Wear-resistant high-precision ceramic vacuum suction device

By using a wear-resistant ceramic vacuum adsorption device, the problems of workpiece movement and decreased accuracy caused by vacuum suction cup wear are solved, achieving high-precision and long-life workpiece fixation, suitable for high-temperature and harsh environments and the adsorption of specific pollutants.

CN224373771UActive Publication Date: 2026-06-19KUNSHAN PUJIEKETE SEMICON CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
KUNSHAN PUJIEKETE SEMICON CO LTD
Filing Date
2025-06-13
Publication Date
2026-06-19

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    Figure CN224373771U_ABST
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Abstract

The utility model relates to a vacuum adsorption technical field especially relates to a wear -resisting high accuracy ceramic vacuum adsorption device. It includes bottom plate, sets up vacuum adsorption device on the bottom plate, sets up material tray on the bottom plate and is fixed by vacuum adsorption device adsorption, the vacuum adsorption device includes even respectively in the several groups material tray vacuum adsorption pipeline of bottom plate, product vacuum adsorption pipeline, and the several groups adsorption head of being connected with the material tray vacuum adsorption pipeline and being placed on the bottom plate, and the several groups ceramic adsorption block of being connected with the product vacuum adsorption pipeline. The utility model has the advantages that: the technical scheme of the utility model is provided with different pipeline material tray vacuum adsorption pipeline and product vacuum adsorption pipeline, and is respectively used for adsorption fixation with the material tray and the product; ceramic adsorption block is arranged in the groove, the high flatness detection requirement is guaranteed, the vacuum adsorption stability when the product in the carrier plate is not complete, and the flatness of ceramic is high, and the wear resistance is high.
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Description

Technical Field

[0001] This utility model relates to the field of vacuum adsorption technology, and in particular to a wear-resistant, high-precision ceramic vacuum adsorption device. Background Technology

[0002] Vacuum adsorption is a common method for fixing workpieces. By setting a vacuum suction cup on the processing device, the workpiece is fixed from the bottom surface, so that the processing device can perform processing operations such as cutting and engraving.

[0003] The existing technology, 2023230523296, describes a working platform and machining center with a combined vacuum suction cup. The existing vacuum suction cup uses aluminum alloy material, which directly adsorbs the product in the carrier tray during the movement. This causes slight movement of the product, resulting in damage to the product and making it impossible to guarantee the accuracy during inspection. Furthermore, friction also occurs between the carrier tray and the vacuum suction cup, and the accuracy of the vacuum suction cup will gradually decrease with long-term use.

[0004] Therefore, it is necessary to design a wear-resistant, high-precision ceramic vacuum adsorption device to solve the above problems. Utility Model Content

[0005] The purpose of this invention is to provide a wear-resistant, high-precision ceramic vacuum adsorption device to overcome the aforementioned shortcomings of the existing technology.

[0006] To achieve the above objectives, the present invention adopts the following technical solution:

[0007] A wear-resistant, high-precision ceramic vacuum adsorption device includes a base plate, a vacuum adsorption device disposed on the base plate, and a material tray disposed on the base plate and fixed by the vacuum adsorption device. The vacuum adsorption device comprises several sets of material tray vacuum adsorption pipelines uniformly distributed within the base plate, a product vacuum adsorption pipeline, several sets of adsorption heads connected to the material tray vacuum adsorption pipelines and placed on the base plate, and several sets of ceramic adsorption blocks connected to the product vacuum adsorption pipelines.

[0008] Preferably, limit blocks are provided around the base plate.

[0009] Preferably, the vacuum adsorption pipeline of the material tray and the vacuum adsorption pipeline of the product are externally connected to an air pipe connector and a logic valve.

[0010] Preferably, the tray has several sets of contoured material slots for storing products, and mounting shafts are provided on the contoured material slots. Each set of contoured material slots contains a set of ceramic adsorption blocks.

[0011] The beneficial effects of this utility model are as follows: This technical solution sets up different pipeline tray vacuum adsorption pipelines and product vacuum adsorption pipelines, which are used to work with the tray and the product for adsorption and fixation respectively; by setting ceramic adsorption blocks in the tank, the high flatness detection requirements are met, and the vacuum adsorption stability is ensured when the product in the carrier plate is not complete. The ceramic has high flatness and high wear resistance, which greatly improves the service life and can be used for detection functions at the same time. Attached Figure Description

[0012] Figure 1 This is a schematic diagram of the structure of a wear-resistant, high-precision ceramic vacuum adsorption device according to the present invention;

[0013] Figure 2 This is an internal cross-sectional view of a wear-resistant, high-precision ceramic vacuum adsorption device according to this utility model;

[0014] In the diagram: 1. Base plate; 2. Material tray; 3. Limiting block; 4. Vacuum adsorption pipeline of the material tray; 5. Vacuum adsorption pipeline of the product; 6. Adsorption head; 7. Ceramic adsorption block; 8. Air pipe connector; 21. Contouring material trough; 22. Mounting shaft. Detailed Implementation

[0015] Reference Figures 1 to 2 A wear-resistant, high-precision ceramic vacuum adsorption device includes a base plate 1, a vacuum adsorption device disposed on the base plate, and a material tray 2 disposed on the base plate and fixed by the vacuum adsorption device.

[0016] In order to quickly position the material tray and accurately cooperate with the adsorption device, limit blocks 3 are provided around the bottom plate.

[0017] The vacuum adsorption device includes several sets of material tray vacuum adsorption pipelines 4, product vacuum adsorption pipelines 5, several sets of adsorption heads 6 connected to the material tray vacuum adsorption pipelines and placed on the base plate, and several sets of ceramic adsorption blocks 7 connected to the product vacuum adsorption pipelines.

[0018] The material tray vacuum adsorption pipeline and the product vacuum adsorption pipeline are externally connected to an air pipe connector 8 and a logic valve. The air pipe connector is connected to an external vacuum adsorption pump or other vacuum adsorption system to provide adsorption force. The logic valve is used to adjust the valve size to adjust different adsorption forces. The material tray vacuum adsorption pipeline and the product vacuum adsorption pipeline are not connected to each other and are set up independently to achieve precise control and improve the adsorption effect.

[0019] The tray 2 is provided with several sets of contoured material grooves 21 for storing products, and the contoured material grooves are also provided with mounting shafts 22. The mounting shafts cooperate with the products for limiting installation, and the contoured material grooves ensure the accuracy of product installation.

[0020] Each set of contoured material tanks contains a set of ceramic adsorption blocks to achieve product adsorption and fixation. The ceramic adsorption blocks have a porous structure; ceramic itself has high porosity, providing a large surface area for adsorbing pollutants or gas molecules. Based on this principle, it is used in conjunction with an adsorption device to achieve the adsorption function. In addition, ceramic adsorption blocks have high temperature resistance and chemical stability. Ceramic is resistant to high temperatures and corrosion, making it suitable for harsh environments (such as high-temperature waste gas treatment, strong acid and strong alkali conditions). Ceramic can also be loaded with active ingredients (such as activated carbon, metal oxides, molecular sieves, etc.) to enhance the adsorption capacity for specific pollutants (such as heavy metals, VOCs, formaldehyde). The adsorption performance of ceramics depends on the pore structure and the modified materials. The appropriate type needs to be selected according to the target pollutant. After long-term use, it may need to be regenerated (such as high-temperature calcination) or replaced.

[0021] In a specific implementation example, at least four sets of material tray vacuum adsorption pipelines are evenly distributed along the longitudinal direction of the base plate. Similarly, several sets of product vacuum adsorption pipelines are evenly distributed along the longitudinal direction of the base plate. The product vacuum adsorption pipelines are determined according to the material slots opened in the material trays. Each set of product vacuum adsorption pipelines corresponds to a row of material slots, and each set of material slots is equipped with a set of ceramic adsorption blocks. Each row of ceramic adsorption blocks is connected to the same set of product vacuum adsorption pipelines.

[0022] The advantages of this utility model are that the technical solution sets up different pipelines for material tray vacuum adsorption and product vacuum adsorption, which are used to work with the material tray and the product for adsorption and fixation respectively; by setting ceramic adsorption blocks in the tank, the high flatness detection requirements are met, and the vacuum adsorption stability is ensured when the product in the carrier plate is not complete. The ceramic has high flatness and high wear resistance, which greatly improves the service life and can be used for detection functions at the same time.

[0023] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.

Claims

1. A wear-resistant, high-precision ceramic vacuum adsorption device, comprising a base plate, a vacuum adsorption device disposed on the base plate, and a material tray disposed on the base plate and fixed by the vacuum adsorption device, characterized in that: The vacuum adsorption device includes several sets of material tray vacuum adsorption pipelines, product vacuum adsorption pipelines, several sets of adsorption heads connected to the material tray vacuum adsorption pipelines and placed on the base plate, and several sets of ceramic adsorption blocks connected to the product vacuum adsorption pipelines.

2. The high-precision ceramic vacuum chuck of claim 1, wherein: Limiting blocks are provided around the base plate.

3. The high-precision ceramic vacuum chuck of claim 1, wherein: The vacuum adsorption pipeline of the material tray and the vacuum adsorption pipeline of the product are externally connected to air pipe connectors and logic valves.

4. The high-precision ceramic vacuum chuck of claim 1, wherein: The tray is provided with several sets of contoured material slots for storing products, and mounting shafts are also provided on the contoured material slots. Each set of contoured material slots is provided with a set of ceramic adsorption blocks.