Category Archives: Industrial Machine

Electronics Dropshipper As Part of Your Business

The electronics industry produces a variety of goods that are always popular and always in demand. At least they came to the point that the electronics industry came out with the next product iteration. And while this can be an attractive and fast-moving business, if you are stuck with a room full of merchandise last year, you could lose a lot of money. Electronic Dropshipper, however, can help you avoid this risk.

An electronics dropshipper lets almost anyone get involved with the industry and with online selling. And it doesn’t matter if you prefer running your own eCommerce site or selling through an online auction, drop shipping is a convenient and efficient way to run a professional business.

When you use an electronics dropshipper you, as the seller, are in charge of promoting the items – not stocking, storing, or shipping them. Your job is to find the ways to spread word about the product, or to let the general public know that you are offering the product, and then collect the money once the purchase is made.

The next step in the process is for the seller to then transfer the order and the product cost to the supplier. The supplier, in turn, will package and ship the electronics straight to the customer.

The inherent benefits of using an electronics dropshipper include the fact that the seller never has to take possession of the items. This means that they don’t have to deal with storing and stocking the products, nor do they have to waste time and money on packaging materials and standing in endless post office lines.

Most importantly, perhaps, is the fact that when you use an electronics dropshipper as part of your business you don’t have to lay out a huge capitol investment for your initial inventory. In many retail businesses, and especially in the electronics market, this investment can be a very prohibitive cost. One that keeps many would-be sellers out of the market. In a drop ship model, however, you never have to worry about that because you never pay for the inventory until the purchase is made and you have the customer’s money in your hands.

All this being said, there are a couple aspects of the business one needs to understand before choosing to use an electronics dropshipper.

Electronics are fun, popular, and involve a lot of shiny, bright lights. Everyone loves them. Unfortunately, everyone loves the next iteration of the product even more. The industry is continually growing, and while drop shipping gives you the opportunity to get involved, a seller must use their time wisely to keep up with sudden market changes.

There is also the question of mark up. Most electronics have a surprisingly high wholesale cost, which means your profit margins will be comparatively small. This is okay if you are a large business that sells items in huge quantities. It’s a little different if you’re a small business trying to use your time and resources as efficiently as possible.

However, if you think that you can sell in sufficient quantities then maybe the electronics business is really the right choice for you. When you are involved with online sales, it’s best to choose a product that you are personally interested in. This will make it easier to sell your product when you only have an image and a few lines of text to do so at Electronic Dropshipper really helps any online business. Once you understand the industry, you can begin to strengthen your reputation and make money online.

Material Handling Equipment

Material handling equipment is equipment specifically designed to mechanically handle packaged or bulky goods, generally in production, shipping or storage facilities. Choosing the right material handling equipment is very important, because it will affect the operating costs and operational efficiency of the plant. Materials to be handled, factory buildings, and issues of urgency and safety are some of the factors that influence the decision in choosing the right material handling equipment.

The equipment is designed after taking into consideration the direction, speed of movement and the level of supervision required. Normally, the equipment used for lighter loads includes wheelbarrows, trolleys and pulley blocks. Trucks, cranes and hoists, monorails and lifts are regularly used for heavy loads. In mass production facilities, conveyors, slides and chutes are also used.

Material handling equipment can be generally classified as transport equipment, positioning equipment and unit load formation equipment.

Transport equipment is used to move materials from one location to another. It includes cranes and industrial trucks. Positioning equipment is used to handle material at a single location, so that it is in the correct position for subsequent handling, machining, transport, or storage. It includes hoists and lifts. Unlike transport equipment, positioning equipment is usually used at a single workplace. Unit load formation equipment is used to maintain integrity when handling a single load during transport and for storage. It includes pallets, bags and skids.

There are several new developments in equipment for moving stock in factories and distribution centers. For example, inductive-powered monorails that eliminate electrical contact and reduce maintenance without sacrificing efficiency are now available. Some of the biggest lift truck suppliers in the world have introduced models that use AC power to increase efficiency. If someone plans to buy material handling equipment, there are a number of material handling equipment dealers who provide equipment that is specifically made to meet one’s needs.

Plasma Cutting Machine for Industry or Non-industry

Industrial plasma refers to plasma units that are directed at large, high-volume production facilities that have enough work to obtain machinery to operate a full eight-hour shift five days per week. Plasma in this class can usually operate up to three eight-hour shifts per day, seven days a week if necessary. If your operations fall into this category, industrial plasma is not only preferred, but also an absolute necessity.

High-end and High Definition conventional plasma fall into the industrial plasma category. With modern advances but high definition is generally the plasma of choice because of the higher level of automation they provide and the higher level of cutting skills they are able to achieve.

There are many advantages of Industrial Plasma (high definition plasma) among others: Lower Operating Costs, Oxygen and multi-gas capability to be increased, Faster cutting speed, Increased welding capability, Longer service life, Thicker cutting ability, torch release fast, 100% work cycle, High Definition Technology, Best cut quality including square edges and round holes, Mark, cut and tilt with the same consumables, More process options to optimize cut quality, Remote gas switching capability (CNC ), TruHole Patent Technology for the best plasma cutting hole – unique for high-definition plasma Hypertherm, Thin stainless steel technology, Optimal gas mixing for middle grade stainless steels, Higher penetrating capability, Much higher automation, Higher resale value , Longer machine life, Much higher production capability, Design assisted ability n much higher computers, etc.

Plasma mowers have a control unit that controls machine performance remotely. A well-designed and well-designed control unit is essential to provide consistent high-level precision and quality of cutting, carried out at high speeds for hours. Poor to average control units are unable to achieve consistent precision, especially during long production intervals where they tend to overheat or break.

It’s important to get a well-known plasma source for your machine in order to achieve high performance and reliability to provide consistent trimming quality, high productivity, lowest operating costs while lasting for your business.

Lifter is an important component that provides precise height control of plasma torches. Using a high-quality THC sensor will reduce cut to cut cycle times (up to 60%), providing better cutting quality due to precise installation of torch height, power savings, and longer service life.

In addition, a quality torch height controller automatically adjusts the voltage for the right torch height to optimize cut quality and lifetime. Traditional torch height control requires the operator to periodically adjust the arc voltage to ensure the correct cutting height.

Controllers need to have all the process expertise built so as to produce flexibility and ease of use for end users. The quality controller has a digital I / O servo system that will provide reliable motion system quality and will improve cut quality and productivity.

Software must allow flexibility and ease of use for end users, so that people with little or no experience on the controller can bypass such experienced professionals in just one day.

High-end drives like Bosch help ensure high rigidity which is important for accuracy, minimal reaction and easy adjustments. Servo drives receive command signals that amplify and transmit electric current to the servo motor to produce motion that is proportional to the command signal.

Laser Marking and Laser Etching Systems

Laser marking and laser etching are becoming increasingly important in a growing number of industries. Basic reasons for laser marking or laser etch of your products include:

o The mark is extremely durable, permanent and in most cases cannot be removed without destroying the product itself, this is true for laser marking, laser etching, or laser annealing.

o The laser marking process is accurate, 100% repeatable, fast, with very clear sharp results.

o The laser mark or laser etch can quickly and easily be changed without any machine change over, and, without replacing any tools. The changing of a laser marking or laser etch is a simple drag and click computer operation.

o The laser requires no consumables and no additional purchases of added materials or supplies. Therefore the operating and maintenance costs of owning and running the laser marking or laser etching system are virtually non existent.

Laser Basics

The word laser is an acronym for light amplification by simulated emission of radiation. The laser beam is formed in a sealed tube with an electrode set, laser gas, and electrical discharge. The beam is emitted into a telescope which expands the laser beam from a size of approximately 2mm as the beam exits the laser tube up to 7mm to 14 mm for most laser marking or laser etching operations. The expanded beam is directed into a laser head containing two mirrors located on high speed galvo motors. The laser beam is directed off the mirrors though a single element flat field lens to the product being laser marked or etched.

Typically the laser marking or laser etching fields created range in size from 65mm x 65mm [2.5″ x 2.5″] at the smallest size to 356mm x 356mm [14.0″ x14.0″] square at the largest. The next consideration is the laser beam spot size. This is the size of the focused laser light energy at the laser marking or laser etching point on the product and can vary from approximately 200 micron [micrometers] or .0078″ at the smallest to approximately 540 microns or .021″ for Co2 lasers. The laser beam spot size ranges from approximately 20 microns or .0007″ at the smallest to approximately 70 microns or .0027″ at the largest for Nd:YAG lasers. These small spot sizes and highly focused laser light energy create the detailed, clear, permanent marking that is typical of the laser marking or laser etching process.

Controlling Lasers and Laser Marking Options

Laser markers and laser etchers are controlled via software. Several variables need to be controlled:

1. Laser power as measured in watts

2. Frequency, meaning the pulse frequency of the laser beam

3. Inches per second, meaning the speed that the beam steering mirrors are moving

Determining the correct setting for the laser is the single most important and critical element in the success or failure of the laser marking process. Once the proper settings have been determined and demonstrated a 100% repeatable laser mark can be achieved.

Laser controller software is accessed via a PCI interface card. This sends the digital signals of the computer based marking or etching files to the motors and directs the laser beam to the product being laser marked or laser etched.

There are several different types of laser marking and laser etching and several different considerations in terms of visual results for the laser mark or laser etch.

1. Laser etching produces a visible etching or depression into the material. Laser etching replaces traditional process like mechanical press or pin scribing. Laser etching can be done with either a Co2 or YAG laser on virtually any material surface and to any depth from very light etching to very deep etching. For example, laser etching is used to engrave serial numbers into metal gun frames. Generally speaking with laser etching the material being laser etched is vaporized at the laser etching point due to the typically high power densities of the laser beam at the point of laser etching.

2. Laser marking produces a surface mark with very little engraving and very little disruption of the material surface. This is especially useful in certain industries such as discrete electric components, semi-conductor, electrical fuse, and ceramics where laser etching can actually damage part or change the conductive qualities of the part. Generally in order to produce the laser mark without deep engraving a high speed per inch setting for the galvo head is used.

3. Laser etching and laser marking generally do not produce any color changes and create a colorless impression. There are exceptions as certain plastics will sometimes react to and change color under either Co2 or YAG laser light. Also, in some cases, additives can be incorporate into the materials being laser marked or laser etched in order to produce a color change. Another exception occurs when the wavelength of either the Co2 or YAG laser is changed from those typically used in laser etching and laser marking. This can produce a color change after laser etching on some materials.

4. Laser annealing is another popular form of laser marking. This type of laser marking is generally undertaken with a YAG laser on metal surfaces using lower power, high frequency and slow writing speeds to produce heat on the surface of the product. Laser annealing can be used to replace electro chemical etching and ink marking as the laser annealing process creates a black mark with no etching. Care must be used, as the heat generated can cause iron in some metals to be pulled to the surface, and rust can result if the parts are subjected to sterilization after laser annealing. This can be an especially difficult issue for medical devices

5. Laser ablation is also a popular use for laser marking systems. In this case the laser is used to remove a layer of paint, anodized or some other material covering the surface of the part. For example this process is used to create bear metal contact points on a painted part, to allow battery connection as in cell phones, or to remove paint for identification of parts and manufacturer details.