CN110670936B

CN110670936B - Be used for electric power line pole root anti-collapse device of earthing up

Info

Publication number: CN110670936B
Application number: CN201911095633.4A
Authority: CN
Inventors: 刘强; 王贤硕; 赵亚鹏; 刘江祎; 吕朋飞; 马婕
Original assignee: State Grid He'nan Electric Power Co Mengjin County Power Supply Co; State Grid Corp of China SGCC
Current assignee: State Grid He'nan Electric Power Co Mengjin County Power Supply Co; State Grid Corp of China SGCC
Priority date: 2019-11-11
Filing date: 2019-11-11
Publication date: 2021-06-04
Anticipated expiration: 2039-11-11
Also published as: CN110670936A

Abstract

The invention discloses an anti-collapse hilling device for a power line pole foundation, which comprises two hollow semi-cylindrical hilling cylinders and a supporting member, wherein an arc-shaped partition plate is arranged inside each hilling cylinder, the partition plate divides the inner space of each hilling cylinder into an inner cavity and an outer cavity, an axial sliding groove is formed in the outer circular surface of each hilling cylinder, the supporting member comprises a semi-annular supporting plate and a semi-annular supporting rod, a sliding block which is connected into the sliding grooves in an adaptive mode is arranged on the inner circular arc surface of the supporting plate, a plurality of threaded blind holes are formed in the outer circular arc surface of the supporting plate, the supporting rod is connected into the threaded blind holes through threaded sections arranged at one end of the supporting rod, and a plurality of through holes A communicated with the outer cavities are formed in the left. The device can quickly perform quick ridging operation, and can effectively reinforce the stability of the base part of the line pole through the supporting plate and the supporting rod, thereby improving the use safety of the line pole.

Description

Be used for electric power line pole root anti-collapse device of earthing up

Technical Field

The invention belongs to the technical field of line pole erection, and particularly relates to a collapse-preventing hilling device for a power line pole root.

Background

In the construction and reconstruction of power lines, the key point of power line pole construction is the earthing up of the root of a line pole, so that the line pole is prevented from toppling over or being influenced by strong wind after being put into operation. In order to prevent the line pole from falling down or falling down, the pole base depth needs to be excavated according to the standard, and the foundation needs to be tamped in depth during earthing up to prevent earthing up from sinking after raining. At present, most hilling operations are carried out through the manual work, and the operation of hilling can not be fine tamped, and firm degree can not guarantee, and later stage line pole causes crooked and topple etc. easily in the use.

Disclosure of Invention

In order to solve the problems of the existing ridging, the invention aims to provide a ridging device for preventing the foundation of a power pole from collapsing, which can be used for quickly performing ridging operation, enables the ridging to be very firm and can greatly improve the use safety of the pole.

In order to achieve the above purpose, the invention adopts the following technical scheme:

a collapse-proof hilling device for an electric power pole foundation comprises two hollow semi-cylindrical hilling cylinders and a supporting member, wherein the hilling cylinders are of a hollow structure with the upper end and the lower end open, the two hilling cylinders are correspondingly attached to form a hollow cylinder structure, cylindrical holes formed by inner circular arc surfaces of the two hilling cylinders are pole holes for placing the pole foundation, an arc-shaped partition plate is arranged inside the hilling cylinders and divides the inner space of the hilling cylinders into an inner cavity and an outer cavity, an axial chute is arranged on the outer circular surface of the hilling cylinders, the supporting member comprises a semi-annular supporting plate and a supporting rod, the inner circular arc surface of the supporting plate is in contact with the outer circular arc surface of the hilling cylinders, a sliding block which is in adaptive connection with the chute is arranged on the inner circular arc surface of the supporting plate, the supporting plate can slide on the hilling cylinders through the sliding of the sliding block in the chute, a plurality of threaded blind holes are arranged on the outer circular arc surface of, the support rod is connected in the threaded blind hole through a threaded section arranged at one end of the support rod, and the central axis of the support rod is vertical to the central axis of the culture cylinder; all be provided with a plurality of with on the terminal surface about earthing up a section of thick bamboo the through-hole A that outer cavity is linked together, a plurality of through-holes A evenly set up along axial interval to correspond the side through-hole A one-to-one laminating on two earthing up a section of thick bamboo.

Furthermore, a fixing sheet is connected between the two adjacent support rods, the fixing sheet is arc-shaped, a plurality of through holes B are formed in the fixing sheet along the length direction of the fixing sheet, connecting sleeves are respectively arranged at two end parts of the fixing sheet, and the connecting sleeves are sleeved on the support rods.

Furthermore, a plurality of reinforcing ribs are arranged in the outer cavity, and two end parts of each reinforcing rib are welded on the partition plate and the side wall of the soil cultivation cylinder respectively.

Further, still including setting up the auxiliary stay on two banking up section of thick bamboos up end, the auxiliary stay comprises two semi-annular fixed plates, forms whole ring after two fixed plates correspond the concatenation, and this whole ring lies in the up end of two banking up section of thick bamboos, and the hole of whole ring with line pole hole diameter the same, the central line of whole ring and the coincidence of the central line in line pole hole, the inboard circular arc of fixed plate upwards extends and forms the extension, forms hollow cylinder after the extension on two fixed plates corresponds the concatenation.

Furthermore, a plurality of spikes are arranged on the arc surface of the outer side of the extension part.

Furthermore, the fixing plate is made of metal.

Furthermore, the soil cultivation cylinder and the partition plate are made of metal materials.

Due to the adoption of the technical scheme, the invention has the following advantages:

1. the device can quickly perform quick ridging operation, and can effectively reinforce the stability of the base part of the line pole through the supporting plate and the supporting rod, thereby improving the use safety of the line pole.

2. Through setting up the auxiliary stay, can support the part on line pole and ground, improve the support intensity of line pole greatly, prevent to follow ground fracture.

3. The extended part is provided with the spine, so that animals such as snakes are further prevented from climbing.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the construction of a soil drum;

FIG. 3 is a schematic structural view of the auxiliary support;

FIG. 4 is a schematic view showing the connection of the fixing plate to the support bar;

in the figure: 1. a soil cultivation cylinder; 2. a partition plate; 3. an inner cavity; 4. an outer cavity; 5. a support plate; 6. a support bar; 7. a chute; 8. a through hole A; 9. a fixing plate; 10. an extension portion; 11. 12, a spike, a connecting sleeve; 13. a fixing sheet; 14. and a through hole B.

Detailed Description

The technical solution of the present invention will be further described in detail with reference to the accompanying drawings and examples.

As shown in figures 1 and 2, the collapse-proof hilling device for the power line pole foundation comprises two hollow semi-cylindrical hilling cylinders 1 and a supporting member, wherein the hilling cylinders 1 are of a hollow structure with the upper end and the lower end open, the two hilling cylinders are correspondingly attached to form a hollow cylinder structure, cylindrical holes formed by the inner circular arc surfaces of the two hilling cylinders 1 are line pole holes for placing the line pole foundation, an arc-shaped partition plate 2 is arranged inside the hilling cylinders 1, the partition plate 2 divides the inner space of the hilling cylinders 1 into an inner cavity 3 and an outer cavity 4, an axial sliding groove 7 is arranged on the outer circular surface of the hilling cylinders 1, the supporting member comprises a semi-annular supporting plate 5 and a supporting rod 6, the inner circular arc surface of the supporting plate 5 is in contact with the outer circular arc surface of the hilling cylinders 1, a sliding block which is in adaptive connection with the sliding groove 7 is arranged on the inner circular arc surface of the supporting plate 5, the supporting plate 5 can slide on the hilling cylinders 1 through the sliding of the, a plurality of threaded blind holes are formed in the arc surface on the outer side of the supporting plate 5, the supporting rod 6 is connected into the threaded blind holes through a threaded section arranged at one end of the supporting rod, and the central axis of the supporting rod 6 is vertical to the central axis of the culture cylinder 1; a plurality of through holes A8 communicated with the outer cavity 4 are formed in the left end face and the right end face of the soil-up cylinder 1, a plurality of through holes A8 are uniformly arranged at intervals along the axial direction, and the corresponding side through holes A8 in the two soil-up cylinders 1 are correspondingly attached one to one.

When concrete carrying out earthing up construction to cement line pole root, with two banking up section of thick bamboo 1 cladding on line pole root, then carry out the operation of earthing up to banking up section of thick bamboo 1 periphery, promptly: mounting the support plate 5 on the sliding chute 7 and sliding to the bottom end of the ridging cylinder 1, mounting the support rod 6 on the support plate 5, then performing first-layer ridging, and performing tamping operation; then a supporting plate 5 and a supporting rod 6 are installed, the hilling operation of the second layer is carried out and compacted, and a plurality of supporting plates 5 are buried in the soil layer according to actual needs so as to improve the connection between the hilling cylinder 1 and the ground layer and prevent the hilling cylinder from overturning; after the peripheral ridging of the ridging cylinder 1 is completed, the ridging operation inside the ridging cylinder 1 is carried out, namely: with interior cavity 3 intussuseption and compaction, then pour the concrete in outer cavity 4, make the outer cavity 4 of two banks of earth with earth section of thick bamboo 1 be linked together through-hole A8, the concrete in the outer cavity 4 of two banks of earth section of thick bamboo 1 also can be connected as an organic wholely, has improved the support intensity of wife pole root base greatly through once setting up soil layer and concrete layer from inside to outside with the wife pole root base.

In addition, the soil cultivation cylinder 1 is buried in the soil layer, the soil cultivation cylinder 1 is firmly connected with the soil layer, the soil cultivation cylinder 1 supports the root of the line pole, and the line pole is further prevented from overturning.

The support rods 6 and the support plates 5 are embedded in the soil layer, so that the stability of the ridging cylinder 1 is greatly improved, as the optimization of the invention, in order to further improve the connection strength of the support rods 6 and the soil layer, as shown in fig. 4, a fixing piece 13 is connected between two adjacent support rods 6, the fixing piece 13 is in an arc shape, a plurality of through holes B14 are formed in the fixing piece 13 along the length direction of the fixing piece, connecting sleeves 12 are respectively arranged at two end parts of the fixing piece 13, and the connecting sleeves 12 are sleeved on the support rods 6; through setting up stationary blade 13, the area of contact of soil layer with the bracing piece has indirectly been increased to improve the stability of bracing piece in the soil layer.

In order to improve the strength of the banking cylinder, a plurality of reinforcing ribs are arranged in the outer cavity 4, the reinforcing ribs are made of reinforcing steel bars, two end parts of each reinforcing rib are welded on the partition plate and the side wall of the banking cylinder respectively, and the reinforcing ribs are buried in concrete so as to improve the strength of the banking cylinder.

After the wire pole is erected, in the long-term use process, the bottom end part of the wire pole, which is higher than the ground, is easy to break, and when it rains, the soil layer in the inner cavity of the soil-cultivating cylinder is easy to seep water, so in order to further reinforce the root base of the wire pole, an auxiliary support is also arranged on the upper end faces of the two soil-cultivating cylinders, as shown in fig. 3, the auxiliary support is composed of two semi-annular fixing plates 9, the two fixing plates 9 are correspondingly spliced to form a whole circular ring, the whole circular ring is positioned on the upper end faces of the two soil-cultivating cylinders 1, the inner hole of the whole circular ring is the same as the diameter of the wire pole hole, the central line of the whole circular ring is superposed with the central line of the wire pole hole, the inner side arc face of the fixing plate 9 upwards extends to form an extension part 10, the extension parts 10 on the two fixing plates are correspondingly spliced to form a hollow cylinder, and the.

The fixed plate 9 can play and shelter from the rainwater and enter into the inner cavity from a banking cylinder upper port, prevents that the soil layer from collapsing, and extension 10 plays the effect of supporting the protection to the wire pole root on the one hand, and on the other hand plays through spine 11 on it and prevents that animals such as snakes from climbing to the wire pole.

It should be noted that the fixing plate and the spine are made of metal, the soil-cultivating cylinder and the partition plate are made of metal, and the connecting sleeve and the fixing piece are also made of metal.

Claims

1. The utility model provides a be used for power line pole root anti-collapse earthing device which characterized in that: comprises two hollow semi-cylindrical culture cylinders and a supporting member, wherein the culture cylinders are of a hollow structure with the upper end and the lower end open, the two culture cylinders are correspondingly attached to form a hollow cylinder structure, a cylindrical hole formed by the inner side arc surfaces of the two culture cylinders is a wire rod hole for placing a wire rod root, an arc-shaped partition plate is arranged inside the culture cylinders and divides the inner space of the culture cylinders into an inner cavity and an outer cavity, an axial sliding groove is formed in the outer circular surface of the culture cylinders, the supporting member comprises a semi-annular supporting plate and a supporting rod, the inner side arc surface of the supporting plate is in contact with the outer side arc surface of the culture cylinders, a sliding block which is matched and connected in the sliding groove is arranged on the inner side arc surface of the supporting plate, the supporting plate can slide on the culture cylinders through the sliding of the sliding block in the sliding groove, a plurality of thread blind holes are formed in the outer side arc surface of the supporting plate, and the supporting rod is connected in the, the central axis of the supporting rod is vertical to the central axis of the soil cultivating cylinder; a plurality of through holes A communicated with the outer cavity are formed in the left end face and the right end face of each ridging cylinder, the through holes A are uniformly arranged at intervals along the axial direction, and the through holes A on the corresponding sides of the two ridging cylinders are correspondingly attached one by one; a fixing piece is connected between the two adjacent support rods, the fixing piece is in an arc shape, a plurality of through holes B are formed in the fixing piece along the length direction of the fixing piece, and connecting sleeves are respectively arranged at two end parts of the fixing piece and are sleeved on the support rods; still including setting up the auxiliary stay on two banking up section of thick bamboos up end, the auxiliary stay comprises two semi-annular fixed plates, forms whole ring after two fixed plates correspond the concatenation, and this whole ring is located the up end of two banking up section of thick bamboos, and the hole of whole ring with line pole hole diameter the same, the central line of whole ring and the coincidence of the central line in line pole hole, the inboard circular arc of fixed plate upwards extends and forms the extension, forms hollow cylinder after the extension on two fixed plates corresponds the concatenation.

2. The device for power line pole foundation collapse prevention hilling according to claim 1, characterized in that: a plurality of reinforcing ribs are arranged in the outer cavity, and two end parts of each reinforcing rib are welded on the partition plate and the side wall of the soil cultivation cylinder respectively.

3. The device for power line pole foundation collapse prevention hilling according to claim 1, characterized in that: the outer circular arc surface of the extension part is provided with a plurality of spines.

4. The device for power line pole foundation collapse prevention hilling according to claim 1, characterized in that: the fixed plate is made of metal.

5. The device for power line pole foundation collapse prevention hilling according to claim 1, characterized in that: the soil cultivation cylinder and the partition plate are made of metal materials.