1.New code MMTGL. 2.MMTGR instead of old code MMTG. 3.Usage environment:max 170℃.

1. It is recommended to use the combination of Slide core unit similar with DTK series,apply to Large die and mold. 2. The inclined pin has angle of 0°to 20°, easy for installation,and with its Graphites inserts,it can reduce friction when the inclined pin moving. 3.The usage of MMTG & MMTGH, it reduce the swing due to the length of inclined pin. Load comcentrated at guide bearing end, increase of upward resistance.

Self -Moisturizing Slide Standard Core Rod is a specially designed holder part for the installation and fixing of core guide rods in fields such as mold making and injection molding. The fixed seat has the characteristic of self-lubrication, can reduce friction and wear, and improve the movement efficiency and service life of the core guide rod. Self -Moisturizing Slide Standard Core Rod is usually made of wear-resistant, high-strength materials, such as self-lubricating alloys or engineering plastics with lubricating properties. This material has good self-lubricating properties and can form a self-lubricating film between the core guide rod and the fixed seat to reduce friction and wear. The design of this fixing seat enables the core guide rod to be stably fixed at the specified position in the mold, and ensures its accurate positioning and smooth movement during the injection molding process. The self-lubricating feature effectively reduces the friction, reduces the wear of the seat parts, and improves the working efficiency and the service life of the mold.

Self -Moisturizing Slide Standard Core Rod is a specially designed holder part for the installation and fixing of core guide rods in fields such as mold making and injection molding. The fixed seat has the characteristic of self-lubrication, can reduce friction and wear, and improve the movement efficiency and service life of the core guide rod. Self -Moisturizing Slide Standard Core Rod is usually made of wear-resistant, high-strength materials, such as self-lubricating alloys or engineering plastics with lubricating properties. This material has good self-lubricating properties and can form a self-lubricating film between the core guide rod and the fixed seat to reduce friction and wear. The design of this fixing seat enables the core guide rod to be stably fixed at the specified position in the mold, and ensures its accurate positioning and smooth movement during the injection molding process. The self-lubricating feature effectively reduces the friction, reduces the wear of the seat parts, and improves the working efficiency and the service life of the mold.

Double-Pole Mechanism Core is a common core component in double-bar mechanism, which is used to realize linear or translational motion. Unlike common dual-rod cores, no-water means the core has no channels for lubricant to flow. Double -Pole Mechanism Cores are usually made of wear-resistant, high-strength materials such as metal or engineering plastics to ensure their durability and reliability. The core has a special shape and structure, which can be in contact with the guide rail or sliding surface in the double-bar mechanism, and realize linear or translational motion by sliding.

The Double -Pole Mechanism Sliding Feet is designed for smooth movement in a double pole mechanism and to withstand large loads and pressures. Its surface is usually specially treated to reduce friction and wear and improve smoothness and precision of movement. The waterless design means that the Double -Pole Mechanism Sliding Feet does not require an additional supply of lubricant, but instead relies on the self-lubricating properties of the material or other lubrication methods to reduce friction. This can simplify the structural design, reduce maintenance costs, and improve the reliability of the movement to a certain extent. Double -Pole Mechanism Sliding Feet is widely used in many mechanical fields, such as machinery manufacturing, automation equipment, printing machinery and packaging machinery, etc. They can be used to realize the control and positioning of linear motion, providing accurate position accuracy and reliable motion stability.