Morbark launches new Rayco T415 forestry machine

Morbark is debuting the new Rayco T415 Forestry Machine.

Designed for land-clearing companies, construction companies, pipeline contractors, utility contractors and real estate developers, the T415 allows customers to change between a Predator forestry mower/mulcher head and a Hydra Stumper stump cutter attachment.

“The T415 forestry machine is designed for large-scale land-clearing contractors,” said J.R. Bowling, Rayco Manufacturing’s mulcher specialist. “It’s a lot of cutting power in a very nimble package.”

Powered by a 415 hp Cat C9.3B Diesel Tier 4 Final engine, the T415 boasts a closed-loop hydrostatic system to power the mulcher or cutter head, sending 530 litres per min to the attachment’s drive motors.

The hydraulic output is power-optimized to match the engine’s power curve, keeping the mulcher or stumper rpm constant, even under load for a finer mulched product with fewer passes.

As the engine rpm pulls down under load, pump displacement increases to maintain the 530 litres per minute flow. The operator feels more power at the cutter head over a broader engine rpm band.

Predator mulcher head
For mowing/mulching applications, the Predator mulcher head has a 232-cm cutting width, and is powered by a pair of variable displacement drive motors.

The Predator mulcher head is equipped with 49 single-bolt teeth, including end teeth with extra carbide to power through anything its way. The mulching head also has a synchronous drive belt for low maintenance and long wear life and slotted mounting lugs to follow terrain with minimal machine stress. A manually adjustable tree catcher and hydraulic debris flap is standard.

The Hydra Stumper head muscles through stumps with its 122-cm diameter by 7.6 cm thick cutter wheel equipped with 56 Monster Tooth cutter tools. The cutting range reaches 2.74 metres wide, 2.69 metres high and 117 cm deep.

Read more: Morbark launches new Rayco T415 forestry machine

(2019 – 2024) Hydraulic Valve Remote Control System Market Growth Factors, Regional Analysis, Applications, & Manufacturers And Forecasts

The report is an exhaustive investigation of Global Hydraulic Valve Remote Control System market offering development rates, size of the business, aggressive scene data, variables to the contributing development of the worldwide Hydraulic Valve Remote Control System market and that’s only the tip of the iceberg. This investigation additionally breaks down the market status, market share, development rate, future patterns, market drivers, openings and difficulties, dangers and section barriers, deals channels, wholesalers and Analysis.

Market Overview:

“Valve Remote Control System is designed for remote concentrated management of the valves. Valves are driven by hydraulic, pneumatic or electric.”

According to this study, Hydraulic Valve Remote Control System report provides 164 pages research data over the next five years. The Hydraulic Valve Remote Control System market will register a xx% CAGR in terms of revenue, the global market size will reach US$ xx million by 2024, from US$ xx million in 2019.

Top Key Players in Global Hydraulic Valve Remote Control System market are:


Hydraulic Valve Remote Control System market Production Breakdown Data by Top Regions:

  • United States (Canada, Mexico)
  • Europe (Germany, France, UK, Italy, Russia, Spain)
  • APAC (China, Japan, Korea, Australia)
  • Africa (Egypt, Israel, Turkey)

The study objectives of Hydraulic Valve Remote Control System Market report are:

  • To study and analyze the global Hydraulic Valve Remote Control System market consumption (value & volume) by key regions/countries, product type and application, history data from 2014 to 2019, and forecast to 2024.
  • To understand the structure of Hydraulic Valve Remote Control System market by identifying its various sub segments.
  • Focuses on the key global Hydraulic Valve Remote Control System market manufacturers, to define, describe and analyze the sales volume, value, market share, market competition landscape, SWOT analysis and development plans in next few years.
  • To analyze the Hydraulic Valve Remote Control System market with respect to individual growth trends, future prospects, and their contribution to the total market.
  • To share detailed information about the key factors influencing the growth of the market (growth potential, opportunities, drivers, industry-specific challenges and risks).
  • To project the consumption of Hydraulic Valve Remote Control System submarkets, with respect to key regions (along with their respective key countries).
  • To analyze competitive developments such as expansions, agreements, new product launches, and acquisitions in the market.

Read more: (2019 – 2024) Hydraulic Valve Remote Control System Market Growth Factors, Regional Analysis, Applications, & Manufacturers And Forecasts

Kinshofer releases DXS hydraulic mobile excavator shears

Kinshofer USA, Sanborn, New York, has introduced the DXS Series of hydraulic mobile excavator shears, which the company says features industry-leading power-to-weight ratios, jaw opening sizes, cycle times and hydraulic efficiency. The series, available in the DXS-40 and DXS-50 models, is suitable for scrap processing, tire recycling and demolition. Both models are also available with integrated Fuchs Quick Connect (FQC) system.

“We designed the DXS Series to enhance contractors’ productivity and ROI (return on investment,” says Francois Martin, Kinshofer North America general manager. “Traditionally, more power means a larger cylinder, which results in a bigger, heavier shear and, often, a larger machine. The DXS-50 has the same-sized cylinder as shears in the same weight class but with 25 percent more power, allowing our customers to achieve higher performance without investing in larger carriers. This saves them money upfront while improving their ROI with the attachment’s production-boosting qualities,” he adds.

Kinshofer’s DemaPower 2.0 cylinder technology gives the DXS-50 the same power as shears two sizes larger, according to the manufacturer. The cylinder uses four chambers instead of the two found in other shears, resulting in 20 percent more surface area within the cylinder. That allows the DXS Series to exert up to 25 percent more power from a smaller attachment, resulting in the best power-to-weight ratio in its size class, Kinshofer says. The 9,920-pound (4,500-kilogram) DXS-50 features a closing force of 1,203 tons (10,700 kilonewtons) compared with 922 tons (8,210 kilonewtons) from its 9,020-pound (4,100-kilogram) predecessor, the DRS-45.

Read more: Kinshofer releases DXS hydraulic mobile excavator shears

Troubleshooting Challenge: Shaft Seal Fails on Pressure-Compensated Pump

A simple 2,000-psi hydraulic system was designed and installed to run a conveyor in a hog-processing plant (see schematic). Two belt conveyors at a vertical angle to each other create a V shape, with about a 12-in. gap at the bottom and about a 30-in. gap at the top. A flat floor at the bottom of the conveyor slopes down from the entrance. Hogs travel down single file into the conveyor. As they enter the conveyor, the sloping floor causes the hogs to be wedged in and carried to where they are dispatched, and processing begins.

The new system developed a problem with the C-face mounted pump shaft seal failing after six weeks or so. The seal lip with a garter spring was pushed out. The maintenance crew replaced the seal and was told by the power-unit builder that this type of failure was normally due to excessive pump case pressure. The crew installed a standard 0- to 300-psi pressure gauge teed into the case line to monitor case pressure.

They observed it for several hours, then every day for a week or two. They noticed that when the pump compensated each time the conveyor was stopped, the pressure would spike between 10 and 15 psi but then only read about 5 to 8 psi. When the directional valve was shifted to run the system, the pressure would drop even lower.

The pump shaft seal failed again five weeks later. The power-unit builder said case pressures this low shouldn’t cause these failures, but they did not know what could be causing the failures.

Do you have any ideas?

Read more: Troubleshooting Challenge: Shaft Seal Fails on Pressure-Compensated Pump

LDTs Monitor Tillage Depth Through Cylinder

A Hall-effect linear-displacement transducer monitors piston rod position accurately on agricultural tillage equipment and provides precise control of tillage depth that increases crop yield, reduces fuel consumption, and minimizes wear on the implement and tractor.

Farmers need to break up compacted soil (known as hardpan) in their fields to promote root growth so crops can achieve the highest possible yield. For decades, farmers have achieved this by setting their tillage equipment to plow as deeply as possible to accommodate varying but unknown depths of the compacted soil. Now, with ground-penetrating radar and GPS technology, they can map the hardpan throughout their fields. To take advantage of this information and break up the hardpan efficiently, farmers need a way to achieve accurate, variable depth control on the fly.

A linear-displacement transducer designed and manufactured by Rota Engineering Ltd., headquartered in Bury, Manchester, UK, uses linear Hall-effect to achieve the accuracy needed for agricultural applications in a package that can withstand the shock, vibration, and ambient conditions of plow equipment. The transducer mounts inside a hydraulic cylinder and is straightforward enough that it can be installed by the cylinder manufacturer, equipment manufacturer, or a dealer.

Read more: LDTs Monitor Tillage Depth Through Cylinder

Aircraft Hydraulic System Market 2019 Analysis and Precise Outlook

The report presents an in-depth assessment of the Aircraft Hydraulic System including enabling technologies, key trends, market drivers, challenges, standardization, regulatory landscape, deployment models, operator case studies, opportunities, future roadmap, value chain, ecosystem player profiles and strategies. The report also presents forecasts for Aircraft Hydraulic System investments from 2019 till 2025

At company level, this report focuses on the production capacity, ex-factory price, revenue and market share for each manufacturer covered in this report.

Key players cited in the report:

United Technologies Corporation, Parker Hannifin Corporation, Safran S.A., Eaton Corporation PLC, Liebherr-International AG, Woodward, Inc., Triumph Group, Inc., Moog Inc., Arkwin Industries Inc., Beaver Aerospace & Defense And Other..

Competitive Landscape

Key players of the global Aircraft Hydraulic System market are profiled on the basis of various factors, which include recent developments, business strategies, financial strength, weaknesses, and main business. The Aircraft Hydraulic System report offers a special assessment of top strategic moves of leading players such as merger and acquisition, collaboration, new product launch, and partnership.

Market Overview: It starts with product overview and scope of the global Aircraft Hydraulic System market and later gives consumption and production growth rate comparisons by application and product respectively. It also includes a glimpse of the regional study and Aircraft Hydraulic System market size analysis for the review period 2014-2025.

Company Profiles: Each company profiled in the report is assessed for its market growth keeping in view vital factors such as price, Aircraft Hydraulic System market gross margin, revenue, production, markets served, main business, product specifications, applications, and introduction, areas served, and production sites.

Manufacturing Cost Analysis: It includes industrial chain analysis, manufacturing process analysis, the proportion of manufacturing cost structure, and the analysis of key raw materials.

Read more: Aircraft Hydraulic System Market 2019 Analysis and Precise Outlook

Global Hydraulic Press Machine Market 2019

A new research by Innovate Insights on Hydraulic Press Machine gives complete guidance which provides the most recent Hydraulic Press Machine industry patterns like market development openings, size and share. Global Hydraulic Press Machine Market comprises complete analysis of Hydraulic Press Machine market showing the most recent situation in the market. It envisages the growth of market size and share during the forecast period.It analyzes various factors responsible for market expansions as well as the volume of Hydraulic Press Machine market. Report includes forceful business establishment of Hydraulic Press Machine market outline alongside the overview of overall Hydraulic Press Machine market players.

Hydraulic Press Machine Market Leading Top Players: Beckwood Press, Greenerd, Hare Press, Schuler

In year 2018, Hydraulic Press Machine market size was USD XX million and is expected to reach USD XX million in 2026 with a CAGR of XX% from 2018 to 2026. Report has been fragmented into product and applications. It also includes complete profiling of prominent players involved in this market. It gets into speculating the latest changes in the worldwide Hydraulic Press Machine market while evaluating the offer in the market of the dominating players in the upcoming period.

Report discusses major drivers boosting this market as well as restraints that can hamper the growth of Hydraulic Press Machine market. Moreover, it embraces all the opportunities which will enhance the growth of market. Further, report encompasses analysis of major players through SWOT analysis. It reviews the advancement of the leading players in the Hydraulic Press Machine market.

Hydraulic Press Machine Market Segmented By Type: H-Frame, C-Frame, Others

Hydraulic Press Machine Market Segmented By Application: Automotive, Military, Electrical and Electronics, Ceramic and Abrasives, Food and Beverages, Others

Market, By regions:
– North America
– Europe
– Asia Pacific
– Latin America
– Middle East and Africa

Read more: Global Hydraulic Press Machine Market 2019

Global Hydraulic Hose and Fittings Market

Hydraulic systems use pipe or tubes to transmit the energy produced by the hydraulic fluid. Hoses are responsible for transmission of fluid or fluid power within a hydraulic system under high-pressure conditions and require proper connection of the fittings to the hydraulic system.

The increasing construction of green buildings to be one of the major factors driving market growth. The construction, establishment, and subsequent services of a building requires large amounts of energy. It has been witnessed that buildings emit a high amount of greenhouse gases which is more than the transportation sector. This factor is leading to increased demand for energy-efficient green buildings as they are designed to consume less energy. Moreover, green buildings reduce the energy consumption and effectively uses the available energy to meet all their requirements.

APAC is expected to witness a considerable growth in hydraulic fittings market during the next few years. This region will be the major contributor to the growth of the market due to the rapid urbanization in the emerging countries such as China and India.

The global Hydraulic Hose and Fittings market is valued at xx million US$ in 2018 is expected to reach xx million US$ by the end of 2025, growing at a CAGR of xx% during 2019-2025.

This report focuses on Hydraulic Hose and Fittings volume and value at global level, regional level and company level. From a global perspective, this report represents overall Hydraulic Hose and Fittings market size by analyzing historical data and future prospect. Regionally, this report focuses on several key regions: North America, Europe, China and Japan.

Key companies profiled in Hydraulic Hose and Fittings Market report are Bridgestone, Eaton, Gates, Manuli Hydraulics, Parker Hannifin, The Yokohama Rubberand more in term of company basic information, Product Introduction, Application, Specification, Production, Revenue, Price and Gross Margin (2014-2019), etc.

Read more: Global Hydraulic Hose and Fittings Market

Machine Automatically Wraps Silage Bales Using Hydraulic Power

Wrapping silage bales in the field preserves feed quality, prevents crop damage or loss, and simplifies handling. Until now, bales have been loaded into and unloaded from bale wrapping machines manually. The Kuhn SW 4014 bale wrapper combines automated electronic controls with hydraulic power to eliminate manual handling, speeding field operations for increased capacity and ensuring consistent quality. The SW 4014 is designed and manufactured by Kuhn North America, Brodhead, Wis.

Hydraulic cylinders retract the width of the SW 4014 to only 98 in., making it road-ready to move from one field to another.

For road transport, hydraulic cylinders retract the machine’s sliding frame that contains the wrapping arms to an overall width of only 8 ft 2in. (2.5 m). Upon arriving at the field, the operator simply pushes a button, and the wrapper’s width extends to its operational width of 13 ft. (4 m), providing greater stability and enabling drive-through operation over rows of hay bales. The machine’s satellite receiver also goes to the zero position, and the loading arms move to their pre-load position ready to begin the process, which includes loading, wrapping and unloading bales.

At its working width of 13 ft, the SW 4014 moves with stability through the field, loading, wrapping, and unloading bales while the tractor stays on the move.

Award-Winning Design
Kuhn’s autoload function was awarded the American Society of Agricultural and Biological Engineers AE50 Award for innovations in its field and is based on Category II Laser technology. During operation, a laser sensor in the top cover at the front of the machine, scans the area ahead of it at ground level until it senses the edge of a bale. As it continues sensing, it detects the end of the bale, allowing the bale length to be calculated by counting pulses from a wheel sensor on the left wheel. Once the laser sensor detects the bale edge and the bale length is determined, loading arms are activated at the precise time to load the bale into the center of the machine’s rollers. With the bale in position, the wrapping arms rotate around the bale, encasing it completely in film before placing it back in the field. While this is occurring, the operator can continue driving ahead to the next bale, making it a continuous operation.

“In the past, the driver had to look back and estimate when the bale was centered in the machine,” explained Bart deVries, Kuhn product and marketing manager. “Now, all the driver has to do is drive up and the machine is doing all the rest. It’s non-stop wrapping at up to 3 km/hr as it picks up and wraps one bale after another in the field. Before, you had to stop. Now it’s fully automated.”

Read more: Machine Automatically Wraps Silage Bales Using Hydraulic Power

Plastic Injection Molding Machine Market 2019 By Size, Share, Applications & Forecast To 2024

Plastic Injection Molding Machine Market research report examines adoption trends, future growth potentials, key drivers, competitive outlook, restraints, opportunities, key challenges, Plastic Injection Molding Machine industry ecosystem, and revenue chain analysis. This report presents a detailed analysis, market sizing, and forecasting for the emerging segment within the Plastic Injection Molding Machine market. The report is thoroughly segmented by product type, application, vertical, and region. The points that are discussed within the report are the major market players (Haitian International, ENGEL Holding GmbH, ARBURG GmbH, Sumitomo Heavy Industries, Milacron, Wittmann Battenfeld, Fanuc, Toshiba, Nissei Plastic, Husky, JSW Plastics Machinery, Toyo, Chenhsong, Yizumi, LK Technology, Cosmos Machinery, Tederic, UBE Machinery, Windsor) that are involved in the market such as manufacturers, raw material suppliers, equipment suppliers, end users, traders, distributors and etc.

Plastic Injection Molding Machine Market Intellectual: An Injection molding machine, also known as an injection press, is a machine for manufacturing plastic products by the injection molding process. It consists of two main parts, an injection unit and a clamping unit.

Machines are classified primarily by the type of driving systems: hydraulic, electric, or hybrid.

Instead of being driven by a hydraulic system, all-electric machines use digitally controlled, high speed and highly efficient servo motors to drive the whole process. Each axis is controlled by an independent motor for injection, extruder, clamping and ejection.

Breakdown Data by Manufacturers:

Plastic Injection Molding Machine Market by Sales, Revenue and Price, Plastic Injection Molding Machine Manufacturing Base Distribution, Product Types, Manufacturers Mergers & Acquisitions, and Expansion Plans, Plastic Injection Molding Machine Market Share of Top 3 and Top 5 Manufacturers Market Competitive Situation and Trends, Market Concentration Rate.

Read more: Plastic Injection Molding Machine Market 2019 By Size, Share, Applications & Forecast To 2024