CN213897179U - Energy-conserving slope anchor of dispersed pressure - Google Patents

Abstract

The utility model discloses an energy-conserving side slope anchor of dispersed pressure, including low level fixed block, anchor board and gag lever post, the surface of low level fixed block is connected with first connecting block, and the one end of first connecting block is connected with down the dead lever, the upper end of dead lever is connected with the dead lever down, and the one end of going up the dead lever is connected with the second connecting block to the surface of second connecting block is connected with high-order fixed block, the lower extreme of bull stick is connected with the sleeve, and telescopic lower extreme is fixed with the anchor board to the upper surface of anchor board is connected with the gag lever post. This energy-conserving side slope anchor of dispersion pressure is provided with low level fixed block and high-order fixed block, and bolt splices a plurality of low level fixed blocks and high-order fixed block together through picture peg and fixed plate for anchor's lifting surface area dispersion has strengthened the fixed stability between anchor and the ground, has dispersed the pressure that anchor bore.

Description

Energy-conserving slope anchor of dispersed pressure

Technical Field

The utility model relates to a side slope anchor technical field specifically is an energy-conserving side slope anchor of dispersed pressure.

Background

The side slope is a slope surface with a certain slope and is formed on two sides of the roadbed to ensure the stability of the roadbed, the stability of the roadbed can be effectively ensured through the side slope, but the side slope is formed by soil accumulation, so that the side slope needs to be reinforced through an anchoring device to prevent the side slope from disintegration to cause road surface blockage, but the existing side slope anchoring device has some problems in the actual use process;

firstly, the existing slope anchoring device is often fixed by additionally installing bolts, but the mode easily causes that the pressure applied to the middle of the anchoring device is larger than that applied to the fixing position of the bolts, and the anchoring device is easily broken from the middle part under pressure, so that the anchoring device is damaged;

secondly, because the area of the side slope is larger, the anchoring device is correspondingly very large in size, so that the side slope anchoring device is very inconvenient to transport, and a large transport vehicle is needed to transport the side slope anchoring device.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy-conserving side slope anchor of dispersed pressure to solve the problem that the anchor that proposes in the above-mentioned background art can not dispersed pressure and anchor be not convenient for transport.

In order to achieve the above object, the utility model provides a following technical scheme: a dispersed pressure energy-saving slope anchoring device comprises a low-position fixed block, an anchoring plate and a limiting rod, wherein the outer surface of the low-position fixed block is connected with a first connecting block, one end of the first connecting block is connected with a lower fixed rod, the upper end of the lower fixed rod is connected with an upper fixed rod, one end of the upper fixed rod is connected with a second connecting block, the outer surface of the second connecting block is connected with a high-position fixed block, the outer surfaces of the low-position fixed block and the high-position fixed block are respectively provided with an inserting plate and a fixed plate, the inserting plate on the outer surface of the low-position fixed block and the inserting plate on the outer surface of the high-position fixed block are positioned on the same side, the inserting plate and the fixed plate are not positioned on the same side, the outer surfaces of the lower fixed rod and the upper fixed rod are respectively penetrated by a rotating rod, the upper end of the rotating rod is provided with a force-adding rod, the outer surface of the rotating rod is provided with a linkage gear, and the outer surface of the linkage gear is connected with a linkage belt, the lower extreme of bull stick is connected with the sleeve, and telescopic lower extreme is fixed with the anchor board to the upper surface of anchor board is connected with the gag lever post.

Preferably, the low-position fixing block and the first connecting block form a sliding structure, and the first connecting block and the lower fixing rod form a rotating structure.

Preferably, the lower fixing rod and the upper fixing rod form a rotating structure, and the length of the lower fixing rod is identical to that of the upper fixing rod.

Preferably, the insertion plate and the fixed plate form a clamping structure, and the insertion plate and the fixed plate form a dismounting and mounting structure through bolts.

Preferably, the rotating rod is in threaded connection with the sleeve, and the sleeve forms a sliding structure with the lower fixing rod and the upper fixing rod through the anchoring plate and the limiting rod respectively.

Preferably, the linkage gear is in meshed connection with the linkage belt, and the linkage gear forms a rotating structure with the lower fixing rod and the upper fixing rod through the rotating rod respectively.

Compared with the prior art, the beneficial effects of the utility model are that: the dispersed pressure energy-saving slope anchoring device comprises a base,

1. the low-position fixing blocks and the high-position fixing blocks are arranged, and the plurality of low-position fixing blocks and the plurality of high-position fixing blocks are spliced together through the inserting plates and the fixing plates by using bolts, so that the stress area of the anchoring device is dispersed, the stability of fixing between the anchoring device and the ground is enhanced, and the pressure born by the anchoring device is dispersed;

2. the lower fixing rod and the upper fixing rod which can rotate mutually are arranged, so that the anchoring device can be folded in the transportation process, the length of a vehicle required by transportation is reduced, the transportation cost is saved, and the hoisting of the anchoring device before and after transportation is more convenient;

3. the linkage gear and the linkage belt are arranged, all the rotating rods can be driven to rotate only by rotating the stressing rod through the tightening device to drive one rotating rod to rotate through the linkage gear and the linkage belt, so that the aim of fixing the side slope through the anchoring plate is fulfilled, frequent starting of the locking device is avoided, and energy consumption is saved.

Drawings

FIG. 1 is a schematic overall front sectional view of the present invention;

FIG. 2 is a schematic cross-sectional view of the connecting structure of the rotating rod and the sleeve according to the present invention;

FIG. 3 is a schematic view of the overall sectional view of the present invention;

FIG. 4 is a schematic view of a front cross-sectional structure of the linkage gear and the linkage belt of the present invention;

fig. 5 is an enlarged schematic view of a portion a in fig. 3 according to the present invention.

In the figure: 1. a low-position fixing block; 2. a first connection block; 3. a lower fixing rod; 4. an upper fixing rod; 5. a second connecting block; 6. a high-position fixing block; 7. inserting plates; 8. a fixing plate; 9. a rotating rod; 10. a stressing rod; 11. a linkage gear; 12. a linkage belt; 13. a sleeve; 14. an anchoring plate; 15. a limiting rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a dispersed pressure energy-saving slope anchoring device comprises a low-position fixing block 1, a first connecting block 2, a lower fixing rod 3, an upper fixing rod 4, a second connecting block 5, a high-position fixing block 6, an inserting plate 7, a fixing plate 8, a rotating rod 9, a reinforcing rod 10, a linkage gear 11, a linkage belt 12, a sleeve 13, an anchoring plate 14 and a limiting rod 15, wherein the outer surface of the low-position fixing block 1 is connected with the first connecting block 2, one end of the first connecting block 2 is connected with the lower fixing rod 3, the upper end of the lower fixing rod 3 is connected with the upper fixing rod 4, one end of the upper fixing rod 4 is connected with the second connecting block 5, the outer surface of the second connecting block 5 is connected with the high-position fixing block 6, the outer surfaces of the low-position fixing block 1 and the high-position fixing block 6 are respectively provided with an inserting plate 7 and a fixing plate 8, and the inserting plate 7 on the outer surface of the low-position fixing block 1 is positioned on the same side as the inserting plate 7 on the outer surface of the high-position fixing block 6, and the inserting plate 7 and the fixing plate 8 are not on the same side, the outer surfaces of the lower fixing rod 3 and the upper fixing rod 4 are penetrated through by the rotating rod 9, the upper end of the rotating rod 9 is provided with a force applying rod 10, the outer surface of the rotating rod 9 is provided with a linkage gear 11, the outer surface of the linkage gear 11 is connected with a linkage belt 12, the lower end of the rotating rod 9 is connected with a sleeve 13, the lower end of the sleeve 13 is fixed with an anchoring plate 14, and the upper surface of the anchoring plate 14 is connected with a limiting rod 15.

Low level fixed block 1 and first connecting block 2 constitute sliding construction, and first connecting block 2 constitutes rotating-structure with lower dead lever 3, and first connecting block 2 slides and block with low level fixed block 1 for when fixing on the ground with first connecting block 2 pressure between low level fixed block 1 and ground, then rotate lower dead lever 3 and rotate to parallel state with the side slope down dead lever 3.

The lower fixing rod 3 and the upper fixing rod 4 form a rotating structure, and the length of the lower fixing rod 3 is completely the same as that of the upper fixing rod 4, so that the lower fixing rod 3 and the upper fixing rod 4 can rotate and be folded together when not in use, and the transportation difficulty of the anchoring device is reduced.

The inserting plate 7 and the fixing plate 8 form a clamping structure, the inserting plate 7 and the fixing plate 8 form a dismounting and mounting structure through bolts, and the inserting plate 7 and the fixing plate 8 are clamped and mounted together through bolts, so that the 2 groups of the low-position fixing blocks 1 and the high-position fixing blocks 6 are respectively fixed together, and pressure given by a slope is dispersed.

The rotating rod 9 is in threaded connection with the sleeve 13, the sleeve 13 forms a sliding structure with the lower fixing rod 3 and the upper fixing rod 4 through the anchoring plate 14 and the limiting rod 15, the rotating rod 9 rotates to drive the sleeve 13 to push the anchoring plate 14 to be attached to the side slope and to compress the side slope tightly, and the side slope anchoring effect is achieved.

The linkage gear 11 is connected with the linkage belt 12 in a meshing mode, the linkage gear 11 forms a rotating structure with the lower fixing rod 3 and the upper fixing rod 4 through the rotating rod 9, and the linkage gear 11 is meshed with the linkage belt 12, so that all the rotating rods 9 can be driven to rotate only by rotating the stressing rod 10 through the tightening device to drive one rotating rod 9 to rotate, and energy consumption is reduced.

The working principle is as follows: when the energy-saving slope anchoring device with dispersed pressure is used, as shown in fig. 1 and 4, firstly, a low-position fixing block 1 and a first connecting block 2 are clamped together, then the low-position fixing block 1 is fixed on the lower end ground of a slope through a bolt, the first connecting block 2 is fixed between the low-position fixing block 1 and the ground through the low-position fixing block 1, then a lower fixing rod 3 and an upper fixing rod 4 are rotated, so that the lower fixing rod 3 and the upper fixing rod 4 are attached to the slope through an anchoring plate 14, then a high-position fixing block 6 is clamped with a second connecting block 5, the high-position fixing block 6 is fixed on the upper end ground of the slope through the bolt, and the second connecting block 5 is fixed between the high-position fixing block 6 and the ground through the high-position fixing block 6, so that the relative positions between the lower fixing rod 3 and the upper fixing rod 4 and the slope are fixed;

then, as shown in fig. 1-3, the adjacent low-position fixing block 1 and high-position fixing block 6 are respectively connected together by the clamping of the inserting plate 7 and the fixing plate 8 and the fixing of the bolt, then the stressing device rotates the stressing rod 10, the stressing rod 10 drives the sleeve 13 to extrude the anchoring plate 14 through the rotating rod 9, the anchoring plate 14 is extruded to slide to the surface of the side slope through the limiting rod 15 and tightly press the loose soil on the surface of the side slope, meanwhile, as shown in fig. 2 and fig. 5, the linkage gear 11 drives the linkage belt 12 to rotate along with the rotating rod of the rotating rod 9, the linkage belt 12 drives other linkage gears 11 to rotate, thereby realizing the purpose of driving all the rotating rods 9 to rotate through the linkage belt 12, simultaneously, all the anchoring plates 14 anchor the loose soil on the side slope, avoiding the energy consumption caused by the frequent starting of the stressing device, and simultaneously dispersing the pressure of the side slope on the anchoring device through the spliced anchoring device, the anchoring device is more stable, and the overall practicability is improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an energy-conserving side slope anchor of dispersed pressure, includes low level fixed block (1), anchor plate (14) and gag lever post (15), its characterized in that: the outer surface of the low-position fixing block (1) is connected with a first connecting block (2), one end of the first connecting block (2) is connected with a lower fixing rod (3), the upper end of the lower fixing rod (3) is connected with an upper fixing rod (4), one end of the upper fixing rod (4) is connected with a second connecting block (5), the outer surface of the second connecting block (5) is connected with a high-position fixing block (6), the outer surfaces of the low-position fixing block (1) and the high-position fixing block (6) are both provided with an inserting plate (7) and a fixing plate (8), the inserting plate (7) on the outer surface of the low-position fixing block (1) and the inserting plate (7) on the outer surface of the high-position fixing block (6) are positioned on the same side, the inserting plate (7) and the fixing plate (8) are not positioned on the same side, the outer surfaces of the lower fixing rod (3) and the upper fixing rod (4) are both penetrated by a rotating rod (9), and the upper end of the rotating rod (9) is provided with a reinforcing rod (10), the surface of bull stick (9) is provided with linkage gear (11), and the surface of linkage gear (11) is connected with linkage area (12), the lower extreme of bull stick (9) is connected with sleeve (13), and the lower extreme of sleeve (13) is fixed with anchor board (14) to the upper surface of anchor board (14) is connected with gag lever post (15).

2. The distributed pressure energy-saving slope anchoring device according to claim 1, wherein: the low-position fixing block (1) and the first connecting block (2) form a sliding structure, and the first connecting block (2) and the lower fixing rod (3) form a rotating structure.

3. The distributed pressure energy-saving slope anchoring device according to claim 1, wherein: the lower fixing rod (3) and the upper fixing rod (4) form a rotating structure, and the length of the lower fixing rod (3) is completely the same as that of the upper fixing rod (4).

4. The distributed pressure energy-saving slope anchoring device according to claim 1, wherein: the insertion plate (7) and the fixing plate (8) form a clamping structure, and the insertion plate (7) and the fixing plate (8) form a dismounting and mounting structure through bolts.

5. The distributed pressure energy-saving slope anchoring device according to claim 1, wherein: the rotating rod (9) is in threaded connection with the sleeve (13), and the sleeve (13) forms a sliding structure with the lower fixing rod (3) and the upper fixing rod (4) through the anchoring plate (14) and the limiting rod (15).

6. The distributed pressure energy-saving slope anchoring device according to claim 1, wherein: the linkage gear (11) is connected with the linkage belt (12) in a meshing manner, and the linkage gear (11) forms a rotating structure with the lower fixing rod (3) and the upper fixing rod (4) through the rotating rod (9).

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