MBTA Kinki Sharyo Type 7

Last updated
Kinki Sharyo Type 7
MBTA 3656 in Riverside Yard, December 2018.JPG
Refurbished vehicle 3656, in new paint scheme
MBTA 3601 at Copley station, May 2002.jpg
Car 3601, in old paint scheme
In service1986–present
Manufacturer Kinki Sharyo
Constructed1986–1988, 1997
Entered service1986 (1986)
Refurbished2015-2019 (1980s vehicles)
2018-2019 (1997 vehicles)
Number built120
Number in service93
Fleet numbers3600–3699 (vehicles built 1986-1988)
3700–3719 (vehicles built 1997)
Capacity147 people (46 seated)
maximum 269 people
Operators Massachusetts Bay Transportation Authority
Depots
  • Riverside Yard
  • Reservoir Yard
Lines served Green Line
Specifications
Car length74 ft 0 in (22,555 mm)
Width8 ft 8.0 in (2,642 mm)
Height11 ft 10.0 in (3,607 mm)
Floor height35.0 in (889 mm)
Articulated sections3 (two articulations)
Wheel diameter26.00 in (660.4 mm)
Wheelbase 6 ft 3.0 in (1,905 mm)
Maximum speed55 mph (89 km/h)
Weight38.56 t (37.95 long tons; 42.51 short tons)
Traction motors Electrical components by Westinghouse (1986-1988 vehicles) or Adtranz (1997 vehicles)
Electric system(s) Overhead line,  600 V DC
Current collector(s) Pantograph
UIC classification Bo′+2′+Bo′
AAR wheel arrangement B-2-B
Coupling system Dellner
Multiple working
  • Within type
  • With AnsaldoBreda Type 8
Track gauge 4 ft 8+12 in (1,435 mm) standard gauge
Notes/references
[1] [2] [3] [4]

MBTA Kinki Sharyo Type 7 is a type of light rail vehicle owned by the Massachusetts Bay Transportation Authority (MBTA). Since 1986, the MBTA has used the Type 7 on its Green Line light rail network. It is the first rail vehicle for the United States built by Japanese rail vehicle manufacturer Kinki Sharyo. [1] [5] [2] [6]

Contents

Background

The Green Line, operated by the MBTA, is a light rail system with an underground section in Boston. In order to replace the PCC cars that had been used for many years, the US Standard Light Rail Vehicle (USSLRV) manufactured by Boeing was introduced in 1976 but problems frequently occurred in various parts such as the door, air conditioning system, and storage battery. As a result, a number of vehicles were withdrawn from service, resulting in the cancellation of 55 of the 175 vehicles originally contracted for, and a lawsuit against the manufacturer, Boeing. [2] [7] [8] [9]

Therefore, the MBTA decided to use the canceled funds to introduce a new vehicle to replace the USSLRV. The MBTA leased and tested the Canadian Light Rail Vehicle (as used by the Toronto Transit Commission) for three months in 1980, but did not adopt the design after finding them unsuitable. [10] [11]

As a result of public bidding, the order was won in December 1983 by Japan's Kinki Sharyo, which was aiming to enter the American railroad vehicle market. Based on this contract, the introduction of a train called "Type 7" began in 1986. [5] [2]

Overview

Development

At the time the order was won in the 1980s, Kinki Sharyo had a track record of exporting streetcars to Cairo and Alexandria in Egypt. However, they were still using old technologies such as electric motors using suspended drive systems, air brakes, and resistance control. Because of this, the vehicle used was not sufficient to meet the conditions presented by the MBTA. Therefore, Kinki Sharyo entered into a partnership with the Swiss company SIG, and the design was based on the articulated electric train manufactured by the company for the light rail in Utrecht, Netherlands. [2] [12]

Because funds from the Urban Mass Transportation Administration (UMTA) were used during the manufacturing process, it was subject to the Buy American Act, and more than 50% of all parts were made by companies in the United States, and the final Assembly was performed in the continental United States. [8]

Car body

Like the USSLRV, it is a two-body articulated car with both cabs, and the structure is made of weather-resistant high-tensile strength steel that can withstand compressive loads of approximately 65 tons. The back of the exterior panels is coated with soundproofing material to suppress noise throughout the roof, walls, and floor, and on top of that is densely packed glass wool, which has excellent thermal insulation properties. The interior is made lighter by using acrylic resin lining panels. [13]

The audience seats are box seats arranged perpendicular to the direction of travel, and are equipped with cushions on FRP frames. In addition, stainless steel grip bars for standing passengers are installed near the entrance and exit doors, as well as an in-car guidance display that displays the destination and a stop request device that informs the driver when to get off the train. The passenger door consists of four outward folding doors, and two steps are installed inside the vehicle for access to the vehicle, which is 889 mm above the floor height. Therefore, passengers using wheelchairs must board and alight at stations equipped with ramps and wheelchair lifts. [14] [15]

The driving system uses foot pedals similar to those used in automobiles for both acceleration and deceleration, and the structure is such that the required force can be obtained depending on the amount of pedal depression. The equipment in the driver's cab is designed to have a simple layout, and operation is possible by operating the key-type lever switch and operation function switch. [16]

Equipment

A total of two powered bogies are installed on the cab side of each car body, and one auxiliary bogie is installed on the connecting part. Both trucks are manufactured using a steel plate press-welded structure, with conical roller bearings arranged on the wheelset and a disc brake in the center . The wheels use V-shaped elastic wheels to suppress noise. Air springs are used as pillow springs, and an automatic height adjustment valve allows the floor height to be kept constant. A two-stage reduction gear is used for power transmission, and rubber anti-vibration support is provided. In addition to these, a bolster anchor using cushioning rubber is installed between the bogie frame and the sway pillow, which has the function of suppressing longitudinal vibrations, resulting in improved ride comfort and running performance compared to the USSLRV. [17]

The control system uses an armature chopper control system manufactured by Westinghouse Electric, and is controlled by a computer along with an electric command type brake for regenerative and electric regular use . In addition, the power bogie has two electric motors (output 103 kW) connected in series, each of which is controlled by an independent control device. Two sets of control circuits are installed to ensure redundancy, and the design is such that even if one circuit stops, the other circuit can be used to keep the vehicle running. [18]

To maintain the air conditioning inside the car, an air conditioning unit on the roof (equipped with heating and cooling functions) and a heater under the floor are installed. It is discharged from both sides and after maintaining the temperature inside the car at the set temperature, it is returned to the air conditioning unit through the grille and used again for air conditioning along with the outside air. [18]

Operation

The prototype vehicle was completed in 1985, and starting in October of the same year, running tests were conducted using the test track located at Kinki Sharyo's factory to confirm running performance under load conditions and the braking system. The following year, further testing was done on the MBTA, including maximum speed and radio. After final confirmation tests, commercial operation began in the same year, including mass-produced vehicles that were introduced from May onwards. [19]

The Type 7 was introduced to replace the USSLRV, which was withdrawn from service due to frequent breakdowns, and was well received for its high performance and reliability. An order was placed for 50 second-order cars, and in 1996, an additional 20 third-order cars were introduced with the electrical equipment manufacturer changed to Adtranz. These achievements served as the foundation for Kinki Sharyo to manufacture numerous rolling stock for light rail systems throughout the United States. In addition, as for the paint, the first and second-order cars followed the USSLRV's, with the lower half of the car body being green and the upper half white, while the third-order car was changed to a new paint job using silver metallic and emerald green. The differences by year of order, including the Type 7 vehicle number, are listed below. [2] [3] [20] [19] [21]

NumbersYear of orderYear of deliveryElectrical equipment manufacturers
First batch3600-3649 1983 1986 Westinghouse
Second batch3650-3699 1986 1987-88 WH
Third batch3700-3719 1995 1996 Adtranz

In 1999, the partially low-floor Type 8 train manufactured by AnsaldoBreda entered service, with the Type 7 able to run in multiple with Type 8 trains. In response to the Americans with Disabilities Act, Type 7 vehicles, which have a raised floor structure, are now operated in conjunction with Type 8. Until 2016, a three-car train consisting of two Type 7 cars and one Type 8 car was in commercial operation, but due to excessive equipment for the number of passengers and a series of derailment accidents, only two-car trains, one Type 7 and one Type 8, are in service. [2] [4] [22] [23]

In 2012, more than 25 years after the car was first manufactured, a contract was signed with Alstom, which has a factory in New York, to carry out renewal work focusing on the car interior and control equipment. Refurbishment was carried out. However, six vehicles (3601, 3665, 3690, 3703, 3711, and 3719) that were out of service due to breakdowns or accidents were not subject to refurbishment and were scrapped. [4] [24] [25]

Future

From the 2020s onward, all Type 7 and Type 8 trains will be replaced by the Type 10, a fully low-floor light rail vehicle manufactured by Construcciones y Auxiliar de Ferrocarriles (CAF). [26]

Sources

  1. 1 2 Shibata et al. 1986 , pp. 89–94
  2. 1 2 3 4 5 6 7 ""This vehicle in that town, MBTA - Massachusetts Bay Transportation Authority"". Kinki Sharyo (in Japanese). November 2008. Archived from the original on 3 May 2009.
  3. 1 2 "25 years of U.S. projects - Achievements and prospects" (PDF). Kinki Sharyo (in Japanese). Archived from the original (PDF) on 22 March 2015. Retrieved 13 April 2024.
  4. 1 2 3 "NETransit: MBTA Vehicle Inventory Main Page". roster.transithistory.org. Retrieved 13 April 2024.
  5. 1 2 "Ridership and Service Statistics - Fourteenth Edition 2014" (PDF). Massachusetts Bay Transportation Authority .
  6. Sindel 2017 , p. 53
  7. Sindel 2017, p. 52.
  8. 1 2 Shibata et al. 1986, p. 89.
  9. Moore, Scott. "Boston's Green Line Crisis". AOL . Archived from the original on 22 February 2007. Retrieved 13 April 2024.{{cite web}}: CS1 maint: bot: original URL status unknown (link)
  10. "4029 and 4031 at Arborway Station in Boston, Massachusetts". NERAIL New England Railroad Photo Archive. Archived from the original on May 26, 2011. Retrieved February 22, 2009.
  11. A Chronicle of the Boston Transit System. Massachusetts Bay Transportation Authority. 1981. p. 14 via Internet Archive.
  12. 櫻井賢一 (October 2007). "温故知新 エジプトのプロジェクトを振り返って(前編)" (PDF). Kinki Sharyo Technical Report. 14. Kinki Sharyo: 56. Archived from the original (PDF) on 2020-02-21. Retrieved 2019-10-22.{{cite journal}}: CS1 maint: date and year (link)
  13. Shibata et al. 1986, p. 90-91.
  14. Shibata et al. 1986, pp. 90–91.
  15. Sindel 2017, pp. 24–25.
  16. Shibata et al. 1986, p. 91.
  17. Shibata et al. 1986, p. 93-94.
  18. 1 2 Shibata et al. 1986, p. 92.
  19. 1 2 Shibata et al. 1986, p. 94.
  20. Sindel 2017, p. 53.
  21. Shibata, Nobuyoshi (January 1999). "アメリカ・ニュージャージー・トランジット向け ジャパンオリジナル低床LRVが完成!" [Japan's original low-floor LRV for America/New Jersey transit has been completed!]. Railway Fan. 39 (1). Koyusha: 81.{{cite journal}}: CS1 maint: date and year (link)
  22. Sindel 2017, p. 24-25.
  23. Sindel 2017, p. 38.
  24. Sindel 2017, p. 87.
  25. Steve Annear (2014-11-18). "First of Refurbished Green Line Trolleys Heads Back Home". Boston. Retrieved 2019-10-22.
  26. "MBTA Federal Capital Program FFY 2019 and FFY 2020-2024 TIP - Project List and Descriptions" (PDF). Massachusetts Bay Transportation Authority. 28 March 2019. p. 1. Retrieved 2019-10-22.

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References

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