Confirm the schematic and components

Identify valve and oil path connections based on the schematic; confirm the component list, and segregate the required components.

Establishment of the database

Identify standard components from the standard database, while also designing and saving the non-standard components used.

Create 3D illustration of oil passage blocks

Create 3D diagrams of oil passage blocks to determine the positions for each valve's mounting base.

Establish the oilway block's shape.

(2) Tentatively determine the outer dimensions (X, Y, Z) of the oil path block.

(3) Arrange components. Locate the required component mounting substrate and hole models. During this process, you can use command language to rotate and move the mounting substrate to the appropriate position.

Oil Hole Connection

Connect the holes that need to be joined. When making oil route connections, there's no need to calculate hole depth or coordinates. During the oil route connection process, designers can design on a 2D layout while clearly viewing the oil route connections in a 3D perspective, allowing for modifications. This ensures design accuracy while also enhancing design speed.

After the oil holes are connected, a wall thickness inspection is required. If it does not meet the standards, adjustments to the oil route are needed.

Automated Generation of Drilling Lists for the Machining of Automated Routing Blocks

Coordinates from the drilling list can pinpoint each hole's location; when machining oilway blocks using CNC machine tools, the drilling list allows for easy editing of G-code without the need for additional CAM software.

Generate 2D engineering drawings

Directly utilize 3D design software to generate 2D engineering drawings.

Design completed

After verifying the drawings are correct, they can be submitted to the factory for processing.