An adjustment mechanism for a work plate of a shadowgraph
By introducing an adjustable working platform and linkage mechanism into the imager, and using a motor to drive the main and auxiliary gears, the vertical lifting of the working platform of the imager can be realized, which solves the problem of limited vertical adjustment of the imager and improves the adaptability and ease of use of the imager.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG ZHONGWANG AUTOMATION TECH CO LTD
- Filing Date
- 2025-08-29
- Publication Date
- 2026-06-19
Smart Images

Figure CN224381168U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the technical field of imaging devices, and in particular to an adjustment mechanism for the working plate of an imaging device. Background Technology
[0002] In the fields of modern industrial production and scientific research, image measurement, as a high-precision and efficient measurement method, is increasingly favored by various industries. Image measurement relies on computer screen measurement technology and powerful software capabilities of spatial geometric calculation. It is a high-precision optical image measurement instrument composed of a high-resolution CCD color lens, a continuous zoom objective lens, a color display, a video crosshair display, a precision grating ruler, a multi-functional data processor, data measurement software, and a high-precision worktable structure.
[0003] However, with existing technology, the worktable of the imaging instrument can only move horizontally during daily operation. The vertical distance of the imaging instrument is adjusted only by the vertical movement of the testing section, which limits the vertical adjustment of the imaging instrument. When facing tall products, it is very inconvenient to measure one side of them, resulting in low adaptability of the imaging instrument. Utility Model Content
[0004] This utility model embodiment provides an adjustment mechanism for the working plate of an imager, which increases the longitudinal movement distance of the imager during daily operation, improves the adaptability of the imager, and enhances the convenience of using the imager.
[0005] To achieve the aforementioned objectives, this application adopts the following technical solution:
[0006] An adjustment mechanism for an image sensor working plate, characterized in that it includes:
[0007] The machine body has a groove formed on its worktable; the power distribution cabinet of the machine body is equipped with a linkage mechanism, which includes an electric component and a set of linkage components connected to the electric component. The linkage components include a secondary rod and a secondary gear connected to the secondary rod. The secondary rod is provided with an external thread, and the inner side wall of the secondary gear is provided with an internal thread. The external thread on the secondary rod and the internal thread on the inner side wall of the secondary gear are engaged. One end of the secondary rod is provided with a connector, which is engaged with the top seat.
[0008] An adjustable work platform is connected to the machine body. The work platform is slidably connected to the groove inside the worktable, and a set of top seats is provided at the bottom of the work platform.
[0009] In some optional embodiments, sliding grooves are provided on the opposite side walls of the inner side of the groove along a predetermined direction, and sliders are provided on the opposite side walls of the working plate, with the sliders corresponding to the sliding grooves.
[0010] In some alternative implementations, a set of top seats includes two top seats.
[0011] In some alternative implementations, the top seat has a retaining edge inside.
[0012] In some alternative implementations, the electric component includes an electric motor, a main rod connected to the electric motor, and a main gear sleeved on the main rod, the main gear cooperating with a secondary gear.
[0013] In some alternative embodiments, an auxiliary connector is fitted onto the main gear. The auxiliary connector includes a main gear connecting sleeve and a set of secondary gear connecting sleeves. The main gear connecting sleeve is fitted onto the E end of the main gear.
[0014] In some alternative implementations, a set of linkage components includes two linkage components.
[0015] In some alternative implementations, the connector head is provided with a slot that mates with the edge of the connector.
[0016] In some alternative embodiments, the secondary gear and the secondary gear connecting sleeve are fitted together, with the secondary gear connecting sleeve sleeved on the F end of the secondary gear.
[0017] In some alternative implementations, a mounting bracket is provided on the outside of the motor, and the motor is fixed inside the distribution cabinet by the mounting bracket.
[0018] The adjustment mechanism for the imaging instrument worktable provided in this application has the following beneficial effects:
[0019] The technical solution adopted in this application includes an adjustment mechanism for the imaging instrument's worktable, comprising a body and an adjustable work plate connected to the body. A groove is formed on the worktable of the body. The electrical cabinet of the body is equipped with a linkage mechanism, which includes an electric component and a set of linkage components connected to the electric component. The linkage components include a secondary rod and a secondary gear connected to the secondary rod. The secondary rod has an external thread, and the inner wall of the secondary gear has an internal thread. The external thread on the secondary rod and the internal thread on the inner wall of the secondary gear are engaged. One end of the secondary rod is provided with a connector, which engages with a top seat. The work plate is slidably connected to the groove of the worktable. A set of top seats is provided at the bottom of the work plate. This increases the longitudinal movement distance of the imaging instrument during daily operation, improves the adaptability of the imaging instrument, and enhances the ease of use of the imaging instrument. Attached Figure Description
[0020] 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:
[0021] Figure 1 This is a schematic diagram of the overall structure of an adjustment mechanism for an image instrument working plate according to this application;
[0022] Figure 2 yes Figure 1 Enlarged view of circle A shown;
[0023] Figure 3 This is a perspective view of an adjustable working plate in an adjustment mechanism for an image instrument working plate according to this application;
[0024] Figure 4 This is a schematic diagram of the top seat in an adjustment mechanism for an image analyzer working plate according to this application;
[0025] Figure 5 This is a schematic diagram of the linkage mechanism in the adjustment mechanism of an image instrument working plate according to this application;
[0026] Figure 6 This is a schematic diagram of the meshing of the main gear and the auxiliary gear in an adjustment mechanism for an image instrument working plate according to this application;
[0027] Figure 7 This is a schematic diagram of the structure of an auxiliary connecting member in an adjustment mechanism for an image analyzer working plate according to this application;
[0028] Figure 8 This is a partial structural diagram of the auxiliary rod in an adjustment mechanism for an imager working plate according to this application.
[0029] Figure label:
[0030] 10. Machine body; 10A. Groove; 10B. Sliding groove; 11. Workbench; 12. Power distribution cabinet;
[0031] 20. Adjustable work plate; 21. Slider; 22. Top seat; 221. Edge clamp;
[0032] 30. Linkage mechanism; 31. Electric component; 311. Electric motor; 312. Main rod; 313. Main gear; 314. Fixing frame; 315. Auxiliary connector; 316. Main gear connecting sleeve; 317. Secondary gear connecting sleeve; 32. Linkage component; 321. Secondary rod; 322. Secondary gear; 323. Connector; 324. Slot. Detailed Implementation
[0033] 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.
[0034] 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.
[0035] 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.
[0036] 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.
[0037] 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.
[0038] 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.
[0039] refer to Figure 1 , Figure 1 This is a schematic diagram of the overall structure of an adjustment mechanism for an imaging device working plate according to this application. Figure 1 As shown, an adjustment mechanism for an imager working plate includes a body 10 and an adjustable working plate 20 connected to the body 10.
[0040] Continue to refer to Figure 1 Please refer to them together. Figure 2 , Figure 3 , Figure 4 , Figure 5 , Figure 6 and Figure 7 , Figure 2 yes Figure 1 The enlarged view of circle A shown. Figure 3 This is a perspective view of an adjustable working plate in an adjustment mechanism for an imaging camera working plate according to this application. Figure 4This is a schematic diagram of the top seat in an adjustment mechanism for an image analyzer working plate according to this application. Figure 5 This is a schematic diagram of the linkage mechanism in the adjustment mechanism of an image instrument working plate according to this application. Figure 6 This is a schematic diagram of the meshing structure of the main gear and the auxiliary gear in an adjustment mechanism for an image instrument working plate according to this application. Figure 7 This is a schematic diagram of the auxiliary connecting member in the adjustment mechanism of an image analyzer working plate according to this application. Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 , Figure 6 and Figure 7 As shown, a groove 10A is formed on the worktable 11 of the machine body 10, and sliding grooves 10B are provided on the opposite side walls of the inner side of the groove 10A along a predetermined direction. The work plate is slidably connected to the inside of the groove 10A of the worktable 11, and sliders 21 are provided on the opposite side walls of the work plate, with the sliders 21 corresponding to the sliding grooves 10B. A set of top seats 22 is provided at the bottom of the work plate, and the set of top seats 22 includes two top seats 22, with a retaining edge 221 inside the top seat 22. The power distribution cabinet 12 of the machine body 10 is equipped with a linkage mechanism 30. The linkage mechanism 30 includes an electric component 31 and a set of linkage components 32 connected to the electric component 31. The electric component 31 includes a motor 311, a main rod 312 connected to the motor 311, and a main gear 313 sleeved on the main rod 312. A fixing frame 314 is provided on the outside of the motor 311. The motor 311 is fixed to the inside of the power distribution cabinet 12 through the fixing frame 314. An auxiliary connecting piece 315 is sleeved on the main gear 313. The auxiliary connecting piece 315 includes a main gear connecting sleeve 316 and a set of secondary gear connecting sleeves 317. The main gear connecting sleeve 316 is sleeved on the E end of the main gear 313. It should be noted that the main gear connecting sleeve and the secondary gear connecting sleeve are both equipped with bearings inside. The bearings are used to connect with the corresponding main gear 313 and secondary gear 322 to realize the connection between the main gear connecting sleeve 316 or the secondary gear connecting sleeve 317 and the main gear 313 or the secondary gear 322, respectively.
[0041] Continue to refer to Figure 5 and Figure 7 Please refer to them together. Figure 8 , Figure 8 This is a partial structural diagram of the auxiliary rod in an adjustment mechanism for an image recorder working plate, as described in this application. Figure 5 , Figure 7 and Figure 8As shown, a set of linkage components 32 includes two linkage components 32. Each linkage component 32 includes a secondary rod 321 and a secondary gear 322 connected to the secondary rod 321. The secondary rod 321 has an external thread, and one end of the secondary rod 321 is provided with a connector 323. The connector 323 has a slot 324, which cooperates with the retaining edge 221. The secondary gear 322 cooperates with the main gear 313 and with the secondary gear connecting sleeve 317. The secondary gear connecting sleeve 317 is fitted onto the F end of the secondary gear 322. The inner wall of the secondary gear 322 has an internal thread (not shown in the figure). The external thread on the secondary rod 321 cooperates with the internal thread on the inner wall of the secondary gear 322. The auxiliary rod 321 has a connector 323 at one end that extends into the top seat 22 and engages with it. The auxiliary gears 322 on both linkage components 32 engage with the main gear 313. When the motor rotates, the main rod 312 drives the main gear 313 to rotate, and the auxiliary gear 322 follows the main gear 313. With the mutual engagement of the internal and external threads, the auxiliary gears move up and down in the vertical direction. This allows the connector 323 on the auxiliary rod 321 to engage with the top seat 22 on the working plate, thereby driving the working plate to move up and down. This effectively increases the longitudinal movement distance of the imager, improves its adaptability, and enhances its ease of use.
[0042] Here, the adjustment mechanism for the imaging instrument worktable 11 includes a body 10 and an adjustable work platform 20 connected to the body 10. A groove 10A is formed on the worktable 11 of the body 10. A linkage mechanism 30 is provided in the power distribution cabinet 12 of the body 10. The linkage mechanism 30 includes an electric component 31 and a set of linkage components 32 connected to the electric component 31. The linkage components 32 include a secondary rod 321 and a secondary gear 322 connected to the secondary rod 321. The secondary rod 321 is provided with an external thread, and the secondary gear 32... The inner wall of the 2 is provided with an internal thread, and the external thread on the auxiliary rod 321 is engaged with the internal thread on the inner wall of the auxiliary gear 322. One end of the auxiliary rod 321 is provided with a connector 323, which is engaged with the top seat 22. The work plate is slidably connected to the groove 10A inside the worktable 11. A set of top seats 22 is provided at the bottom of the work plate, which increases the longitudinal movement distance of the imager during daily work, improves the adaptability of the imager, and enhances the convenience of using the imager.
[0043] 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. An adjustment mechanism for an image sensor working plate, characterized in that, include The machine body has a groove formed on its worktable; the power distribution cabinet of the machine body is equipped with a linkage mechanism, which includes an electric component and a set of linkage components connected to the electric component. The linkage components include a secondary rod and a secondary gear connected to the secondary rod. The secondary rod is provided with an external thread, and the inner side wall of the secondary gear is provided with an internal thread. The external thread on the secondary rod and the internal thread on the inner side wall of the secondary gear are engaged. One end of the secondary rod is provided with a connector, which is engaged with the top seat. An adjustable work platform is connected to the machine body. The work platform is slidably connected to the groove inside the worktable, and a set of top seats is provided at the bottom of the work platform.
2. The adjustment mechanism for the working plate of an image recorder according to claim 1, characterized in that, Sliding grooves are provided on the opposite side walls of the inner side of the groove along a preset direction, and sliders are provided on the opposite side walls of the working plate, with the sliders corresponding to the sliding grooves.
3. The adjustment mechanism for the working plate of the image analyzer according to claim 2, characterized in that, A set of top mounts consists of two top mounts.
4. The adjustment mechanism for the working plate of the image analyzer according to claim 3, characterized in that, The top seat has a retaining edge inside.
5. The adjustment mechanism for the working plate of the image analyzer according to claim 4, characterized in that, The electric component includes an electric motor, a main rod connected to the electric motor, and a main gear sleeved on the main rod, with the main gear meshing with the auxiliary gear.
6. The adjustment mechanism for the working plate of an imager according to claim 5, characterized in that, An auxiliary connecting component is fitted onto the main gear. The auxiliary connecting component includes a main gear connecting sleeve and a set of secondary gear connecting sleeves. The main gear connecting sleeve is fitted onto the E end of the main gear.
7. The adjustment mechanism for the working plate of an image recorder according to claim 6, characterized in that, A set of linked components includes two linked components.
8. The adjustment mechanism for the working plate of an image recorder according to claim 7, characterized in that, The connector head is equipped with a slot that mates with the edge of the connector.
9. The adjustment mechanism for the working plate of an image recorder according to claim 8, characterized in that, The auxiliary gear and the auxiliary gear connecting sleeve are fitted together, with the auxiliary gear connecting sleeve sleeved on the F end of the auxiliary gear.
10. The adjustment mechanism for the working plate of an imager according to claim 9, characterized in that, The motor is mounted on an external bracket, which secures it to the inside of the distribution cabinet.