge (222) is also provided with at least two adjusting seats (225), and the adjusting seats (225) are hinged to the lifting hinge (222).
7. The cantilevered imager with regulated light source of claim 6, wherein, The adjusting seat (225) is provided with an adjusting hole (226) and a limiting hole (227). The centers of the limiting holes (227) on each adjusting seat (225) are located on the same axis. A support rod (23) passes through the limiting hole (227) of the adjusting seat (225), wherein one end of the support rod (23) is fixed to the limiting hole (227).
8. The cantilevered imager with regulated light source of claim 7, wherein, The adjustment assembly (224) includes an adjustment rotating head (2241) and an adjustment screw (2242) connected to the adjustment rotating head (2241). The adjustment rotating head (2241) passes through the housing (11) through the through hole (12).
9. The cantilevered imager with regulated light source of claim 8, wherein, The adjusting hole (226) is provided with an internal thread, and the adjusting screw (2242) is engaged with the internal thread of the adjusting hole (226).