toshiba hydraulic pump pricelist

Parker"s Hydraulic Pump and Power Systems Division provides a broad selection of piston pumps, hydraulic motors and power units that help our customers meet their industrial and mobile application needs. Our division is the result of the Parker piston pump business’s acquisition of Denison Hydraulics and merger with the Parker Oildyne Division. Reach higher hydraulic working pressures, get better reliability, higher efficiencies, and achieve lower operating costs and improved productivity on your heavy-duty equipment with Parker’s line of piston pumps and vane pumps, electro-hydraulic actuators, hydraulic motors and power units, piston motors and hydrostatic transmissions.

We offer a wide range of used Toshiba hydraulic injection moulding machines that are available in various sizes and specifications. Procured from well known maker of Japan, these machines provides high performance, reliability and requires less maintenance. With the help of our quality experts, we also quality test theseread more...

We present our clients with excellent quality Plastic Injection Molding Machines, which are manufactured by Toshiba, the globally reputed engineering house. These highly efficient machines are widely appreciated by our clients for their outstanding features like greater functional reliability and energy efficiency.

Ace is a precision, high quality injection molding machine made by TOSHIBA MACHINE. "Ace" connotes to accomplish a task with complete success. Modularity with a high performance profile The Ace GenXt machine series is perfectly matched to user needs in the clamp force range up to 10, 000 kN: With extensive standard equipmentread more...

The pump industry is the largest purchaser of electric motors in the United States. According to the U.S. Department of Energy (DOE), electric motors consume more 50 percent of all electrical energy in the United States and more than 85 percent of industrial production electrical energy. Electric motors account for roughly $85 out of every $100 of a manufacturing/process plant"s electrical bill.{C}

Considering the above factors, one 200 hp pump motor running 6 days a week for 50 weeks a year will cost more than $70,000 dollars at the end of one year. Interestingly enough, most end-users spend more time negotiating the initial purchase price of a motor than understanding the true cost for operating that motor. According to the DOE, the average life of an electric motor is 20 years. During the life of an electric motor the initial purchase price represents just 1 percent of the total cost of owning and operating it. The largest cost of operating an electric motor is the power cost. DOE estimates the power cost to be 90 percent during the electric motor"s 20-year life (see Figure 1).

To help reduce the power cost for pump motors, end-users need to understand the motor industry"s terminology. The DOE and National Electrical Manufacturers Association (NEMA) have defined two motor efficiency levels. With the Energy Policy Act of 1992, the U.S. government mandated minimum efficiencies for all electric motors up to 200 hp (3,600, 1,800 or 1,200 rpm) that can be purchased in the United States. In adherence to this act, any motor made since 1997 is referred to as EPACT and must meet the act"s mandates.

When selecting a new application for a pump motor, a buyer has two choices for electric motor efficiency: EPACT efficiency or NEMA premium efficiency. For overall performance and lowest operating cost, consider purchasing a NEMA premium efficiency motor from a supplier. Figure 2 shows that NEMA premium efficiency motors have larger rotors and stators. These larger rotors and stators have more copper and electrical steel than the EPACT or standard efficiency motors. With more inert materials (cooper and electrical steel), NEMA premium efficiency electric motors have a high motor efficiency and cost tens of thousands less to operate through the years than EPACT efficiency and standard efficiency electric motors.

If an existing electric pump motor needs to be replaced because of a failure, a buyer should consider the repair cost versus the potential cost savings of switching to a NEMA premium efficiency electric motor. Consider buying a NEMA premium efficiency motor under the following conditions:If the pump motor operates more than 4,000 hours annually, contact an electric motor supplier to review energy payback analysis and potentially reduce operation cost.

Since the largest cost to a manufacturing/processing plant is the cost of electric power, the key to lowering electrical cost is reducing the highest energy-consuming motors in the plant. The highest energy users in the plant are likely the electric motors that run pumps, air compressors, HVAC systems, etc. Whether the facility uses a few large horsepower electric motors or multiple smaller horsepower electric motors, the motors can be more energy efficient and save tens of thousands in utility costs.

Hydraulic elevators are elevators which are powered by a piston that travels inside a cylinder. An electric motor pumps hydraulic oil into the cylinder to move the piston. The piston smoothly lifts the elevator cab. Electrical valves control the release of the oil for a gentle descent.

Hydraulic elevators are used extensively in buildings up to five or six stories high. Sometimes, but rarely, up to 8 stories high. These elevators, which can operate at speeds up to 61 meters (200 ft) per minute, do not use the large overhead hoisting machinery the way geared and gearless traction systems do.

All modern hydraulic pumps are either equipped with a Solid-State Contactor or a mechanical Y-Delta starter. Solid-State Contactor statrers are better for the motor and the building"s power supply, as the windings last longer and there are no voltage drops across the line of the building"s power supply. Y-Delta starters use two contactors to start the motor on a reduced speed, then kick on full speed. Old hydraulic elevators just started up abruptly, sending mains power at full blast right into the motor. This puts a lot of strain on the motor which, in turn, makes it burn out faster than motors on Y-Delta or Solid-State Contactor starters.

Holeless hydraulic elevators were invented in the late 1970"s or a little earlier. Holeless hydraulic elevators of pistons mounted inside the hoistway to raise and lower the car. This is especially a solution for buildings built in bedrock, a high water table or unstable soil conditions locations that can make digging the hole required for a conventional hydraulic elevator impractical. Holeless hydraulic systems use a direct-acting piston to raise the car.

Roped hydraulic elevator (also known as indirect acting liftgovernor because the rope is holding the car up, and there is a risk of the car freefalling when the rope breaks.

This hydraulic elevator does not require a fixed room to house the hydraulic machinery, instead, the machinery itself is usually installed on the elevator pit and the controller is installed behind a locked cabinet on the wall near the elevator. The benefit of machine room less hydraulic elevator is that it saves construction time and cost. Examples of machine room less hydraulic elevator is Otis HydroFit and thyssenkrupp Endura MRL.

Older hydraulic elevators may have a risk of leaking hydraulic oil into an aquifer and causing potential environmental contamination. This has led to the introduction of PVC liners (casings) around hydraulic cylinders which can be monitored for integrity. Additionally, older hydraulic elevator systems usually have a motor outside of the tank and cause noise when the motor is running (this layout is no longer used in the hydraulic elevators installed in mid-1990"s or later, when the submersible hydraulic power unit was introduced. The motor is placed inside the tank and the motor sound is isolated by the oil in the tank).

In 2007, Kone announced that the company would stop manufacturing and producing hydraulic elevators due to environmental concern, therefore replacing them with the eco-friendly machine room less MonoSpace and EcoSpace elevators. This makes Kone the first elevator company to only produce traction elevators. Also, some other elevator manufacturers have stopped producing hydraulic elevators due to the same reason.

Bucher MRL (Tiger system, no longer produced) hydraulic machinery on a generic elevator pit found in a shop in Westfield London (White City), United Kingdom.

Repaired, remanufactured and exchanged injection molding machine replacement parts for many makes, models and vintages. Vertical or horizontal. Toggle, hydraulic or all-electric. All at competitive prices and lead times.

CPT has new, repaired, remanufactured and exchanged injection molding machine replacement parts for any make, model or age machine. Vertical or horizontal. Toggle, hydraulic or all-electric. All at competitive prices.

Hydraulic valves and pumps from Hydrolux, Rexroth, Bosch, Vickers, Yuken, Daikin, Dennison, Racine, Parker: pressure and flow, proportional, directional, servo, cartridge, variable and fixed volume pumps. If new direct replacement parts are not available, CPT can rebuild many pumps, motors, valves and other power system parts. We also provide control retrofits for hydraulic systems.

It is a fusion of hydraulic control and servomotor technology.In spite of the rising popularity of electric injection molding machines in today"s industry, NISSEI"s original hybrid pump-equipped (X-Pump ) PNX-III and FNX-III series were created by combining the advantages of both hydraulic and electric type machines. It offers outstanding well-balanced performance, enabling it to do a wide variety of molding from precision/thin-wall to thick-wall products. NISSEI hybrid type injection molding machines inherit the combination of hydraulic advantages (high-durability, low initial cost, low maintenance cost, and high-load injection capability), direct pressure clamping advantages (initial mold open linearity, contact pressure uniformity, and long stroke), and electric servomotor advantages (energy efficiency, high repeatability, high response, and low noise).