CN214523768U - High and steep broken side slope aerial cableway device - Google Patents

Abstract

The utility model discloses a high steep broken side slope aerial cableway device, belongs to engineering construction material transportation technical field, including main carrier cable, haulage cable, actuating system and hoist and mount system, main carrier cable and haulage cable set up side by side from top to bottom according to the transportation line, main carrier cable both ends fixed, haulage cable constitute the closed loop and connect and can drive its rotatory actuating system, hoist and mount system fix on the haulage cable to lean on main carrier cable to provide the support; through the cooperation of main carrier cable, haulage cable, actuating system and hoist and mount system, can transport the material to high-end from the low side, the transport time is short, and is efficient, and can control the functioning speed, and the transportation safety is high.

Description

High and steep broken side slope aerial cableway device

Technical Field

The utility model belongs to the technical field of engineering construction material transportation, especially, relate to a broken slope aerial cableway device of height steepness.

Background

With the rapid development of highway engineering construction in China, a highway gradually becomes one of important traffic facilities in China, particularly in southwest and mountainous areas in China, construction projects are more and more treated on high slopes of highways, wherein the positions of a plurality of projects are in mountainous areas or hilly lands with complex road conditions, the common material transportation mode for engineering construction is ground transportation, but the ground transportation is greatly limited by terrain, transportation paths have to be arranged depending on the trend of the existing terrain, so that the transportation distance is too long, particularly, the span and height of starting and ending points of material transportation are large, or projects requiring building of mountain winding transportation sidewalks are needed, and the ground transportation is utilized, so that a large amount of material transportation cost is required, and the project cost control is not facilitated.

In order to solve the above problems, in some projects, cableway transportation is increasingly employed. And traditional cableway transportation because it often relies on the dead weight of material to carry out the singleness from the high-end to lower end and transports, and material transport time is longer, and conveying efficiency is low, and can't carry out material transport speed control, easily takes place the safety in production accident.

SUMMERY OF THE UTILITY MODEL

In view of the defects in the prior art, the utility model aims to provide a high and steep broken side slope aerial cableway device; the problem of traditional cableway individual transportation is solved to it is short, efficient to the transportation time.

In order to solve the technical problem, the utility model discloses a following technical scheme: the main catenary and the traction cable are arranged in parallel up and down according to a transportation line, two ends of the main catenary are fixed, the traction cable forms a closed loop and is connected with a driving system capable of driving the traction cable to rotate, and the hoisting system is fixed on the traction cable and supported by the main catenary.

As a further improvement, the closed loop both ends of haulage cable, the haulage cable pulley is walked around to one end, the reel connect actuating system, the haulage cable pulley establish and fix on subaerial support.

As a further improvement of the utility model, the support be the A-frame, including three landing leg, it is established subaerial at the mountain top, actuating system establish subaerial under the mountain.

As a further improvement, the utility model discloses a every the landing leg all include two sections steel pipes that the thickness is different from top to bottom, two sections the steel pipe can stretch out and draw back relatively.

As a further improvement of the utility model, main carrier cable one end pass through the earth anchor and fix under the mountain, the other end is walked around at the mountain top the support on change to the piece after, fix subaerial at the mountain top through the earth anchor.

As a further improvement of the utility model, the direction-changing piece is a main carrier cable pulley.

As a further improvement of the utility model, the support is reinforced by the anchor fixed on the ground on the side far away from the driving system.

As a further improvement, the hoisting system is a movable saddle, which comprises a hanging bracket, wherein a guide pulley, a limiting clamping device and a lifting hook which can clamp the traction cable to go up branches are sequentially arranged on one side of the hanging bracket from top to bottom.

To sum up, the utility model discloses following useful technological effect has:

1. through the cooperation of main carrier cable, haulage cable, actuating system and hoist and mount system, can transport the material to high-end from the low side, the transport time is short, and is efficient, and can control the functioning speed, and the transportation safety is high.

2. One end of the traction cable closed loop is connected with the driving system through the winding drum, the extra length part of the traction cable can be directly wound on the winding drum under the condition that the closed loop is straightened, cutting is avoided, and therefore the traction cable can be repeatedly used on other transport lines with different lengths.

3. The support adopts the A-frame, and the structure is firm, and the landing leg of A-frame establishes to the telescopic structure in addition, not only can be according to the height on every landing leg department ground, the length of specifically adjusting every landing leg for every landing leg can both be firm fixed subaerial, but also can be according to actual conditions, indirectly adjusts the whole height of A-frame, with the height that needs the location with being suitable for haulage cable pulley and main carrier cable pulley.

4. The support sets up reinforced (rfd) hawser in the one side of keeping away from actuating system, can prevent when the transportation goods, because the dead weight reason of goods leads to the support to topple over to the one side of hoist and mount goods.

5. The hoisting system adopts the movable saddle, avoids arranging electric wires, and has simple structure and construction and high safety.

Drawings

The invention will be further described with reference to the accompanying drawings:

fig. 1 is a schematic structural view of the high and steep slope aerial cableway device of the present invention;

FIG. 2 is an enlarged view of FIG. 1 at A;

FIG. 3 is an enlarged view of FIG. 1 at B;

FIG. 4 is a cross-sectional view C-C of FIG. 3;

in the figure: the main catenary suspension system comprises a main catenary 1, a traction cable 2, a hoisting system 3, a hanging bracket 31, a guide pulley 32, a limiting position clamper 33, a lifting hook 34, a ground anchor 4, a support 5, a support 51, a main catenary pulley 6, a traction cable pulley 7, a mooring rope 8, a winding drum 9 and a driving system 10.

Detailed Description

The present invention will be described in further detail with reference to the accompanying fig. 1-4.

The embodiment of the utility model discloses high steep side slope aerial cableway device. Referring to fig. 1-4, a high and steep broken side slope aerial cableway device comprises a main carrier cable 1, a traction cable 2, a driving system 10 and a hoisting system 3, wherein the main carrier cable 1 and the traction cable 2 are arranged in parallel up and down according to a transportation line, in the embodiment, the main carrier cable 1 adopts a steel wire rope with the diameter of 28mm, the traction cable 2 adopts a steel wire rope with the diameter of 14mm, one end of the main carrier cable 1 is fixed under a mountain through a ground anchor 4, and the other end of the main carrier cable 1 is fixed on the ground of the mountain top through the ground anchor 4 after the mountain top bypasses a bend part on a support 5. The redirection piece preferably employs a main messenger pulley 6 to reduce friction between the main messenger and the redirection piece.

The traction cable 2 forms a closed loop, one end of each of two ends of the closed loop bypasses a traction cable pulley 7, the other end of each closed loop bypasses a winding drum 9, the winding drum 9 is connected with a driving system 10, and the traction cable pulley 7 is arranged on a support 5 fixed on the ground. The above-mentioned drive system 10 is set up on the ground under the hill, the support 5 is set up on the ground of the top of the hill, namely the main messenger pulley 6 and the haulage cable pulley 7 are set up on the support 5, and the main messenger pulley 6 is on, the haulage cable pulley 7 is on, so that the main messenger 1 is above the haulage cable 2. In addition, when the traction rope 2 bypasses the winding drum 9, the extra length part of the traction rope 2 can be directly wound on the winding drum under the condition of ensuring the closed-loop straightening of the traction rope 2, so that the cutting is avoided, and the adjustment can be carried out according to the length of a conveying line so as to be suitable for conveying lines with different lengths.

The support 5 for mounting the main carrier cable pulley 6 and the traction cable pulley 7 preferably adopts a triangular support which mainly comprises three support legs 51, and the triangular support has a stable structure according to the triangular frame principle. In addition, each of the legs 51 includes two steel pipes having different thicknesses, and the two steel pipes can be relatively extended and retracted. The supporting legs 51 of the triangular support are of telescopic structures, the length of each supporting leg 51 can be specifically adjusted according to the height of the ground at the position of each supporting leg 51, so that each supporting leg 51 can be stably fixed on the ground, and the overall height of the triangular support can be indirectly adjusted according to actual conditions, so that the height of the triangular support, which is needed to be positioned, of the traction cable pulley 7 and the main catenary pulley 6 is suitable.

In order to prevent the bracket 5 from toppling over to the side where the goods are hoisted due to the self-weight of the goods when the goods are transported. The support 5 may be reinforced on the side remote from the drive system 10 by a cable 8 anchored to the ground.

The other structure of the hoisting system 3 of the device can be a bucket, a movable saddle or an electric transport vehicle, the movable saddle is preferably adopted in the embodiment, the structure is simple, the carrying is convenient, no electric wire is required to be arranged, the movable saddle is fixed on the upper branch of the traction cable 2, and the support is provided by the main catenary 1. Specifically, the device comprises a hanger 31, wherein a guide pulley 32, a limiting position stopper 33 capable of clamping branches on the traction cable 2 and a hook 34 are sequentially arranged on one side of the hanger 31 from top to bottom. The material to be transported is hung on the lifting hook 34, the upper branch of the fixed traction cable 2 is clamped by the limiting clamping device 33, the bottom end of the guide pulley 32 is placed on the main catenary 1, the driving system 10 is started, the traction cable 2 drives the hoisting system 3 to move in the running process, so that the material is transported to the top of a mountain from the downside of the mountain, and the main catenary 1 provides guidance and gravity support in the whole process. In addition, the rotation direction of the motor of the driving system is adjusted, the traction rope 2 rotates in the opposite direction, and the device can transport materials from the top of a mountain to the bottom of the mountain. In addition, the rotating speed or the transmission ratio of a motor of the driving system is set, so that the conveying speed of the traction rope can be adjusted.

The embodiment of the utility model provides a high steep side slope aerial cableway device's implementation principle does: the material is hung on a hook 34 on the hoisting system 3, the driving system 10 is started, the driving system 10 drives the winding drum 9 to rotate, the winding drum 9 drives the traction cable 2 wound on the winding drum to rotate in the rotating process, the upper branch of the traction cable 2 moves from the downside to the top of a mountain in the rotating process, so that the hoisting system 3 fixed on the upper branch of the traction cable 2 is driven to move to the top of the mountain, the material is also transported to the top of the mountain from the downside, the main catenary 1 provides guidance and gravity support in the whole transportation process, and the guide pulley 32 moves forwards along the main catenary 1. If the material is transported from the top of the hill to the bottom of the hill, only the rotation direction of the motor in the driving system 10 needs to be adjusted.

Through the embodiment, the utility model discloses very good technological effect has: through the cooperation of main messenger wire 1, haulage cable 2, actuating system 10 and hoist and mount system 3, can transport the material to high-end from the low side, the transit time is short, and is efficient, and can control the functioning speed, and the transportation safety is high.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. It should be understood that the detailed description and specific examples, while indicating the invention, are given by way of illustration only, not by way of limitation, since other embodiments will become apparent to those skilled in the art upon consideration of the following detailed description of the invention without any creative effort.

Claims (8)

1. The utility model provides a broken side slope aerial cableway device of height steepness which characterized in that: the heavy-duty carrier cable comprises a main carrier cable (1), a traction cable (2), a driving system (10) and a hoisting system (3), wherein the main carrier cable (1) and the traction cable (2) are arranged in parallel up and down according to a transport line, two ends of the main carrier cable (1) are fixed, the traction cable (2) forms a closed loop and is connected with the driving system (10) capable of driving the traction cable to rotate, and the hoisting system (3) is fixed on the traction cable (2) and is supported by the main carrier cable (1).

2. A high steep breaking slope aerial cableway device according to claim 1, characterized in that: the traction rope is characterized in that one end of each of two closed loops of the traction rope (2) is wound around a traction rope pulley (7), the other end of each of the two closed loops is wound around a winding drum (9), the winding drum (9) is connected with a driving system (10), and the traction rope pulleys (7) are arranged on a support (5) fixed on the ground.

3. A high steep breaking slope aerial cableway device according to claim 2, characterized in that: the support (5) is a triangular support and comprises three support legs (51) which are arranged on the ground of the top of a mountain, and the driving system (10) is arranged on the ground under the mountain.

4. A high steep breaking slope aerial cableway device according to claim 3, characterized in that: each supporting leg (51) comprises an upper section of steel pipe and a lower section of steel pipe which are different in thickness, and the two sections of steel pipes can be relatively stretched.

5. A high steep breaking slope aerial cableway device according to claim 2, characterized in that: one end of the main carrier cable (1) is fixed under the mountain through an earth anchor (4), and the other end of the main carrier cable is fixed on the ground of the top of the mountain through the earth anchor (4) after the top of the mountain bypasses the redirection piece on the bracket.

6. A high steep breaking slope aerial cableway device according to claim 5, characterized in that: the redirection part is a main carrier cable pulley (6).

7. A high steep breaking slope aerial cableway device according to any one of claims 2 to 6, characterized in that: the support (5) is reinforced at the side far away from the driving system (10) by a cable (8) fixed on the ground through an anchor.

8. A high steep breaking slope aerial cableway device according to claim 1, characterized in that: the hoisting system (3) is a movable saddle and comprises a hoisting frame (31), wherein a guide pulley (32), a limiting clamping device (33) capable of clamping the upper branch of the traction cable (2) and a lifting hook (34) are sequentially arranged on one side of the hoisting frame (31) from top to bottom.

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