CN204266671U - A kind of electric power pylon adjusting device - Google Patents

Abstract

The utility model discloses a kind of electric power pylon adjusting device, be arranged between the tower leg of electric power pylon and corresponding basis, comprise: the first bearing, the second bearing, three abutments, telescopic connecting rod, multiple adjusting bolt and multiple nut.The utility model is by being connected to the first bearing, the second bearing, connecting rod, three abutments in turn from top to bottom between the tower leg of electric power pylon and basis, first bearing is connected by multiple adjusting bolt with the second bearing, and each adjusting bolt is positioned at the first bearing up and down, the second bearing is respectively provided with nut up and down, reserve certain space by between the first bearing and the second bearing, the second bearing realizes being flexibly connected by telescopic connecting rod with three abutments; When ground run-off the straight, suitably can adjust the nut in each adjusting bolt, space is changed flexibly, the tower body that in time levelling is tilted, the distortion avoiding the lasting inclination of electric power pylon to cause or topple over, ensure the safe operation of transmission line of electricity.

Description

A kind of electric power pylon adjusting device

Technical field

The utility model relates to electric power pylon construction applications, particularly a kind of electric power pylon adjusting device.

Background technology

Along with the development of power grid construction, transmission line of electricity day is becoming tight, electric power pylon often need build the mining influence district in mining area, due to mining influence, district affects by mining, and its complex geologic conditions is changeable, movement and distortion under easy spot, cause the differential settlement on earth's surface, therefore be easy to the basic run-off the straight and the cracking that cause electric power pylon, the parts such as the tower body making basis drive the top, basis of electric power pylon to connect deform, or even topple over.

In the middle of prior art, the phenomenons such as the tower body inclining that tiltedly causes of collapsing for ground, the tower body that not relevant facility realizes tilting is aligned, and makes the construction of transmission line of electricity in mining influence district and long-term safety run comparatively difficulty.

Realizing in process of the present utility model, inventor finds that prior art at least exists following problem:

When the electric power pylon of prior art tilts with collapsing tiltedly of ground, people can not carry out correction levelling to it in time, therefore easily cause the lasting inclination of electric power pylon, thus formation distortion is even toppled over, the safe operation of serious threat transmission line of electricity and the personal safety of ground pedestrian.

Utility model content

In order to the electric power pylon solving prior art tilt after the problem that can not align, the utility model embodiment provides a kind of electric power pylon adjusting device.Described technical scheme is as follows:

A kind of electric power pylon adjusting device, be arranged between the tower leg of electric power pylon and corresponding basis, described electric power pylon adjusting device comprises: the first bearing, second bearing, three abutments, telescopic connecting rod, multiple adjusting bolt and multiple nut, the top of described first bearing is fixedly connected with the lower end of described tower leg, described first bearing, described second bearing, described three abutments is arranged from top to bottom in turn, multiple described adjusting bolt is all located in the bottom of described first bearing and the top of described second bearing, and each described adjusting bolt is positioned at the both sides up and down of described first bearing, the both sides up and down of described second bearing are provided with described nut, space is provided with between the lower surface of described first bearing and the upper surface of described second bearing, described connecting rod is arranged between described second bearing and described three abutments, and described connecting rod two ends respectively with described second bearing, described three abutments connects, the lower end of described three abutments is fixedly connected with described basis.

Further, described connecting rod comprises the first supporting leg, the second supporting leg and multiple fastening bolt, the upper end of described first supporting leg is connected with the lower end of described second bearing, described first supporting leg and described second supporting leg are provided with multiple keyhole vertically, each described fastening bolt is located in the keyhole of described first supporting leg and the keyhole of described second supporting leg all successively, described first supporting leg is fixedly connected with described second supporting leg, and the lower end of described second supporting leg is fixedly connected with described three abutments.

Further, be provided with 6-14 described keyhole on described first supporting leg, on described second supporting leg, and the distance between every two described keyholes is 60-80mm.

Alternatively, multiple described connecting rod is provided with between described second bearing and described three abutments, the two ends of each described connecting rod are connected with the upper surface of the lower surface of described second bearing, described three abutments is vertical respectively, and multiple described connecting rod is evenly arranged along the lower surface of described second bearing.

Particularly, described first bearing comprises the first column foot plate and multiple first stiffener, described first column foot plate is positioned at the bottom of described tower leg, multiple described first stiffener is fixedly connected on the upper surface of described first column foot plate, and multiple described first stiffener is evenly arranged around described tower leg, each described first stiffener is all fixedly connected with described tower leg, and multiple described adjusting bolt is all located on described first column foot plate.

Particularly, described second bearing comprises the second column foot plate and multiple second stiffener, described second column foot plate level is arranged, each described adjusting bolt is all located in described first column foot plate, the second column foot plate, the lower surface being fixedly connected on described second column foot plate that described first supporting leg, each described second stiffener are all vertical, multiple described second stiffener is evenly arranged around described first supporting leg, and each described second stiffener is all fixedly connected with described first supporting leg.

Particularly, described three abutments comprises the 3rd column foot plate and multiple 3rd stiffener, described second supporting leg, the upper surface being fixedly connected on described 3rd column foot plate that each described 3rd stiffener is all vertical, multiple described 3rd stiffener is evenly arranged around described second supporting leg, and each described 3rd stiffener is all fixedly connected with described second supporting leg, the upper surface being fixedly connected on described basis that described 3rd column foot plate is parallel.

Alternatively, described first supporting leg and described second supporting leg are angle steel.

The beneficial effect that the technical scheme that the utility model embodiment provides is brought is:

The utility model is by between bottom that the first bearing, the second bearing, connecting rod, three abutments are connected to the tower leg of electric power pylon from top to bottom in turn and basis, first bearing is connected by adjusting bolt with the second bearing, and adjusting bolt is positioned at the first bearing up and down, the second bearing is respectively provided with nut up and down, reserve certain space by between the first bearing and the second bearing, the second bearing realizes being flexibly connected by telescopic connecting rod with three abutments; When ground produce certain collapse oblique time, suitably can adjust in each adjusting bolt according to the incline direction of tower body and be positioned at the upper and lower nut of the first bearing, strengthen the space on the direction of tower body inclining between the first bearing and the second bearing, turn space therebetween in the opposite direction of tower body inclining down simultaneously, the tower body of inclination is enable just to return, namely electric power pylon is aligned, electric power pylon is avoided to cause distortion because continuation tilts or topple over, enable transmission line of electricity keep safe operation, and avoid because electric power pylon is toppled over the injury that ground pedestrian causes;

And, when immerge under surface collapse makes electric power pylon, the overall length of the telescopic connecting rod between the second bearing and three abutments can be tuned up, vertical distance between each tower leg and basis is increased, therefore, even if immerge, also the distance that tower body sinks can be reduced, and keep original height as far as possible, make still to keep a safe distance between power line and ground, do not affect the safety of ground pedestrian.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the utility model embodiment, below the accompanying drawing used required in describing embodiment is briefly described, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of the electric power pylon adjusting device that the utility model embodiment provides;

Fig. 2 is the sectional view of the first bearing that the another embodiment of the utility model provides;

Fig. 3 is the distribution schematic diagram of the adjusting bolt that the another embodiment of the utility model provides;

Fig. 4 is the sectional view that the second bearing that the another embodiment of the utility model provides is connected with connecting rod;

Wherein: 1 tower leg, 11 main materials, 12 oblique materials,

2 first bearings, 21 first stiffeners, 22 first column foot plates, 221 perforation,

3 second bearings, 31 second column foot plates, 32 second stiffeners,

4 three abutments, 41 the 3rd stiffeners, 42 the 3rd column foot plates,

5 adjusting bolts,

6 nuts,

7 connecting rods, 71 first supporting legs, 72 second supporting legs, 73 fastening bolts, 74 keyholes,

8 stone bolt,

9 bases.

Detailed description of the invention

For making the purpose of this utility model, technical scheme and advantage clearly, below in conjunction with accompanying drawing, the utility model embodiment is described in further detail.

Embodiment one

As shown in Figure 1, also can see Fig. 2, Fig. 3 and Fig. 4, the utility model embodiment provides a kind of electric power pylon adjusting device, be arranged between the tower leg 1 of electric power pylon and corresponding basis 9, described electric power pylon adjusting device comprises: the first bearing 2, second bearing 3, three abutments 4, telescopic connecting rod 7, multiple adjusting bolt 5 and multiple nut 6, the top of described first bearing 2 is fixedly connected with the lower end of described tower leg 1, described first bearing 2, described second bearing 3, described three abutments 4 is arranged from top to bottom in turn, multiple described adjusting bolt 5 is all located in the bottom of described first bearing 2 and the top of described second bearing 3, and each described adjusting bolt 5 is positioned at the both sides up and down of described first bearing 2, the both sides up and down of described second bearing 3 are provided with described nut 6, space is provided with between the lower surface of described first bearing 2 and the upper surface of described second bearing 3, described connecting rod 7 is arranged between described second bearing 3 and described three abutments 4, and described connecting rod 7 two ends respectively with described second bearing 3, described three abutments 4 connects, the lower end of described three abutments 4 is fixedly connected with described basic 9.

Wherein, electric power pylon comprises the surrounding of multiple tower leg 1 its vertical center line discrete, and each tower leg 1 carries main vertical pressure by main material 11, and the main material 11 of two adjacent tower legs 1 intersects fixing by multiple oblique material 12, stablizes electric power pylon.

The utility model is preferably arranged between basis 9 corresponding to each tower leg 1 and tower leg 1 time, wherein, first bearing 2 top is all fixedly connected with oblique material 12 with the main material 11 of tower leg 1, bottom is connected by multiple adjusting bolt 5 and nut 6 with the second bearing 3, space is provided with between first bearing 2 and the second bearing 3, this space can by adjusting bolt 5 and nut 6 flexible modulation size, first bearing 2 bottom and the second bearing 3 top are provided with multiple perforation 221 all uniformly, accordingly, each adjusting bolt 5 is located in the first bearing 2, in the perforation 221 of both the second bearings 3, and in the both sides up and down of the first bearing 2, the both sides up and down of the second bearing 3 are all provided with nut 6, preferred bolt head is positioned at the below of the second bearing 3 simultaneously, and the nut 6 saved below the second bearing 3, wherein the second bearing 3 is fixedly connected with adjusting bolt 5, the nut 6 of the first bearing about 2 both sides can according to the inclination of tower body, by staff, flexibly adjustment is moved to it, namely the space on the direction of tower body inclining between the first bearing 2 and the second bearing 3 is strengthened, turn space therebetween in the opposite direction of tower body inclining down simultaneously, in time the tower body of inclination is just returned, the distortion avoiding the continuation of electric power pylon to tilt to cause or topple over, transmission line of electricity is enable to keep safe operation, and avoid because electric power pylon is toppled over the personal injury that ground pedestrian causes.

Wherein, adjusting bolt 5 preferably 12 or 16, each adjustable altitude range is 0-100mm, and size that also can be stressed according to the tower leg 1 above it adjusts the diameter of this adjusting bolt 5, material and number thereof; Nut 6 on the downside of first bearing 2 plays a supportive role to the first bearing 2, upside preferably two nuts 6 of the first bearing 2, when needing the nut 6 on the upside of adjustment first bearing 2, first one that is positioned at top in two these nuts can be unscrewed, unscrew again be positioned at below that, add the stability of the first bearing 2 during the nut 6 on the upside of adjustment first bearing 2, ensure that the safety of staff in the process of adjusting nut 6.

Second bearing 3 is connected by telescopic connecting rod 7 with between three abutments 4, three abutments 4 is fixed on basis 9 by stone bolt 8, second bearing 3 can move up and down relative to three abutments 4, when the basis 9 under surface collapse makes electric power pylon sinks, the overall length of the telescopic connecting rod 7 between the second bearing 3 and three abutments 4 can be tuned up, vertical distance between each tower leg 1 and basis 9 is increased, therefore, even if basis 9 sinks, also the distance that tower body sinks can be reduced, and keep original height as far as possible, make still to keep a safe distance between power line and ground, do not affect the safety of ground pedestrian, the utility model can bear larger load, safety, stability is higher, can be applicable to carry on the electric power pylon of extra-high piezoelectricity.

Embodiment two

As shown in Figure 1, also can see Fig. 2, Fig. 3 and Fig. 4, the another embodiment of the utility model provides a kind of electric power pylon adjusting device, be arranged between the tower leg 1 of electric power pylon and corresponding basis 9, described electric power pylon adjusting device comprises: the first bearing 2, second bearing 3, three abutments 4, telescopic connecting rod 7, multiple adjusting bolt 5 and multiple nut 6, the top of described first bearing 2 is fixedly connected with the lower end of described tower leg 1, described first bearing 2, described second bearing 3, described three abutments 4 is arranged from top to bottom in turn, multiple described adjusting bolt 5 is all located in the bottom of described first bearing 2 and the top of described second bearing 3, and each described adjusting bolt 5 is positioned at the both sides up and down of described first bearing 2, the both sides up and down of described second bearing 3 are provided with described nut 6, space is provided with between the lower surface of described first bearing 2 and the upper surface of described second bearing 3, described connecting rod 7 is arranged between described second bearing 3 and described three abutments 4, and described connecting rod 7 two ends respectively with described second bearing 3, described three abutments 4 connects, the lower end of described three abutments 4 is fixedly connected with described basic 9.

As shown in Figure 1, further, described connecting rod 7 comprises the first supporting leg 71, second supporting leg 72 and multiple fastening bolt 73, the upper end of described first supporting leg 71 is connected with the lower end of described second bearing 3, described first supporting leg 71 and described second supporting leg 72 are provided with multiple keyhole 74 vertically, each described fastening bolt 73 is located in the keyhole 74 of described first supporting leg 71 all successively with in the keyhole 74 of described second supporting leg 72, described first supporting leg 71 is fixedly connected with described second supporting leg 72, and the lower end of described second supporting leg 72 is fixedly connected with described three abutments 4.

Wherein, first supporting leg 71 is positioned at above the second supporting leg 72, therebetween carry out fastening in upper keyhole 74 arranged both being penetrated by fastening bolt 73, first supporting leg 71 and the second supporting leg 72 are also provided with multiple keyhole 74 for subsequent use, the length of lap position is connected with the second supporting leg 72 for regulating the first supporting leg 71, namely the first supporting leg 71 upper end is to the overall length of the second supporting leg 72 lower end, distance between tower leg 1 to basis 9 is controlled flexibly, namely, the height of the fitness of environment adjustment electric power pylon residing for electric power pylon, make always to keep a safe distance between power line and ground.

As shown in Figure 1, further, on described first supporting leg 71, described second supporting leg 72 is provided with 6-14 described keyhole 74, and the distance between every two described keyholes 74 is 60-80mm, between second bearing 3 and three abutments 4, adjustable altitude range is 0-1040mm, and can the performance of flexible modulation in conjunction with adjusting bolt 5 between above-mentioned first bearing 2 and the second bearing 3 and nut 6, overall height adjustable range of the present utility model is 0-1140mm, and be 0 ° to 20 ° to the angle of inclination adjustable range of tower body, the variation of the geological environment in mining influence district can be adapted to well.

As shown in Figure 1, also can see Fig. 4, alternatively, multiple described connecting rod 7 is provided with between described second bearing 3 and described three abutments 4, the two ends of each described connecting rod 7 are connected with the upper surface of the lower surface of described second bearing 3, described three abutments 4 is vertical respectively, and multiple described connecting rod 7 is evenly arranged along the lower surface of described second bearing 3.

Wherein, above-mentioned connecting rod 7 preferably 4, be uniformly distributed and be fixedly connected on the lower surface of the second bearing 3, both reduce load suffered by each connecting rod 7 by uniform for its full payload in each connecting rod 7, improve the safety of each connecting rod 7, the opposing rigidity of bending and torsion of the present utility model can be increased again, therefore, the utility model can also be applicable to the very large UHV transmission steel tower of load, and has higher degree of safety and practicality.

As shown in Figure 1, also can see Fig. 2, particularly, described first bearing 2 comprises the first column foot plate 22 and multiple first stiffener 21, described first column foot plate 22 is positioned at the bottom of described tower leg 1, and multiple described first stiffeners 21 are fixedly connected on the upper surface of described first column foot plate 22, and multiple described first stiffener 21 is evenly arranged around described tower leg 1, each described first stiffener 21 is all fixedly connected with described tower leg 1, and multiple described adjusting bolt 5 is all located on described first column foot plate 22.

Wherein, multiple first stiffener 21 is arranged around each tower leg 1, and the first stiffener 21 preferably 4, main material 11, is tiltedly bolted between material 12 and the first stiffener 21, first stiffener 21 is vertically welded in the upper surface of the first column foot plate 22, is fixedly connected with by tower leg 1 with the first bearing 2.

As shown in Figure 1, also can see Fig. 4, particularly, described second bearing 3 comprises the second column foot plate 31 and multiple second stiffener 32, described second column foot plate 31 is horizontally disposed with, each described adjusting bolt 5 is all located in described first column foot plate 22, second column foot plate 31, described first supporting leg 71, the lower surface being fixedly connected on described second column foot plate 31 that each described second stiffener 32 is all vertical, multiple described second stiffener 32 is evenly arranged around described first supporting leg 71, and each described second stiffener 32 is all fixedly connected with described first supporting leg 71.

Wherein, when connecting rod 7 is provided with multiple, corresponding connection at least two the second stiffeners 32 on first supporting leg 71 of each connecting rod 7, each first supporting leg 71 and the second stiffener 32 are all vertically welded in the soffit of the second column foot plate 31, guarantee the coupling stiffness of each first supporting leg 71 and the second column foot plate 31.

As shown in Figure 1, particularly, described three abutments 4 comprises the 3rd column foot plate 42 and multiple 3rd stiffener 41, described second supporting leg 72, the upper surface being fixedly connected on described 3rd column foot plate 42 that each described 3rd stiffener 41 is all vertical, multiple described 3rd stiffener 41 is evenly arranged around described second supporting leg 72, and each described 3rd stiffener 41 is all fixedly connected with described second supporting leg 72, what described 3rd column foot plate 42 was parallel is fixedly connected on the described upper surface of basic 9.

Wherein, when connecting rod 7 is provided with multiple, corresponding connection at least two the 3rd stiffeners 41 on second supporting leg 72 of each connecting rod 7, each second supporting leg 72 and the 3rd stiffener 41 are all vertically welded in the upper surface of the 3rd column foot plate 42, guarantee the coupling stiffness of each second supporting leg 72 and the 3rd column foot plate 42; 3rd column foot plate 42 is connected with basis 9 by stone bolt 8, and this stone bolt 8 can select 8,12,16, and its diameter is preferably 1.25 times of the diameter of the stone bolt commonly used, and to guarantee between the utility model with basic 9 firm is connected.

Alternatively, described first supporting leg 71 is angle steel with described second supporting leg 72.Angle steel is the rectangular steel of both sides orthogonal one-tenth dihedral, in use has good solderability and higher rigidity of section, can bear larger load, and make the utility model not only assemble convenient and have good reliability, practical value is remarkable; First supporting leg 71 of the present utility model and the second supporting leg 72 also can use the materials such as channel-section steel.

The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (8)

1. an electric power pylon adjusting device, be arranged between the tower leg of electric power pylon and corresponding basis, it is characterized in that, described electric power pylon adjusting device comprises: the first bearing, second bearing, three abutments, telescopic connecting rod, multiple adjusting bolt and multiple nut, the top of described first bearing is fixedly connected with the lower end of described tower leg, described first bearing, described second bearing, described three abutments is arranged from top to bottom in turn, multiple described adjusting bolt is all located in the bottom of described first bearing and the top of described second bearing, and each described adjusting bolt is positioned at the both sides up and down of described first bearing, the both sides up and down of described second bearing are provided with described nut, space is provided with between the lower surface of described first bearing and the upper surface of described second bearing, described connecting rod is arranged between described second bearing and described three abutments, and described connecting rod two ends respectively with described second bearing, described three abutments connects, the lower end of described three abutments is fixedly connected with described basis.

2. electric power pylon adjusting device according to claim 1, it is characterized in that, described connecting rod comprises the first supporting leg, the second supporting leg and multiple fastening bolt, the upper end of described first supporting leg is connected with the lower end of described second bearing, described first supporting leg and described second supporting leg are provided with multiple keyhole vertically, each described fastening bolt is located in the keyhole of described first supporting leg and the keyhole of described second supporting leg all successively, described first supporting leg is fixedly connected with described second supporting leg, and the lower end of described second supporting leg is fixedly connected with described three abutments.

3. electric power pylon adjusting device according to claim 2, is characterized in that, be provided with 6-14 described keyhole, and the distance between every two described keyholes is 60-80mm on described first supporting leg, on described second supporting leg.

4. electric power pylon adjusting device according to claim 3, it is characterized in that, multiple described connecting rod is provided with between described second bearing and described three abutments, the two ends of each described connecting rod are connected with the upper surface of the lower surface of described second bearing, described three abutments is vertical respectively, and multiple described connecting rod is evenly arranged along the lower surface of described second bearing.

5. the electric power pylon adjusting device according to any one of claim 2-4, it is characterized in that, described first bearing comprises the first column foot plate and multiple first stiffener, described first column foot plate is positioned at the bottom of described tower leg, multiple described first stiffener is fixedly connected on the upper surface of described first column foot plate, and multiple described first stiffener is evenly arranged around described tower leg, each described first stiffener is all fixedly connected with described tower leg, and multiple described adjusting bolt is all located on described first column foot plate.

6. electric power pylon adjusting device according to claim 5, it is characterized in that, described second bearing comprises the second column foot plate and multiple second stiffener, described second column foot plate level is arranged, each described adjusting bolt is all located in described first column foot plate, the second column foot plate, the lower surface being fixedly connected on described second column foot plate that described first supporting leg, each described second stiffener are all vertical, multiple described second stiffener is evenly arranged around described first supporting leg, and each described second stiffener is all fixedly connected with described first supporting leg.

7. electric power pylon adjusting device according to claim 6, it is characterized in that, described three abutments comprises the 3rd column foot plate and multiple 3rd stiffener, described second supporting leg, the upper surface being fixedly connected on described 3rd column foot plate that each described 3rd stiffener is all vertical, multiple described 3rd stiffener is evenly arranged around described second supporting leg, and each described 3rd stiffener is all fixedly connected with described second supporting leg, the upper surface being fixedly connected on described basis that described 3rd column foot plate is parallel.

8. electric power pylon adjusting device according to claim 7, is characterized in that, described first supporting leg and described second supporting leg are angle steel.