CN215561572U - Uninterrupted safe operation cableway device - Google Patents

Abstract

The utility model relates to a cableway device capable of continuously and safely running, which comprises a first base station and a second base station, wherein a first circulating cableway and a second circulating cableway are arranged between the first base station and the second base station in a compounding manner, the first base station and the second base station both comprise a first station room and a second station room, the first station room and the second station room are arranged in the left and right direction or in the up and down direction, two circulating points of the first circulating cableway are respectively arranged in the first station room of the first base station and the second station room of the second base station, and the first circulating cableway or the second circulating cableway can be started when tourists are in a peak time.

Description

Uninterrupted safe operation cableway device

Technical Field

The utility model relates to the technical field of cableway construction, in particular to a cableway device capable of continuously and safely operating.

Background

The basic effect of cableway is that satisfy the rapid safe transportation function under visitor's the freight volume needs and the unexpected condition, and aerial cableway is the green transportation mode in scenic spot, and scenic spot cableway compares in other transportation modes, and is minimum to topography and geomorphology, animal and plant resources and earth's surface vegetation influence, and point-to-point transportation energy consumption is 1/10 of car only, and the energy-concerving and environment-protective pollution-free of operation process, the efficiency of environmental protection is obvious.

Along with the improvement of living standard of people, tourists in scenic spots are more and more, the proportion of the tourists playing on the cableway is higher and more, under the condition of vigorous market demand, the transport capacity range of the single-operation cableway is fixed, when the tourist is in light and busy seasons and peak of high and low days, the problems are solved by mainly adopting a speed regulation and hanging box adding method, the method has limited response effect on a large number of tourists in a centralized way, the receiving capacity of the tourists in the scenic spots is severely limited, the queuing time of the tourists is prolonged, the effective scheduling effect cannot be realized, meanwhile, when the single-operation cableway breaks down and needs to be repaired, the requirement of the tourists on the operation time of the scenic spots and the operation time of the cableway after the tourists stop is considered, some small inspections need to be processed, the time is night time, the safety work is not beneficial to guarantee, and the contradiction operation and major maintenance and outage exists.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model provides the cableway device which can continuously and safely operate, can schedule the operation of the cableway according to the low peak condition of the tourists, has the advantage of improving the reception efficiency of the tourists, and breaks through the bottleneck that the single cableway is difficult to schedule.

In order to solve the technical problem, the utility model is solved by the following technical scheme:

the utility model provides a cableway device of incessant safe operation, includes base station one and base station two, compound circulation cableway one and circulation cableway two of being provided with between base station one and the base station two, base station one and base station two all include station room one and station room two, station room one with station room two sets up for controlling or set up from top to bottom, two circulation points of circulation cableway one set up respectively in station room one of base station one and base station two, two circulation points of circulation cableway two set up respectively in station room two of base station one and base station two, circulation cableway one or circulation cableway two all can regard as to use the start-up when visitor's rush hour.

Optionally, the first circulating cableway and the second circulating cableway both include a steel wire rope and a traction device, the traction device is arranged in the first base station and the second base station, two ends of the steel wire rope of the first circulating cableway are respectively sleeved on the traction devices of the first base station and the second base station, and two ends of the steel wire rope of the second circulating cableway are respectively sleeved on the traction devices of the second base station and the first base station.

Optionally, the steel wire rope between the first base station and the second base station is supported or not provided with a supporting station through at least two groups of supporting stations, the supporting station comprises at least two groups of supporting assemblies, the supporting assemblies on the supporting station are longitudinally or transversely separated from the supporting assemblies, and the steel wire ropes of the first circulating cableway and the second circulating cableway are respectively installed on different separated supporting assemblies.

Optionally, the supporting station includes a column structure for mounting the supporting component, and the column structure includes one column or at least two columns installed in combination; the support assembly comprises an I-shaped cross beam; the cross beam is independently arranged on one upright post or connected with at least two upright posts.

Optionally, the stand structure includes stand one and stand two, the setting is controlled and found immediately with stand two to stand one, the crossbeam is installed independently respectively on stand one and the stand two, the wire rope of circulation cableway one is installed at the crossbeam both ends that are located stand one, the wire rope of circulation cableway two is installed at the crossbeam both ends that are located stand two.

Optionally, the stand structure includes stand one and stand two, the setting is controlled and found immediately with stand two to stand one, stand one and stand two installation are connected to the crossbeam, the crossbeam establishes two sets of and longitudinal separation setting altogether, the wire rope of circulation cableway one is installed at the second crossbeam both ends that are close to ground, the wire rope of circulation cableway two is installed at the first crossbeam both ends that are close to ground.

Optionally, the stand structure includes stand one, independently install two sets of crossbeams respectively on the stand one, it is two sets of crossbeam longitudinal separation sets up, the wire rope of circulation cableway one is installed at the second crossbeam both ends that are close to ground, the wire rope of circulation cableway two is installed at the first crossbeam both ends that are close to ground.

Optionally, the stand structure includes stand one, stand two and stand three, be connected with the crossbeam between stand one and the stand two, be connected with the crossbeam between stand two and the stand three, the wire rope of circulation cableway one installs between stand one and stand two the crossbeam both ends, the wire rope of circulation cableway two installs between stand two and stand three the crossbeam both ends.

Optionally, the stand structure includes stand one and stand three, the setting is controlled and found immediately with stand three to stand one, stand one and stand three go up respectively the independent installation crossbeam, two sets of the crossbeam sets up for longitudinal separation, the wire rope of circulation cableway one is installed at the crossbeam both ends that are located stand one, the wire rope installation of circulation cableway two is located the crossbeam both ends of stand three.

Optionally, the upper end surfaces of the first base station and the second base station are fixedly provided with at least two induction lightning rods, and the supporting station is provided with at least two induction lightning rods.

Compared with the prior art, the technical scheme provided by the utility model has the following beneficial effects:

according to the utility model, the first circulating cableway and the second circulating cableway are arranged to realize low and high peak dispatching and fault maintenance of tourists, and different cableway supporting stations can be arranged according to different scenic spot conditions, so that the safety of the cableway is improved, the service life of the cableway is prolonged, the operation cost of the cableway is reduced, and the service quality of the tourists in the scenic spots is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of embodiment 1 according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of embodiment 2 according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of embodiment 3 according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of embodiment 4 according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of embodiment 5 according to an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of embodiment 6 according to the present invention;

FIG. 7 is a schematic structural diagram of embodiment 7 according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of embodiment 8 according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to examples, which are illustrative of the present invention and are not to be construed as being limited thereto.

Example 1

Referring to fig. 1 to 7, an uninterrupted safe operation cableway device includes a first base station 1 and a second base station 2, a first circulating cableway and a second circulating cableway are compositely disposed between the first base station 1 and the second base station 2, both the first base station 1 and the second base station 2 include a first station room and a second station room, the first station room and the second station room are disposed left and right or up and down, two circulating points of the first circulating cableway are respectively disposed in the first station room of the first base station 1 and the second base station 2, two circulating points of the second circulating cableway are respectively disposed in the second station room of the first base station 1 and the second base station 2, and the first circulating cableway or the second circulating cableway can be started during a tourist peak period.

When the scenic spot is in operation, the staff firstly starts the first circulating cableway or the second circulating cableway according to the situation of visitors in the day, so that the visitors in the first base station 1 and the second base station 2 are transported.

When the number of the tourists in the base station I1 or the base station II 2 is too large and the tourists are in a peak for carrying the tourists, the working personnel start the circulating cableway II to carry the tourists in the base station I1 and the base station II 2 in a shunting way, so that the transportation load of the cableway in the peak period of the tourists is reduced, and meanwhile, when the circulating cableway I or the circulating cableway II breaks down, the passengers can be transported through the cableway which can be normally operated, and the working personnel can be dispatched to the broken-down cableway to carry out maintenance, so that the fault maintenance does not influence the operation of the cableway.

The first circulating cableway and the second circulating cableway both comprise steel wire ropes and traction equipment, the traction equipment is arranged in the first base station 1 and the second base station 2, two ends of the steel wire ropes of the first circulating cableway are respectively sleeved on the traction equipment of the first station room where the first base station 1 and the second base station 2 are located, and two ends of the steel wire ropes of the second circulating cableway are respectively sleeved on the traction equipment of the second station room where the first base station 1 and the second base station 2 are located.

When the first circulating cableway and the second circulating cableway run, the back-and-forth dispatching of the conveying ropes is realized through the traction equipment, so that tourists between the first base station 1 and the second base station 2 are transported in two directions.

The steel wire rope between the first base station 1 and the second base station 2 is supported through at least two groups of supporting stations 3, the supporting stations 3 comprise at least two groups of supporting components, the supporting components on the supporting stations 3 are longitudinally or transversely separated from the supporting components, the steel wire ropes of the first circulating cableway and the second circulating cableway are respectively installed on different separated supporting components, and induction lightning rods are fixedly installed on the upper end faces of the supporting stations 3, the first base station 1 and the second base station 2.

Set up the response lightning rod through the up end at basic station 1 and basic station two 2 and support website 3, make and avoid traditional lightning protection technique cableway, when proruption thunderstorm, it takes place to take place that the visitor is detained in the overhead hanging box condition, take place to basic station one 1 through the response lightning-arrest, basic station two 2 and support website 3 carry out the lightning protection, guarantee the safe transportation requirement of uninterrupted duty during the cableway thunderstorm, the visitor of eminence on the mountain during the thunderstorm is the most dangerous, simultaneously through circulation cableway one or two carry mountain foot safety place to the visitor of mountain department safely, the ability of the quick transfer visitor under the unexpected condition of normal performance cableway.

The induction lightning rod comprises a large-volume metal lightning receptor at the top and a high-power, high-impedance and large-volume lightning energy consumption assembly at the lower part of the lightning receptor, a metal component at the bottom of the induction lightning rod is connected with the highest part at the top end of a steel frame metal component of the cableway system supporting station 3 by a metal bracket, and the detailed structure of the induction lightning rod is disclosed in the utility model patent with the publication number of CN 102354910A.

The support station 3 is a large-frame metal material structure, the lightning-inducing capability is strong, direct lightning strike is easy to occur, once direct lightning strike occurs, high-voltage energy of thunderclouds is directly transmitted to the support station 3 through lightning strike arc short circuit, the metal material structure of the whole support station 3 is ultrahigh voltage, the ultrahigh voltage has potential safety hazard to low-voltage system equipment installed on the support station, the traditional cableway lightning protection technology adopts a 'bleeder' franklin lightning rod to be applied to the support station 3 to increase the lightning strike probability and strength, a 'pre-discharge' active lightning strike type is easier to generate direct lightning strike than the franklin lightning rod, the thundercloud rejection and active induction capabilities of a semiconductor arrester and an 'ion arrester' are small, side-detour accidents can occur when the support station 3 of a large frame, and the traditional lightning protection technology has the defect that the facility lightning protection does not consume the ultrahigh-voltage energy of the thundercloud lightning, whether the cable is in a normal stroke or in a side stroke, the harmful energy with ultrahigh voltage is generated on a steel frame behind the cable, and the only measure of the traditional cable lightning protection technology, namely safety lightning protection, is to shut down the cable system during the thunderstorm; the induction lightning rod actively induces the thundercloud electric field above the lightning rod by utilizing the conical metal lightning receptor, actively consumes the harmful energy of lightning, is a safe low-voltage area on a steel frame behind the induction lightning rod, reasonably selects the consumption power level of the lightning energy consumption body of the induction lightning rod according to environmental conditions, can eliminate the possibility of direct lightning stroke of the base station I1, the base station II 2 and the supporting station 3, and can ensure the safety requirement of uninterrupted operation during the cableway thunderstorm.

The supporting station 3 is generally located in the core range of a scenic spot, the whole cableway device is a cableway large metal frame, and a lightning rod arranged at the top of the cableway large metal frame can actively attract a thundercloud electric field in the upper space of the scenic spot range, so that the lightning stroke occurrence probability of the surrounding environment is effectively reduced, and the safe lightning-eliminating and lightning-protecting effect of the large regional range of the scenic spot is achieved, therefore, the height of a lightning receptor of the lightning rod arranged on the cableway device is selected to be 2-3 m.

The device comprises a stand column structure for mounting a support component, wherein the stand column structure comprises a stand column or at least two stand columns which are assembled and mounted; the support assembly comprises an I-shaped cross beam 7; the cross beam 7 is independently installed on one upright post or connected with at least two upright posts.

The stand structure includes stand one 4 and stand two 5, and the setting is controlled and set up immediately with stand two 4, and the crossbeam 7 is independently installed respectively on stand one 4 and the stand two 5, and the wire rope of circulation cableway one is installed at 7 both ends of the crossbeam that are located on stand one 4, and the wire rope of circulation cableway two is installed at 7 both ends of the crossbeam that are located on stand two 5.

The supporting station 3 with the two groups of structures is arranged between the first base station 1 and the second base station 2, the first column 4 and the second column 5 are arranged in a left-right parallel mode, the stability of steel wire rope support is enhanced, the steel wire rope support is suitable for being built under the condition that the site in the horizontal direction of a scenic spot is relatively flat, and the first station room and the second station room of the first base station 1 and the second base station 2 are arranged in a left-right mode.

Example 2

As shown in fig. 2, when the positions of the first base station 1 and the second base station 2 are relatively close to each other and the distance for transporting the tourists is short, the supporting station 3 is not arranged between the first base station 1 and the second base station 2, at the moment, the tourists take the first base station 1 or the second base station 2, the steel wire ropes of the first circulating cableway or the second composite cableway do not need to be supported by the supporting station 3, the passengers can be safely transported, the construction cost of the scenic spot is reduced, the construction is carried out according to the actual situation of the scenic spot, and at the moment, the first station room and the second station room of the first base station 1 and the second base station 2 are arranged in a left-right mode.

Example 3

As shown in fig. 3, three groups of supporting stations 3 are arranged between a first base station 1 and a second base station 2, wherein the upright column structure comprises a first upright column 4 and a second upright column 5, the first upright column 4 and the second upright column 5 are arranged in a left-right parallel manner, a cross beam 7 is connected with the first upright column 4 and the second upright column 5 for installation, the cross beams 7 are arranged in two groups and are longitudinally separated from each other, a steel wire rope of the first circulating cableway is arranged at two ends of a second cross beam 7 close to the ground, and a steel wire rope of the second circulating cableway is arranged at two ends of a first cross beam 7 close to the ground.

The supporting station 3 of this structure sets up the scenic spot construction that is fit for hanging a case more of number, through the setting of stand one 4 and stand two 5, strengthens the intensity of support, shunts two pairs of tourists through circulation cableway one and circulation cableway simultaneously, and the room one of standing of basic station one 1 and basic station two 2, the room two of standing are setting up from top to bottom this moment.

Example 4

As shown in fig. 4, the upright column structure includes a first upright column 4, two groups of cross beams 7 are independently installed on the first upright column 4, the two groups of cross beams 7 are longitudinally separated, the steel wire rope of the first circulating cableway is installed at two ends of a second cross beam 7 close to the ground, and the steel wire rope of the second circulating cableway is installed at two ends of a first cross beam 7 close to the ground.

When the scenic spot belongs to a small tourist attraction and the terrain structure is flat, three groups of supporting stations 3 can be arranged between the first base station 1 and the second base station 2, and each group of supporting stations 3 are vertically distributed on the first upright post 4 through two groups of cross beams 7, so that the construction cost is reduced, and the cableway transportation load of the scenic spot can be adapted.

Example 5

As shown in fig. 5, when the horizontal terrain of the scenic spot is relatively stable, and the scenic spot belongs to a medium-sized tourist capacity scenic spot, the first supporting station 3 is arranged in the middle of the first base station 1 and the second base station 2, the second supporting station 3 is symmetrically arranged at two sides of the first supporting station 3, the first supporting station 3 is used for arranging the first upright post 4, the first upright post 4 is independently and longitudinally separated from the second upright post 4, the second supporting station 3 is arranged in parallel and vertically through the first upright post 4 and the second upright post 5, the first upright post 4 and the second upright post 5 are connected by the cross beam 7, the cross beams 7 are arranged in two groups and longitudinally separated from each other, the first upright post and the second upright post are arranged up and down according to the longitudinal separation of the cross beam 7, and at this time, the first supporting station 3 and the second supporting station 3 are connected, so that the stability is enhanced and the construction cost is reduced.

Example 6

As shown in fig. 6, the upright column structure comprises a first upright column 4, a second upright column 5 and a third upright column 6, a cross beam 7 is connected between the first upright column 4 and the second upright column 5, the cross beam 7 is connected between the second upright column 5 and the third upright column 6, the steel wire rope of the first circulating cableway is installed at two ends of the cross beam 7 between the first upright column 4 and the second upright column 5, and the steel wire rope of the second circulating cableway is installed at two ends of the cross beam 7 between the second upright column 5 and the third upright column 6.

When the horizontal terrain between the base station I1 and the base station II 2 in the scenic spot is relatively stable, but the terrain of the base station I1 and the base station II 2 is not stable, when the scenic spot belongs to a large tourist quantity scenic spot, the station house I and the station house II of the base station I1 and the base station II 2 are arranged on the left and right, and the heights of the first station house and the second station house are not on the same horizontal plane, two groups of support stations 3 are arranged between the first base station 1 and the second base station 2, and the two groups of supports are provided with a first upright post 4, a second upright post 5 and a third upright post 6, a beam 7 is arranged between the first upright post 4 and the second upright post 5, a beam 7 is arranged between the second upright post 5 and the third upright post 6, so that the first circulating cableway runs on the cross beam 7 between the first upright post 4 and the second upright post 5, the second circulating cableway runs on the cross beam 7 between the second upright post 5 and the third upright post 6, the first upright post 4, the second upright post 5 and the third upright post 6 are utilized to strengthen the supporting effect, so that the stability of the cableway under the condition of large transportation load is improved.

Example 7

As shown in fig. 7, the upright column structure includes a first upright column 4 and a third upright column 6, the first upright column 4 and the third upright column 6 are arranged side by side, the first upright column 4 and the third upright column 6 are respectively and independently provided with a cross beam 7, the two groups of cross beams 7 are arranged in a longitudinally separated manner, the steel wire rope of the first circulating cableway is arranged at two ends of the cross beam 7 positioned at the first upright column 4, and the steel wire rope of the second circulating cableway is arranged at two ends of the cross beam 7 positioned at the third upright column 6.

When the scenic spot belongs to a medium-sized tourist capacity scenic spot and the relief parts of the base station I1 and the base station II 2 are stable, the station house I and the station house II of the base station I1 and the base station II 2 are arranged on the left and right, the heights of the station house I and the station house II are not on the same horizontal plane, two groups of supporting stations 3 are arranged between the base station I1 and the base station II 2, the two groups of supporting stations 3 are provided with the upright post I4 and the upright post III 6 in parallel, and the cross beams 7 are respectively and independently arranged on the upright post I4 and the upright post III 6, so that the circulating cableway I runs on the cross beam 7 where the upright post I4 is located, and the circulating cableway II runs on the cross beam 7 where the upright post III 6 is located, and the comprehensive construction cost is lower while the transportation capacity is enhanced.

Example 8

Referring to fig. 8, when the landscape environment of the scenic spot is complex, the horizontal field is small and unstable, three different support sites 3 are set between the first base station 1 and the second base station 2, the first support site 3 is a first upright 4 and a second upright 5 which are arranged in parallel, a cross beam 7 is arranged between the first upright 4 and the second upright 5 in a vertically separated manner, the first upright 4 and the second upright 5 are set in parallel, the cross beam 7 is arranged between the first upright 4 and the second upright 5 in a vertically separated manner, two groups of the first upright 4 and two groups of the second upright 5 are both positioned at different heights to play a role of overlapping support, the second support site 3 is a first upright 4, the cross beam 7 is independently arranged on the first upright 4 in a vertically separated manner, the first upright 4 is additionally provided with a cross beam 7 in an independent vertically separated manner according to the landscape condition, the third support site 3 is a first upright 4 and a second upright 5 in a parallel manner, the cross beams 7 are arranged between the first upright post 4 and the second upright post 5 in a vertically separated mode, so that the first circulating cableway runs on the second cross beam 7 close to the ground, and the second circulating cableway runs on the first cross beam 7 close to the ground, and finally the cableway is more stable in running.

In addition, it should be noted that the specific embodiments described in the present specification may differ in the shape of the components, the names of the components, and the like. All equivalent or simple changes of the structure, the characteristics and the principle of the utility model which are described in the patent conception of the utility model are included in the protection scope of the patent of the utility model. Various modifications, additions and substitutions for the specific embodiments described may be made by those skilled in the art without departing from the scope of the utility model as defined in the accompanying claims.

Claims (10)

1. The cableway device capable of continuously and safely running is characterized by comprising a first base station and a second base station, wherein a first circulating cableway and a second circulating cableway are compositely arranged between the first base station and the second base station, the first base station and the second base station comprise a first station room and a second station room, the first station room and the second station room are arranged in a left-right mode or in an up-down mode, two circulating points of the first circulating cableway are respectively arranged in the first station room of the first base station and the second station room of the second base station, the two circulating points of the second circulating cableway are respectively arranged in the second station room of the first base station and the second base station, and the first circulating cableway or the second circulating cableway can be started in a traveling peak period.

2. The ropeway device capable of continuously and safely operating as claimed in claim 1, wherein the first circulating ropeway and the second circulating ropeway each comprise a steel wire rope and a traction device, the traction devices are arranged in the first base station and the second base station, two ends of the steel wire rope of the first circulating ropeway are respectively sleeved on the traction devices of the first base station rooms and the second base station rooms, and two ends of the steel wire rope of the second circulating ropeway are respectively sleeved on the traction devices of the second base station rooms.

3. The ropeway device for uninterrupted safe operation according to claim 2, wherein the wire ropes between the first base station and the second base station are supported or not provided with support stations through at least two sets of support stations, the support stations comprise at least two sets of support components, the support components on the support stations are longitudinally or transversely separated from the support components, and the wire ropes of the first circulating ropeway and the second circulating ropeway are respectively installed on different separated support components.

4. The ropeway installation of claim 3 wherein, the support station comprises a column structure for mounting the support assembly, the column structure comprises one column or at least two columns assembled together; the support assembly comprises an I-shaped cross beam; the cross beam is independently arranged on one upright post or connected with at least two upright posts.

5. The ropeway device of claim 4, wherein the upright structure comprises a first upright and a second upright, the first upright and the second upright are arranged side by side, the first upright and the second upright are respectively and independently provided with a beam, the steel wire rope of the first circulating ropeway is arranged at two ends of the beam on the first upright, and the steel wire rope of the second circulating ropeway is arranged at two ends of the beam on the second upright.

6. The cableway device according to claim 4, wherein the column structure comprises a first column and a second column, the first column and the second column are arranged side by side, the cross beam is connected with the first column and the second column, the cross beam is arranged in two groups and separated longitudinally, the steel wire rope of the first circulating cableway is arranged at two ends of a second cross beam close to the ground, and the steel wire rope of the second circulating cableway is arranged at two ends of a first cross beam close to the ground.

7. The ropeway device for uninterrupted safe operation according to claim 4, wherein the upright structure comprises a first upright, two sets of beams are independently installed on the first upright respectively, the two sets of beams are longitudinally separated, the steel wire rope of the first circulating ropeway is installed at two ends of a second beam close to the ground, and the steel wire rope of the second circulating ropeway is installed at two ends of a first beam close to the ground.

8. The ropeway device capable of continuously and safely operating as claimed in claim 4, wherein the upright structure comprises a first upright, a second upright and a third upright, a cross beam is connected between the first upright and the second upright, a cross beam is connected between the second upright and the third upright, the steel wire ropes of the first circulating ropeway are installed at two ends of the cross beam between the first upright and the second upright, and the steel wire ropes of the second circulating ropeway are installed at two ends of the cross beam between the second upright and the third upright.

9. The cableway device according to claim 4, wherein the pillar structure comprises a first pillar and a third pillar, the first pillar and the third pillar are vertically arranged, the first pillar and the third pillar are independently provided with a beam, the beams are longitudinally separated from each other, the steel wire rope of the first circulating cableway is arranged at two ends of the beam of the first pillar, and the steel wire rope of the second circulating cableway is arranged at two ends of the beam of the third pillar.

10. The ropeway device of claim 3, wherein at least two induction lightning conductors are fixedly installed on the upper end surfaces of the first base station and the second base station, and at least two induction lightning conductors are installed on the supporting station.

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