Combined high-precision machining disc

By combining an aluminum alloy base plate and an ABS shell, and utilizing the precision positioning of the positioning cylinder and the cylindrical positioning hole, as well as the bolt fastening, the problem of balancing the weight and precision of traditional machining discs is solved, thus achieving a high-precision and lightweight machining disc design.

CN224475882UActive Publication Date: 2026-07-10CHONGQING SAIMEI SHUZHI TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHONGQING SAIMEI SHUZHI TECH CO LTD
Filing Date
2025-06-30
Publication Date
2026-07-10

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Abstract

This patent relates to the field of machining tray technology, specifically a combined high-precision machining tray, comprising an aluminum alloy base plate and an ABS shell. The ABS shell is detachably connected to the aluminum alloy base plate. Clamping blocks are detachably connected to both sides of the aluminum alloy base plate. A central channel is provided in the middle of the aluminum alloy base plate, and a positioning block is detachably connected to the center of the central channel. A sensing block is installed on the bottom surface of the aluminum alloy base plate. The ABS shell has several part positioning holes and several part positioning posts. In this solution, the base plate is made of aluminum alloy, and the shell on top for placing parts is made of ABS material. Precision positioning is achieved between the aluminum alloy base plate and the ABS shell using positioning cylinders and cylindrical positioning holes, followed by bolt fastening. This achieves weight reduction while meeting machining accuracy requirements, solving the problem that traditional machining trays cannot simultaneously balance weight and machining accuracy.
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Description

Technical Field

[0001] This utility model relates to the field of machining disc technology, specifically a combined high-precision machining disc. Background Technology

[0002] With the popularization of intelligent manufacturing, more and more newly built manufacturing plants are using fully automated production lines. High-precision product containers are needed to support the logistics supply of these production lines. While using all-aluminum alloy for these containers ensures precision, it results in excessive weight, increasing the burden on the production line and AGVs (Automated Guided Vehicles) and reducing efficiency. Using pure ABS material, although reducing weight, compromises precision due to the susceptibility of plastic materials to deformation during machining. Utility Model Content

[0003] The present invention aims to provide a combined high-precision machining tray to solve the problem that traditional machining trays cannot balance weight and machining accuracy at the same time.

[0004] To achieve the above objectives, the basic solution of this utility model is as follows: A combined high-precision machining disk includes an aluminum alloy base plate and an ABS housing. The ABS housing is detachably connected to the aluminum alloy base plate. Clamping blocks are detachably connected to both sides of the aluminum alloy base plate. A central channel is provided in the middle of the aluminum alloy base plate. A positioning block is detachably connected to the middle of the central channel. A sensing block is installed on the bottom surface of the aluminum alloy base plate. A plurality of part positioning holes and a plurality of part positioning posts are provided inside the ABS housing.

[0005] Furthermore, the top surface of the aluminum alloy base plate is provided with a number of positioning cylinders, and the bottom surface of the ABS shell is provided with a number of cylindrical positioning holes corresponding to the positions of the positioning cylinders.

[0006] Furthermore, the aluminum alloy base plate and the ABS housing are provided with corresponding mounting holes, and the aluminum alloy base plate and the ABS housing are detachably connected by bolts.

[0007] Furthermore, the aluminum alloy base plate is provided with several weight-reducing perforated holes, and the bottom surface of the ABS shell is provided with several weight-reducing blind holes.

[0008] Furthermore, the cylindrical positioning hole includes a positioning circular hole and a positioning waist hole.

[0009] The beneficial effects of this solution are as follows: The base plate is made of aluminum alloy, and the upper shell for placing parts is made of ABS material. The aluminum alloy base plate and the ABS shell are positioned with a positioning cylinder and a cylindrical positioning hole for precision positioning, and then bolts are used for fastening and installation, thereby achieving weight reduction while meeting the processing accuracy requirements. Attached Figure Description

[0010] Figure 1 This is a schematic diagram of the overall structure of an embodiment of the present utility model;

[0011] Figure 2 This is a schematic diagram of the bottom structure of an embodiment of the present utility model;

[0012] Figure 3 This is a schematic diagram of the specific structure of the aluminum alloy base plate in the embodiment of this utility model;

[0013] Figure 4 This is a schematic diagram of the bottom structure of the ABS shell in an embodiment of the present invention. Detailed Implementation

[0014] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0015] The reference numerals in the accompanying drawings include: 1. Aluminum alloy base plate; 2. ABS housing; 3. Bolt; 4. Clamping block; 5. Central channel; 6. Positioning stop; 7. Sensing block; 8. Part positioning hole; 9. Part positioning post; 10. Positioning cylinder; 11. Positioning round hole; 12. Positioning waist hole; 13. Weight reduction hollow hole; 14. Weight reduction blind hole.

[0016] Example

[0017] The basics are as follows: Figure 1-4 As shown: A combined high-precision machining disk includes an aluminum alloy base plate 1 and an ABS housing 2. The aluminum alloy base plate 1 and the ABS housing 2 are provided with corresponding mounting holes. The aluminum alloy base plate 1 and the ABS housing 2 are detachably connected by bolts 3. Clamping blocks 4 are detachably connected to both sides of the aluminum alloy base plate 1 by screws. A central channel 5 is provided in the middle of the aluminum alloy base plate 1. A positioning block 6 is detachably connected to the middle of the central channel 5 by screws. A sensing block 7 is installed on the bottom surface of the aluminum alloy base plate 1. The ABS housing 2 is provided with a number of part positioning holes 8 and a number of part positioning posts 9. A number of positioning cylinders 10 are provided on the top surface of the aluminum alloy base plate 1. A number of cylindrical positioning holes corresponding to the positions of the positioning cylinders 10 are provided on the bottom surface of the ABS housing 2. The cylindrical positioning holes include positioning round holes 11 and positioning waist holes 12. A number of weight-reducing hollow holes 13 are provided on the aluminum alloy base plate 1. A number of weight-reducing blind holes 14 are provided on the bottom surface of the ABS housing 2.

[0018] The beneficial effects of this embodiment are as follows: In this solution, the base plate is made of aluminum alloy, and the shell on top for placing parts is made of ABS material. The aluminum alloy base plate 1 and the ABS shell 2 are positioned with a positioning cylinder 10 and a cylindrical positioning hole for precision positioning. Then, bolts 3 are used for fastening and installation, thereby achieving weight reduction while meeting the processing accuracy requirements.

[0019] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0020] The above descriptions are merely embodiments of this utility model. Commonly known structures and characteristics are not described in detail here. Those skilled in the art are aware of all common technical knowledge in the field prior to the application date or priority date, are knowledgeable of all existing technologies in that field, and possess the ability to apply conventional experimental methods prior to that date. Therefore, those skilled in the art can, based on the guidance provided in this application, improve and implement this solution in conjunction with their own capabilities. Typical known structures or methods should not be obstacles for those skilled in the art to implement this application. It should be noted that those skilled in the art can make several modifications and improvements without departing from the structure of this utility model. These modifications and improvements should also be considered within the scope of protection of this utility model, and will not affect the effectiveness of the implementation of this utility model or the practicality of the patent. The scope of protection claimed in this application should be determined by the content of its claims, and the specific embodiments described in the specification can be used to interpret the content of the claims.

Claims

1. A combined high-precision machining disk, characterized in that: It includes an aluminum alloy base plate and an ABS housing. The ABS housing is detachably connected to the aluminum alloy base plate. Clamping blocks are detachably connected to both sides of the aluminum alloy base plate. A central channel is provided in the middle of the aluminum alloy base plate. A positioning block is detachably connected to the middle of the central channel. A sensing block is installed on the bottom surface of the aluminum alloy base plate. Several part positioning holes and several part positioning posts are provided inside the ABS housing.

2. The combined high-precision machining disk according to claim 1, characterized in that: The top surface of the aluminum alloy base plate is provided with several positioning cylinders, and the bottom surface of the ABS shell is provided with several cylindrical positioning holes corresponding to the positions of the positioning cylinders.

3. The combined high-precision machining disk according to claim 2, characterized in that: The aluminum alloy base plate and the ABS housing are provided with corresponding mounting holes, and the aluminum alloy base plate and the ABS housing are detachably connected by bolts.

4. The combined high-precision machining disk according to claim 3, characterized in that: The aluminum alloy base plate has several weight-reducing perforated holes, and the bottom surface of the ABS shell has several weight-reducing blind holes.

5. A combined high-precision machining disk according to claim 2, characterized in that: The cylindrical positioning hole includes a positioning round hole and a positioning waist hole.