JTPB Mine Hoisting Winch

Product Use

This product is designed and manufactured in accordance with the following standards: AQ1033-2007, "Safety Inspection Specifications for JTP-Type Hoisting Winches Used in Coal Mines," issued by the Safety Production Industry Standard of the People's Republic of China; JB/T7888-2010, "JTP-Type Mining Hoisting Winches," issued by the Machinery Industry Standard of the People's Republic of China; and Q/HBSHM002-2016, "JTP-Type Mining Hoisting Winches," our company’s enterprise standard. It is suitable for lifting and lowering materials or personnel in inclined roadways and shafts—both aboveground and underground—in coal mines, metal mines, and non-metallic mines.

Mine hoisting winch main shaft assembly

The main shaft assembly of this hoisting winch consists of a fixed drum, a movable drum (used only in double-drum models), the main shaft, two bearing housings, and a rope-adjusting mechanism (used only in double-drum models). This assembly is designed to wind or release steel wire ropes. In single-drum hoisting winches, the steel wire rope exits from the top; in double-drum hoisting winches, the movable drum has the rope exiting from the bottom, while the fixed drum has the rope exiting from the top. The drums are fitted with lining wood.

The drum of the hoisting winch is designed according to the latest theory of elasticity, and Q345A high-strength low-alloy steel is selected as the material for the drum shell. Two types are available: fully welded construction and partially bolted connection. For ease of maintenance or replacement during operation, the drum can also be made in a split design.

The two ends of the main shaft are equipped with adjustable, self-aligning double-row roller bearings, which offer high efficiency and facilitate easy disassembly and maintenance. As a result, this series of mine hoisting winches features fully rolling transmission for all rotating parts, achieving an overall machine efficiency of over 90% and qualifying it as an energy-efficient mine hoisting winch.

The direction of wire rope exit from the drum: For single-drum hoists, the wire rope should exit from the top—this is determined based on ergonomic considerations. For double-drum hoists, the moving drum (i.e., the drum located on the operator’s left side) should have the wire rope exiting from the bottom, while the fixed drum (i.e., the drum located on the operator’s right side) should have the wire rope exiting from the top. Both sides of the fixed drum in a double-drum hoist are equipped with wire rope exit ports. When the number of wire rope layers wound on the hoist drum is even—whether it’s just one layer or two layers—the wire ropes on both the fixed drum and the moving drum must exit from the same side, namely the left side (with only the left-side exit port provided on the moving drum). The purpose of this arrangement is to prevent the wire ropes on the two drums from concentrating at the central part of the main shaft during the lifting process, particularly when the containers are approaching each other. Such concentration of forces at the middle section of the main shaft would lead to increased stress concentrations, effectively weakening the shaft’s strength and reducing its safety factor accordingly.

During multi-layer winding and lifting operations, to prevent rope entanglement or severe rope biting when transitioning from the lower layer to the upper layer and thereby extending the service life of the wire rope, it is mandatory to install additional transition blocks at the rope-stop plates. This requirement is currently stipulated in the "Coal Mine Safety Regulations." The transition blocks can be made of hard wood or cast steel; they may be custom-made and installed according to specific conditions (such as rope diameter and the required arc length of the transition block). Alternatively, during contract negotiations, it can be specified that the manufacturer shall design, fabricate, and install these transition blocks.

Working principle

The product consists of a power system, a transmission system, a working system, a braking system, a control and operating system, an indication and protection system, and their associated components. Powered by an electric motor, the product features an efficient transmission and working system composed of a gearbox and a main shaft assembly. A hydraulic station and brake assembly form the product’s reliable braking system; an operator’s console and electrical control equipment constitute the product’s comprehensive control and operating system; and a depth indicator, encoder assembly, and other components make up the product’s sophisticated indication and protection system.

Product Model Designation Method

Technical Parameters

Process flow

Plastic liners have the following characteristics compared to wooden liners:

1. Long service life—testing and years of practical use have shown that its service life is 5 to 10 times longer than that of wooden liners.

2. It features a high contact pressure, eliminating issues such as liner breakage and rope groove flattening.

3. It exhibits excellent resistance to cracking and moisture, making it particularly well-suited for use in harsh environments such as mine shafts with excessive water leakage and high corrosivity.

4. Lightweight and non-absorbent, with a specific gravity of 0.98 g/cm³, it is lighter than wood lining after absorbing water. Consequently, it does not increase the rotational inertia of the equipment, and therefore will not affect the power rating of the motor originally fitted to the equipment.

5. The molded surface is smooth, and the radius of the plastic liner’s bottom surface is identical to that of the outer arc of the winding drum. The plastic liner already has rope grooves precisely molded into it, ensuring accurate dimensions. This makes installation easy and saves time and effort for users. Moreover, the steel cables are neatly arranged, eliminating issues such as cable biting or skipping. As a result, the service life of the steel cables is significantly extended.