Marrett Pines Observatory Construction

(click image to view & discuss)	NewObsConstruction Submitted by Paul Valleli on 06/16/2008 12:32:34
(click image to view & discuss)	LX200R and Engine Hoist Hoist cost $149 at PepBoys Auto in Nashua Submitted by Paul Valleli on 06/16/2008 12:34:04
(click image to view & discuss)	Materials for 10X10 Obs. The existing concrete pad and pier are reused and a new building permit was not required Submitted by Paul Valleli on 06/16/2008 12:35:43
(click image to view & discuss)	One of two white pines sacrificed to get 45 deg. horizon Submitted by Paul Valleli on 06/16/2008 12:41:28
(click image to view & discuss)	Chase Felling 25-inch diam. Pine Submitted by Paul Valleli on 06/16/2008 12:42:12
(click image to view & discuss)	LX200R on LeSeur Equatorial Wedge& XHD Tripod Submitted by Paul Valleli on 06/16/2008 12:44:06
(click image to view & discuss)	Ring Panels 4X8 X 2 panels for Dome support rings 84-inch ID, 94-inch OD Submitted by Paul Valleli on 06/16/2008 12:47:30
(click image to view & discuss)	Dome Rings ready for attachment to roof support structure Submitted by Paul Valleli on 06/16/2008 12:50:37
(click image to view & discuss)	Installing the guide channel for the rollers Submitted by Paul Valleli on 06/16/2008 12:52:35
(click image to view & discuss)	Old concrete pad and pier from roll-off metal shed Obs. Submitted by Paul Valleli on 06/16/2008 12:54:21
(click image to view & discuss)	North and South Wall frames up Submitted by Paul Valleli on 06/16/2008 12:56:23
(click image to view & discuss)	Reinforced Roof Beams While no building permit required for 10 X 10 building, building inspector suggested doubling up 2 X 10's for heavy winter snow loads Submitted by Paul Valleli on 06/16/2008 12:59:03
(click image to view & discuss)	Roller Bearing Pair - one of ten sets, adjustable Submitted by Paul Valleli on 06/16/2008 13:00:26
(click image to view & discuss)	South Wall erected and studded Galvanized Simpson steel support hanger construction throughout and ceramic coated square-drive screws. No nails used. Submitted by Paul Valleli on 06/16/2008 13:02:49
(click image to view & discuss)	Equipment Bay Extension Existing pier was offset by 2 ft. in concrete pad so dome also had to be offset. This required an offset to the roof structure to center the dome on the pier. The extra space will be used for computer equipment and automation gear. Submitted by Paul Valleli on 06/16/2008 13:06:34
(click image to view & discuss)	John Reed and Paul Valleli - dome ring is mounted in place Submitted by Paul Valleli on 06/16/2008 13:08:05
(click image to view & discuss)	Studding North wall Submitted by Paul Valleli on 06/16/2008 13:13:12
(click image to view & discuss)	Dome Ring ready for attachment to roof support Submitted by Paul Valleli on 06/16/2008 13:14:22
(click image to view & discuss)	Roof Panels clamps to Dome Ring using nylon ratchet slings Submitted by Paul Valleli on 06/16/2008 13:16:30
(click image to view & discuss)	John Reed and T-beam Crane beam was fastened to the engine hoist and a temporary floor made using 4X8 pressure treated panels. Submitted by Paul Valleli on 06/16/2008 13:20:34
(click image to view & discuss)	Crane Height test Submitted by Paul Valleli on 06/16/2008 13:21:16
(click image to view & discuss)	Crane offset position test Submitted by Paul Valleli on 06/16/2008 13:22:28
(click image to view & discuss)	PLAN "A" - crane under dome load FEA said we were at 7500 psi, beyond the elastic limit but not at the 10,000 psi rupture strength of spruce construction - no safety factor left Submitted by Paul Valleli on 06/16/2008 13:26:28
(click image to view & discuss)	Plane A crane failing due to frame twist and excessive bending Submitted by Paul Valleli on 06/16/2008 13:28:08
(click image to view & discuss)	Dome lift attempt #2 after adding third 2X4 to the T-beam Frame began twisting again because of play in the engine hoist Submitted by Paul Valleli on 06/16/2008 13:30:50
(click image to view & discuss)	Beam support reinforcement for attempt #2 lift cancelled because beam bending was again excessive. Submitted by Paul Valleli on 06/16/2008 13:32:32
(click image to view & discuss)	Reinforcing the double T-beam support frame Submitted by Paul Valleli on 06/16/2008 13:33:45
(click image to view & discuss)	Plan "B" - an inclined plane made of 2X10's Russel Porter and STM members used timbers to slide the heavy steel dome ring up onto the concrete base. Plan C would be a gantry Plan D would be to round up 6 or 8 ATM "monkeys" to lift the dome over the walls. Submitted by Paul Valleli on 06/16/2008 13:39:23
(click image to view & discuss)	Dome moved to rear ( East) of the Obs. building only two people needed to lift 200 pound dome in short moves Submitted by Paul Valleli on 06/16/2008 13:42:29
(click image to view & discuss)	Chase green finishing sawhorse and ramp structure steel sawhorses rated at 1200 lbs. apiece reduce the amount of lift on the ramp required by two feet. Submitted by Paul Valleli on 06/16/2008 13:45:07
(click image to view & discuss)	Stiffeners were added to interior of dome to reduce stretching of the plastic Submitted by Paul Valleli on 06/16/2008 13:46:17
(click image to view & discuss)	Rif with the A-frame roller and cable guide Submitted by Paul Valleli on 06/16/2008 13:47:24
(click image to view & discuss)	Dome placed at base of the incline Submitted by Paul Valleli on 06/16/2008 13:48:35
(click image to view & discuss)	Nylon strap wrapped around dome and attached to steel cable Submitted by Paul Valleli on 06/16/2008 13:51:09
(click image to view & discuss)	Dome halfway up ramp Submitted by Paul Valleli on 06/16/2008 13:52:06
(click image to view & discuss)	12 volt Jeep 2000 lb. winch attached to the pier Winch cable passes through pulley on west wall A-frame, then to roller on east wall and down ramp to dome sling. Submitted by Paul Valleli on 06/16/2008 13:55:53
(click image to view & discuss)	Dome halfway up the ramp Submitted by Paul Valleli on 06/16/2008 13:57:00
(click image to view & discuss)	Dome halfway up the ramp Submitted by Paul Valleli on 06/16/2008 13:57:35
(click image to view & discuss)	Dome halfway up ramp Paul is ready to lower the roller so the dome can teeter onto the horizontal 2X4 guide rails on top of the dome ring. Submitted by Paul Valleli on 06/16/2008 14:00:04
(click image to view & discuss)	Dome going over the hump Submitted by Paul Valleli on 06/16/2008 14:00:59
(click image to view & discuss)	Dome at top of ramp on horizontal skids Submitted by Paul Valleli on 06/16/2008 14:02:16
(click image to view & discuss)	Paul with A-frame cable guides guides were only needed for about two minutes of hoisting Submitted by Paul Valleli on 06/16/2008 14:04:53
(click image to view & discuss)	Dome almost over the rollers Submitted by Paul Valleli on 06/16/2008 14:06:09
(click image to view & discuss)	Chase checks out placement of rollers Submitted by Paul Valleli on 06/16/2008 14:08:34
(click image to view & discuss)	Ta-Da !  no more rain problems now flooring, vinyl siding, sliding doors, wiring, dome drive motor, and hardware can be installed.  June 15, 2008 Submitted by Paul Valleli on 06/16/2008 14:16:04
(click image to view & discuss)	Polypropylene corner Roof Panels The panels are secured to the dome ring and fastened to the roof structure. The material is resistant to UV and weathering. Submitted by Paul Valleli on 06/19/2008 01:17:38