CN106012714A - Aerial cableway garage - Google Patents

Abstract

The invention discloses an aerial cableway garage and belongs to the technical field of a hoisting transportation heavy-duty mechanical equipment structure. The aerial cableway garage comprises a garage part and a switching device part, wherein the garage part is used for fixedly hanging a first annular rail and a second annular rail on a connecting beam or a cross beam through a bracket, and the switching device part is used for fixing a walking rail, a guide rail switching device and a garage connector on a frame. According to the technical scheme disclosed by the invention, an aerial cableway can be introduced into the garage according to the environment and the practical requirements at any time so as to reduce the corrosion of cableway rope clips and lifting appliances under natural conditions; the quantity of the lifting appliances can be flexibly adjusted according to the difference in required volumes so as to reduce the operation cost of the cableway; the aerial cableway garage is flexible in operation, convenient in use and economical and practical; and the effect of increasing efficiency is achieved.

Description

Aerial cableway garage

Technical field

The present invention relates to a kind of aerial cableway garage；Belong to the technical field of the plant equipment structure of lifting transport heavy duty； Specifically belong to the hoisting and conveying machinery and equipment save set being mainly used in the cableways such as aerial cableway, travelling cableway, ski lifts The technical field of structure.

Background technology

Travelling cableway and the periodic characteristics of ski lifts Chang Yinwei tourist industry visitor, in industry dull season it is generally required to stop Only ropeway operation or reduction cableway freight volume.But suspender and rope-grippers are chronically exposed to outside, can be because of its life-span of corrosion.

At present conventional cableway pattern can be divided into two classes, fixed rope clip formula aerial cableway and pull rope-grippers formula skyline Road.Owing to pulling type rope-grippers is due to the construction features of self, it is simple to rope-grippers and the disengagement of steel wire rope, therefore garage can be used Form preserves vehicle, to avoid being corroded by natural conditions.As freight volume need to be reduced, it is possible to part hanger storage is entered garage In, to reduce operating cost.

Summary of the invention

The invention provides a kind of aerial cableway garage；To realize reducing cableway rope-grippers and suspender by natural conditions Infringement corrosion, is adjusted flexibly suspender number to reduce cableway operation cost according to required freight volume difference, the mesh of raising service efficiency 's.

The technical scheme is that for reaching described purpose

A kind of aerial cableway garage, including garage part and switching device part；

Described garage part farther includes: a plurality of bracket A, a plurality of bracket B, fixed mount, straight rail A, straight rail B, A plurality of bracket C, curved track A, tie-beam A, crossbeam A, curved track B, crossbeam B, straight rail C, crossbeam C, pillar, curved track C, connect Beam B, 180 ° of tracks, crossbeam D, become rail device B and become rail device A；

Described crossbeam A, crossbeam B, crossbeam C and crossbeam D are in the same plane and are in the setting of parallel shape interval；Institute The termination of the crossbeam A stated, crossbeam B, crossbeam C and crossbeam D side is positioned at same and is perpendicular on the straight line of this crossbeam A；This crossbeam B Identical with the length of crossbeam C, this crossbeam A is identical with the length of crossbeam D；The length of this crossbeam B length more than this crossbeam A；Should Crossbeam B and crossbeam C is disposed adjacent and between this crossbeam A and this crossbeam D；

Described crossbeam A, crossbeam B, crossbeam C and crossbeam D are maked somebody a mere figurehead with ground by the fixing a plurality of pillars connected respectively；

Described crossbeam A and crossbeam B is fixedly connected into one by two tie-beam A；Described crossbeam B and crossbeam C leads to Cross a tie-beam A and be fixedly connected into one；Described crossbeam C and crossbeam D is fixedly connected into one by three tie-beam B；

One end of one end and this curved track C that described straight rail C two ends connect this curved track B respectively forms first annular rail Road；

Described curved track A entirety is curved；Article two, the curved S shape that is butted on the contrary of this curved track A constitutes a S-shaped rail Road；

Described straight rail A two ends connect one end of these 180 ° of tracks and one end of this S-shaped track, simultaneously these 180 ° of rails respectively The other end in road connects one end of this straight rail B and forms the second circular orbit；The switching dress described in other end connection of this S-shaped track Putting part, this straight rail B other end also connects described switching device part simultaneously；

Described change rail device B is positioned at the other end of this curved track B and is connected with straight rail A one end；Described change rail device A is positioned at The other end of this curved track C is also connected with the straight rail A other end；

Described first annular track and the second circular orbit are generally aligned in the same plane interior and this plane and described crossbeam A, Crossbeam B, crossbeam C are parallel with the plane at crossbeam D place；

Described first annular track and the second circular orbit are positioned at described crossbeam A, crossbeam B, crossbeam C and crossbeam D institute Plane and ground between；

It is mounted by four bracket B and is fixed on this first tie-beam B by described first annular track respectively respectively, should On crossbeam C, this crossbeam B and this first tie-beam A；

Described straight rail A is mounted by two bracket B to be fixed on connects the tie-beam A fixing this crossbeam B and crossbeam C On；

180 ° of described tracks are mounted by bracket C and bracket A is fixed on this second tie-beam B and the 3rd tie-beam On B；

It is mounted by bracket A and bracket C and is fixed on this second tie-beam A and this crossbeam A by described S-shaped track respectively On；

It is mounted by three bracket B and is fixed on this crossbeam C by described straight rail B respectively, on this crossbeam B and this crossbeam A；

Described bracket A, bracket B and bracket C have identical structure.

This switching device part includes framework, and walk rail A, guide rail switching device A, garage adapter A, turning rack, car Storehouse adapter B, transmitting-receiving tailstock wheel switch, tail wheel rail support, walk rail B, tail wheel rail lifting device, guide rail switching device B, walking Rail C, tail wheel rail, direct acting switch A, direct acting switch B, the normal switch A and the normal switch B that drives that drives；

Be provided with the first support bar that global shape is rectangular ring column construction on described framework, the second support bar and 3rd support bar；This first support bar, the physical dimension of the second support bar and the 3rd support bar is identical and is perpendicular to ground setting； This second support bar is positioned in the middle of this first support bar and the 3rd support bar；

Described tail wheel rail is linear structure；It is parallel to ground and is erected at this first support bar, the second support bar and In three support bar lower end horizontal columns and respectively with this first support bar, the front side vertical column machine of the second support bar and the 3rd support bar Tool connects fixing；Tail wheel rail lifting device it is provided with on this tail wheel rail；

Described walking rail A, walking rail B and walking rail C head and the tail connect into the walking rail structure of a linear structure；This walking Rail B is between this walking rail A and this walking rail C；This walking rail parallelism structural is in ground and is erected at this first support bar, the On two support bars and the 3rd support bar lower end horizontal columns and it is mechanically connected the most therewith and fixes；This walking rail A and the company of walking rail B The place of connecing is provided with guide rail switching device A；The junction of this walking rail B and walking rail C is provided with guide rail switching device B；

The front side vertical column of the second described support bar is equipped with an inverted l-shaped structure, the termination of L-shaped horizontal ends along upper end projection Being mechanically connected with the front end face of the front side vertical column of this second support bar, L-shaped vertical end is vertical with the front side of this second support bar Post is set in parallel；The lower end of this L-shaped vertical end is mechanically connected and is fixed with a turning rack；This turning rack and this tail wheel rail It is arranged in parallel；The two ends of this turning rack have been respectively fixedly connected with garage adapter A and garage adapter B；

Described garage adapter A is arcuate structure, and one end connects one section of first arc-shaped guide rail, the other end and this S-shaped The other end docking of track is fixing；Described garage adapter B is arcuate structure, and one end connects one section of second arc-shaped guide rail, The other end docks fixing with this straight rail B other end；This first arc-shaped guide rail is identical with this second arc-shaped guide rail physical dimension；

Described tail wheel rail connects fixing at this second support bar by tail wheel rail rack mechanical；On this tail wheel rail support It is fixedly connected with transmitting-receiving tailstock wheel switch；This tail wheel rail is respectively arranged with direct acting at this second support bar bearing symmetrically shape and opens Close A and direct acting switch B；

Described garage adapter A and the first arc-shaped guide rail junction are provided with the normal switch B that drives；Described garage is even Meet device B and the second arc-shaped guide rail junction is provided with the normal switch A that drives.

This bracket A is made up of the column of top band fixed pan and the fixed mount fixing this column.

This fixed mount includes the first slab structure, the second slab structure, hex bolts, plain washer, clamp, hex nut, Connector and U-bolt；

The first described slab structure is rectangular flat structure；Described connector is i-beam structure；This connector Bottom surface is the plane being perpendicular to axis, and end face is inclined-plane from bottom to top；The bottom surface of this connector and this first slab structure one Side end face is welded and fixed, and is symmetrically arranged with even number supporting construction between this connector and this first slab structure one side end face； This first slab structure opposite side end face is provided with a pair U-bolt, and this U-bolt is tied with this first plate shape by hex nut Structure connects fixing；

Described connector is welded with the second slab structure along i-beam structure below end face side, and this is years old Two slab structures are rectangular flat structure；Corner along this second slab structure is respectively arranged with hex bolts, this hex bolts And it is provided with plain washer between this second slab structure；This hex bolts passes downwards the part ring set of this second slab structure to be had This clamp is also limited on this hex bolts by clamp by this hex nut.

This clamp is rectangular configuration, and end, inner side is provided with stair-stepping bayonet socket；The thickness of this first slab structure is The 1/10 of this rectangular flat bond length；The thickness of this second slab structure is the 2/3 of this first slab structure thickness.

This straight rail A, straight rail B and straight rail C have identical structure.

This straight rail A includes rigid structure and steel plate；

Described steel plate is rectangular flat structure, is positioned at the two ends of this straight rail A and is welded and fixed with both ends of the surface；On this steel plate It is provided with four through holes；

Described rigid structure is rectilinear structure, respectively by the bathtub construction of an opening upwards with erect the work put always Word structure is welded to form up and down；The width of this bathtub construction bottom land is less than the width of this I-shaped structure upper level-end；This flute profile is tied The height of structure is the 1/6 of this I-shaped structure vertical end height.

This first annular track and the second circular orbit form two oval structures respectively；The major axis of these two oval structures It is parallel to each other；The major axis of this first annular keplerian cllipse structure is less than the major axis of this second circular orbit oval structure.

Owing to pulling type aerial cableway inverted running wants masked segment detection safety or interval switch, there is safety hidden Suffering from, general garage is all that forward is dispatched a car, and reversely returns the vehicle to the garage and knock off.The garage feature of the present invention is that forward receipts forward is sent out, and decreases safety the most hidden Suffering from, safety is greatest problem.Remaining support, becoming rail device etc. is all into realizing this function services.Use the technical side of the present invention Case is due to can needing to call in aerial cableway in garage and be subject to reducing cableway rope-grippers and suspender according to environment and reality at any time Infringement to natural conditions is corroded, and suspender number can be adjusted flexibly to reduce cableway operation cost according to required freight volume difference, There is flexible operation, easy to use, economical and practical, put forward high efficiency effect.

Accompanying drawing explanation

Fig. 1 is overall structure schematic diagram of the present invention；

Fig. 2 is part-structure schematic diagram in garage in Fig. 1；

Fig. 2 a is part side-looking structural representation in garage in Fig. 1；

Fig. 2 b is partial top structural representation in garage in Fig. 1；

Fig. 3 is switching device part-structure schematic diagram in Fig. 1；

Fig. 4 is a-quadrant partial enlarged drawing in Fig. 3；

Fig. 5 is that in Fig. 1, switching device part is attached regarding schematic diagram；

Fig. 6 is B region partial enlarged drawing in Fig. 5；

Fig. 7 is D region partial enlarged drawing in Fig. 5；

Fig. 8 is C region partial enlarged drawing in Fig. 5；

Fig. 9 is E region partial enlarged drawing in Fig. 5；

Figure 10 is F region partial enlarged drawing in Fig. 5；

Figure 11 is the bracket trapped orbit enlarged diagram in Fig. 1；

Figure 12 is the bracket trapped orbit bottom enlarged drawing in Figure 11；

Figure 13 is the overall structure schematic diagram of fixed mount in Fig. 1；

Figure 14 is the front view of Figure 13, left view and top view；

Figure 15 is straight rail structural representation in Fig. 1；

Figure 16 is B B-section figure in Figure 15.

Label declaration in figure

1001. bracket A 2001. walk rail A

1002. bracket B 2002. guide rail switching devices A

1003. fixed mount 2003. garage adapter A

10031. hex bolts 2004. turning rack

10032. plain washer 2005. garage adapter B

10033. clamps 2006. receive and dispatch tailstock wheel switch

10034. hex nut 2007. tail wheel rail supports

10035. connectors 2008. are walked rail B

10036.U type bolt 2009. tail wheel rail lifting device

1004. straight rail A 2010. guide rail switching devices B

10041. rigid structures 2011. are walked rail C

10042. steel plate 2012. tail wheel rails

1005. straight rail B 2013. direct acting switch A

1006. bracket C 2014. direct acting switch B

1007. curved track A 2015. normally drive to switch A

1008. tie-beam A 2016. normally drive to switch B

1009. crossbeam A

1010. curved track B

1011. crossbeam B

1012. straight rail C

1013. crossbeam C

1014. pillar

1015. curved track C

1016. tie-beam B

1017.180 ° track

1018. crossbeam D

1019. become rail device B

1020. become rail device A.

Detailed description of the invention

Below in conjunction with the accompanying drawings technical scheme is described in detail as follows, in order to comprehensively understanding.

As shown in Fig. 1, Fig. 2, Fig. 3 and Fig. 5, a kind of aerial cableway garage, including garage part and switching device part；Should Garage part and switching device part connect mechanically；

Described garage part farther includes: a plurality of bracket A1001, a plurality of bracket B1002, fixed mount 1003, Straight rail A1004, straight rail B1005, a plurality of bracket C1006, curved track A1007, tie-beam A1008, crossbeam A1009, curved track B1010, crossbeam B1011, straight rail C1012, crossbeam C1013, pillar 1014, curved track C1015, tie-beam B1016,180 ° of tracks 1017, crossbeam D1018, become rail device B1019 and become rail device A1020；

Described crossbeam A1009, crossbeam B1011, crossbeam C1013 and crossbeam D1018 are in the same plane and are in Parallel shape interval arrange, interval can be equidistant can also be non-equally；As shown in Figure 2 a and 2 b, this crossbeam It is spaced apart 3450 millimeters between A1009 and this crossbeam B1011, between this crossbeam B1011 and this crossbeam C1013, is spaced apart 3450 millis Rice, is spaced apart 3750 millimeters between this crossbeam C1013 and this crossbeam D1018；Described crossbeam A1009, crossbeam B1011, crossbeam The termination of C1013 and crossbeam D1018 side is positioned at same and is perpendicular on the straight line of this crossbeam A1009；This crossbeam B1011 and horizontal stroke The length of beam C1013 is identical (such as can be 12050 millimeters), and this crossbeam A1009 is identical with the length of crossbeam D1018 (such as may be used It it is 8350 millimeters)；(the such as length of this crossbeam B1011 is more than the length of this crossbeam B1011 length more than this crossbeam A1009 The length of this crossbeam A1009 3700 millimeters, the i.e. length of this crossbeam B1011 are 3700 millis with the difference of the length of this crossbeam A1009 Rice)；This crossbeam B1011 and crossbeam C1013 is disposed adjacent and between this crossbeam A1009 and this crossbeam D1018；

Described crossbeam A1009, crossbeam B1011, crossbeam C1013 and crossbeam D1018 are respectively by the fixing plural number connected Individual pillar 1014 is built on stilts (i.e. frame is overhead, and the height of this pillar 1014 is 4752 millimeters) with ground；As shown in Figure 2 a and 2 b, This crossbeam A1009 uses two pillars 1014 (at two ends), and this crossbeam B1011 uses four pillars 1014, and this crossbeam C1013 makes Three pillars 1014 (two ends add middle each one) are used with four pillars 1014 and this crossbeam D1018；

Described crossbeam A1009 and crossbeam B1011 is fixedly connected into one (such as Fig. 2, figure by two tie-beam A1008 Shown in 2a and Fig. 2 b, two tie-beam A1008 are followed successively by the first tie-beam A1008 and the second tie-beam A1008 from left to right)； Described crossbeam B1011 and crossbeam C1013 is fixedly connected into one by a tie-beam A1008；Described crossbeam C1013 and Crossbeam D1018 by three tie-beam B1016 be fixedly connected into one (as shown in Fig. 2, Fig. 2 a and Fig. 2 b, three tie-beams B1016 is followed successively by the first tie-beam B1016, the second tie-beam B1016 and the 3rd tie-beam B1016 from left to right)；

Described straight rail C1012 two ends connect one end (left end) of this curved track B1010 and this curved track C1015's respectively One end (left end) forms first annular track, (as shown in Fig. 2, Fig. 2 a and Fig. 2 b)；

Described curved track A1007 entirety is curved；Article two, the curved S shape that is butted on the contrary of this curved track A1007 is constituted One S-shaped track；

Described straight rail A1004 two ends connect one end (left end) and the one of this S-shaped track of these 180 ° of tracks 1017 respectively End (left end), the other end (right-hand member) of these 180 ° of tracks 1017 connects one end (lower end) of this straight rail B1005 and forms second simultaneously Circular orbit；The switching device part described in the other end (right-hand member) connection of this S-shaped track, this straight rail B1005 other end simultaneously (upper end) also connects described switching device part (shown in Fig. 2, Fig. 2 b)；

Described change rail device B1019 be positioned at this curved track B1010 the other end (right-hand member) and with straight rail A1004 one end (on End) connect；Described change rail device A1020 be positioned at this curved track C1015 the other end (right-hand member) and with the straight rail A1004 other end (lower end) connects (shown in Fig. 2, Fig. 2 b)；

Described first annular track and the second circular orbit are generally aligned in the same plane interior and this plane and described crossbeam A1009, crossbeam B1011, crossbeam C1013 parallel with the plane at crossbeam D1018 place (in the lower section of later plane)；

Described first annular track and the second circular orbit are positioned at described crossbeam A1009, crossbeam B1011, crossbeam Between plane and the ground at C1013 and crossbeam D1018 place；

It is mounted by four bracket B1002 and is fixed on this first tie-beam by described first annular track respectively respectively B1016 (near middle), this crossbeam C1013 (ledge is close to end), (ledge is close to end for this crossbeam B1011 At Tou) and this first tie-beam A1008 on (near middle)；The one end or the upper end that i.e. can be regarded as bracket are fixed on tie-beam Or on crossbeam, the other end or lower end mount the relevant position of first annular track；

Described straight rail A1004 is mounted by two bracket B1002 to be fixed on connection and fixes this crossbeam B1011 and horizontal stroke On the tie-beam A1008 of beam C1013；

Described 180 ° of tracks 1017 are mounted by bracket C1006 and bracket A1001 is fixed on this second tie-beam On B1016 (near middle) and the 3rd tie-beam B1016 (near middle)；

It is mounted by bracket A1001 and bracket C1006 and is fixed on this second tie-beam by described S-shaped track respectively On A1008 (near middle) and this crossbeam A1009 (close to right-hand member end)；

It is mounted by three bracket B1002 and is fixed on this crossbeam C1013 (non-protruding by described straight rail B1005 respectively Part is close to end), this crossbeam B1011 (at non-projecting portion tap proximal head) and this crossbeam A1009 is (close to right-hand member termination Place) on；

So-called ledge and non-protruding part can be understood as crossbeam A1009, crossbeam B1011, crossbeam C1013 For crossbeam D1018, because four crossbeam one end alignment (right-hand member), crossbeam B1011 and crossbeam C1013 is longer than again crossbeam simultaneously A1009 and crossbeam D1018, so just having prominent relative to crossbeam A1009 and crossbeam D1018, crossbeam C1013 and crossbeam D1018 Point (as shown in Fig. 2, Fig. 2 b) that part and non-projecting portion are divided；

Described bracket A1001, bracket B1002 and bracket C1006 have identical structure.

As shown in Figure 3 and Figure 4, this switching device part includes framework, and walk rail A2001, guide rail switching device A2002, Garage adapter A2003, turning rack 2004, garage adapter B2005, transmitting-receiving tailstock wheel switch 2006, tail wheel rail support 2007, walk rail B2008, tail wheel rail lifting device 2009, guide rail switching device B2010, and walk rail C2011, tail wheel rail 2012, Direct acting switch A2013, direct acting switch B2014, the normal switch A2015 and the normal switch B2016 that drives that drives；

Be provided with the first support bar that global shape is rectangular ring column construction on described framework, the second support bar and 3rd support bar, it is cylindricality that so-called rectangular ring column construction can be regarded as support bar, cylindricality along rectangle four side ring around one Cast is circlewise；This first support bar, the physical dimension of the second support bar and the 3rd support bar is identical and is perpendicular to ground setting (i.e. rectangular ring plane is perpendicular to ground, and thus forming rectangle top is upper end horizontal columns, and rectangle is lower end level below Post, the rectangular edges near garage part is front side vertical column, otherwise is rear side vertical column)；This second support bar be positioned at this first In the middle of support bar and the 3rd support bar；Distance between this first support bar and this second support bar and this second support bar and the Distance between three support bars is equal；The rectangle plane that this first support bar, the second support bar and the 3rd support bar separately constitute It is parallel to each other and three rectangle planes are centrally located on same straight line, and this straight line is parallel with crossbeam A1009.

Described tail wheel rail 2012 is linear structure；It is parallel to ground and is erected at this first support bar, the second support bar With in the 3rd support bar lower end horizontal columns and respectively with this first support bar, the front side of the second support bar and the 3rd support bar is vertical Post is mechanically connected fixing；Tail wheel rail lifting device 2009 it is provided with on this tail wheel rail 2012；

As Fig. 5, described walking rail A2001, walking rail B2008 and walking rail C2011 head and the tail connect into a linear structure The walking rail structure of (straight line)；This walking rail B2008 is between this walking rail A2001 and this walking rail C2011；This walking rail Parallelism structural is in ground and is erected at this first support bar, on the second support bar and the 3rd support bar lower end horizontal columns and respectively with Mechanical connection fixing (this walking rail structure-steel framing is located at this first support bar, the second support bar and the 3rd support bar lower end level Post is near middle position, and this walking rail structure and tail wheel rail 2012 be arranged in parallel)；This walking rail A2001 and walking rail B2008 Junction be provided with guide rail switching device A2002；The junction of this walking rail B2008 and walking rail C2011 is provided with guide rail Switching device B2010；

The front side vertical column of the second described support bar is equipped with an inverted l-shaped structure, the termination of L-shaped horizontal ends along upper end projection Being mechanically connected with the front end face of the front side vertical column of this second support bar, L-shaped vertical end is vertical with the front side of this second support bar Post is set in parallel；The lower end of this L-shaped vertical end is mechanically connected and is fixed with a turning rack 2004；This turning rack 2004 with This tail wheel rail 2012 be arranged in parallel；The two ends of this turning rack 2004 have been respectively fixedly connected with garage adapter A2003 and garage Adapter B2005 (such as Fig. 3 Fig. 5)；The two ends of this turning rack 2004 are respectively symmetrically and are fixedly connected with garage adapter A2003 With garage adapter B2005；

Described garage adapter A2003 is arcuate structure, and one end connects one section of first arc-shaped guide rail, the other end with should The other end (right-hand member, Fig. 2 b) docking of S-shaped track is fixing；Described garage adapter B2005 is arcuate structure, and one end connects to be had One section of second arc-shaped guide rail, the other end is fixing with the docking of this straight rail B1005 other end (upper end, Fig. 2 b)；This first arc-shaped guide rail Identical with this second arc-shaped guide rail physical dimension, positional symmetry；

As shown in Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9 and Figure 10, described tail wheel rail 2012 passes through at this second support bar Tail wheel rail support 2007 is mechanically connected fixing；Transmitting-receiving tailstock wheel switch 2006 it is fixedly connected with on this tail wheel rail support 2007；Should Tail wheel rail 2012 is respectively arranged with direct acting switch A2013 and direct acting switch B2014 at this second support bar bearing symmetrically shape；

Described garage adapter A2003 and the first arc-shaped guide rail junction are provided with the normal switch B2016 that drives；Described Garage adapter B2005 and the second arc-shaped guide rail junction be provided with the normal switch A2015 that drives.

If Figure 11 and Figure 12, this bracket A1001 are by the column of top band fixed pan and the fixed mount fixing this column 1003 are constituted.

As shown in Figure 13 and Figure 14, this fixed mount 1003 includes the first slab structure, the second slab structure, hex bolts 10031, plain washer 10032, clamp 10033, hex nut 10034, connector 10035 and U-bolt 10036；

The first described slab structure is rectangular flat structure；Described connector 10035 is i-beam structure；This connection The bottom surface (side end face) of part 10035 is the plane being perpendicular to axis, end face (opposite side end face) be inclined-plane from bottom to top (as Figure 14, exterior angle, inclined-plane is 120 degree, and inclined-plane interior angle is 60 degree)；The bottom surface of this connector 10035 and this first slab structure side End face is welded and fixed (vertically connecting), is symmetrically arranged with idol between this connector 10035 and this first slab structure one side end face Several supporting constructions, i.e. supporting construction are arranged on i-beam structure two sides recess；This another side of the first slab structure Face (outer face, the side do not welded with i-beam structure) is provided with a pair U-bolt 10036, and this U-bolt 10036 leads to Cross hex nut 10034 and be connected with this first slab structure fixing；A length of 210 millimeters of this first slab structure, a width of 200 millis Rice；

Described connector 10035 along i-beam structure below end face side (relative to horizontally disposed U-shaped spiral shell The corresponding i-beam structure that bolt 10036 is placed above for end face, below for bottom surface) it is welded with the second slab structure, should Second slab structure is rectangular flat structure；Corner along this second slab structure is respectively arranged with hex bolts 10031, and these are six years old It is provided with plain washer 10032 between corner bolt 10031 and this second slab structure；This hex bolts 10031 pass downwards this The part ring set of two slab structures has clamp 10033 and by this hex nut 10034, this clamp 10033 is limited in this hexagonal On bolt 10031.

This clamp 10033 is rectangular configuration, and end, inner side is provided with stair-stepping bayonet socket；The thickness of this first slab structure Degree is the 1/10 of this rectangular flat bond length；The thickness of this second slab structure is the 2/3 of this first slab structure thickness.

As shown in Figure 15 and Figure 16, this straight rail A1004, straight rail B1005 and straight rail C1012 have identical structure, i.e. have There is identical section structure.This curved track A1007 simultaneously, curved track B1010, curved track C1015 and 180 ° of tracks 1017 with should Straight rail B1005 also has identical section structure.

This straight rail A1004 includes rigid structure 10041 and steel plate 10042；

Described steel plate 10042 is rectangular flat structure, upright setting (i.e. the long limit of rectangle is perpendicular to the ground), is positioned at this straight The two ends of rail A1004 are also welded and fixed with both ends of the surface；Being provided with four through holes on this steel plate 10042, the longitudinal pitch of through hole is 100 millimeters, horizontal spacing is 60 millimeters；These four through holes are symmetrically set；

Described rigid structure 10041 is rectilinear structure, by the bathtub construction of an opening upwards and erects respectively always The I-shaped structure put is welded to form up and down；The width of this bathtub construction bottom land is less than the width of this I-shaped structure upper level-end；Should The height of bathtub construction is the 1/6 of this I-shaped structure vertical end height.The height of this bathtub construction is 30 millimeters, and width is 60 millis Rice；This I-shaped structure height is 180 millimeters, and width is 100 millimeters；

This steel plate 10042 is positioned at the two ends of this straight rail A1004 I-shaped structure and is welded and fixed with both ends of the surface；

This first annular track and the second circular orbit form two oval structures respectively；The major axis of these two oval structures It is parallel to each other；The major axis of this first annular keplerian cllipse structure is less than the major axis of this second circular orbit oval structure.

Claims (8)

1. an aerial cableway garage, it is characterised in that include garage part and switching device part；

Described garage part farther includes: a plurality of bracket A (1001), a plurality of bracket B (1002), fixed mount (1003), straight rail A (1004), straight rail B (1005), a plurality of bracket C (1006), curved track A (1007), tie-beam A (1008), Crossbeam A (1009), curved track B (1010), crossbeam B (1011), straight rail C (1012), crossbeam C (1013), pillar (1014), curved rail Road C (1015), tie-beam B (1016), 180 ° of tracks (1017), crossbeam D (1018), become rail device B (1019) and become rail device A (1020)；

Described crossbeam A (1009), crossbeam B (1011), crossbeam C (1013) and crossbeam D (1018) be in the same plane and phase It is mutually parallel shape interval to arrange；Described crossbeam A (1009), crossbeam B (1011), crossbeam C (1013) and crossbeam D (1018) side Termination be positioned at same and be perpendicular on the straight line of this crossbeam A (1009)；This crossbeam B (1011) and the length of crossbeam C (1013) Identical, this crossbeam A (1009) is identical with the length of crossbeam D (1018)；The length of this crossbeam B (1011) is more than this crossbeam A (1009) length；This crossbeam B (1011) and crossbeam C (1013) are disposed adjacent and are positioned at this crossbeam A (1009) and this crossbeam D (1018) between；

Described crossbeam A (1009), crossbeam B (1011), crossbeam C (1013) and crossbeam D (1018) are respectively by fixing connection A plurality of pillars (1014) are maked somebody a mere figurehead with ground；

Described crossbeam A (1009) and crossbeam B (1011) is fixedly connected into one by two tie-beam A (1008)；Described Crossbeam B (1011) and crossbeam C (1013) is fixedly connected into one by a tie-beam A (1008)；Described crossbeam C (1013) It is fixedly connected into one by three tie-beam B (1016) with crossbeam D (1018)；

Described straight rail C (1012) two ends connect one end of this curved track B (1010) and one end of this curved track C (1015) respectively Form first annular track；

Described curved track A (1007) is overall curved；Article two, the curved S shape that is butted on the contrary of this curved track A (1007) is constituted One S-shaped track；

Described straight rail A (1004) two ends connect one end of these 180 ° of tracks (1017) and one end of this S-shaped track, simultaneously respectively The other end of these 180 ° of tracks (1017) connects one end of this straight rail B (1005) and forms the second circular orbit；This S-shaped track another Switching device part described in the connection of one end, this straight rail B (1005) other end also connects described switching device part simultaneously；

Described change rail device B (1019) is positioned at the other end of this curved track B (1010) and is connected with straight rail A (1004) one end；Institute Change rail device A (1020) stated is positioned at the other end of this curved track C (1015) and is connected with straight rail A (1004) other end；

Described first annular track and the second circular orbit are generally aligned in the same plane interior and this plane and described crossbeam A (1009), crossbeam B (1011), the plane at crossbeam C (1013) and crossbeam D (1018) place is parallel；

Described first annular track and the second circular orbit are positioned at described crossbeam A (1009), crossbeam B (1011), crossbeam C (1013) and between plane and the ground at crossbeam D (1018) place；

It is mounted by four bracket B (1002) and is fixed on this first tie-beam B by described first annular track respectively respectively (1016), this crossbeam C (1013), on this crossbeam B (1011) and this first tie-beam A (1008)；

Described straight rail A (1004) mounted by two bracket B (1002) be fixed on connection fix this crossbeam B (1011) and On the tie-beam A (1008) of crossbeam C (1013)；

180 ° of described tracks (1017) are mounted by bracket C (1006) and bracket A (1001) is fixed on this second connection On beam B (1016) and the 3rd tie-beam B (1016)；

It is mounted by bracket A (1001) and bracket C (1006) and is fixed on this second tie-beam A by described S-shaped track respectively (1008) and on this crossbeam A (1009)；

It is mounted by three bracket B (1002) and is fixed on this crossbeam C (1013), this horizontal stroke by described straight rail B (1005) respectively On beam B (1011) and this crossbeam A (1009)；

Described bracket A (1001), bracket B (1002) and bracket C (1006) have identical structure.

2. aerial cableway garage as claimed in claim 1, it is characterised in that this switching device part includes framework, walk rail A (2001), guide rail switching device A (2002), garage adapter A (2003), turning rack (2004), garage adapter B (2005), transmitting-receiving tailstock wheel switch (2006), tail wheel rail support (2007), walking rail B (2008), tail wheel rail lifting device (2009), guide rail switching device B (2010), walking rail C (2011), tail wheel rail (2012), direct acting switch A (2013), direct acting is opened Close B (2014), normal switch A (2015) and normal switch B (2016) of driving of driving；

The first support bar that global shape is rectangular ring column construction, the second support bar and the 3rd it is provided with on described framework Support bar；This first support bar, the physical dimension of the second support bar and the 3rd support bar is identical and is perpendicular to ground setting；This is years old Two support bars are positioned in the middle of this first support bar and the 3rd support bar；

Described tail wheel rail (2012) is linear structure；Be parallel to ground and be erected at this first support bar, the second support bar and In 3rd support bar lower end horizontal columns and respectively with this first support bar, the second support bar and the front side vertical column of the 3rd support bar It is mechanically connected fixing；It is provided with tail wheel rail lifting device (2009) on this tail wheel rail (2012)；

Described walking rail A (2001), walking rail B (2008) and walking rail C (2011) head and the tail connect into the row of a linear structure Walk rail structure；This walking rail B (2008) is positioned between this walking rail A (2001) and this walking rail C (2011)；This walking rail structure It is parallel to ground and is erected at this first support bar, on the second support bar and the 3rd support bar lower end horizontal columns and respectively machine the most therewith Tool connects fixing；The junction of this walking rail A (2001) and walking rail B (2008) is provided with guide rail switching device A (2002)；Should The junction of walking rail B (2008) and walking rail C (2011) is provided with guide rail switching device B (2010)；

The front side vertical column of the second described support bar is equipped with an inverted l-shaped structure along upper end projection, the termination of L-shaped horizontal ends with should The front end face of the front side vertical column of the second support bar is mechanically connected, the front side vertical column of L-shaped vertical end and this second support bar in It is arranged in parallel；The lower end of this L-shaped vertical end is mechanically connected and is fixed with a turning rack (2004)；This turning rack (2004) with This tail wheel rail (2012) be arranged in parallel；The two ends of this turning rack (2004) have been respectively fixedly connected with garage adapter A (2003) With garage adapter B (2005)；

Described garage adapter A (2003) is arcuate structure, and one end connects one section of first arc-shaped guide rail, the other end and this S The other end docking of shape track is fixing；Described garage adapter B (2005) is arcuate structure, and one end connects one section of second arc Shape guide rail, the other end docks fixing with this straight rail B (1005) other end；This first arc-shaped guide rail and this second arc-shaped guide rail structure Equivalently-sized；

Described tail wheel rail (2012) is mechanically connected fixing at this second support bar by tail wheel rail support (2007)；This tail wheel Transmitting-receiving tailstock wheel switch (2006) it is fixedly connected with on rail support (2007)；This tail wheel rail (2012) is fixed at this second support bar Locate symmetrically shape and be respectively arranged with direct acting switch A (2013) and direct acting switch B (2014)；

Described garage adapter A (2003) and the first arc-shaped guide rail junction are provided with normal switch B (2016) of driving；Described Garage adapter B (2005) and the second arc-shaped guide rail junction be provided with normal switch A (2015) of driving.

3. aerial cableway garage as claimed in claim 1, it is characterised in that this bracket A (1001) is by top band fixed pan Column and the fixed mount (1003) fixing this column are constituted.

4. aerial cableway garage as claimed in claim 3, it is characterised in that this fixed mount (1003) includes the first slab structure, Second slab structure, hex bolts (10031), plain washer (10032), clamp (10033), hex nut (10034), connector And U-bolt (10036) (10035)；

The first described slab structure is rectangular flat structure；Described connector (10035) is i-beam structure；This connector (10035) bottom surface is the plane being perpendicular to axis, and end face is inclined-plane from bottom to top；The bottom surface of this connector (10035) with This first slab structure side end face is welded and fixed, right between this connector (10035) and this first slab structure one side end face Claim to be provided with even number supporting construction；This first slab structure opposite side end face is provided with a pair U-bolt (10036), and this is U-shaped Bolt (10036) is connected fixing by hex nut (10034) with this first slab structure；

Described connector (10035) is welded with the second slab structure along i-beam structure below end face side, This second slab structure is rectangular flat structure；Corner along this second slab structure is respectively arranged with hex bolts (10031), Plain washer (10032) it is provided with between this hex bolts (10031) and this second slab structure；This hex bolts (10031) to Under pass the part ring set of this second slab structure and have clamp (10033) and by this hex nut (10034) by this clamp (10033) it is limited on this hex bolts (10031).

5. aerial cableway garage as claimed in claim 4, it is characterised in that this clamp (10033) is rectangular configuration, medial extremity Stair-stepping bayonet socket it is provided with at Tou；The thickness of this first slab structure is the 1/10 of this rectangular flat bond length；This is second years old The thickness of slab structure is the 2/3 of this first slab structure thickness.

6. aerial cableway garage as claimed in claim 1, it is characterised in that this straight rail A (1004), straight rail B (1005) and straight rail C (1012) has identical structure.

7. aerial cableway garage as claimed in claim 6, it is characterised in that this straight rail A (1004) includes rigid structure And steel plate (10042) (10041)；

Described steel plate (10042) is rectangular flat structure, is positioned at the two ends of this straight rail A (1004) and welds with both ends of the surface solid Fixed；Four through holes it are provided with on this steel plate (10042)；

Described rigid structure (10041) is rectilinear structure, is put by the bathtub construction and erecting of an opening upwards always respectively I-shaped structure be welded to form up and down；The width of this bathtub construction bottom land is less than the width of this I-shaped structure upper level-end；This groove The height of shape structure is the 1/6 of this I-shaped structure vertical end height.

8. aerial cableway garage as claimed in claim 1, it is characterised in that this first annular track and the second circular orbit divide Xing Cheng two oval structures；The major axis of these two oval structures is parallel to each other；The major axis of this first annular keplerian cllipse structure Major axis less than this second circular orbit oval structure.