3 Factors to Consider When Choosing a Crane Scale

Crane Scale

In industrial and manufacturing fields, accurately weighing various items is often part of the job. Many types of scales exist depending on the nature of the things you need to measure. Crane scales are often a great choice for a variety of reasons. When choosing a hanging scale, here are three things to consider.

1. Safety

Be sure that your mechanical scales Florida are professionally installed by knowledgeable technicians. The scales need to be calibrated properly after installation. In addition, choose a hanging scale with a capacity that is large enough that you will never exceed two-thirds of its maximum capacity during daily use. This will help you avoid accidents, which can be life-threatening given the extremely heavy weights that are typically measured.

2. Versatile & Durable Interface

Depending on your work situation, your scale may be subjected to large quantities of dust, high heat, moisture, and various other potentially damaging environments. Choose a scale that is designed to handle the environment you have, and be sure that the readout interface is durable as well. Ideally, you’ll want to find a scale interface that allows you to select the measurement units for the readout. This will give you flexibility in the applications you can easily use it for.

3. Typical Load Weight

In addition to choosing a scale with a capacity large enough that you’ll never exceed two-thirds of it for safety reasons, you want to choose a scale that measures in the range of what you’ll typically need to know the weight of. Some scales are designed to measure relatively small loads, while others are designed to measure multiple tons. Using a high-capacity scale to weigh much smaller loads results in compromised accuracy levels in your results.

Many factors go into choosing the correct scale for your application. Comparing features can help you quickly settle on the perfect crane scale for your business.…

Proper Ways To Prevent Pollution During Electroplating

Pollution

Shop owners want to take as many precautions as they can to reduce pollution during the electroplating process. Fortunately, there are several ways to do this during the masking and processing stages.

Masking

One way to reduce pollution and improve your shop’s health and safety is to choose a suitable masking material for a job. Factors you should consider include the skill required to use the material, part size, shape, and weight, chemical resistance of the maskant, chemical resistant of the adhesive, temperature limitations of the maskant, cleaning requirements, resilience of the maskant, sealing abilities, specifications of clients, ease of maskant removal, and cost of disposal.

UV curable masks are one type that generally meets project requirements and can minimize waste. They are most commonly used in acid-based stripping, anodizing, plating, chemical milling, plasma spraying, painting, and blasting. There are two common types of these masks. Burn off UV curable materials offer the best adhesion and resilience. However, they have a long curing time. This type can be quickly incinerated without a trace. Peelable UV curable masks are long-lasting, resilient, and offer good adhesion. This type has a short curing time, and the non-hazardous material can be easily peeled after the product is finished. Aside from this, when plating tanks have no anodes, it is possible to go without masking materials.

Processing

To reduce pollution during processing, you need to ensure that you control the operating parameters. You want to perform regular and accurate solution analyses. Use deionized water and inert anodes to keep the solution at the correct levels. During these checks, you should remove any dropped parts and other contaminants. Also, use proper filtration techniques and perform regular bus bar maintenance to ensure minimal waste during processing.

Shop owners can reduce the amount of pollution and waste produced during the electroplating process. The most common areas that can use improvements are the masking and processing stages.…

Different Ways To Aerate Your Lake or Pond

Aerate

There are many problems that waterways can face if they do not have proper circulation. One of the most common is thermal stratification, where your lake separates into layers of water, each with a different temperature. This is most common during the summer when the hot air and extended sunlight warms your lake’s surface. Meanwhile, the bottom of your lake remains untouched by the sun and is noticeably cooler. Additionally, the cooler regions have less circulation, which means there is not enough oxygen. In other words, this area can become toxic to fish. A third, middle region often separates these two layers. This acts as a barrier that prevents the warm and cold air from mixing. Aerators are machines that circulate the water in your lake or pond. The surface and submersed diffused aerators are the primary ways that people aerate their bodies of water.

Surface Aerators

Surface aerators operate at the top of your lake and circulate the surface water. The machine has a pump that takes in water from the uppermost strata and spits it out and away from the unit. They are similar to fountains, except their primary focus is on circulating water rather than offering an esthetic appeal.

Submersed Diffused Aerators

Submersed diffused aerators are located at the bottom of a pond and perform lake aeration by sucking in air from the surface and dispersing it at the bottom in tiny bubbles. The result is that these bubbles bring oxygen into the water, which is then pushed away from the device. Typically, these bubbles rise to the top, so more water gets circulated than with surface aerators. Additionally, submersed diffused aerators are available as whole-lake systems.

These are the two primary ways to aerate your lake or pond. These both provide oxygen and circulation to your water, which offers many benefits, such as prevent thermal stratification.…

What You Need To Know About Your Car’s Catalytic Converter

Depending on your level of interest in cars and engines, you may or may not know a lot about the various parts that make up your vehicle. While many aspects of your car can safely remain a mystery, it is important to understand the function and value of the catalytic converter. Consider a few pieces of information about this device that every driver should know.

What Is It?

Catalytic converters are used to neutralize some of the harmful gases that are released from internal combustion engines. Specifically, these engines produce carbon monoxide, nitrogen oxides and hydrocarbons. Catalytic converters turn these chemicals into carbon dioxide, water and other products. These gadgets serve to protect the environment from the effects of gaseous pollutants. Notably, they are used not only for car engines but also for other machines requiring internal combustion, such as some stoves and heaters.

Are They Valuable?

Catalytic converters are one of the most valuable types of scrap metal. For this reason, car owners who are selling various parts may wish to look into scrap catalytic converter buyers. The value of these devices largely stems from the precious metals they contain. Namely, catalytic converters contain rhodium, platinum and palladium. Because they have a high resale value, car owners should be aware that these devices can be the target of theft.

Are There Regulations Involved?

Because catalytic converters serve to limit pollution from car exhaust, the Environmental Protection Agency sets standards with which all car owners must comply. These regulations require these converters to be certified and state that they cannot be previously used.

Knowledge of catalytic converters is beneficial for all drivers, not only to prevent excessive pollution but also to treat these devices as things of value. Whether you are purchasing a new car or selling parts of one as scrap, be sure to not overlook this gadget.

3 Places To Use Portable Laundry Services

Even the dirtiest of jobs require a little bit of clean up now and then. When you’re faced with a messy environment, consider adding mobile laundry trailers to your list of amenities. Here are a few great places to use them.

Disaster Scenarios

When hurricanes, tornados, fires or other natural disasters hit, there can be a lot of mess and not a lot of places to clean it up. Portable laundry units are an excellent solution. Since they’re self-contained, they can be used almost anywhere, even off-grid or with limited availability of basic utilities such as water and electricity. The use of portable laundry facilities can lead to better outcomes for survivors of local disasters because it can support good cleanliness and hygiene.

Campgrounds

To limit environmental impacts in fragile areas, you can set up mobile laundry units. These setups can help keep detergent out of nearby water sources or delicate ecosystems. Since these services generally include gray water removal, they can be set up anywhere without fear of contaminating the local environment. They’re also ideal for seasonal camping facilities that don’t need access to laundry units year-round.

Messy Environments

Mud runs, fishing competitions, hunting camps or even construction sites are all great circumstances to add a mobile laundry trailer or two. By providing a place for attendees or employees to wash their clothes, you improve the chances of people having a better time at the location. For really messy places, consider pairing laundry units with mobile restroom and/or shower trailers as well.

Dirty jobs call for creative cleaning solutions. Mobile laundry trailers take the guesswork out of the question, “How will people clean up after themselves?” By providing a user-friendly means of keeping things clean, people will generally have a more positive experience, regardless of the mess they’ve had to encounter.…

4 Things To Look for in an Industrial Blender

When shopping for mixers, most blending companies only think about horsepower, capacity, and price. While those numbers are important, there are other needs that you need to meet as well. To get the right model for your business, you need to think about all the factors. Here are some other things you need to think about when buying a blender.

1. Controls Your Staff Can Easily Use

More elaborate controls are always better. Your primary focus should be on ensuring it offers the functions you need. Also, look for simple and durable controls. Furthermore, you can look for something that will work in your shop’s environment. If you are a high-volume shop, think about what will be easiest for your busy staff to use.

2. Noise Levels That Won’t Deafen Employees

Industrial blenders that are frequently used must be quiet. You don’t want your employees to have to shout all the time. Therefore, you should look for blenders with lower noise levels. While they will still make some noise, certain features can make them much more tolerable.

3. A Serious Warranty

Your vertical food mixer at home probably came with a 1 to 3-year warranty. Before you purchase a mixer, make sure the warranty makes this look like a joke. Also, look for warranties that cover both parts and labor. This prevents you from trying to install parts yourself and doing more damage to a broken mixer.

4. Proper Certifications

Certain safety standards must be met. Therefore, make sure any mixers that interest you come with the proper safety certifications.

While the numbers are important, there are other things that you should consider when buying an industrial mixer. Keeping your staff, noise levels, warranty, and safety certifications in mind will help you choose the right blender for your company.…

Components Of A Forklift

A forklift is an industrial truck. It has a very powerful engine and is used to lift and move materials over short distances. The forklift has been an invention of the twentieth century. While the company called Clarke made the transmissions, another company called Yale and Towne made the hoists. Forklifts came to be used increasingly across the globe during World War II. In the modern world, forklifts are an indispensable part of the manufacturing and supply chain industry, especially in warehousing. If you are looking for a forklift rental in Melbourne, make sure to check out the websites of different companies that provide these services.

Parts of a forklift

If you are going for a forklift rental in Melbourne, you must know that it has some unique components that make it function properly. Here is an overview of the exterior parts of a forklift:

  • Mast: the mast is also known as the “upright”. It is the vertical structure that supports and lifts the weight. There are hydraulic pistons attached to the mast that help to make it move the carriage. It is fitted in the front of the forklift and in the direct vision of the operator’s line of vision.
  • Carriage: the carriage is the primary support structure where the forks are attached. A platform in the front part of the mast, this structure is used to mount the objects that are to be controlled by the mast.
  • Back rest: the mast cylinder’s hoses are protected by the backrest. This prevents any items from falling through the mast and hurting the operator. It does not let any load shift backward.
  • Lift cylinder: the lift cylinders are responsible for powering the carriage and the forks to get raised or lowered. They are often powered hydraulically and move in one direction.
  • Tilt cylinder: very similar to the lift cylinder, the tilt cylinder controls the tilt movement of the carriage and the angle of the forks in relation to the ground.
  • Forks: it is the forks that make direct contact with the load that is to be lifted. Attached to the carriage, the forks are designed to lift the load from the bottom. When you opt for forklift hire near me, keep in mind that forks come in different shapes and sizes to accommodate loads of different types and weights.
  • Overhead guard: this is the roof of the forklift and is a primary safety feature.

Here is an overview of some of the components that are inside the operator’s cab:

  • Lift lever: the lift lever as the name indicates is used to lift and lower the forks. While they pull backward to lift, the levers push in front to load. The engine speed can be adjusted to manage the lifting speed.
  • Brake pedal and accelerator pedal: while the brake pedal is used to stop the engine and is located on the floor to the side of the steering column, the accelerator pedal is used to start and move the machine and is located at the right of the steering column.

The Economics Of Dairy Robotic Milking Systems

There are more than 35,000 operational robotic milking system (RMS) units on dairy farms all over the world. The major reasons why dairy producers are installing milking robots are to expand without needing to hire additional labour and to improve their lifestyle.

The herringbone parlour is one of the most effective types of the automatic milking machine.

What Drives The Profitability of Robotic Milking System?

The major factors that affect RMS profitability are the length of the useful life, labour savings, milk produced per day per robot, and milk produced per cow. The main disadvantage is having to pay $150,000 to $200,000 for each robot that can each milk 50-70 cows. Most of the historical data shows that milking robots is not as profitable as conventional milking systems. These results may change by higher labour costs, improved management skills, and robotic technology advancements.

Labour Efficiency

The USDA reported that the wages paid to livestock employees increased by 4% in 2015 and 3% in 2014. RMS labour savings that have been reported vary. No savings up to a maximum of 29% savings have been reported by researchers for RMS. A lot of this variation might be explained by barn management and design. According to Farm Management Records from Firbin (2016) shows that RMS farms in the Upper Midwest averaged 2.2 million pounds of milk per each full-time worker while similar-sized herds milked in parlours average 1.5 million pounds.

Another factor that affects the decision for installing robots is the availability of labour in the future to milk cows. A 2014 survey (Adcock et al., 2015) showed that immigrant labour made up 51% of total farm labour. There could be a reduction in the availability of immigrant workers in the future if fewer foreign workers decide to work on farms or if the US passes tighter immigration laws.

Change in milk production when transitioning over to robots

The main driver for milk production changes with RMS is milking frequency changes. It was found by de Koning (2010) that robotic herds saw 5% to 10% production increases compared to 2X milking. However, production was reduced by 5% to 50% when compared to 3X milking. Our survey showed an average of 2.8 RMS milking frequency with a 2.4 to 3.2 range. In order to optimise efficiency, the aim is to have lower milking frequency during later lactation and high milking frequency during early lactation. The main factors affecting herd and individual cow average milking frequency include the following:

Change in milk production when transitioning over to robots

The main driver for milk production changes with RMS is milking frequency changes. It was found by de Koning (2010) that robotic herds saw 5% to 10% production increases compared to 2X milking. However, production was reduced by 5% to 50% when compared to 3X milking. Our survey showed an average of 2.8 RMS milking frequency with a 2.4 to 3.2 range. In order to optimise efficiency, the aim is to have lower milking frequency during later lactation and high milking frequency during early lactation. The main factors affecting herd and individual cow average milking frequency include the following:

Bijl et al. (2007) did a comparison of the economic performance of Dutch farms that used RMS that matched closely conventional farms milking at 2X. Conventional farms proved to be more profitable, due to the higher costs incurred by RMS. However, RMS farms had 29% lower labour requirements which resulted in more income and milk production per worker. The conclusion was that RMS investment allows farms to use less labour to produce more milk and milk more cows.

Milk Per Robot

To maximize profit, it is important to maximize daily milk per robot. With a four robot system over a 20-year time frame and using 2% yearly wage inflation, annual net income increases by about $4,100 for each 500-pound daily milk increase per robot. Some US farms are currently consistently harvesting more than 6,000 pounds of milk per robot per day. It is achieved through a combination of a high number of cows on each robot (frequently over 60) and high daily milk amounts per cow. The most important factors of this achievement are:

RMS in the best working condition
Reduced box time on each cow
Milking strategies and permission settings that get the right number of cows milked at the proper times