Botou Casting Machinery Processing Co., Ltd, Former of "Cangzhou Metallic Crafts Co., Ltd." established in 2008, specialises in Casting, Forging & Stamping  to service many industries worldwide. We deliver on time and at a competitive cost.   Our forging parts are manufactured to the tightest tolerances in closed die method and are fully inspected and tested. Our factory  is a professional Hot forging(including open die forging & closed die forging) & Cold forging manufacturer & exporter. We specializes in producing all kinds of forging components involved in mining machinery, construction machinery, automotive components, oil & gas industry, etc.

To enhance the core technological competitiveness of the company and develop its own core production processes, Botou Casting Marchinery Processing is actively introducing automated forging equipment. Currently, our factory has implemented automated production equipment in multiple stages of the forging process, simplifying the need for operator intervention. This enables automatic recording, analysis, and processing of production information, achieving advanced, efficient, and flexible production.

We would like to produce any metal material such as iron, aluminum, steel, brass...

Electric poles are an essential part of our daily lives, providing us with uninterrupted power supply. However, have you ever noticed the horizontal groove on an electric pole? This groove is an important feature that serves a crucial purpose in the functioning of the electric pole. In this article, we will explore the significance of the horizontal groove of electric poles and its role in ensuring uninterrupted power supply.
The Purpose of Horizontal Groove of Electric Pole
The horizontal groove on an electric pole serves as a cable support system. The groove is designed to hold the electric cables in place and prevent them from sagging. The cables are placed in the groove and secured with clamps, which ensures that they remain in place even during extreme weather conditions. The groove also helps to distribute the weight of the cables evenly, reducing the stress on the pole.
Types of Horizontal Grooves
There are two types of horizontal grooves used in electric poles - the single groove and the double groove. The single groove is used for poles that carry only one set of cables, while the double groove is used for poles that carry two sets of cables. The double groove is wider than the single groove and is designed to hold two sets of cables securely.
Materials Used for Horizontal Grooves
The horizontal grooves on electric poles are made of various materials, including wood, concrete, and steel. Wooden poles have been used for many years, and the horizontal groove is carved into the pole using a saw. Concrete poles are precast with the groove already in place, while steel poles have the groove welded onto the pole.
Maintenance of Horizontal Grooves
The horizontal groove of electric poles requires regular maintenance to ensure that it remains in good condition. The groove should be inspected periodically to check for any signs of damage or wear. Any damaged or worn-out grooves should be repaired or replaced immediately to prevent any accidents or interruptions in power supply.
Advantages of Horizontal Grooves
The horizontal groove of electric poles offers several advantages, including:
1. Cable support: The groove provides a secure support system for the electric cables, preventing them from sagging and ensuring uninterrupted power supply.
2. Even distribution of weight: The groove helps to distribute the weight of the cables evenly, reducing the stress on the pole.
3. Durability: The groove is made of durable materials, ensuring that it lasts for a long time and requires minimal maintenance.
4. Cost-effective: The horizontal groove is a cost-effective solution for cable support, as it eliminates the need for additional support structures.
The horizontal groove of electric poles is an essential feature that plays a crucial role in ensuring uninterrupted power supply. The groove provides a secure support system for the electric cables, distributes the weight of the cables evenly, and is made of durable materials. Regular maintenance of the groove is necessary to ensure that it remains in good condition. By understanding the significance of the horizontal groove, we can appreciate the importance of electric poles in our daily lives.

Electric Pole slots include pole slots, pole cross arm slots, pole stay U-shaped slots, pole stay steel strand slots, pole stay ladder cage slots, pole stay double slots, pole stay shockproof slots, pole stay shockproof double slots, pole stay shockproof and wear-resistant slots, pole stay shockproof and wear-resistant double slots, etc.
Pole longitudinal groove is a type of longitudinal groove on a pole, commonly used for the production of ladder protective cages. Through this design, the cage pieces of the protective cage can be fixed on the pole to ensure personal safety.

 

Our products are all packed in wooden cases to ensure zero damage. If customers have specific requirements for the packaging, we will gladly accommodate. The products will be sent to you within 30 days and we will arrange everything from the initial consultation to the delivery of your chosen port anywhere the world.

1: What information does the quotation need?

Pls. offer your drawings and/or samples, quantity and packing's requirements.
2: What's lead time for samples and products?

Lead time for samples: 30-70days depend on the structure of the part and other requirements on heat treatment, machining, surface
treatment and so on.
Mass production lead time: 35-70days depend on products' characteristics and quantity.
3: What is the requirement on payment?

Tooling Cost:100% T/T advanced
Payment for the Order:30% deposit,70% to be paid before shipment.
4: What are surface treatments available?

Powder coating, Shoot Blasting, Painting, Polishing, Acid Pickling, Anodizing, Zinc Plating, Hot-dip Galvanizing, Electrophoresis,
Chrome Plating
5: What is the packing?

Normal buck packing suitable for shipment by sea and by air.
We also organize packing according to customers' requirements.

Although forging is one of the oldest methods of metalworking, it remains one of the most effective to this day. At its core, forging is the process of forming raw metal without allowing the material to completely melt. The metal remains in a solid state while an operator performs any combination of forming techniques such as hammering, rolling, or pressing. While there are many variations of forging-each with their own distinct advantages-most involve heating the workpiece to very high temperatures to facilitate these shaping processes.

Compared to casting or other metalworking techniques, forging yields the most desirable physical characteristics-including a very high degree of tensile strength-at an attractive price-point. These beneficial properties primarily come from changes to the metal's grain. Since the material is never melted, the percussive or compressive forces applied during forging force the grain to follow the flow of the finished product. This creates components that are far stronger than their machined and casted counterparts.

CMC Forge makes these advantages accessible to clients across industries, offering a full range of skilled forging services that meet the needs of myriad applications.

THE FORGING PROCESS

There are many subtypes of the broader forging process, so the exact steps involved in forming a product may vary. Most procedures, however, will follow the same general outline.

• Forging relies on the use of dies to compress and shape metal, so it's critical to determine what set of tools will be most effective to achieve the desired shape. In many cases, custom die design will be necessary to ensure that the final product aligns exactly to expectations. For larger production runs, this step might include the design and production of multiple dies designed for flattening, forming, or cutting.
• Once planning and toolmaking have been completed, the actual metalworking can begin. First, the billet, or workpiece needs to be cut to size. Once cut, it must then be heated to the proper temperature. Once heated, the billet is ready to be formed.
• At this point, the various forging methods begin to diverge. Depending on the process chosen, the billet may be heated and pressed between two dies or inserted into a molded cavity and compressed. In some cases, the operator will leave the billet at room temperature and work it manually with hammers in a process called cold forging.
• Finally, there may be some necessary finishing procedures. For instance, some dies will produce flashing that must be trimmed.