CN211446968U - Anti-slip device for double-side slope - Google Patents

Abstract

A double-side slope anti-slip device comprises a first slope partition beam, a second slope partition beam, a first slope protection plate and a second slope protection plate; an anchor cable is connected between the first side slope partition beam and the second side slope partition beam, and two ends of the anchor cable are provided with anchors; the first side slope guard plate is attached to the inner side of the first side slope partition beam, and the second side slope guard plate is attached to the inner side of the second side slope partition beam. The anchor cable penetrates through the first side slope partition beam, the first side slope protection plate, the slope body, the second side slope protection plate and the second side slope partition beam in sequence, and two ends of the anchor cable are connected with the upper anchorage device to be anchored. Plants are planted in the gap between the slope guard plates on the slopes on the two sides, so that the slope protection effect is achieved. The device is convenient for operate, and the use on the slope body is simple relatively, and is lower to environmental grade requirement, forms a whole with the side slope on the basis that does not change the side slope wholeness, and application scope is wide, and the cost is lower relatively, can prevent the slip of two side slopes effectively, can play a role in longer time, avoids the emergence of dangerous accident.

Description

Anti-slip device for double-side slope

Technical Field

The utility model relates to a be used for preventing gliding device of side slope belongs to side slope reinforcement technical field.

Background

In recent years, the side slope slippage phenomenon is more serious, especially after rainstorm washing, and the side slope slippage prevention device can effectively reinforce the side slope, so that the stability of the high side slope is better, and the side slope does not slip or slightly slips.

However, the existing devices for preventing the slope from sliding, such as retaining walls and anti-slide piles, have great defects in terms of using time, firmness of the devices and construction difficulty. The universal use time is short, if the retaining wall is long, the wall body is easy to slide, and the firmness is unreliable. Compared with a retaining wall, the service time and the firmness of the anti-slide pile are greatly improved, but the construction difficulty is increased, a pile body in a proper form needs to be selected after the sliding position of a landslide is determined, and the construction difficulty is high.

In addition, for the soil body with sliding on both sides of the side slope, the two methods are not very effective, and the construction process is complicated.

SUMMERY OF THE UTILITY MODEL

The utility model discloses not enough to current side slope anti-skidding technique exists, provide a convenient to be under construction, with low costs two side slope anti-skidding device that moves, the device forms a whole with the side slope on the basis that does not change the side slope wholeness to effectively improve side slope anti-skidding effect.

The utility model discloses a two side slope anti-skidding devices adopts following technical scheme:

the device comprises a first side slope partition beam, a second side slope partition beam, a first side slope protection plate and a second side slope protection plate; an anchor cable is connected between the first side slope partition beam and the second side slope partition beam, and two ends of the anchor cable are provided with anchors; the first side slope guard plate is attached to the inner side of the first side slope partition beam, and the second side slope guard plate is attached to the inner side of the second side slope partition beam.

The first side slope partition beam and the second side slope partition beam are symmetrically distributed.

The anchor cable is a prestressed anchor cable, and corresponding grades can be selected according to specific requirements.

The anchor cable is perpendicular to the first side slope partition beam 2 and the second side slope partition beam. The anchor cable can also form an included angle of 30-90 degrees with the first side slope partition beam or the second side slope partition beam.

The first side slope partition beam and the second side slope partition beam are transverse partition beams. The first side slope partition beam and the second side slope partition beam can also be vertical partition beams.

The first side slope protection plate and the second side slope protection plate are prestressed plates in a post-tensioning method. The first slope guard plate and the second slope guard plate can be in various shapes such as long strips, trapezoids, rhombuses and circles.

The device is suitable for protecting bilateral slopes, and the specific implementation process is as follows.

Drilling a hole at one side of the slope body through the punching machine, arranging a first side slope guard plate and a second side slope guard plate on the slope surfaces at the two sides, and pressing a first side slope partition beam and a second side slope partition beam respectively. And sequentially penetrating an anchor rope through the first side slope partition beam, the first side slope protection plate, the slope body, the second side slope protection plate and the second side slope partition beam, connecting upper anchorage devices at two ends of the anchor rope, and anchoring the anchor rope on the partition beams at two sides. The partition beam, the side slope guard plate and the slope body are integrated. Plants are planted in the gap between the slope guard plates on the slopes on the two sides, so that the slope protection effect is achieved.

The utility model discloses be convenient for operate, the use on the slope body is simple relatively, requires lowerly to environmental level, forms a whole with the side slope on the basis that does not change the side slope wholeness, and application scope is wide, and the cost is lower relatively, can prevent the slip of two side slopes effectively, can play a role in longer time, avoids the emergence of dangerous accident, causes unnecessary economic loss.

Drawings

Fig. 1 is a schematic structural view of the anti-slip device for two side slopes of the present invention.

Fig. 2 is a schematic view of the arrangement of the middle transverse beam.

Fig. 3 is the schematic view of the arrangement of the vertical partition beams in the utility model.

Fig. 4 is a schematic view of the usage state of the present invention.

Wherein: 1. the method comprises the following steps of anchorage device, 2, first side slope separation beam, 3, anchor cable, 4, second side slope separation beam, 5, first side slope protection plate, 6, second side slope protection plate, 7, slope body and 8, plant.

Detailed Description

As shown in fig. 1, fig. 2 and fig. 3, the anti-slip device for two side slopes of the present invention comprises a first side slope partition beam 2, a second side slope partition beam 4, a first side slope guard plate 5 and a second side slope guard plate 6. An anchor rope 3 is connected between the first side slope partition beam 2 and the second side slope partition beam 4, and two ends of the anchor rope 3 are provided with an anchorage device 1. The first side slope guard plate 5 is attached to the inner side of the first side slope barrier beam 2, and the second side slope guard plate 6 is attached to the inner side of the second side slope barrier beam 4. The anchorage devices 1 at two ends of the anchor cable 3 are respectively positioned at the outer sides of the first side slope partition beam 2 and the second side slope partition beam 4.

The anchor rope 3 sequentially penetrates through the first side slope spacer beam 2, the first side slope guard plate 5, the slope body 7, the second side slope guard plate 6 and the second side slope spacer beam 4, the two ends of the anchor rope are connected with the upper anchorage device 1, the side slope spacer beam is used as a support of the anchorage device 1, the anchor rope 3 is tensioned through the anchorage device 1, and the first side slope guard plate 5 and the second side slope guard plate 6 are pressed on the two sides of the slope body 7 through the first side slope spacer beam 2 and the second side slope spacer beam 4 respectively. The anchor cable 3 adopts a prestressed anchor cable, and corresponding grades can be selected according to specific requirements. The anchorage 1 is a conventional universal anchorage, known in the art, such as a 0VM15 type anchorage.

The anchor cable 3 connected between the first side slope partition beam 2 and the second side slope partition beam 4 can be in a straight pull type, namely is vertical to the first side slope partition beam 2 and the second side slope partition beam 4; or a diagonal type, that is, the anchor cable 3 forms an included angle of 30-90 degrees with the first side slope partition beam 2 and the second side slope partition beam 4.

The first side slope partition beam 2 and the second side slope partition beam 4 may be a horizontal partition beam as shown in fig. 2, or may be a vertical partition beam as shown in fig. 3.

The first slope guard plate 5 and the second slope guard plate 6 adopt post-tensioning prestressed plates, and the shapes of the first slope guard plate and the second slope guard plate can be strip-shaped, trapezoid, diamond-shaped, circular and the like. The size of each side slope guard plate is determined according to the size of the side slope of the slope body 7 and the size of the tensile force. Each side slope guard plate needs at least one side slope partition beam to be pressed.

The device is suitable for protecting bilateral slopes, and the specific implementation process is as follows.

The hole is drilled at one side of the slope body 7 through the hole drilling machine and penetrates through the whole slope body 7, the anchor cable 3 is convenient to penetrate through the hole drilling machine, and the prestressed anchor cable 3 is prevented from being bent possibly due to direct penetration.

Then arranging a first slope guard plate 5 on the slope surface at one side, and pressing a first slope partition beam 2 on the first slope guard plate 5; and a second slope guard plate 6 is arranged on the slope surface at the other side, and a second slope partition beam 4 is pressed on the upper surface of the second slope guard plate 6. The first side slope partition beam 2 and the second side slope partition beam 4 are symmetrically distributed on two sides of the slope body 9. The holes on the first side slope partition beam 2, the second side slope partition beam 4, the first side slope guard plate 5 and the second side slope guard plate 6 correspond to the positions of the holes on the slope body 7.

And then the anchor cable 3 sequentially passes through the first side slope partition beam 2, the first side slope guard plate 5, the slope body 7, the second side slope guard plate 6 and the second side slope partition beam 4, two ends of the anchor cable extend out of the side surface of the slope body 7 and are connected with the upper anchorage device 1, and the anchor cable is anchored on the partition beams at two sides. The partition beam, the side slope guard plate and the slope body are integrated. The number of the first and second slope protection panels 5, 6 can be determined according to the specific situation and requirements.

According to the process, a plurality of first slope partition beams 2 are distributed on the slope surface of one side, a plurality of second slope partition beams 4 are distributed on the slope surface of the other side, the first slope partition beams 2 and the second slope partition beams 4 are symmetrically distributed on two sides of a slope body 9, anchor cables 3 are oppositely pulled between the corresponding partition beams and anchored on the partition beams at two ends, and thus the slope body 7 and the device are connected into a whole. The length of the anchor cable 3 may vary with the width of the slope 9 to be reinforced. The direction of the anchor cable 3 is not fixed, and can be a straight pull type which is vertical to the first side slope separation beam 2 and the second side slope separation beam 4, or a diagonal pull type which forms a certain angle (between 30-90 degrees) with the first side slope separation beam 2 and the second side slope separation beam 4.

Plants 8 are planted in the gaps (exposed positions) between the slope guard plates on the slopes on the two sides of the slope body 7, and vegetation plays a role in slope protection, so that the slope can be effectively prevented from sliding. The types and density of the vegetation are not fixed, and the vegetation can be made according to local conditions according to local climate and the soil environment, and can play a certain role in beauty.

Claims (8)

1. The utility model provides a two side slope antiskid moves device which characterized in that: the side slope protection plate comprises a first side slope partition beam, a second side slope partition beam, a first side slope protection plate and a second side slope protection plate; an anchor cable is connected between the first side slope partition beam and the second side slope partition beam, and two ends of the anchor cable are provided with anchors; the first side slope guard plate is attached to the inner side of the first side slope partition beam, and the second side slope guard plate is attached to the inner side of the second side slope partition beam.

2. The double-sided slope anti-slip device according to claim 1, wherein: the first side slope partition beam and the second side slope partition beam are symmetrically distributed.

3. The double-sided slope anti-slip device according to claim 1, wherein: the anchor cable is a prestressed anchor cable.

4. The double-sided slope anti-slip device according to claim 1, wherein: the anchor cable is perpendicular to the first side slope partition beam or the second side slope partition beam.

5. The double-sided slope anti-slip device according to claim 1, wherein: the anchor cable and the first side slope separation beam or the second side slope separation beam form an included angle of 30-90 degrees.

6. The double-sided slope anti-slip device according to claim 1, wherein: the first side slope partition beam and the second side slope partition beam are transverse partition beams.

7. The double-sided slope anti-slip device according to claim 1, wherein: the first side slope partition beam and the second side slope partition beam are vertical partition beams.

8. The double-sided slope anti-slip device according to claim 1, wherein: the first side slope protection plate and the second side slope protection plate are prestressed plates in a post-tensioning method.

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