General Safety Tips To Stay Safe While Installing An Electrical Panel

Electrical panels have the core function to provide a constant supply of energy to all the sub circuits and it is essential to keep the safety notes at the time you install the device as to avoid any electrical hazard later. Thus, before you go to install the device, it is important to go through these points and ensure the proper safety of the whole system.

Tips To Stay Safe While Installing The Electrical Panel:-

Avoid Water – The water and electricity can never be together at the application, despite the fact electricity is generated from water. It is important to be on the safe side than curing the pain later. While you install the system, remember to keep it high enough from the reach of water. The equipment and circuit should have distance from the water as it increases the conductivity of electrical current.
Prevent Shocks – Apart from keeping the equipment away from the water, you should also pay attention to the bare wires. Uncovered wires are the main cause of electric current as if you touch the end by mistake. You can cover these ends with a cap so the insulator eliminates the direct contact with the copper and prevents getting a shock.
Check For Live Wires – Energized wires are the dangerous to death and checking for such wires regularly while working is better to save yourself from the hazards. Never assume that electrical equipment is uncharged even when left isolated for a long time. While installing the panel, check twice for any energized wires as to avoid the problems and to ensure there is no current running through them.
Overload Protection – The main reason of blasting of the panel is over loading and avoiding this point helps you to prevent the damages as well as danger to life. At the time, you install the panel for your industry, calculate the voltage requirement, and add a 25% surplus in that so you can be prepared for the next installations and you will not end up installing the device over again for every additional equipment.
Equipment Reliability – The electrical panel is designed to provide constant supply of power from the main circuits to the sub circuits. It necessary to maintain a good ratio of voltage supply with the basic requirements, therefore, always you should always remember to keep an eye on the ideal ratio to avoid any problems. If anytime you feel the panel tingly feeling, disconnect it as sooner as possible and stop using that at the time.

Understanding The Process Of Making Steel

Steel is one of the most common types of metal used by millions of people worldwide. If you have always wondered how it’s made here is information to guide you though. It’s important that you know that the entire process involves three steps: the conversion of the raw steel to functional form, the formation of the steel in a continuous or semi continuous production line, and the cutting and modification of the steel to fit the needs of the customer.

Conversion of the raw steel

This is also known as the ingot production. Here molten steel is made by heating coke and iron ore in a furnace. Carbon is then removed by pumping a lot of oxygen into the liquid. The molten steel is then poured into thick walled iron molds where it cools into ingots. To form flat products such as plates and sheets, the metals are shaped between large rollers under high pressure.

Bloom making

To produce blooms, ingots are passed through a pair of grooved steel rollers that are usually stacked. Before the blooms are made into pipes, they are processed further. They are converted into billets by being put through more rolling devices that are long and narrow. This process allows sufficient cuts without stopping the manufacturing process. Once they are done, the billets are stacked and eventually become seamless pipes.

Pipe making

Billets and skelp are used to make steel pipes. As the spool of steel is unwound, it’s heated and passed through a series of grooved rollers. As it passes, the rollers cause the edges of the skelp to curl together forming an unwedded pipe. After this, the manufacturing company passes welding electrodes sealing the two ends of the pipes together.

The welded seam is then passed through a high-pressure roller that results in the formation of a tighter weld. The professionals then cut the pipes into different sizes and stacked for further processing.

Final processing

Here the pipes are put through a straightening machine. It’s also common for them to be fitted with joints connecting two or more pieces of pipes. The pipes can be joined using different types of joints, but the most common is the threading joint. Here tight grooves are cut into the end of the pipe. Once the process if over the pipes are sprayed with a light coating of protective oil.

Conclusion

This is the process of making steel pipes. To get the most from the pipes, you should buy those that are of high quality and made using the best method.

Top Tips to Choose the Best Connectors

From smart phones to sophisticated machineries that manufacture them, you can find an electrical connector in many forms. If you are an electrical industrialist or purchase engineer, it is essential to have some key factors in mind before making your final choice.

Here are a few essential aspects to check while choosing a connector:

Power

Power of the connector is a determining factor. The market offers a wide range of connectors with different power-ratings. Identify your requirement and choose the one that meets the purpose.

A low power variant may not give you the expected efficiency and on the other hand, a high power connector can even damage the entire system.

Density

The density of a connector is yet another influential factor in the present day. The higher the connector density, the more compact your machine design will be. This is especially important in case of complex machineries. In order to keep it solid at the same time give exceptional performances, it is essential to choose a high-density connector.

Temperature Resistance

Another important feature that adds to the quality of a connector is its capacity to withstand high temperatures. Most of these connectors are used in intricate machineries and they undergo immense heat exposure during their functioning. High-end connectors are often passed through multiple levels of testing to ensure its temperature resistance.

Speed

The transmission speeds of connectors are quite significant for their overall performance. Many of the latest connectors ensure to meet high transmission speeds. ExaMAX High Speed Backplane Connectors are one of the best you can get in the market these days.

Mating Features

The mating features of any connector play an important role in determining its performance, quality and durability. Before you choose your connector, ensure that you scout through specifications to analyze its mating features. The angle of mating, the number of mating cycles, etc. will be clearly mentioned in the specifications, which help to find the one matching your requirements. Mating cycles are especially important for connectors that are mated and unmated frequently. For a USB connector the mating cycles will be in thousands where as for a board to board connector will have a lesser mating cycle.

A Sneak Peek Into The Advantages Of An Industrial Oven

Industrial ovens are large and heated chambers, which are used for heating, baking, curing, annealing and many other activities. When we think or talk about the oven so the first thing depicts the mind is baking, however, it has many other applications that you need to know. They are used in multiple applications including aging, bonding, curing, sterilization, pre heating, annealing, drying, tempering, etc. And thus, available in different design and size options.

Choosing the right industrial oven is a challenging task because of the number of specification available that confuses the buyers. Therefore, before you come to any decision, it is important to get familiarize with the product, so, you know what you are buying. So, what are you waiting for? Take a look at the short and snappy description that let you know about all its advantages.

Airflow Efficiency: One of the most important features of an industrial oven is its airflow efficiency that affects the working of the device. Generally, it helps to determine the efficiency of the device and temperature uniformity in all the areas. They must have solid airflow to guarantee the smooth performance.
Temperature Rise: Managing the right temperature level is important to make sure that it works well and provide uniform heat all over the chamber. Different types of industrial ovens take different time to reach the correct temperature rise, so, your application will never get hampered and work in all conditions. It is also important because the uneven heating affects the application and damages it drastically.
Heating Medium: Determining the source of heat is an important factor that makes a huge difference in the working of the different industrial ovens. Make sure the device you buy work as per your required heating medium.
Installation And Maintenance: The installation of an industrial oven is very simple and takes only a few minutes. Also, you can upgrade the system timely for better functioning.
Affordable Price: Even if you are low in budget, you can take the benefit of the device as it is available at the dirt cheap price that fits into your budget. Also, the price is the major factor that affects the buying decision, thus, you should buy it.

The Perfect Packaging for Every Product

Whether you talk of fresh food items, dry groceries, machine parts, furniture or hardware, every product needs to be well packaged. The type of packaging best suited to a product depends on a number of factors including cost of the product, perceived value, size, fragility, shelf life etc. Thus, there are a number of materials that can be used to package a product such as paper, polythene, corrugated cardboard, cartons, shrink wrap and pallets.

Why do you need Packaging?

The most obvious reason to package a product carefully, is to protect it while it moves from the factory floor to the retail shops and then to the customer’s house. However, this is not the only reason to focus on packaging. Packaging plays an important role in a customer’s decision making process. The way a product is packaged is the first interaction many customers have with the product and hence this plays an important role in creating a first impression. A well packaged product speaks of attention to detail and helps build trust in a brand name.

Packaging is also important from a marketing perspective. This is because whilst the product itself may offer limited space for branding, a carton or sleeve allows a much larger space for branding thus making the brand name more visible. When it comes to wholesale packaging, cartons are usually left plain. However, it is still possible to brand the cartons by using printed carton tape.

How to Choose the Right Packaging Material

The wrong packaging can put a customer off the product. The first step to packing a product is to select the right material. There are many factors that must be considered when picking packaging materials. These include:

Type of Product- While dry groceries need to be packed in such a way so as to be visible to customers and yet protected against natural elements; product visibility does not matter when packing hardware items or machine parts. A few other product characteristics to keep in mind are sensitivity to light and moisture, shelf life and reaction to other materials.

Cost of the Product- The cost of packaging a product should be in direct relation to the cost of the product and should not exceed it. Thus, whilst clear, polythene bags are sufficient packing for disposable plates, bone chine needs to be packed in boxes with cushion packaging.

How the products are to be shipped- To a certain extent wholesale packaging also plays a role in determining the right material for retail packaging. For example, if the products are going to be packed in a larger carton, puncture resistance is not a high priority. However, if the products are going to be stacked on a pallet, this is a factor that will need to be considered.

Common Types of Packaging

Paper Board

Paper is the cheapest and most ecofriendly way to package a product. Paper is often used in the form of boxes to package low cost items such as stationery or in the form of paper bags for fast food and other consumables.

Polythene

Polythene bags are the most preferred form of packaging for products such as dry groceries and liquids. This is because it is transparent thus allowing the consumer to see the product being purchased and protects the food items from natural elements.

Rigid Plastic

Rigid plastic may be used to package both consumables and non-consumables. This is a chosen packaging material when the product needs to be visible to the consumer and yet protected against shocks and being accidentally dropped etc.

Corrugated cardboard

When it comes to large products such as furniture, it is not possible to fit the piece into a carton. Hence, such products are usually wrapped in corrugate sheets to protect them against bumping into other things or being dropped accidentally.

5 Energy-Saving Tips For Manufacturers

Are you worried about the current oil prices? If so, you should stop worrying as the price won’t last forever. Actually, OPEC has almost no influence on electricity or natural gas. The fact of the matter is that the old coal-based power plants increased electricity prices in 2016. However, the problem is that energy efficiency is really important for you should you want to stay ahead of the competition. If you are a plant manager and you want to save energy, we suggest that you follow the tips given below.

Process Heating

The US Department of Energy suggests that plant managers can cut down on the heating costs through the implementation of some energy-saving measures. As a matter of fact, process heating includes 30% of the energy consumed in this sector. Therefore, if you save energy in this area, you can make a significant impact.

Moreover, you can monitor and control your air-to-fuel ratio and exhaust gases in order to save a lot of energy. But if your plant requires lots of hot water, it’s a good idea to use a solar-water heating plant to preheat the process water. This is another great way of saving a lot of money.

Motors and Equipment

Machine drives accounts for over 22% of power consumption in the manufacturing sector. If you want to cut down on your operating costs, we suggest that you analyze the system and shaft losses. In addition, you can also consider upgrading to a system that is more efficient.

At times, you may have to replace the equipment to achieve your targets. But you don’t have to spend a huge sum for each upgrade. As a matter of fact, you can hone the mechanical performance of the plant through the alteration of the operational or maintenance procedures.

Lighting

Typically, building-performance experts consider lighting as the main source of energy consumption. For energy saving, you can opt for fluorescent bulbs, fixtures, LED tube lights, and skylights, just to name a few. However, you don’t have to replace all of your lighting systems in order to save energy.

Utilities

You may not want to overlook utilities as far as saving energy is concerned. What you need to do is review your usage plans and then get in touch with the service provider to find out if they can provide alternative procurement or other option that can help you save money.

Actually, some utilities offer attractive incentives for the installation of energy-saving improvements. It’s also a good idea to contact the competitors. You can also negotiate with them to get the best deal.

Employees

For energy efficiency, employee behavior also matters. You may want to let your employees know your goals and progress. Don’t forget to appreciate them for playing a role in the achievement of your goals. You will see that they have great insights. As a matter of fact, studies show that upgrades for energy efficiency help workers become more productive.

Long story short, when you are planning an energy-saving program, you may want to look for opportunities that can help you reduce cost. Next, as the operating costs come down, you can invest in an energy saving infrastructure like a solar energy system. Hopefully, the tips given above will help you save on energy costs.

3 Keys to a Successful Preventive Maintenance Program

Preventive maintenance planning and practices influence most major maintenance department activities in a manufacturing environment. Here are some examples of this.

Equipment downtime is largely affected by preventive maintenance or the lack there of.
Repair work orders are subjected to the influences of the preventive maintenance program.
Purchasing and inventory are affected by preventive maintenance for routine replacement of expendable spares as well as repair parts required for unexpected downtime.

As evidenced by the points above, preventive maintenance should be “first base” for any maintenance department. Unfortunately sometimes routine preventive maintenance activities often do not get the attention or credit they are due. This is a mistake. So what are the keys to a successful preventive maintenance program?

1. Careful Planning of the Preventive Maintenance Program

Planning a preventive maintenance program involves the following:

Determine tasks and intervals needed to maintain the equipment.
Ensure that the appropriate resources are in place.
Schedule maintenance personnel for maximum preventive maintenance wrench time.
Understand how scheduled equipment downtime and maintenance personnel scheduling interface.
Manage spares effectively.
Select a scheduling and accountability system (preventive maintenance software, CMMS software or equivalent)

Determine Maintenance Tasks and Intervals

A good preventive maintenance (PM) task list contains the following components:

The equipment item.
The task(s).
The person the task is assigned to.
A task interval.
A start date and due date.
Optional: Detailed instructions and pictures if needed.
Optional: Task completion sequence.

Begin with your equipment list. Next gather appropriate tasks for preventive maintenance task lists from OEM manuals or online manuals when possible. This is a good place to start, especially with newer equipment. In some cases, the equipment warranty is dependent upon following the OEM recommendations. Another source of tasks is the maintenance manager’s experience and intuition. Yet another source is branch locations running similar equipment.

When developing a task list, consider the reusability of the task descriptions. Reusability refers to using the same task description on potentially multiple equipment items. The benefit is that there are fewer tasks, no duplicate task descriptions and better reporting and analysis of PMs. Consider these examples:

REUSABLE task description: Lubricate Roller Chain(s)

NOT REUSABLE: Lubricate Roller Chain(s) on Conveyor #1

In the first example this task, Lubricate Roller Chain(s), is appropriate for any equipment with a roller chain. In the second example, Lubricate Roller Chain on Conveyor #1, is only appropriate on the Conveyor #1 PM task list. Imagine how cumbersome your preventive maintenance software management efforts become if you are not using reusable tasks. Another example that may cause problems later is naming conventions such as 30 Day PMs or Weekly Tasks. This creates unneeded redundancy, as the interval (30 in this case) is included in the PM record already. Additionally there is no task description here that refers to the actual work performed.

How do you create reusable tasks? Begin with the most generic tasks you can think of and create these first. Examples could be Inspect, Clean, Lubricate, etc. After these task descriptions have been created, go to the next step and create tasks that are somewhat more specific. Here are some examples: Check Wiring, Replace Lubricant, Lube Chains. Continue with increasingly more specific tasks always trying to avoid including the equipment or equipment component in the task description. Eventually, for specialized tasks that are only performed on specific equipment, it may become necessary to include a component of the equipment in the task description. Keep the task description short and focused on the actual task. Obviously if the task description is short, it may not fully describe the job. This is where detailed instructions and pictures are used.

Next, determine what interval units are needed for your PM system. Calendar-based PMs usually will use a day interval. For example every 7 days Lubricate Roller Chain(s). Other tasks may be demand based or based upon the actual runtime of the equipment. In some cases, hours or minutes may be appropriate. As you gain experience with this set of PM tasks and intervals changes to the tasks and intervals may be warranted. Consequently choose a system that makes editing existing PMs simple and without historical data loss.

Ensure that Adequate Resources are in Place

Listed below are resources you need for a successful preventive maintenance program:

Trained and available personnel.
Adequate spares, expendables, lubricants, drive chain, bearings, etc.
Time in the production or equipment runtime schedule to perform PMs.
A motivated team of maintenance professionals.

Personnel must be trained and capable of safely performing the required work. Vigorously enforce proper lockout/tagout procedures. Stock on hand for expendables and other spares used for PMs has to be adequate. Inadequate spares not only prevents completion of the PMs, but also hurts motivation when personnel attempting to perform their job are hindered by a lack of spares. As such, the purchasing department has to have an ordering system that stays ahead of preventive maintenance spares requirements. Additionally an accountability system (CMMS) helps track spares use for restocking purposes. In summary, show your maintenance technicians how important you believe preventive maintenance is by providing the materials and training needed for these important tasks.

Time is a resource. Time must be available so that personnel can perform their work. This may require scheduling changes so that maintenance personnel are available during scheduled equipment downtime. Given the right resources, your maintenance team cannot help but be motivated to succeed with equipment maintenance.

Use a Maintenance Software Solution to Track and Manage Maintenance

Now that the tasks, intervals, personnel, training and scheduling are established it is time to load the data into a preventive maintenance software system. With so many CMMS choices, it is important to do your research carefully. Approximately fifty CMMS companies go out of business annually and fifty more replace these. Choose a well-established long-term CMMS company that has a proven record of accomplishment. Ask the following questions when choosing a CMMS:

How long has the CMMS company been in business?
How flexible is the preventive maintenance system?
Are there different task list formats available?
Is it possible to automate task list issuance?
Do technicians have the ability to close their own PMs while maintaining the integrity of the data?
Is it possible to close PMs without leaving the plant floor?
How easy (or hard) is it to adjust preventive maintenance task schedules?
Are labor and parts costs easily summarized and reported?
Is there an objective way to know how to optimize task lists or task intervals based upon downtime or reliability data?

When evaluating a CMMS it is best to run a demonstration copy of the proposed system with your own sample equipment and tasks. Use the system for at least 30 days. Issue preventive maintenance task lists to your personnel. Get their buy-in by demonstrating the usefulness of the system. Prove to yourself and your maintenance technicians that using the software makes both of your jobs easier. Most importantly confirm that this system has the potential to improve equipment availability and reliability.

Consider support and training as part of the initial investment. CMMS software training is well worth the investment as it brings the maintenance department up to speed quickly with the CMMS and instills confidence in its use. This leads to better compliance in entering and updating data.

Price is important, however the real cost benefit of CMMS comes not from the initial investment in CMMS but in the ongoing use and benefits derived from that use. Some CMMS software solutions are subscription-based. Others are a one-time investment with a perpetual license. While there are several factors to consider in CMMS selection, initial investment (price) should be a low priority when the budget allows. Ask yourself this question: “Do you want to trust millions of dollars in equipment assets to a cheap CMMS?”

2. Implement Your New Preventive Maintenance Program

Now it is time to start reaping the benefits of your new preventive maintenance program. Here are a few questions to consider when implementing your new PM program:

Should tasks lists be printed, emailed or simply viewed through a tablet or smart-phone?
How are tasks closed and what data should be included?
Who should close the preventive maintenance tasks as they are completed?
What will you use the system when maintenance personnel are absent?
Should spare parts lists be included on the task list?
If spares are included on the task list, should stock levels automatically draw down when the PM is completed?

The answers to these question come down to company policy, industry requirements, regulations and personal preference.

3. Assess and Adjust Your Equipment Maintenance Program

Constantly assessing your preventive maintenance program is an integral part of managing this system effectively. Equipment runtime schedules change, equipment demand changes, personnel change, maintenance technologies and procedures change. Your primary assessment tool is equipment maintenance data. The longer you use your CMMS system the more data it accumulates. Assuming that you chose a CMMS that provides extensive analysis and reporting, this data is now a valuable decision-making store. Use this data for OEE (overall equipment effectiveness) and reliability analysis. Choose a CMMS that uses MTBF (mean time between failures) to suggest preventive maintenance task intervals. Using real runtime data to set PM task intervals eliminates guesswork.

Being a proactive maintenance manager you should be adjusting to these changes as needed. Here are some things to look out for and some ideas on how to react. Keep in mind that sometimes there is no substitute for an experienced maintenance manager’s intuition.

Equipment Runtime Schedule Changes

In some situations, preventive maintenance can only be performed while equipment is in a scheduled shut down period. This creates a problem for maintenance scheduling. Here are some ways to manage this situation.

Non-maintenance machine operators can complete some simple maintenance procedures such as minor lubrication tasks.
Double-team certain equipment when it is down.
Adjust maintenance schedules.
Use automated maintenance devices, such as lubricators.
Implement preventive maintenance procedures during unscheduled downtime.

Equipment Demand Changes

Equipment demand relates to more than just runtime schedule changes. Demand reflects the actual time equipment is running and how much work it performs during the scheduled period. Obviously triggering PMs based upon calendar days would not be appropriate in these cases. It is best to trigger PMs in this case based upon runtime hours, cycles, cuts or whatever the appropriate meter unit is for that equipment. Consequently this equipment should have a counting device or be connected to the system that automatically triggers preventive maintenance work orders through an OPC compliant data connection.

Select a CMMS software solution that reads OPC data directly from the equipment then automatically responds with a preventive maintenance work order at exactly the right moment.

Personnel Changes

The best way to overcome this inevitable change is to have detailed listings of preventive maintenance tasks, intervals, spares requirements and history. Make sure this information is available to pass on to the new person. The more organized your system is the easier is to move seamlessly through this change. Once again, a good preventive maintenance software solution addresses this need.

Additionally, ongoing training and cross training in various maintenance processes can offset personnel change issues.

Changes in Maintenance Technologies and Procedures

An example of this type of change could be a new sensor that provides critical maintenance data to an OPC server. This data in turn indicates the correct PM interval. Another example could simply be running the equipment only when needed. This action saves energy resources and may reduce wear and tear on the equipment.

Software is constantly improving. Desired options with preventive maintenance software solutions are as follows:

Is there a role-based permission capability that allows the maintenance technicians to close their own PMs?
Is there a mechanism to validate PMs closed by technicians?
Does the ability to temporarily assign tasks to an alternate maintenance technician exist?
Is it possible to gather runtime data through an OPC compliant data network and issue work orders automatically.

Summary

Preventive maintenance is the one of the primary responsibilities of the maintenance manager in a manufacturing environment. Many maintenance department activities are affected by, and rely on a successful preventive maintenance program. More importantly, success of the manufacturing facility as a whole is directly proportional to the quality of the design, implementation and management of the preventive maintenance system.

3 Basic Types of Electrical Connectors

Any electrical equipment will have different types of electrical connectors within. Each connector comes in different shapes, sizes, and materials. Function is another key factor that classifies the connectors.

From connecting a wire to a board to joining key elements on a PCB, connectors play diverse roles and serve many applications. Despite their simple design, they connect and bring power/signals to the system. Key factors that determine the quality of a good connector is its reliability, signal integrity, speed performance, power rating durability, and ease of assembly.

Connector manufacturers offer an extensive array of tried and tested product solutions.

There a few common connectors which are worth the mention:

8P8C Connector

8P8C connector, where 8P8C stands for “eight positions, eight conductors” have eight positions, with corresponding conductors in the mating socket assigned to each. It is basically a modular connector and was primarily used in telephone wire applications. Today, they serve many applications and functions like being used to interface Ethernet jacks.

The 8P8C connectors have a male plug and a corresponding female socket connection. It carries eight contacts and when they get aligned with the corresponding eight conductors within the sockets, electrical signals get transmitted. Apart from Ethernet and telephone wires, they are also used in computer applications and other communication cables.

Generally, most modular connectors are technically named after the number of positions and conductors. They include sizes like -4-,-6-, 8-, and -10-. For instance, a 10P8C will have ten positions with eight conductors.

D-Subminiature Connectors

D-subminiature is much similar to 8P8C, as they are used in computer and play a critical function on modems. Though the name states “subminiature”, these are larger than most modern computer connectors. The connector has a D-shaped metal component that defines its shape and protects it. It also consists of two or more rows of pins with varying numbers in the male connector and a similar set of receiving ends in the female part. The male connector with a pin is called a plug whereas the receiving part that houses the contacts that connect these pins is called a socket. This connection is established to transmit electrical signals. This variant has the capability to provide protection against electromagnetic interference, commonly known as EMI.

USB Connectors

USB or Universal Serial Bus is a very common type of connector. They are small interfaces used to attach multiple devices to a computer. You can see at least two USB ports in any standard laptop that support external USB connectors and cables, while desktops have up to 4 USB ports in general. USB connectors gained much popularity and recognition, as it can be connected and disconnected easily while the device is still working. This contributed to its widespread use in computer applications that constantly require plugging and unplugging external devices, especially for transferring data.

Industrial Processes And Emerging Technologies

Technology has been playing an incredible role in transforming the way industrial processes are performed. Whether it is a machine-to-machine communication or augmented reality, technology has been helping industries in every possible way to streamline and automate their work. Emerging technologies, like 3D printing, robots, algorithms, etc., have the power to completely transform the existing manufacturing processes. Or, in other words, modern technology has the potential to make our lives better. A rapid increase in the level of sophistication in technology has a strong impact on the workforce.

Robotics

Robots are being increasingly used to perform all sorts of industrial tasks. The developed parts of the world have witnessed a sharp rise in the demand for automated machines and equipment. Approximately, there are more than 2 million robots in use and the number is expected to rise quickly in coming years. Japan is leading the list of countries with the most number of robots. Recent years have witnessed a major decrease in the costs of automation and robotics.

Additive manufacturing

Additive manufacturing or 3D printing is an emerging technology that enables industries to manufacture three-dimensional objects. It is a process of building complex products by adding ultrathin layers of materials one by one. Currently, only selected items are being created out of a single material, for instance, medical implants and plastic prototypes. Comparing 3D industrial technology with that of traditional, additive manufacturing enables industries to manufacture new shapes without worrying about manufacturing limitations.

Autonomous technology

Autonomous technology, such as unmanned cars, is stretching the possibility of producing highly sophisticated industrial machines capable of performing the unthinkable. It has a great potential in making industrial processes seamlessly smooth with hardly any human intervention. Autonomous robots have already been deployed by a number of industries worldwide to perform quality control and inspection related tasks.

Augmented reality

Augmented reality is about the augmentation of the elements of physical world. By using handheld sensors, people can simulate various situations or, in other words, augmented reality enables us to create an illusion of reality. This technology can help engineers build incredible industrial solutions. One of the practical applications of this technology is the training of military recruits where they are tested with various virtual situations.

Conclusively speaking, new technologies are enabling engineers to develop intelligent machines that can perform multiple industrial tasks with great precision and speed. Companies need to invest in automation technology in order to maintain competitiveness and meet growing demand for innovation and modernity.

Busbars Ensure Workers’ Safety in Electrical Settings

Using the appropriate busbar for the existing current in the given electrical setting is of utmost importance. There are several items that fulfil this need such as the busbar boots, busbar sleeve, busbar insulation shrouds and busbar connection shrouds in the industrial electric industry. Busbar boots is a flexible, plastic moulded insulated shroud that offers protection for switchgear and bus-bar connections. The busbar insulator shrouds or boots are utilized for coating metals as well as other conductors so as to decrease or stop the electrical current flow when needed and avoid fires, shocks and short circuits. These are reusable electrical insulating coverings and are mainly made from polyvinyl chloride material which works well for high voltage electrical applications. Busbar heat shrink sleeve protects, insulates or shortens the distance of busbar, after shrinking. For choosing the right kind of busbar sleeve, it is essential to know the voltage resistant level and the size of the busbar. In addition to standard sizes, customized busbar sizes can also be obtained.

All busbar items primarily promote electrical safety and prevent the occurrence of voltage related injuries. Their advantageous features can be listed as below:
• Enormous dielectric strength
• Can be installed and removed with ease
• Great resistance to ozone and UV rays
• Offers substantial drop in air clearances
• Excellent thermal and electrical properties
• Availability of tailor-made designs to suit any connection or shape
• Low tooling costs
• Manufacture of large parts with low tooling investment

There can be no compromise on the workers safety in any industrial setting and those who need to deal with high voltage switchgear have to essentially follow all measures that control electrical hazards. Installation of busbar boots helps in maintaining a safe distance from energized components and goes towards ensuring worker safety.

Copper is predominantly used in the manufacture of busbar’s though they are also manufactured from aluminium and cuponal. The metal is chosen depending upon the needs of the application. Aluminium is cheaper than copper but has to be handled with more care while installing. However, aluminium becomes the preferred choice in applications where lightweight connections are of paramount importance as in the case of aerospace and rail industry. Here, aluminium busbar’s are used for electrical panel boards, transformers or distribution boards. Cuponal is another useful option when it comes to the transformer and marine industry sectors.

It is beneficial to get all your busbar requirements fulfilled from a manufacturer who specializes in its production. The manufacturer has specialized equipment, latest technology, expertise and economies of scale that help you in obtaining these products at cost effective prices. Certain extra services like customized sleeving, assembly of insulators and earth bars, electro plating in tin, zinc finishes are provided by most of them. So, always buy your busbar requirements from a reputed and specialized manufacturer and see that they will last for longer periods of time.

Bus Tube is heat shrinkable tube designed to insulate busbar systems up to 36KV & to protect against accidental flashover. The tubes are manufactured from high quality non tracking crosslinked polyolefin material. Meets ANSI C37.20.2 standards for MV switchgear application up to 36 KV.