CA1257139A - Guideway construction - Google Patents

Abstract

ABSTRACT
A vehicle supporting guideway is presented, the guideway is comprised of upper horizontal stringers, lower horizontal stringers vertically oriented diagonal members affixed to the upper and lower horizontal stringers and horizontally oriented diagonal members are affixed between the lower horizontal stringers.
These features present a guideway having an upwardly extending U shape construction which can be supplied with wheel supporting channels, upper support channels and the entire structure can be reinforced by ribs and enclosed by a cover.

Description

1~7~3~3 GUIDEWAY CONSTRUCTION
Technical Field ~ his invention relates generally to the field of vehicle supporting guideways and particularly to a guideway having a generally U shaped upwardly opening cross section for supporting personal rapid transit vehicles.
Background of the Invention This invention is related to an earlier filed co-pending Application Serial No. 444,899, filed January 9, 1984 entitled Switch Mechanism.
With the increase in fuel costs and escalating construction costs for automobile-type surface roads, the need for fuel efficient, economical rapid transit has increased. The state of mass transit at present includes surface buses and surface railway systems as well as under-ground subway trains as well as elevated trains and the like.
All of these systems attempt to move large numbers of people in large vehicles.
Consequently, the vehicle must stop at a plurality of stations to allow passengérs to embark and disembark as desired. Therefore, the effective average speed of the vehicle is reduced by constant stopping and starting, and most passengers make numerous stops between the point they get on the vehicle and their intended destination.
A personal rapid transit system would eliminate several of these problems as each vehicle carries a small number of passengers desiring to go to the same destination, and each vehicle bypasses all intermediate stops. Therefore, r~

~ ~ ~ 7~3~

the average speed of the vehicle can be greatly increased while its maximum speed remains the same, and delays asso-ciated with stopping at intermediate points are eliminated.
The advantages of ~his design have been known to those skilled in the art, but ~he construction of a guideway system which could be constructed economically and which was durable enough to be practical has eluded those in the art.
General background information on transit systems can be found in the ~ournal of Advanced Transportation, spe~
cificall~ volume 15, No. 2 dated Summer, 1981; Fundamentals of Personal_ Rapid Transit by Jack ~. Irving, Ph.D., published in 1978 by D. C. Heath and Co~, Lexington, Massachusetts; and Environment, specifically Volume 22, No.
8, dated October, 1980, which includes an article entitled "Personal Rapid Transit". Additional information on this subject can be found in the books Personal Rapid Transit I, Personal Rapid Transit II and Personal Rapid Transit III~
published at the University of Minnesota, Minneapolis, Minnesota, in April 1972, February 1974, and June 1976, respectively.
The elimination of the re~uirement that a vehicle stop at all intermediate points generally requires that all stopping points be wayside stations or be located on sidings or similarly removed from the main track so that stopped - vehicles do not hinder the passage of through vehicles.
Therefore, th~ construction of a track or guideway for this type of system is challenging.
The construction of a guideway system supported above the ground offers several advantages to track systems located either on the ground or below ground. The below ground system offers the obvious disadvantage of requiring tunneling or other expensive right-of-way preparation.~
Surface tracks also require substantial site grading and right-of-way preparation, and lead to annoying vibration transmitted to nearby structures and people. Grade level tracks are also dangerous to cross traffic and require ~ 3 9 crossing gates and safety lights. An elevated guideway offers obvious advantages, but the construction of an ele~
vated guideway suitable for use with a personal rapid tran-si-t system is challenging.
The problems associated w:ith an above ground installation for a guideway system having wayside stations are numerous, and include the problems associated with har-monic oscillation of the guideway as vehicles pass along its length. The construction of a lightweight guideway strong enough to support a number of individual vehicles passing at moderate or rapid speeds poses a serious oscillation problem. Damping of harmonic oscillation frequencies generally requires an increased guideway mass which further complicates the oscillation problems and increases the cost of the guideway.
It is also desirable to construct the guideway in a prefabricated manne~ to save on construction and erection, costs. Typically, prefabricated guideways suffer from their inability to cope with oscillation. This problem is exacer~
bated by the typical const~uction which places guideway sup-porting posts beneath the ends of each guideway section so that the point of support of each section is the same as its point of attachment to adjacent guideway sections. This construction design causes the center of each guideway sec-tion to oscillate with the guideway support posts func-tioning as node points in the oscillation wave along the length of the guideway.
~ Oscillation of the guideway creates numerous problems including the requirement for reinforcement struc-tures along the guideway, thereby increasing the guideway's weight and cost. When the weight of the guideway is increased, the oscillation mass is also increased thereby~
aggrevating the problem. Additionaily, oscillation of the guideway greatly detracts from ride comfort within the vehicle, and accelerates wear of the guideway itself caused by flexing. For example, United States Patent No. 3,225,703 3~
,._4_ issued December 28, 1965 illustrates a dPvice having beams affixed at their ends to support columns. This type of device i.ncludes dash pot like devices to manage force transmission between adjacent beams.
As the success of the rapid transit system depends directly on the confidence its ridership has in the functioning and structure of the system, the elimination of oscillation and its associated problems is critical to the construction o~ an economically feasible and viable guideway and transportation system.
Summary of the Invention Various aspects of the invention are as follows:
A transportation system for use with a wheeled vehicle and a vehicle supporting guideway, said guideway comprising:
a plurality of guideway sections, each section being of substantially uniform length and affixed in end-to~
end relation ~orming a continuous guideway, each of said sections including:
a pair of upper horizontal stringers located parallel to each other and generally defining the width of said guideway and a pair of lower horizontal stringers located parallel to each other and placed parallel to and below said upper horizontal stringers;
a plurality of vertically oriented elongated dia~onal members having midpoints and affixed to said upper and lower hori~ontal stringers and lying in vertical planes, a plurality of horizontally oriented diagonal members af~ixed to and joining each of said lower horiæontal stringers;
said stringers and said diagonal members defining a guideway having an upwardly extending generally U-shaped construction:
means for elevating said guideway sections a desired distance above the ground, said elevation means located beneath said guideway sections and including a plurality cf support posts, one o~ said posts being affixed . ff~
~ ,.

~ 4a ~ 3 beneath each of said guideway sections approximately 21~ of the length of said guideway section from one end of said sect.ion, a plurality of upwardly opening U-shaped reinforcing ribs spaced from each other, said ribs affixed to and substantially enclosing said stringers, said ri~s in spaced relation to each.other substantially along the entire length of said guideway sections said ribs having spaced inner and outer members with bar means extending therebetween, said members having joined free ends; and, means for joining a plurality of said sections in end-to-end relation forming a continuous vehicle support channel, said means including expansion joints located approximately 21% of the distance between adjacent support posts.
A method of installing a prefabricated vehicle supporting guideway, said guideway including a number of sections each having a pair of vehicle supporting lower support channels running substantially the length of said section, a pair of upper horizontal stringer~ running substantially the length of said section, a pair of lower horizontal stringers running substantially the length of said section and positioned below said upper horizontal stringers, a plurality of horizontally oriented diagonal members affixed to and joining said lower horizontal stringers and forming a diamond pattern including generally open areas, a plurality of upwardly opening U-shaped reinforcing ribs, said ribs affixed to and substantially enclosing said stringers, said ribs in spaced relation to each other substantially along the entire length of said section~ said ribs having spaced inner and outer members with bar means extending therebetween, said members having joined free ends, and including means for joining a plurality of said sections in end-to-end relation;
the method comprising the steps of:
(1) installing a plurality of support post means of uniform length at generally uniform distances along the desired path of said guideway;

~

~ 4b

(2) positioning one of said guideway sections over one of said post means so that said section end is positioned approximately 21% of the length of said guideway section from said post means and one of said generally open areas within said diamond pattern is positioned vertically above said post;

(3) lowering said previously polsitioned guideway section onto said support post means;

(4) clamping said guideway section to said support post means at four points, each of said clamping points spaced from each adjacent clamping point at least a distance equal to a distance between said lower support channels, at the desired level above the ground and cutting said post means to the desired length after affixing said section thereto;

(5) repeating steps 2-4 Eor the adjacent post means along said desired path with a subsequent section; and

(6) affixing said sections to each other in end-to-end relation forming a continuou~, smooth vehicle supporting elevated guideway.
According to another aspact of the invention, a transportation system for use with a wheeled vehicle ~or carrying passengers along a vehicle supporting elevated guideway is provided. The guideway includes a plurality of guideway sections linked in end-to-end relationship. Each section has a pair of upper horizontal stringers located parallel to each other. These upper horizontal stringers generally define the width of the guideway and are placed parallel to and above a pair o~ lower horizontal stringers.
The four stringers run the length of the guideway. A
plurality of vertically oriented diagonal members are affixed to the upper and lower horizontal stringers, the diagonal members lying in vertical planes between respective pairs of horizontal stringers. A plurality of horizontally oriented diagonal members are affixed to and join the lower horizontal stringers so that the sides and the bottom are joined by diagonal members forming a generally upwardly extending , j,~,,,l~
c , .. ..

L3.9 4~
U-shaped configuration for the guideway.
The guideway thus described further includes a plurality of guideway supporting posts, one placed below each guideway section. The guideway further includes U-shaped reinforcement ribs, and an all-weather cover which aesthetically covers the guideway. Th~ guideway sections ~ ~, ., _.

~ 3 --5~
; are joined in end-to-end relation with expansion joints atthe connection points, and the connection points are located . substantially at one o~ the points of ~ro bending moment t within the ~uideway between adjacent posts.
.
Brief Descri~tlon of the Drawin~s Figure l is a partial side elevational view of the present guideway inventioni Figure 2 is an end elevational view of the ! guideway shown in Figure l;
Figure 3 is a slightly enlarged parti~l eleva-tional ~iew of the guideway structure having the covexs removed;
Figure 4 is a partial diagramatic bottom view of the guideway shown in Figure 3;
Figure 5 is a partial diagramatic side elevational view of an expansion joint within the guideway shown on an enlarged scale;
F.igure 6 is a bottom diagramatic view of the : expansion joint shown in Figure 5;
Figure 7 is a cross sectional view taken along ~. line 7-7 in Figure 3 shown on an enlarged scale; and ; Figure 8 is a plan view of a portion of the expan-sion joint shown in Figure 6 with the covers partially s~own I and t.he support channels installedi Figure 9 is a partial elevational view on an enlarged scale showing a support post, a support post bracket and the guideway;
Figure lO is a partial sectional view on an ; enlarged scale taken along line lO-lO in Figure 9; and Figure ll is a partial sectional view on an enlarged scale taken along line ll-ll in Figure 9.

1.~ l3~3 Detailed Description of the Preferred Embodiment In reference now to the drawings wherein like reference numerals correspond to similar components throughout the several views, the guideway 10 is shown in Figure 1 supporting a vehicle 12, and having a track portion 14 held above the ground by posts 16 with support brackets 18 therebetween.
The vehicle 12 includes a body portion and a bogie portion. The bogie travels substantially within the guideway on wheels, and the vehicle is powered by linear induction motors which are affixed to the vehicle. Details of the vehicle are not shown.
The structure shown in Figure 1 represents a transportation system for use with a wheeled vehicle 12 sup-ported on the guideway 10. The guideway 10 forms a generally open truss having an upwardly opening U-shaped cross section. (See for example Figure 7.) The guideway is composed of a number of guideway sections 40 affixed in end to end relation forming a continuous guideway. Each guideway section is supported by a guideway support post 16.
Expansion joints 42 are located substantially at the points of zero bending moment within the guideway. The science of statics defines the points of zero bending moment of a uni-formly loaded beam with clamped ends as points lying approximately twenty one percent of the beams total length inwardly from each end of the beam. In other words, the points of 2ero bending moment lie at points approximately 21% and 79% along the length of a uniformly loaded beam.
As shown in Figure 7, the guideway consists of a pair of upper horizontal stringers 20 and 22 located parallel to each other and generally de~ining the width of the guideway 10. A pair of lower horizontal stringers 24 and 26 are located parallel to each other and are placed parallel to and below the upper horizontal stringers 20 and 22 respectively.

L3!~

_7_ A plurality of vertically oriented diagonal mem-bers 30 and 32 are affixed to the upper and lower horizon-tal stringers 20 and 24, or 22 and 26 as shown in Figure 5 and form a triangular pattern. A plurality of horizontally oriented diagonal members 34 are affixed to join each of the, lower horizontal stringers 24 and 26 and form a diamond pat-tern. In this way, the guideway 10 is defined as a generally upwardly extending, U-shaped structure having upper horizontal stringer 22 and lower horizontal stringer 26 with vertical diagonal members 30 and 32 there~etw~en defining one vertical leg of the U. ~orizontal stringers 26 and 24 with horizontal diagonal members 34 therebetween define the base of the U, with stringers 24 and 20 with ver-tical diagonal members 30 and 32 ~herebetween defining the second upright leg of the U.
A pair of main wheel support channels 38 (made of right angle "L" shaped members) are affixed to the guideway above the horizontal diagonal members 34. The support chan-~nels 38 lie generally between the vertical diagonal members and 32 and are adjustable both horizontally and ver tically ~ithin the U-shaped ~uideway.
The support channels 38 are adjustable with adjusting bolts or shims 39 which lie betwe~n the support channels 38 and the guideway 10. These adjusting bolts or shims 39 are placed along the horizontal diagonal members 34 ; below support channel 38 and on the inside surface of the vertical diagonal membcrs 30 and 32 so as to contact the main support channels 38. These bolts or shims provide a means for adjusting the relative position of the main wheel support channel above and between the horizontal and ~-~r-tical diagonal members respectively. In this way, a per-fectly aligned vehicle carrying support track formed by the support channels 38 can be maintained. Fine adjustments of~
the support channels 38 within the guideway 10 are possible without the need for expensive, time consuming and difficult alignment of repairs to the guideway itself. The guideway 3~3 ( is also provided with upper support channels 35 which stabi-lize the vehicle as it passes through the guideway.
In reference now to Figures 1 and 2, the guideway structure is composed of a plurality of guideway sections 40, each of substantially uniform leng~h. ~he guideway sec-tions 40 are affixed in end-to-end relation at junction points 42 forming a continuous guideway. The guideway sec-tions 40 are themselves ~levated above the ground a desired distance. This elevation is accomplished by a plurality of support posts 16. Each one of the support posts 16 is affixed beneath each guideway section 40. Expansion joints 42 are near the point of zero bending moment of the guideway.
The guideway structure cornposed of the upper strinyers 20 and 22, and the lower stringers 24 and 26, respectively, are additionally stiffened by the application of reinforcing ribs 60 spaced along the length of each guideway section 40. The reinforcing ribs 60 are con~ected to each of the stringers running the length of the guideway sections and are also attached to the vertical diagonal mem-bers 32. The reinforc1ng ribs 60 provide torsional stiff-ness to the guideway and thereby increase the natural frequency of oscillation of the guideway to torsional twisting. Therefore the resistance of the guideway to side wind loads and unevenly loaded vehicles is increased.
The reinforcing ribs 60 contact and stiffen the vertical diagonal members 32 which are held in ccmpression within each guideway section 40. The remaining vertical diagonal members 30 are held in tension within the guideway.
The weight of the guideway sections themselves, of course, exert forces along the truss structure of the guideway sec-tions 40. These forces hold the vertical diagonal members 30 in tension in that a pulling force is exerted along their length, and the vertical diagonal members 32 are held in ¦ compression with a pushing force exerted upon their length By placing the reinforcing ribs 60 to cross approximately in the middle of the vertical diagonal members 32, the 13~3 ~9 resistance of members 32 to buckling is increased four-fold.
The resistance of a member under compression to buckling increases by a factor of four as the length of the member is reduced by a factor of two. Therefore, significant strength is added to the guideway sections 40 without increasing the~
beam's weight by placing the reinforcing rib 60 to intersect and stiffen the vertical diagonal me~ers under compression.
In re~erence now to Figure 7, the reinforcing ribs 60 themselves are composed of an i~ner channel 62 having a generally U-shape and conforming closely to the dimensions and configuration of the guideway as defined by the upper and lower stringers 20-26, respectively. The reinforcing rib 60 also includes an outer channel 64 having a generally U shaped configuration. The outer channel is joined at its free ends to the free ends of the inner channel 62. The outer channel 64 is of somewhat longer length than the inner channel and is spaced there~rom along its length except near the free ends of the inner and outer channels 62 and 64!
respectively. The inner and outer channels 62 and 64 are located with respect to each other by a stiffening bar or channel 66 which is affixed to the inner and outer channels 62 and 64 in alternating fashicn forming a plurality of triangular shaped openings between the channels. This design provides a reinforcing rib 60 which provides signifi-cant torsional stiffness to the guideway.
It is expected that a guideway constructed with thedesign described above will provide a gui~eway having the lightest overall weight for its low bearing capacity. Light guideway weight with a large load bearing capacity has thP
advantange of providing a guideway which ha~ a sufficiently high natural frequency of oscillation to allow suita~le vehicle speeds. For example, a guideway constructed of a heavy material may prove to have a natural frequency of~
oscillation of one cycle per second. Assuming a guideway section length of sixty feet or twenty meters, a vehicle speed of only twenty meters per second could be sufficient 3~
--10-- , to cause serious oscillation probleins. These problems are caused by the natural oscillation o the guideway being amplified by the passage of the vehicle over the guideway at a speed corresponding to the natura:L oscillation freguency, i.e. one guideway section per second. This problem is further increased by a ~uideway design which places support posts only beneath the joints of adjacent guideway sections.
A guideway having a significantly higher natural oscillation fregue~cy, (for example an open truss design j10 being supported by posts, and having expansion joints bet-ween guideway sections near the points of zero bending ;moment of ~he guideway) can support a vehicle moving at greater speeds without oscillation problems. Oscillation problems cause wear to the guideway due to flexing and bending, and more importantly decrease ride comfort for the passengers, as the passengers are exposed to vertical acce-lerations as the guideway oscillates. ~dditionally, the guideway constructed along the design above described will~
be economical to produce and maintain.
- The guideway itself is substantially enclosed by a cover 50 having a first half 52 and a second half 54. ~See Figures 1 and 7.) The cover halves are hingedly affixed to the reinforcing ribs 60 al~Jng the length of the guideway 10.
The cover halves 52 and 54 are hinged at the bottom of the 25 outer bar 64 of the reinforcing ribs 60 at hinge points 70.
The hinge points 70 are located slightly offset fro~ the cent r of the outer bar 64. The cov~r halves 52 and 54 are pinned or otherwise affixed to the tops of the upper stringers 20 and ~2, respectively, at pin points 72. The cooperation of the pin fixture points 72 and the hinges 70 allow the covers to be folded back for easy access to the guideway sections 40 for maintenance procedures and the like. The cover halves 52 and 54 are stiffened by stif-fening ribs 55 (See Figure 8) which provide strength for the attachment of the hinges and pins 70 and 72. Stiffening ribs 55 axe of "T" shaped cross-section. The cover 50 is Lt3-~

se~mented, meaning it is ccmposed of a large number oX
smaller pieces each spanning a distance of ~pproximately the span between ~hree reinforcing ribs 60. In this way con-venient access to ~he guideway is provided, with the cover halves being of managea~le size.
It should be noted, that the cover 50 substantially encloses ~he guideway but fcr an upper slit 58 and a lower slit 59. The upper slit provides a continuous opening running the length of the guideway for passage of the sup-port vehicle. The lower slit 59 allows rain, snow, debxisand other material which may find its way into the guideway to pass out of the guideway. The cover S0 greatly reduces the amount of such material which finds its way into the guideway. Additionally, the cover improves the aesthetic appearance of the guideway structure. Additionally, the cover protects the guideway from lightning which can damage the electrical wiring within the guideway used to power and control the vehicles 12. The cover 50 also protects the~
guideway support channels 38 and the power rails from the night time sky which can produce frost on exposed surfaces during cool weather. The cover 50 also provides containment should a fire occur within -the guideway, and shields the environment from e ectromagnetic noise created by the system.
In reference now to Figures 5 and 6, the two guideway ~ections 40 are shown in end to end relationship with an expansion joint 42 therebetween. The expansion jo~nt includes four fIuid filled cylinders 82 fixed at their ends to the stringers 20-26 of the guideway sections 40.
The cylinders 82 serve to dampen the transmission of vibra-tion from one guideway section to the adjacent guideway sec-tion. It is expected that the cylinders 82 will be filled with heavy grease or other high viscosity liquid. The cylinders 82 ~unction as "shock absorbers" and will absorb low fre~uency vibration, transmitting high frequency vibra-tion.

In practice, the expansion joints 42 allow ther~al expansion within the guideway t:o take place without effecting the ride comfort or smoothness of the guideway.
The expansio~ joints 42 fuxther include end plates 84 which run between the upper and lower stringers 20 -26 and stabilize the ends thereof. A further aspect of the expansion joints 80 is shown in E~igure 8. To provide a smooth vehicle path over the expansion joint 42, the support channels 38 are provided with support channel fingers 37 attached to the ends of the support channels 38. The sup-port channel fingers 37 are arranged to interlock so that as the support channel sections 40 expand or contract, a smooth, continuous surface is provided for the vehicle tra-veling on the suideway. Similar fingers (not shown) are placed on the upper support channels 35. The smooth joint is produced by placing the expansion joint substantially at the point of zero curvature, or zero bending moment within the guideway.
In reference now to Figures 9, 10 and 11, the design of the support bracket 18 and its installation on the support posts 16 and the guideway 10 is shown. The support bracket 18 includes a generally X-shaped member 90 placed in a plane paral~el to the guideway. A sleeve 92 is provided ;~ for fitting over the posts I6. A number of stiffening fins 94 are placed between the X-shaped member 90 and the sleeve 92 to stiffen the support bracket 18. The bracket itself is attached to the lower stringers ~4 and 26 by bolts 96 or the like.
It should be noted that the support bracket 18 and the support posts 16 are ~ositioned along the length of the guideway section so that the support post is centered beneath a diamond shaped opening formed by the horizontal diagonal members 34. ~See Figure 10.) This positioning~
becomes important to an understanding of how the guideway is installed as will be described below.

3.9 It is anticipated that the preferred method for installing the guideway will include prefabricating the major components including the support posts 16, the support brackets 18, and the guideway sections 40. These components will then be shipped to the installation site wh-ch has been~
prepared. The support posts 16, being of uniform length, are installed at generally unifonn distances along the desired path of the guideway. At this point, the support bracket 18 is installed over the top of the su~port posts, ~0 or the bracket can be installed prior to erecting the posts.
Next, one prefabricated guideway sectio~ 40 is installed on the support post 16 and support bracket 18. The exact height of the guideway section above the ground is variable by adjusting the support bracket vertically on the post, and/or by placing shims or other spacing members between the support bracket and the guideway itself. The guideway sec-tion 40 is installed so that the support post 16 is generally centered throu~h the diamond shaped opening formed~
by the horizontal diagonal members 34 approximately 21% of the distance from the end of each guideway section 40.
The guideway section 40 can then be affixed to the support bracket 18 which is slid vertically up and do~m on the sup}ort post 16 until the guideway 40 is at the desired heigh~ above the ground. The support bracket 18 can then be welded or otherwise affixed to the~ support post 16 and any excess length of the support posts 16 can be removed with a cutting torch or the like. The guideway sections can then be connected to each other with expansion joints 42 as described above. The guideway sections 40 are linked in end-to-end relationship by the expansion cylinders 82 which stabilize the ends of the guideway sections and permit the guideway to be fully supported along its length. In this way a continuous, smooth, vehicle supporting guideway is-provided.
Certain materials are expected to produce satisfac-tory results when e~ployed in the manufacture of the above-- \
3~3 described g~ideway. For example, octagonally tapered steel posts are expected to prove satisfactory for the support post 16 and common rolled steel stock is expected to perform satisfactorily for the stringPrs 20-26. These should, as shown, be of channel construction and sho~1ld be positioned within the guideway so as not to accumulate moisture or ~ snow. The outer reinforcing rib~ 60 can be composed - entirely of thin stock steel or either conventional or exo-tic alloys having a channel-shaped cross-section. The sup-port channels 38 should be made of a steel right angle stock or other magnetically permeable rigid material, and it is e~pected that they should have an aluminum clad layer along ~heir surface for improved interaction with the linear induction motors which propel the vehicle. (Linear induc-tion motors are not shown in the drawings.) The sovers 50may be of aluminum or may be made of thin silicon steel alloy or reinforced fiberglass. The cover panels 52 and 54 can have a reinforcing member of steel or other material, increasing their rigidity and providing convenient anchoring points for the hinges and pin points 70 and 72, respec-tively.
A number of characteristics and advantages of the invention have been set forth together with the structure and oper~tion of the perferred embodiment of the guideway construction. Novel features thereof are poin-ted out in the following claims. The above disclosure is merely illustra-tive, and changes may be made in detail with respect to size, shape, choice of materials and structural arrangement within the principles of the invention to the full extent intended by t~e broad general meaning of the terms expressed in the claims.

Claims (8)

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows:

1. A transportation system for use with a wheeled vehicle and a vehicle supporting guideway, said guideway comprising:
a plurality of guideway sections, each section being of substantially uniform length and affixed in end-to-end relation forming a continuous guideway, each of said sections including:
a pair of upper horizontal stringers located parallel to each other and generally defining the width of said guideway and a pair of lower horizontal stringers located parallel to each other and placed parallel to and below said upper horizontal stringers;
a plurality of vertically oriented elongated diagonal members having midpoints and affixed to said upper and lower horizontal stringers and lying in vertical planes;
a plurality of horizontally oriented diagonal members affixed to and joining each of said lower horizontal stringers;
said stringers and said diagonal members defining a guideway having an upwardly extending generally U-shaped construction:
means for elevating said guideway sections a desired distance above the ground, said elevation means located beneath said guideway sections and including a plurality of support posts, one of said posts being affixed beneath each of said guideway sections approximately 21% of the length of said guideway section from one end of said section;

a plurality of upwardly opening U-shaped reinforcing ribs spaced from each other, said ribs affixed to and substantially enclosing said stringers, said ribs in spaced relation to each other substantially along the entire length of said guideway sections said ribs having spaced inner and outer members with bar means extending therebetween, said members having joined free ends; and, means for joining a plurality of said sections in end-to-end relation forming a continuous vehicle support channel, said means including expansion joints located approximately 21%
of the distance between adjacent support posts.

2. The guideway of claim 1 wherein said vertical diagonal members form a triangular pattern along said guideway, said triangular pattern including a number of said diagonal members being held under tension within said guideway and a number of said diagonal members being held under compression within said guideway and said U-shaped reinforcing ribs are spaced along the length of said sections so that said ribs are positioned to intersect and be affixed substantially to said midpoint of said diagonal members being held under compression within said guideway.

3. The guideway of claim 1 wherein said horizontal diagonal members form a diamond pattern along said guideway, said diamond pattern including generally open areas between and within said diamond pattern; said support posts are positioned vertically below said generally open areas within said diamond pattern; and said diamond pattern is positioned along said length of said section so that one of said generally open areas within said diamond pattern is positioned vertically above each of said support posts.

4. A method of installing a prefabricated vehicle supporting guideway, said guideway including a number of sections each having a pair of vehicle supporting lower support channels running substantially the length of said section, a pair of upper horizontal stringers running substantially the length of said section, a pair of lower horizontal stringers running substantially the length of said section and positioned below said upper horizontal stringers, a plurality of horizontally oriented diagonal members affixed to and joining said lower horizontal stringers and forming a diamond pattern including generally open areas, a plurality of upwardly opening U-shaped reinforcing ribs, said ribs affixed to and substantially enclosing said stringers, said ribs in spaced relation to each other substantially along the entire length of said section, said ribs having spaced inner and outer members with bar means extending therebetween, said members having joined free ends, and including means for joining a plurality of said sections in end-to-end relation; the method comprising the steps of:
(1) installing a plurality of support post means of uniform length at generally uniform distances along the desired path of said guideway;

(2) positioning one of said guideway sections over one of said post means so that said section end is positioned approximately 21% of the length of said guideway section from said post means and one of said generally open areas within said diamond pattern is positioned vertically above said post;
(3) lowering said previously positioned guideway section onto said support post means;
(4) clamping said guideway section to said support post means at four points, each of said clamping points spaced from each adjacent clamping point at least a distance equal to a distance between said lower support channels, at the desired level above the ground and cutting said post means to the desired length after affixing said section thereto;
(5) repeating steps 2-4 for the adjacent post means along said desired path with a subsequent section; and (6) affixing said sections to each other in end-to-end relation forming a continuous, smooth vehicle supporting elevated guideway.

5. The guideway of claim 1 further comprising:
a pair of main wheel support channels affixed to said guideway above said horizontal diagonal members and generally between said vertical diagonal members.

6. The guideway of claim 5 further comprising:
means for adjusting the relative position of said main wheel support channels above said horizontal diagonal members; and means for adjusting the relative position of said main wheel support channels between said vertical diagonal members.

7. The guideway of claim 1 further comprising:
means for substantially enclosing said guideway but for an upper vehicle passage slit located between said upper horizontal stringers and a lower drainage slit located between said lower horizontal stringers.

8. The guideway of claim 7 wherein said means for enclosing comprises:
a cover and means for hingedly affixing said cover to said lower horizontal stringers and means for removably attaching said cover to said upper horizontal stringers, said cover further including a plurality of individual panel members hingedly affixed in end to end relationship to substantially enclose said guideway, yet individually movable to uncover said guideway, and said panel members further including stiffening ribs having a generally T-shaped cross section, said ribs including hinges and pin fixtures which comprise said hinge means and removable attachment means respectively.