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Lunar rover

From Wikipedia, the free encyclopedia

Lunar Rover-Manned land vehicle (NASA)
Lunar Rover-Manned land vehicle (NASA)

The Lunar Roving Vehicle (LRV) or Lunar rover is a land vehicle used on the Moon. Several of the Apollo Lunar Module spacecraft delivered lunar rovers to the moon.

Contents

[edit] History

The original cost-plus-incentive-fee contract to Boeing (with Delco as a major sub-contractor) was for US$19 million and called for delivery of the first LRV by April 1, 1971, but cost overruns led to a final cost of US$38 million. Four lunar rovers were built, one each for Apollos 15, 16, and 17, and one that was used for spare parts after the cancellation of further Apollo missions. There were other LRV models built: a static model to assist with human factors design, an engineering model to design and integrate the subsystems, two 1/6 gravity models for testing the deployment mechanism, a 1-gravity trainer to give the astronauts instruction in the operation of the rover and allow them to practice driving it, a mass model to test the effect of the rover on the LM structure, balance and handling, a vibration test unit to study the LRV's durability and handling of launch stresses, and a qualification test unit to study integration of all LRV subsystems.

LRVs were used for greater surface mobility during the Apollo program J-class missions: (Apollo 15, Apollo 16, and Apollo 17). The rover was first used on July 31, 1971 during the Apollo 15 mission. This greatly expanded the range of the lunar explorers. Previous teams of astronauts were restricted to short walking distances around the landing site due to the bulky space suit equipment required to sustain life in the lunar environment. The rovers have a top speed of about 8 mph.

The LRV was developed in only 17 months and yet performed all its functions on the Moon with no major anomalies. Harrison Schmitt of Apollo 17 said, "....the Lunar Rover proved to be the reliable, safe and flexible lunar exploration vehicle we expected it to be. Without it, the major scientific discoveries of Apollo 15, 16, and 17 would not have been possible; and our current understanding of lunar evolution would not have been possible."

The LRVs did experience some minor problems, however. The rear fender extension on the Apollo 16 LRV was lost during EVA2 at station 8 when Young bumped into it while going to assist Duke. The dust thrown up from the wheel covered the crew, the console, and the communications equipment. High battery temperatures and resulting high power consumption ensued. No repair attempt was mentioned. The fender extension on the Apollo 17 LRV broke when accidentally bumped by Eugene Cernan with a hammer handle. The crew taped the extension back in place, but because of the dusty surfaces, the tape did not adhere and the extension was lost after about 1 hour of driving, causing the astronauts to be covered with dust. For the second EVA, a replacement "fender" was made with some EVA maps, duct tape, and a pair of clamps from inside the Lunar Module - nominally used for the moveable overhead light. This repair was later undone so that the clamps could be brought back inside for launch. The maps were brought back and are now on display at the National Air and Space Museum. The abrasion from the dust is evident on some portions of the makeshift fender.[1]

NASA's rovers have been abandoned and thus belong to the list of artificial objects on the Moon. Also on that list are the Soviet Union's unmanned rovers named Lunokhod 1 and Lunokhod 2.

[edit] Features and specifications

The Apollo Lunar Roving Vehicle was an electric vehicle designed to operate in the low-gravity vacuum of the Moon and to be capable of traversing the lunar surface, allowing the Apollo astronauts to extend the range of their surface extravehicular activities. Three LRVs were driven on the Moon, one on Apollo 15 by astronauts David Scott and Jim Irwin, one on Apollo 16 by John Young and Charles Duke, and one on Apollo 17 by Gene Cernan and Harrison Schmitt.

[edit] Usage

Each rover was used on three traverses, one per day over the three day course of each mission. On Apollo 15 the LRV was driven a total of 17.25 miles in 3 hours 2 minutes of driving time. The longest single traverse was 7.75 miles and the maximum range from the LM was 3.1 miles. On Apollo 16 the vehicle traversed 16.5 miles in 3 hours 26 minutes of driving. The longest traverse was 7.2 miles and the LRV reached a distance of 2.8 miles from the LM. On Apollo 17 the rover went 22.3 miles in 4 hours 26 minutes total drive time. The longest traverse was 12.5 miles and the greatest range from the LM was 4.7 miles. An operational constraint on the use of the LRV was that the astronauts must be able to walk back to the LM if the LRV were to fail at any time during the EVA. Thus, the traverses were limited in the distance they could go at the start and at any time later in the EVA. Therefore, they went to the furthest point away from the LM and worked their way back to it so that, as the life support consumables were depleted, their remaining walk back distance was equally diminished.[1]

[edit] Mass and payload

The Lunar Roving Vehicle had a mass of 463 lbs and was designed to hold a payload of an additional 1,080 lbs on the lunar surface. The frame was 10 feet long with a wheelbase of 7.5 feet. The maximum height was 3.75 feet. The frame was made of aluminum alloy 2219 tubing welded assemblies and consisted of a 3 part chassis which was hinged in the center so it could be folded up and hung in the Lunar Module quad 1 bay. It had two side-by-side foldable seats made of tubular aluminum with nylon webbing and aluminum floor panels. An armrest was mounted between the seats, and each seat had adjustable footrests and a velcro seatbelt. A large mesh dish antenna was mounted on a mast on the front center of the rover. The suspension consisted of a double horizontal wishbone with upper and lower torsion bars and a damper unit between the chassis and upper wishbone. Fully loaded the LRV had a ground clearance of 14 inches.

[edit] Wheels and power

The wheels consisted of a spun aluminum hub and an 32 inches diameter, 9 inch wide tire made of zinc coated woven .033 inch diameter steel strands attached to the rim and discs of formed aluminum. Titanium chevrons covered 50% of the contact area to provide traction. Inside the tire was a 25.5 inch diameter bump stop frame to protect the hub. Dust guards were mounted above the wheels. Each wheel had its own electric drive, a DC series wound 0.25 hp motor capable of 10,000 rpm, attached to the wheel via an 80:1 harmonic drive, and a mechanical brake unit. Maneuvering capability was provided through the use of front and rear steering motors. Each series wound DC steering motor was capable of 0.1 hp. Both sets of wheels would turn in opposite directions, giving a steering radius of 10 feet, or could be decoupled so only one set would be used for steering. They could also free-wheel in case of drive failure. Power was provided by two 36-volt silver-zinc potassium hydroxide non-rechargeable batteries with a capacity of 121 A·h. These were used to power the drive and steering motors and also a 36 volt utility outlet mounted on front of the LRV to power the communications relay unit or the TV camera.

[edit] Control and navigation

Lunar Rover diagram. (NASA)
Lunar Rover diagram. (NASA)

A T-shaped hand controller situated between the two seats controlled the four drive motors, two steering motors and brakes. Moving the stick forward powered the LRV forward, left and right turned the vehicle left or right, pulling backwards activated the brakes. Activating a switch on the handle before pulling back would put the LRV into reverse. Pulling the handle all the way back activated a parking brake. The control and display modules were situated in front of the handle and gave information on the speed, heading, pitch, and power and temperature levels.

Navigation was based on continuously recording direction and distance through use of a directional gyro and odometer and inputting this data to a computer which would keep track of the overall direction and distance back to the LM. There was also a Sun-shadow device which could give a manual heading based on the direction of the Sun, using the fact that the Sun moved very slowly in the sky.

[edit] Deployment

Deployment of the LRV from the LM quad 1 by the astronauts was achieved with a system of pulleys and braked reels using ropes and cloth tapes. The rover was folded and stored in quad 1 with the underside of the chassis facing out. One astronaut would climb the egress ladder on the LM and release the rover, which would then be slowly tilted out by the second astronaut on the ground through the use of reels and tapes. As the rover was let down from the bay most of the deployment was automatic. The rear wheels folded out and locked in place and when they touched the ground the front of the rover could be unfolded, the wheels deployed, and the entire frame let down to the surface by pulleys.

The rover components locked into place upon opening. Cabling, pins, and tripods would then be removed and the seats and footrests raised. After switching on all the electronics the vehicle was ready to back away from the LM

[edit] See also

[edit] Media

[edit] References

  1. ^ a b Experiment: Lunar Rover Vehicle. Ares.jsc.nasa.gov.

[edit] External links

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