Categoryindustrial mechanical

The Main Parts of Sanitary Butterfly Valves

If you have worked for a long time in the pharmaceutical and beverage industry, you know how important the butterfly valve is. But do you really know how they work? Better yet, do you know the main parts that make a butterfly valve?

Butterfly valves are used to control the flow of fluids. The structure and mechanism of a butterfly faucet are both similar to those of a ball valve. This means a spherical disc with a hole and a rod that passes through the disc so that when the faucet is open, the fluid supposed to flow through it will flow transparently. When the faucet is closed, the flow will obviously be blocked. There are four main parts that allow the sanitary butterfly valves to work: the body, the seat, the handle and the operator. Most high-performance butterfly valves have bodies that can easily fit between two pipes. This allows the valves to increase productivity. Keep in mind that not all valves are the same. Some are designed for drinks while others are designed for pharmaceutical drugs.

The technology behind sanitary butterfly valves has grown steadily over time. This explains why valves are used in many industries today. The regular butterfly, for example, comes from the group or rather family of quarter-turn faucets in a wide range of sizes for different uses and handling different degrees of temperature and pressure. The larger the size of a butterfly valve, the more pressure it can withstand. Each part of a butterfly valve contributes in one way or another to its usefulness and functionality. The pieces depend on each other. In other words, the valve may not work at all if a part is damaged or develops a glitch. The two most important parts are:

• Disc – The valve incorporates the use of a large rotating disc as it is a control device. It serves as the main fluid passage that the faucet controls. A first use of the disc was mainly to control the flow of water in the plumbing systems. This is logical because the valve is designed to be used to isolate and regulate the jet of water and other fluids. Keep in mind that the faucet can also be used to control the entry and exit of air in car carburetors.

• Seat – The seat uses the inference adjustment between the edge of the disc and the seat to ensure that the valve stops. The seat can be stuck to the body or can be stuck. The seat materials can be made of polymers or metal. The metal is mainly used when the valve has to withstand extreme temperatures.

Adamant Valves design and manufacture a wide range of stainless steel sanitary valves and fittings such as sanitary butterfly valves, sanitary ball valves, sanitary check valves, sanitary sight glasses, and sanitary unions, etc. They are widely used in the dairy, food, beverage, pharmaceutical, cosmetic, and other industrial markets.

A Brief Introduction to the Programmable Logic Controller

The term programmable logic controller (PLC) refers to the industrial digital computers that are designed for controlling various manufacturing equipment such as industrial robots, escalators, power stations, and assembly lines. These sophisticated devices are used to control production processes where dependable controls, flexible programming, and ease of troubleshooting is of immense importance.

The significance of industrial computers increases in applications where precision with zero error is critical. Initially, it was the automotive industry that utilized computer-controlled systems in order to replace cam timers and hard-wired relays. Now, computer-driven tools have become a vital part of industrial process control and factory automation.

Unlike personal computers, PLC is capable of performing in harsh industrial environments where temperature, humidity, dust, mechanical shocks and other hazards are prevalent. Manufacturers need a variety of equipment in order to produce a product and make it work for the end users.

All the equipment or devices working on producing something in a facility needs to be organized in terms of time intervals. For instance, in the automobile industry, one device or a set of devices works on painting car exterior and the other machine works on engine parts. One of the functions of an industrial digital computer is to set the specific time frame for machines so that all the processes can be performed in a perfectly harmonious manner.

Industrial computers were introduced in the 1960s and before that, manufacturers relied on cam timers, relays and other similar kinds of devices to streamline their manufacturing processes. They control a wide range of applications from small production systems to large processing plants. Some of the advantages of PLC include:

  • Ease of maintenance and installation
  • Accuracy and dependability
  • Cost-effectiveness
  • Low power consumption
  • Higher flexibility and integration

Central Processing Unit (CPU), memory, and input & outputs are the three fundamental component of an industrial digital computer. Like in the personal computer, CPU plays the part of a brain in a computer as it performs all the communication, arithmetic, logical and memory related operations. The memory component in PLC operates almost the same way as that of personal computers.

As mentioned earlier, the ability to perform effectively for years in harsh industrial environments is what makes PLCs different from personal computers. A digital computer has to be flexible and configurable. The 21st Century process control expects functional flexibility, superior performance, and a smaller form factor from a control system.

The rapid development in the industrial automation technology has made it possible for manufacturers to produce high-quality products cost-effectively and at large scales. Powerful industrial computers, robots, sensors, intelligent and automated devices are the present and the future of modern industries. It would be hard for industries to stay competitive in future without embracing the modern industrial technologies.

Get Accurate Boat Hulls Thickness for Quality Assurance

Fiberglass reinforced plastic (FRP) is utilized in a large quantity for manufacturing components in the boating industry for two types of boats, work boats and recreational craft. Manufacturers of boats and marine surveyors requires to get accurate hull thickness measurements using a precise wall thickness gauge. Before, unless there was a place to put a micrometre, there was no real way to decide thickness but to penetrate a gap in the body. Present day ultrasonic thickness gauges, be that as it may, make it simple to check the thickness of vessel structures.

Ultrasonic thickness estimations are especially valuable with fiberglass tangle/meandering lay-ups. Varieties in layer thickness make it important to intermittently check thickness. In some cases pontoon structures are made of fiberglass skins sandwiched around an internal centre of balsa wood, stopper, or froth. In those cases, the centre material makes it difficult to make add up to body thickness estimations, since it doesn’t transmit ultrasound, yet the external fiberglass layers can be estimated successfully with ultrasonic hardware.

A wall thickness gauge with the High Penetration programming alternative and 45MG with High Penetration programming are compact gauges equipped for making advanced thickness estimations on fiberglass. They are ordinarily utilized with a M2008 transducer (500 kHz) to boost the entrance of ultrasound in thick or weakening fiberglass, giving a thickness estimation scope of around from 0.150 in. to 3 in. (4 mm to 75 mm), contingent upon the sort of fiberglass. In particularly difficult cases, the progressed 38DL PLUS thickness gauge with the high entrance transducer choice and vast waveform show is prescribed. This design empowers administrators to alter setup parameters on location. Transducers, for example, the M1036 (2.25 MHz) or M109 (5 MHz) can gauge down to roughly 0.050 in. (1.25 mm) in fiberglass.

The 38DL PLUS gauge with the HP choice and the 45MG gauge with the HP choice both have pre-customized default setups for the two transducers most generally utilized for fiberglass estimation, the M2008 and M1036. Much of the time, these default setups can be utilized with no further change, only the two-point speed and zero adjustment that is suggested for all ultrasonic thickness estimations.

The fiberglass utilized as a part of vessel development is by and large of high calibre, and not at all like some different fiberglass overlays does it as a rule not create high sufficiency inside reflections that can cause false readings. In any case, if false readings are seen in a specific case, the circumstance can generally be remedied by little changes of the underlying addition and TDG incline as sketched out in the gauge working manuals. The 38DL PLUS thickness gauge waveforms beneath demonstrate a commonplace hang up on inward reflections, and a right perusing of aggregate structure thickness following a basic pick up modification.

Precision Carbon Steel Pipe Pickling Process

In the rolling of seamless steel tubes, especially in the production process of precision seamless steel tubes, how does the acid pickling process proceed? Today, the mysterious veil is unveiled for you!

The use of an acid solution to remove scale and rust from steel surfaces is called pickling. Iron oxides (Fe3O4, Fe2O3, FeO, etc.), such as scales and rust, chemically react with the acid solution to form salts that are dissolved in the acid solution and removed. Pickling acids include sulfuric acid, hydrochloric acid, phosphoric acid, nitric acid, and mixed acids.

Mainly impregnated pickling, jet pickling and acid paste rust removal. In general, the impregnation pickling method is generally used, and the spray method can be used in mass production. Steel parts are generally pickled in 10% to 20% (by volume) sulfuric acid solution at a temperature of 40°C. When the iron content in the solution exceeds 80g/L and the ferrous sulfate exceeds 215g/L, the acid solution should be changed. At room temperature, pickling of steel with 20% to 80% (by volume) hydrochloric acid solution is not prone to over-corrosion and hydrogen embrittlement. Due to the great effect of acid on metal corrosion, corrosion inhibitors need to be added. After cleaning, the metal surface becomes silver white, and the surface is passivated to improve the corrosion resistance of the stainless steel.

In order to eliminate the surface adsorption of the diatomaceous earth carrier and reduce the tailing of the chromatographic peaks, the carrier must be acid-washed or alkali-washed prior to use. Pickling is carried out by dipping the carrier with 6 mol/L hydrochloric acid for 2 hours or heating with concentrated hydrochloric acid for 30 minutes, filtering, washing with water to neutrality, and drying. Pickling removes impurities such as iron, aluminum, calcium, and magnesium on the surface but does not remove silanol groups. Pickling supports are suitable for the analysis of acidic samples.

Degreasing and derusting the surface of precision seamless steel tubes to prepare for the next process. In the production process, the pickling process is to remove the surface oxide skin, after the lubrication treatment (carbon steel – phosphorus saponification, stainless steel – tallow lime, copper aluminum – oiled), with the old process – copper plating), and then Carry out deep processing. If the steel pipe is not pickled and there may be oxides and oil on the surface, the phosphating solution cannot remove them and the quality of phosphating will be reduced.

Reinforced Galvanized Spiral Steel Pipe

Pre-bending and sizing are the main steps in the spiral tube forming process. The main purpose of pre-bending is to solve the rebound problem of the tube blank, because the size of the rebound directly affects the intrinsic quality of the steel tube; the main purpose of the sizing is to obtain a more accurate diameter of the tube, because the diameter control is the main quality index of the steel tube. one. A suitable match between pre-bending and sizing is required to obtain an ideal steel pipe blank.

The following is a brief discussion on the formation process and characteristics of submerged arc welding of galvanized spiral steel pipes with 630*3 ribs. The principle of submerged arc welding: Submerged arc welding is the use of arc thermal energy welding, and manual welding rod arc welding is different: the submerged arc welding of the welding wire is exposed, there is no coating, submerged arc welding is indeed pre-paved welding flux to be welded The submerged arc welding wire extends into the flux, and the arc is formed under the flux. The formation process of the submerged arc welding is such that the welding wire is in contact with the workpiece. After the start button is pressed, the welding wire and the workpiece are energized, and the welding wire is returned. Withdrawing, the arc ignites, the welding carriage advances, the welding wire is continuously conveyed downwards, the arc is maintained to burn under the flux layer, and the welding pool is formed below the arc. Around the arc, the flux melts to form a cavity. The cavity and the pool continue to advance, and the metal behind the pool solidifies to form a continuous weld. This process is performed under the flux, so we can’t see it with the naked eye. It can be seen with X-ray photography. Since the spiral steel pipe adopts the welding technology of submerged arc automatic welding, besides this kind of high production efficiency; the production auxiliary time is less, the time for changing the welding rod is saved; the welding conditions are clean and no spatter, and the cleaning time is saved; the quality of the welding seam is high. It also provides the necessary conditions for the delivery of the spiral welded pipe plant, so that the production time of the large spiral steel pipe is guaranteed, so it is still widely used.

1. The pressure-bearing fluid is mainly used for the X46 welded pipe as the tube blank, and is often spirally formed in temperature. It is used for welding with double-sided submerged arc welding and is mainly used for spiral seam welded steel pipe devices for pressure fluid transportation. The ability of the steel pipe to withstand pressure is strong and the welding performance is also very good. After a variety of rigorous scientific inspections and tests, the use situation is relatively safe and reliable. The solid diameter of the steel pipe is large, the transmission efficiency is also high, and it can effectively save the investment of laying pipelines. It is mainly used for pipelines that transport oil and natural gas.

2. General low-pressure fluid transport is mainly hot-rolled steel coiled tube blanks, often temperature spiral molding, using high-frequency lap welding method for general low-pressure fluid conveying spiral seam high-frequency welded steel pipe. Welding steel with spiral welds.

3. The hot rolled steel strip is used as the tube blank, which is often formed by spiral molding and is made of double-sided submerged arc welding or high-frequency welded steel pipe. It is used for the foundation pile steel pipe for civil building structures, wharves, and bridges.

4. The general low-pressure fluid transport is hot rolled steel strip coiled tube, regular temperature spiral molding, using double-sided automatic submerged arc welding or single-sided welding method for water, gas, air and steam and other general low-pressure fluid transport Submerged arc welded steel pipe.

5. The pressure fluid transport is based on the hot-rolled steel strip for tube blanks, regular temperature spiral molding, high-frequency lap welding method used for pressure fluid transmission spiral seam high-frequency welding steel pipe device. The steel tube has strong pressure bearing capacity and good plasticity, which facilitates welding and processing. After a variety of strict and scientific inspections and tests, the use of safe and reliable, large diameter steel pipe, transmission efficiency is also high, and can effectively save the laying pipeline investment. It is mainly used for the laying of pipelines connecting petroleum, natural gas, etc.

Why It Benefits to Use a Generator

A power outage can lead to many problems for both homes and businesses. Life support machinery, lighting, and heating systems can be instantly lost when a storm or a similar event takes out the main power. Let’s take a look at several of the reasons to use the generator:

Construction sites

A typical use for the generator is on construction sites where there are plenty of power tools to operate, such as industrial lights, spray guns for painting, nail guns, etc. Any remote or newly developed site isn’t likely to have access to the electric grid, so this will be the only way to get power.


Any homes or businesses that are located in an area that experiences heavy rain storms or other acts of nature that can take out the power will certainly benefit from a backup source of power. In the event of a power outage, the generator will make it a lot easier to stay independent and carry on as close to normal until the main electrical supply is back. Using the generator means it is possible to continue to eat hot meals, stay warm, and make sure the main appliances, like the fridge continue to run.

Also, with the increase in the elderly generation, there are more households that have the medical hardware in the home, such as the oxygen-producing machines which demand a constant source of power. Even a short loss of power can be very inconvenient, so the simple process of installing a generator can help to save lives in this type of situation. Additionally, there are many people who rely on electric scooters or a stair lift to get around which will stop working.


Farming is an industry that needs to continue to work at all times. In an effort to prevent a farm coming to a stand-still after a storm, the generators will ensure the essential electrical equipment is kept working. For instance, it will be necessary to keep power going to continue production, feed livestock, maintain the freshness of food supplies, and keep the lighting on.

Outdoor events

Beyond the ability to give an essential source of power in the event of an outage, the generators are a practical option for outdoor and recreational events, such as barbecues, garden parties, off the grip campsites and festivals. They give a constant source of power which is very useful to plug-in speakers, keep things cool, power fans and light up the area.

Purpose of Tensile Testing and Its Use in the Plastic Industry

One of the most elementary tests that can be performed on a product is the tensile test to check the breaking resistance of a product. A test specimen is kept under tension to practice opposing forces acting upon opposite faces both located on the same axis that attempt to pull the specimen apart. These tests are simple to set and complete and reveal many characteristics of the products that are tested. These tests are measured to be fundamentally the reverse of a compression test.

Purpose of this test

Usually, this test is designed to run until the specimen breaks or fails under the specific load. The values that are calculated from this type of test can vary but are not limited to tensile strength, elongation, ultimate strength, modulus of electricity, yield strength, and strain hardening. The measurements taken during the test reveal the characteristics of a material while it is under a tensile load.

Tensile Testing for Plastics

Composites and Plastic are polymers with substances added to improve the performance or reduce costs. Plastic may be pressed or cast or extruded into sheet, film, or fibre reinforced plate, glass, tubes, fibre, bottles and boxes. Thermohardening or thermosetting plastics can be brittle or hard and temperature resistant. Thermosets include polyester resins, epoxy resins, polyurethane, phenolic resins, non-meltable, non-deformable and polyurethane. Polymers and plastics can be tested to measure product quality. The tests measure the weight required to split or break a plastic test material and sample elongation or stretch to that breaking load. The resulting data help to identify product quality and quality control checks for materials.

Plastic testing instruments, universal test machines provide a constant rate of extension because plastic tensile test behaviour is dependent on the speed of the test machine. The specimens loaded on the machines are set as per ASTM, DIN, ISO tensile test specimen dimensions. The Plastic tester machine should always rely on standard terms and conditions. As per ASTM D638, Plastic tensile test standards help to measure strain below 20 percent extension values. High strain can be measured by the machine, digital reader. Thin sheet sample testing is done as per the standard ASTM D882.

A high-quality testing machine is designed to measure the strength of a specific product, test method and product type. A good instrument can be the only solution required for your quality assurance and a worse choice can make you go in the loss too. So choose the instrument smartly.

Top 4 Ways of Forming Plastic and Their Advantages

Plastic manufacturing has emerged as one of the biggest industries today. From packaging material to heavy-duty industrial parts, uses of plastic are widespread. To a general onlooker, most kinds of plastic materials may look the same. Yet, their core material and Plastic Fabrication processes may vary greatly. Given below are some of the Plastic Manufacturing Processes and their advantages.

Injection Molding
Injection Molding is one of the most popular methods used by Plastic Manufacturers. The biggest edge of Plastic Molding is in its cost-effectiveness. Plastic Manufacturing Companies can produce goods at a large scale in the lowest costs. It also produces the least amount of waste and hence it is an ideal process for Plastic Manufacturing Companies. From small kitchen appliances to large bathroom fittings, this process is suitable for manufacturing all kinds of Plastic Profiles.

The process
The process is very simple. Resins are heated to their melting point. Then they are pushed into the mold. The molten plastic is pressed to take the form of the mold. It is an ideal process for manufacturing a large quantity of material at low cost. However, preparing the mold is very expensive. This process wouldn’t be feasible if the quantity of goods required is low.

Blow Molding
This is a highly adaptable process used in the Plastic Industry. It is commonly used for manufacturing bottles, containers and other kinds of hollow lengths. It is a fast and inexpensive process for making thin-walled hollow shapes. You can obtain complex shapes through this process.

The process
Air pressure is used in this process to expand the molten thermoplastic into the desired shape. It is a good process for obtaining seamless hollow shapes.

Custom Plastic Extrusion Molding
Custom Plastic Extrusion is an ideal method for getting Plastic Profiles with strict tolerance. You can work with a variety of materials and shapes in Custom Plastic Extrusion method. Accuracy and consistency are the biggest plus points of this method.

The process
The plastic resins are melted and passed through a die. You can get fixed plastic shapes with desired IDs and ODs. You will also have complete freedom to choose the shape and size of the material. The process uses dies and tools and hence it is very economical if the quantity of the order is high. Preparing the dies and tools is expensive and hence it may not remain a feasible option if the order size is small. Yet, if accuracy and consistency are your prime requirements then this process is for you.

Rotational Molding
The rotational molding method is also used for making hollow objects like blow molding. However, the raw material used in this process is different. It uses plastic powder instead of plastic resins. Nylon, ABS, polyethylene,and PVC are some of the common materials used in this process. This is an ideal process if you are trying to create large, hollow or concave shapes. It produces seamless and stress-free finished goods. The process uses simple and inexpensive tools,however, the tools need to be replaced frequently. The quality of finished goods obtained through this process is average and it is not an ideal process for precision forming.

The process
In this process, the plastic powder is placed in the mold and heated on a furnace. Once hot, the mold is continuously rotated to facilitate thorough coating of the mold’s inside. Once done the mold is removed and cooled in a controlled environment. Both heating and the cooling processes need to be monitored with great precision as quick temperature differences can lead to the formation of bubbles and warps.

Plastic Manufacturers use several other methods too like vacuum forming, compression molding, and thermoforming for making Plastic Profiles. The choice of process largely depends upon the kind of shape, consistency and order quantity required.

Important Information About Metal Finishing You Must Know

Though metals are hard to touch, they also have the tendency to decay. They also need protection to last longer and to meet the expectations of the users. It is because of that these materials are treated externally where they get an additional layer of another metal that protects it from all harms. Actually, the process works well for the iron or tin-based products that often get rusted and lose their natural integrity in some time. Actually, rusting is a natural phenomenon that weakens the material and makes it get weaker and weaker in some time. Usually, the process of applying that additional layer of metal on another is often termed as metal finishing.

The most important benefits of metal finishing are as follows:
1. Enhanced electrical conductivity
2. Superior strength
3. Vulcanization prospective
4. Bigger stain confrontation
5. Extra ornamental impact
6. Larger electrical resistance
7. Better chemical resistance

As far as methods of metal finishing are concerned, there are quite a few that are put in practice by the companies. Following are a few of them that are very much common in practice:

Plating- This is the most commonly-used process of metal finishing that adds an additional gleam to the material externally. Usually, layer of nickel or PTFE is added to the exteriors level of the material. In the opinion of the experts, Plating adds some benefits to the metals too. It makes them durable, corrosion resistant, and brings it an attractive look.

Brushing- This is yet another important process of metal finishing that does another big thing to the product. It removes the defects in the surface of the metal, in case it has any. Usually, this is very effective for iron as it has some rough surfaces on it due to some manufacturing causes or defects. Apart from adding a shine, it smooths the metal surface rather effectively indeed. The service providers use a brush to rub the external surface of the product to get rid of the sharp edges or other defects.

Buff Polishing- In the opinion of the experts, Buff Polishing is very much suitable for you in case you need a non-textured and smooth finish. The machine used for this process of metal finishing adds a glossy and shiny finish to the product. Undoubtedly, this process is the best for decorative finish. The technique of Buff Polishing is catching momentum these days.

Grinding- This special technique for metal finishing uses a high-power machine that works rather heavily to remove the sharp edges on the metal and makes it absolutely smooth. The machine makes use of varies physical properties that significantly include abrasion, solidity, and resistance. Without any doubt, the grinding is the most powerful method of metal finishing. It is very effective in smoothing different materials like gold, silver, copper, and platinum.

When it comes to making the product look good apart from making it durable and long-lasting, metal finishing becomes mandatory. You can always get in touch with the best metal finishing companies that have the latest infrastructure to take care of all the technicalities of this process.

Advantages of ASRS Integration in Your New Factory

Modern innovations and technologies have revolutionized the way a factory operates. Labor intensive manual processes have given way to automated ones with minimal or no human intervention. Computer controlled automation systems are part of each value addition area of the entire production chain, so are the various applications based software for managing them, resulting in higher production level at faster speeds with lower costs in a modern factory.

Warehouse or storage is one area of a factory where automation and technology have had relatively late and moderate entry. However, given the scope of applications and the projected value addition it can make in the entire production chain, there has been spurt in the use of automated systems and technologies.

Automated Storage and Retrieval System (ASRS) is one such essential part of a modern warehouse. Primarily, ASRS comprises of storage racks, storage and retrieval equipment and warehouse management system (WMS) that is a software application. Advancing from the conventional storage and retrieval equipment in a warehouse like AGVs, ASRS system is programmed to operate according to the load dimensions and speed of delivery for a particular load type. ASRS sends information related to the load movement to the Warehouse Management Systems which processes the data and guide automated warehouse control systems (WCS) that maneuver other warehouse equipment in tandem.

Conventional material handling systems involves manpower or small machinery to move and store the products in a warehouse using pallets which are stored using a single or double deep rack. This method is extremely tedious as it requires a large amount of data to be maintained manually about the location and the quantity of the products stored. A large investment in the resource is required to maintain the conventional material handling system; also it requires a large amount of time which leads to slow process chain in warehouse.

Advantages over conventional systems:

• Conventional forklifts and battery stackers offer increased resistance in capacity whereas ASRS offers the same working load at all the levels of storage system.

• ASRS systems are self maneuvered and hence requires no operator throughout the movement of equipment.

• Being the electrical equipment, no battery charging time or back-up batteries are required, hence ASRS offers uninterrupted availability.

• ASRS is capable of moving both standard and nonstandard loads in a uniformly-sized volume (container, pallet, etc.).

Factory owners are fast adopting ASRS for their warehouses. But, if you are setting up a new factory for your business, integrating ASRS in the warehouse can be actually a much beneficial and prudent decision, as you can reap benefits of cost effectiveness ease of integration better than retrofitting ASRS to an existing warehouse set up.

Benefits to the entire supply chain management in the new factory:

• ASRS requires small operating isle and are very dense system, minimizing floor space use and maximizing storage capacity and density.

• ASRS helps in cost reduction as it minimizes amount of unnecessary parts and products in an inventory

• ASRS reduces labor involvement in operations, thereby reducing the overall operational cost and increasing safety

• ASRS helps in modeling and managing the logical representation of the physical storage facilities

• It enables a seamless link to order processing and logistics management in order to pick, pack, and ship product in or out of the facility

• ASRS generates data about the movement of the loads (tracking where products are stocked, which suppliers they come from, and the length of time they are stored), to help companies in better inventory management.

• It enables the total production effectiveness in Raw Materials, Packaged Goods as well as Finished Products thus eliminating the chance of production failure.

Daifuku, one of the largest global material handling solution providers for factory automation as well as warehouses and distribution centers, offers the best selling range of ASRS that delivers the speed and efficiency required for today’s supply chain management (SCM) environment.

Daifuku ASRS line includes the best selling Unit-load for pallet-size loads, automated warehouse system constructed as buildings, high speed mini-load, and vehicle type mini-load for smaller items stored in totes or cases.

Daifuku ASRS fits your specific load profile and weight, building dimensions, and operating environment. All systems feature high-quality drives for fast, smooth, and reliable performance.

Daifuku’s local intelligent network control system ensures comprehensive solution: from front-end controls to full-scale inventory management computer systems.