A flatness detection machine rotary platform

By setting up positioning adjustment and replacing adjustment components on the rotating platform, the problem of position offset caused by inertia was solved, thereby improving stability and efficiency and adapting to the testing needs of different products.

CN224435389UActive Publication Date: 2026-06-30FREEWON CHINA CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FREEWON CHINA CO LTD
Filing Date
2025-09-10
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The existing rotating platform may experience positional shifts due to inertia during rotational adjustment, affecting detection efficiency.

Method used

A rotating platform comprising a rotating disk, a positioning block, a clamping block, a positioning adjustment component, and a replacement adjustment component is designed. The platform uses a telescopic rod to drive the push rod to slide and insert into the annular groove for limiting. Combined with the sliding adjustment of the insertion block and the slot, stable positioning and rapid replacement are achieved.

Benefits of technology

This improved the stability and efficiency of the testing process, ensured the adaptability of different products, and enhanced the accuracy and speed of testing.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224435389U_ABST
    Figure CN224435389U_ABST
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Abstract

This utility model relates to the field of flatness inspection technology, specifically a rotating platform for a flatness inspection machine. It mainly includes a rotating disk, a motor mounted at the bottom center of the rotating disk, a positioning block connected to the top of the rotating disk, and a clamping block fixedly mounted on the inner side of the top of the positioning block. The positioning adjustment component includes an annular groove, a push-in rod connected to the bottom of the annular groove, and a telescopic rod connected to the bottom of the push-in rod. The replacement adjustment component includes a slot, with an insertion block provided inside the slot. The replacement adjustment component is used for replacing and adjusting the clamping block. This flatness inspection machine rotating platform, during product inspection, uses a rotating disk for support. To improve the stability of the inspection after the rotating disk rotates, the push-in rod can be slid inside the annular groove via the telescopic rod, and then pushed into the inner side of the positioning hole at the inspection position for insertion and limiting, thereby improving positioning stability and ensuring inspection efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of flatness detection technology, specifically a rotating platform for a flatness detection machine. Background Technology

[0002] During product manufacturing, sheet materials are prone to warping and deformation, which can affect the product's appearance or subsequent assembly processes. Therefore, it is necessary to inspect the flatness of the product after the sheet material is formed. During the inspection process, a rotating platform is needed to transfer the position of the product installed at multiple workstations.

[0003] The existing rotating platform is driven by a motor to adjust its rotation during use. When the platform stops, it may experience a certain positional deviation due to inertia. This necessitates adjusting the position of the inspection mechanism before conducting accurate inspections, which also affects the inspection rate and reduces the efficiency of product flatness inspection. Optimization and improvement are needed to address this issue. Utility Model Content

[0004] The purpose of this invention is to provide a rotating platform for a flatness inspection machine, in order to solve the problem mentioned in the background art that the rotating platform may shift its rotation position due to inertia during rotation adjustment, thus affecting processing efficiency.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a rotating platform for a flatness inspection machine, comprising: a rotating disk, a motor mounted at the bottom center of the rotating disk, a positioning block connected to the top of the rotating disk, and a clamping block fixedly mounted on the inner side of the top of the positioning block; and further comprising a positioning adjustment component and a replacement adjustment component.

[0006] The positioning adjustment component is located at the bottom of the rotating disk. The positioning adjustment component includes an annular groove, the bottom end of which is connected to a push rod, and the bottom end of the push rod is connected to a telescopic rod. The positioning adjustment component is used for positioning adjustment after the rotating disk rotates.

[0007] The replacement adjustment component is disposed on the inner side of the rotating disk. The replacement adjustment component includes a slot, and an insertion block is disposed on the inner side of the slot. The replacement adjustment component is used for the replacement adjustment of the clamping block.

[0008] Preferably, the annular groove is disposed on the outer side of the bottom wall of the rotating disk, and a positioning hole is disposed on the inner side of the annular groove.

[0009] Preferably, an extension fixing plate is fixedly connected to the outside of the motor, and the telescopic rod is fixedly installed on the top inner side of the extension fixing plate.

[0010] Preferably, a mounting plate is fixedly connected to the top end of the telescopic rod, and a retractable tube is fixedly installed at the top end of the mounting plate.

[0011] Preferably, a gasket is fixedly connected to the bottom inner side of the shrink tube, and an elastic connector is fixedly connected to the top of the gasket.

[0012] Preferably, a push rod is fixedly connected to the top end of the elastic connector, and a ball bearing is connected to the inner side of the top wall of the push rod.

[0013] Preferably, the slots are located inside the top wall of the rotating disk, and there are four sets of slots arranged in a ring.

[0014] Preferably, the plug-in block is fixedly connected to both sides of the bottom end of the positioning block, the inner wall of the plug-in block is fixedly connected to an elastic connector two, the outer side of the elastic connector two is fixedly connected to a pointed locking block, and the pointed locking block and the plug-in block are slidably connected.

[0015] Compared with the prior art, the beneficial effects of this utility model are:

[0016] This utility model uses a rotating disk to support the product during the inspection process. To improve the stability of the inspection after the rotating disk rotates, a telescopic rod can be used to drive the push rod to slide inside the annular groove. Then, the push rod is inserted into the positioning hole at the inspection position for insertion and limiting, thereby improving the stability of the positioning and ensuring the inspection efficiency.

[0017] When testing different products, the positioning block and the clamping block at the top need to be replaced. The adjustable tip block is connected by a plug-in block and is locked inside the slot, which facilitates the replacement of the positioning block and adapts to the positioning of different products, thereby improving the product testing efficiency. Attached Figure Description

[0018] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0019] Figure 2 This is a three-dimensional structural diagram of the present invention from another perspective;

[0020] Figure 3 This is a partial three-dimensional structural diagram of the positioning adjustment component of this utility model;

[0021] Figure 4 This is a partial cross-sectional three-dimensional structural diagram of the replacement adjustment component of this utility model.

[0022] In the diagram: 1. Rotating disk; 2. Motor; 3. Positioning block; 4. Clamping block; 5. Annular groove; 6. Positioning hole; 7. Extension fixing plate; 8. Telescopic rod; 9. Mounting plate; 10. Retractable tube; 11. Gasket; 12. Elastic connector one; 13. Push rod; 14. Ball bearing; 15. Slot; 16. Insertion block; 17. Elastic connector two; 18. Tip locking block. Detailed Implementation

[0023] It should be noted that, unless otherwise specified, 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.

[0024] To enable those skilled in the art to better understand the present application, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present application, and not all embodiments. Based on the embodiments in the present application, all other embodiments obtained by those of ordinary skill in the art without creative effort should fall within the scope of protection of the present application.

[0025] like Figure 1 - Figure 4 As shown, this application provides a rotating platform for a flatness testing machine, including: a rotating disk 1, a motor 2 installed at the bottom center of the rotating disk 1, a positioning block 3 connected to the top of the rotating disk 1, and a clamping block 4 fixedly installed on the inner side of the top of the positioning block 3;

[0026] A positioning adjustment component is provided at the bottom of the rotating disk 1. The positioning adjustment component includes an annular groove 5, and a push rod 13 is connected to the bottom of the annular groove 5. A telescopic rod 8 is connected to the bottom of the push rod 13. The positioning adjustment component is used for positioning adjustment after the rotating disk 1 rotates.

[0027] Specifically, such as Figure 2 As shown, the annular groove 5 is provided on the outer side of the bottom wall of the rotating disk 1, and the inner side of the annular groove 5 is provided with a positioning hole 6. The annular groove 5 is used to guide the rotation position of the push rod 13, and the positioning hole 6 is used to restrict the upward movement of the push rod 13.

[0028] Specifically, such as Figure 2 As shown, an extension fixing plate 7 is fixedly connected to the outside of the motor 2, and a telescopic rod 8 is fixedly installed on the top inner side of the extension fixing plate 7. The extension fixing plate 7 fixes the telescopic rod 8 after it extends.

[0029] Specifically, such as Figure 3 As shown, a mounting plate 9 is fixedly connected to the top of the telescopic rod 8, and a shrink tube 10 is fixedly installed on the top of the mounting plate 9. The mounting plate 9 is used for the installation between the shrink tube 10 and the telescopic rod 8.

[0030] Specifically, such as Figure 3 As shown, a gasket 11 is fixedly connected to the bottom inner side of the shrink tube 10, and an elastic connector 12 is fixedly connected to the top of the gasket 11. The gasket 11 is used for contact protection of the elastic connector 12 when it is pressed down and shrinks.

[0031] Specifically, such as Figure 3 As shown, the top end of the elastic connector 12 is fixedly connected to the push rod 13, and the inner side of the top wall of the push rod 13 is connected to the ball 14. The ball 14 contacts the inner side of the annular groove 5. The rolling connection will reduce the friction during adjustment and improve the adjustment efficiency.

[0032] The inner side of the rotating disk 1 is provided with a replacement adjustment component, which includes a slot 15 and a plug block 16 is provided on the inner side of the slot 15. The replacement adjustment component is used to hold the replacement adjustment of the block 4.

[0033] Specifically, such as Figure 4 As shown, the slot 15 is opened inside the top wall of the rotating disk 1, and there are four sets of slots 15 arranged in a ring. The four sets of slots 15 facilitate the installation of the positioning block 3 and clamping block 4 in multiple positions.

[0034] Specifically, such as Figure 4 As shown, the plug-in block 16 is fixedly connected to both sides of the bottom end of the positioning block 3. An elastic connector 17 is fixedly connected to the inner wall of the plug-in block 16. A pointed locking block 18 is fixedly connected to the outer side of the elastic connector 17. The pointed locking block 18 and the plug-in block 16 are slidably connected. The plug-in block 16 and the pointed locking block 18 are plugged into the inner side of the slot 15 for easy locking and positioning.

[0035] In this embodiment: During the product testing process, a rotating disk 1 is set up to support the load. To improve the stability of the rotating disk 1 during testing, the telescopic rod 8 can drive the push rod 13 to slide inside the annular groove 5, and then push it into the positioning hole 6 at the testing position for insertion and limiting, thereby improving the positioning stability. When testing different products, the positioning block 3 and the clamping block 4 at the top need to be replaced. The slidingly adjustable tip block 18 is connected by the plug-in block 16 and is locked inside the slot 15, which facilitates the replacement of the positioning block 3 and adapts to the positioning of different products.

[0036] The specific solution is as follows: When performing flatness testing on the product, a positioning block 3 with a suitable clamping block 4 is installed on the top of the rotating disk 1. A plug-in block 16 and a tip-locking block 18 are secured in a slot 15. The outer side of the tip-locking block 18 is designed as a triangular cone to facilitate position adjustment during engagement and disengagement. An elastic connector 17 is used for compression protection after the tip-locking block 18 has been adjusted in position. After the suitable clamping block 4 is positioned, the product is placed inside the clamping block 4. Then, the rotating disk 1 is rotated by the motor 2 to adjust the product inside the clamping block 4. When the device reaches the appropriate inspection station, during the rotation adjustment process, the push rod 13 and the ball bearing 14 slide against the bottom of the annular groove 5, providing a certain guiding and limiting function. When the device reaches the positioning inspection position, the ball bearing 14 is inserted into the positioning hole 6. Under the elastic force of the elastic connector 12, the push rod 13 is stuck inside the positioning hole 6, mechanically limiting the rotation of the rotating disk 1 and improving the stability during inspection. After inspection and processing, the push rod 13 and the ball bearing 14 are moved out of the positioning hole 6 by the telescopic rod 8, and the device continues to rotate for the next processing step.

[0037] Those skilled in the art should understand that the discussion of any of the above embodiments is merely exemplary; within the framework of this invention, the technical features of the above embodiments or different embodiments can also be combined, the steps can be implemented in any order, and there are many other variations of the different aspects of this invention as described above, which are not provided in the details for the sake of brevity.

[0038] This utility model is intended to cover all such substitutions, modifications, and variations that fall within the broad scope of the appended claims. Therefore, any omissions, modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.

Claims

1. A flatness inspection machine rotary platform, comprising: A rotating disk (1), wherein a motor (2) is installed at the center of the bottom end of the rotating disk (1), and a positioning block (3) is connected to the top end of the rotating disk (1), and a clamping block (4) is fixedly installed on the inner side of the top end of the positioning block (3), characterized in that it further includes: A positioning adjustment component is provided at the bottom of the rotating disk (1). The positioning adjustment component includes an annular groove (5), and the bottom end of the annular groove (5) is connected to a push rod (13). The bottom end of the push rod (13) is connected to a telescopic rod (8). The positioning adjustment component is used for positioning adjustment after the rotating disk (1) rotates. Replacement adjustment component, the replacement adjustment component is disposed inside the rotating disk (1), the replacement adjustment component includes a slot (15), the slot (15) is provided with a plug block (16) inside, the replacement adjustment component is used to hold the replacement adjustment of the block (4).

2. The flatness inspection machine rotary platform of claim 1, wherein, The annular groove (5) is located on the outer side of the bottom wall of the rotating disk (1), and a positioning hole (6) is provided on the inner side of the annular groove (5).

3. The flatness inspection machine rotary platform of claim 1, wherein, An extension fixing plate (7) is fixedly connected to the outside of the motor (2), and the telescopic rod (8) is fixedly installed on the top inner side of the extension fixing plate (7).

4. The flatness inspection machine rotary platform of claim 3, wherein, The top end of the telescopic rod (8) is fixedly connected to an installation piece (9), and the top end of the installation piece (9) is fixedly installed with a shrink tube (10).

5. The flatness inspection machine rotary platform of claim 4, wherein, A gasket (11) is fixedly connected to the bottom inner side of the shrink tube (10), and an elastic connector (12) is fixedly connected to the top of the gasket (11).

6. The flatness inspection machine rotary platform of claim 5, wherein, The top end of the elastic connector (12) is fixedly connected to a push rod (13), and a ball bearing (14) is connected to the inner side of the top wall of the push rod (13).

7. The flatness inspection machine rotary platform of claim 1, wherein, The slots (15) are located inside the top wall of the rotating disk (1), and there are four sets of slots (15) arranged in a ring.

8. The flatness inspection machine rotary platform of claim 1, wherein, The plug-in block (16) is fixedly connected to both sides of the bottom end of the positioning block (3). An elastic connector (17) is fixedly connected to the inner wall of the plug-in block (16). A pointed locking block (18) is fixedly connected to the outer side of the elastic connector (17). The pointed locking block (18) and the plug-in block (16) are slidably connected.