CN111810498A - Multifunctional hoop for electric power cement pole - Google Patents

Abstract

The invention discloses a multifunctional hoop for an electric power cement pole, which comprises two fixed point structures, wherein flexible connecting bands are detachably arranged on two adjacent sides of the two fixed point structures; the fixed point structure comprises a supporting structure, the supporting structure comprises a flexible attaching edge used for attaching the cambered surface of the electric power cement pole, two ends of the flexible attaching edge are fixedly connected with rigid supporting edges, and sliding holes are formed in the rigid supporting edges; the two ends of the flexible connecting belt penetrate through the sliding holes in the rigid supporting edge and are connected through the buckles to form a closed loop, and an extrusion tightening mechanism used for squeezing the flexible connecting belt to the inner side to enable the flexible connecting belt to be tightened and bound on the electric power cement pole is installed on the rigid supporting edge. The looped flexible connecting band is contracted through the extrusion tightening mechanism, so that the flexible connecting band and the flexible attaching edge can be tightly bound on the electric power cement pole quickly.

Description

Multifunctional hoop for electric power cement pole

Technical Field

The invention relates to the technical field of electric power construction, in particular to a multifunctional hoop for an electric power cement pole.

Background

In the process of electric power construction, the electric power hoop is often used. The currently used hoop is mainly formed by connecting two sections of semicircular hoops through bolts, the diameter of the hoop is fixed, and in the actual maintenance process, tools such as a wrench and the like are needed for dismounting, so that time and labor are wasted, and the working efficiency is low; and according to the in service behavior of difference, need be equipped with the staple bolt of multiple specification, extravagant manpower and materials.

Application No. 201910642829.4 a basis staple bolt when being arranged in electric power construction fast tears open, its connecting piece that connects gradually through a plurality of heads and tails forms the staple bolt main part of chain form, connects through the grafting mode between the connecting piece to spacing groove card through making the different degree of depth in connector and the staple bolt connecting seat realizes the adjustment of single connecting piece length, thereby adjusts the holistic length of staple bolt.

Although the hoop can realize two functions of quick detachment and length adjustment of the hoop, the hoop still has the defect that the length adjustment process is mainly realized through the number of the connecting pieces and the installation length of the connecting pieces, so that the length adjustment process needs to disassemble or install a plurality of connecting pieces for preliminary fixation, and then the installation length of a single connecting piece is adjusted, so that more individual adjustment is realized, and the operation steps are repeated and complicated.

Disclosure of Invention

The invention aims to provide a multifunctional hoop for an electric power cement pole, which aims to solve the technical problem that operation steps are repeated and complicated due to the fact that a plurality of connectors need to be adjusted in sequence in the prior art.

In order to solve the technical problems, the invention specifically provides the following technical scheme:

the utility model provides a multi-functional staple bolt of electric power cement pole, includes:

the two fixed point structures are symmetrically arranged on the cement rod along the circumferential direction and comprise supporting structures, each supporting structure comprises a flexible attaching edge for attaching the cambered surface of the electric cement rod, rigid supporting edges are fixedly connected to two ends of each flexible attaching edge, and one ends, far away from the flexible attaching edges, of the two rigid supporting edges are connected through a cross rod, so that the supporting structures are trapezoidal; sliding holes are formed in the rigid supporting edges;

two ends of the flexible connecting belt sequentially penetrate through the sliding holes in the fixed point structure respectively, and the two ends of the flexible connecting belt are connected through a buckle to form a closed loop;

the extrusion tightening mechanism is arranged on the supporting structure and comprises an installation body fixedly connected to the top point between the rigid supporting sides, a plurality of independent arc-shaped extrusion plates are nested from top to bottom at equal intervals on the installation body, a plurality of positioning grooves are formed in the installation body at equal intervals, and the independent arc-shaped extrusion plates can slide linearly and are nested in the positioning grooves in a locking mode.

Optionally, the flexible attaching edge comprises an elastic rigid plate connected between the two rigid supporting edges, and a plurality of fan-shaped friction blocks are fixedly mounted on one side of the elastic rigid plate close to the electric power cement pole at equal intervals;

the fan-shaped friction block comprises a metal fan-shaped block, the surface of the metal fan-shaped block is provided with grains for increasing friction force, and the metal fan-shaped block is provided with a bending and shaping structure;

the bending and shaping structure comprises a plurality of special-shaped cards arranged on the side wall of the fan-shaped friction block and a plurality of extrusion sleeving grooves formed in the fan-shaped friction block, and the plurality of special-shaped cards and the plurality of extrusion sleeving grooves in the adjacent fan-shaped friction block are in one-to-one correspondence and are mutually nested, so that the adjacent fan-shaped friction blocks are mutually connected.

Optionally, the cross section of the special-shaped card is a right triangle, and the bevel edge of the special-shaped card is arranged towards the bottom of the extrusion sleeving groove;

when the extrusion sleeving groove extrudes the surface of the electric power cement rod, the deformed clamping sheet is extruded outwards by the deformation acting force generated by the extrusion sleeving groove, so that the static friction between the deformed clamping sheet and the electric power cement rod is increased.

Optionally, an included angle between extension lines of the two rigid supporting sides is smaller than or equal to a right angle.

Optionally, wave groove has all been seted up to the both sides of constant head tank install on the wave groove and can be driven to keeping away from the rotatory locking tooth of direction in wave groove, the locking tooth through reset shell fragment with the wave groove is connected, the both sides of independent arc stripper plate are all seted up and are used for the meshing the locking groove of locking tooth.

Optionally, the independent arc stripper plate includes the contact site that is close to electric power cement pole one end, and connects the contact site is nested the sliding part in the constant head tank, the locking groove is seted up in the sliding part, and adjacent the contact site contacts each other.

Optionally, the contact site is formed by two platelike structure joints, two platelike structure's opposite face difference fixed mounting have U-shaped lug and interlock groove, two platelike structures pass through U-shaped lug and interlock groove joint, the tank bottom in interlock groove with the U-shaped lug junction is rotated through the screw thread interlock and is installed the toper adjusting screw.

Optionally, the thickness of the U-shaped protrusion gradually decreases in a direction away from the contact surface with the engagement groove.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, the flexible connecting belt is connected to be sleeved on the electric power cement pole, and the flexible connecting belt and the flexible attaching edge can be tightly bound on the electric power cement pole quickly by compressing the tightening mechanism, in the process, the contraction amplitude of the flexible connecting belt can be controlled by compressing the tightening mechanism, so that the device has the function of adapting to the electric power cement poles with different diameters, and the device is flexibly bound, and the whole device can be completely disassembled only by disassembling the buckle of the flexible connecting belt, so that the device has the quick disassembling capability; and this device is owing to make the flexonics area, and accessible extrusion tightening mechanism carries out the layering extrusion to the flexonics area for the flexonics area produces the constraint face of slope to electric power cement pole, with the slight slope that adapts to different electric power cement pole surfaces and has.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

FIG. 1 is a top view of an overall structure in an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a sector friction block according to an embodiment of the present invention;

fig. 3 is a schematic structural view of the compression tightening mechanism in the embodiment of the present invention.

The reference numerals in the drawings denote the following, respectively:

1-site-directed structure; 2-flexible connecting band;

11-flexible attaching edges; 12-a rigid support edge; 13-a sliding hole; 14-a squeeze-and-tighten mechanism; 15-buckling;

111-elastic rigid plate; 112-sector friction block; 113-special-shaped cards; 114-extrusion sleeving grooves;

141-a mounting body; 142-arc-shaped extrusion plates; 143-wave grooves; 144-locking teeth; 145-locking groove; 146-a positioning groove;

1421-contact; 1422-sliding; 1423-U-shaped projection; 1424-bite groove; 1425-conical adjusting screw.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, the invention provides a multifunctional hoop for an electric power cement pole, which comprises two fixed point structures 1 symmetrically arranged on the cement pole along the circumferential direction;

the fixed point structure 1 comprises a supporting structure, the supporting structure comprises a flexible attaching edge 11 used for attaching the cambered surface of the electric power cement pole, two ends of the flexible attaching edge 11 are fixedly connected with rigid supporting edges 12, and one ends of the two rigid supporting edges 12 far away from the flexible attaching edge 11 are connected through a cross rod, so that the supporting structure is trapezoidal; the rigid supporting edges 12 are provided with sliding holes 13;

two ends of the flexible connecting belt 2 respectively penetrate through the sliding holes 13 on the fixed point structure 1 in sequence, and two ends of the flexible connecting belt 2 are connected through the buckles 15 to form a closed loop;

and the extrusion tightening mechanism 14 is arranged on the supporting structure.

In this embodiment, the squeezing and tightening mechanism 14 squeezes the looped flexible connecting band 2 inward, and the flexible connecting band 2 contracts inward of the supporting structure, so that the length of the flexible connecting band 2 bound to the electric power concrete pole area contracts, and the length of the portion of the flexible connecting band 2 outside the supporting structure shortens, so that the portion is bound to the electric power concrete pole together with the fixed point structure 1.

As shown in fig. 1 and 2, the flexible attaching edge 11 includes an elastic rigid plate 111 connected between two rigid supporting edges 12, and fan-shaped friction blocks 112 are fixedly mounted on the side surface of the elastic rigid plate 111 close to the electric power cement pole at equal intervals; the fan-shaped friction blocks 112 are made of metal fan-shaped blocks with lines on the surfaces for increasing friction force, and a bending and shaping structure is arranged between the adjacent fan-shaped friction blocks 112.

The bending and shaping structure comprises a plurality of special-shaped clamping pieces 113 arranged on the side wall of the fan-shaped friction block 112 and a plurality of extruding sleeving grooves 114 arranged on the fan-shaped friction block 112, wherein the plurality of special-shaped clamping pieces 113 and the plurality of extruding sleeving grooves 114 in the adjacent fan-shaped friction blocks 112 are in one-to-one correspondence and are mutually nested, so that the adjacent fan-shaped friction blocks 112 are mutually connected.

The cross section of the special-shaped card 113 is a right triangle, and the bevel edge of the special-shaped card 113 is arranged towards the bottom of the extrusion sleeving groove 114; when the extrusion sleeving groove 114 extrudes the surface of the electric cement pole, the deformed clamping sheet 113 is extruded outwards by the deformation acting force generated by the extrusion sleeving groove 114, so that the static friction between the deformed clamping sheet 113 and the electric cement pole is increased.

Under the extrusion and traction action of the looped flexible connecting belt 2, the elastic rigid plate 111 deforms to be attached to the electric power cement pole, and at the moment, the gap between the adjacent fan-shaped friction blocks 112 shrinks, so that the special-shaped card 113 is gradually nested in the extrusion sleeving groove 114 until the fan-shaped friction blocks 112 are fixed on the electric power cement pole.

At this time, the profile card 113 is embedded into the extrusion sleeving groove 114 to a deeper depth due to the following bending of the elastic rigid plate 111, and the profile card 113 presses the extrusion sleeving groove 114, so that the extrusion sleeving groove 114 area of the fan-shaped friction block 112 is slightly separated, and the fan-shaped friction block 112 acts on the surface of the power cement pole in a layered multi-point manner.

Moreover, the surface of the power cement pole is not completely in a straight cylinder shape, but has a certain slight slope on the surface, so when the layered structure of the fan-shaped friction blocks 112 is pressed on the surface, the fan-shaped friction block 112 at the bottommost layer is pressed and deformed most, and when the fan-shaped friction block 112 at the bottommost layer is deformed, the acting force generated by the deformation of the part can reversely extrude the special-shaped card 113, and at the moment, the special-shaped card 113 is pressed on the surface of the power cement pole under the action of the pressing.

In the process, the fan-shaped friction block 112, the special-shaped clamping pieces 113, the extrusion sleeving grooves 114 and other structures are adopted, flexible connection among the fan-shaped friction blocks 112 is achieved, the stability of the fan-shaped friction blocks 112 is enhanced, the acting area of extrusion on the electric power cement rod is enhanced through the cooperative extrusion of the fan-shaped friction blocks 112 and the special-shaped clamping pieces 113, the static friction force at the position is increased, and the longitudinal deformation acting force of the fan-shaped friction blocks 112 through the special-shaped clamping pieces 113 is converted into the transverse extrusion acting force

Wherein, the included angle between the extension lines of the two rigid supporting sides 12 is less than or equal to a right angle. So as to ensure that the flexible connecting belt 2 can effectively contact the surface of the power cement pole, and the smaller the included angle is, the larger the contact area between the flexible connecting belt 2 and the surface of the power cement pole is.

As shown in fig. 3, the squeezing and tightening mechanism 14 includes a mounting body 141 fixedly connected to the vertex between the rigid supporting sides 12, a plurality of independent arc-shaped squeezing plates 142 are nested in the mounting body 141 from top to bottom at equal intervals, a plurality of positioning slots 146 are formed in the mounting body 141 at equal intervals, and the independent arc-shaped squeezing plates 142 are nested in the positioning slots 146 in a linearly slidable and locked manner. Wave groove 143 has all been seted up in the both sides of constant head tank 146, installs the locking tooth 144 that can rotate to the direction of keeping away from wave groove 143 on wave groove 143, and locking tooth 144 is connected with wave groove 143 through the shell fragment that resets, and locking groove 145 that is used for meshing locking tooth 144 has all been seted up to the both sides of independent arc stripper plate 142.

By hinging on the side of the locking tooth 144 remote from the locking groove 145, the locking tooth 144 can move in this direction when moving away from the locking groove 145, and in the opposite direction, the edge of the other end of the locking tooth 144 is blocked by a structure on the wave groove 143, where the structure can be a protruding-like structure formed to block, so that it can only move away from the locking groove 145.

Through the occlusion of the special shapes of the locking groove 145 and the locking tooth 144, when the independent arc-shaped pressing plate 142 is manually pressed by external force, the independent arc-shaped pressing plate 142 slides to the left and presses the flexible connection band 2, the locking groove 145 presses the locking tooth 144 to the direction away from the locking groove 145, so that the locking tooth 144 rotates to the direction, thereby contacting the limitation of the sliding of the independent arc-shaped pressing plate 142, and thus the independent arc-shaped pressing plate 142 can slide to the left side and cannot slide to the right side.

Wherein, the independent arc-shaped pressing plate 142 includes a contact part 1421 for approaching one end of the power cement pole, and a sliding part 1422 connected to the contact part 1421 and nested in the positioning groove 146, the locking groove 145 is opened on the sliding part 1422, and the adjacent contact parts 1421 contact each other. The contact part 1421 is formed by two platelike structures joint, and two platelike structures's opposite face difference fixed mounting has U-shaped lug 1423 and interlock groove, and two platelike structures pass through U-shaped lug 1423 and interlock groove joint, and the tank bottom of interlock groove 1424 rotates through the screw interlock with U-shaped lug 1423 junction and installs toper adjusting screw 1425. The U-shaped protrusion 1423 has a thickness that gradually decreases away from the interface with the bite groove.

The contact area of the flexible connecting belt 2 is increased by arranging the contact part 1421, so that the flexible connecting belt is prevented from being damaged to a large extent; the tapered adjusting screw 1425 is a tapered screw with an inward vertex, and by rotating the tapered adjusting screw 1425, the tapered adjusting screw 1425 penetrates into a connection between the U-shaped protrusion 1423 and the bottom of the engagement groove 1424, so that the tapered adjusting screw extrudes the U-shaped protrusion 1423, the outer side of the engagement groove 1424 of the U-shaped protrusion 1423 slightly moves, the length of the contact portion 1421 slightly increases, and by means of the special shape of the U-shaped protrusion 1423, the outer side of the U-shaped protrusion 1423 moves more, so that the engagement effect of the engagement groove 1424 is tighter, and the stability of structural connection is improved.

The layering of the flexible connecting band 2 is pressed by a plurality of independent arc-shaped pressing plates 142, so that the binding area of the power cement pole of the flexible connecting band 2 presents a special contact surface.

For example, the topmost independent arc-shaped pressing plate 142 is slightly deviated to the left side relative to the other independent arc-shaped pressing plates 142, so that the bent part of the top end of the flexible connecting band 2 is more, the top end of the flexible connecting band 2 is more tightly contracted, the bound area of the flexible connecting band 2 is slightly inclined, the gradient of the surface of the power cement pole is adapted, and the device is more closely attached and more tightly bound.

The sliding part 1422 is adjusted to move left for a larger amplitude, the conical adjusting screw 1425 is adjusted to move left for a smaller amplitude, and the adjustment process is faster and more accurate and the fitting degree is higher due to the combined use of two different precision adjustments.

The detachable buckle 15 for connecting the flexible connecting band 2 may be composed of a connecting piece and a plurality of screws for fixing the connecting piece and the flexible connecting band 2.

In conclusion, the flexible connecting band 2 is connected to be sleeved on the electric power cement pole in a looped mode, the flexible connecting band 2 and the flexible attaching edge 11 are tightly bound on the electric power cement pole through contraction of the extrusion tightening mechanism 14, in the process, the contraction amplitude of the flexible connecting band 2 can be controlled through the extrusion tightening mechanism 14, so that the device has the function of adapting to the electric power cement poles with different diameters, the device is flexibly bound, only the buckle 15 of the flexible connecting band 2 needs to be disassembled, the whole device can be completely disassembled, and the device has the rapid disassembly capability; and this device is owing to make flexible connection area 2, accessible extrusion tightening mechanism 14 carries out the layering extrusion to flexible connection area 2 for flexible connection area 2 produces the constraint face of slope to the electric power cement pole, with the slight slope that adapts to different electric power cement pole surfaces and has.

The above embodiments are only exemplary embodiments of the present application, and are not intended to limit the present application, and the protection scope of the present application is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present application and such modifications and equivalents should also be considered to be within the scope of the present application.

Claims (8)

1. The utility model provides a multi-functional staple bolt of electric power cement pole which characterized in that includes:

the fixing point structures (1) are symmetrically arranged on the cement rod along the circumferential direction, each fixing point structure (1) comprises a supporting structure, each supporting structure comprises a flexible attaching edge (11) used for attaching the cambered surface of the power cement rod, rigid supporting edges (12) are fixedly connected to two ends of each flexible attaching edge (11), and one ends, far away from the flexible attaching edges (11), of the two rigid supporting edges (12) are connected through a cross rod, so that the supporting structures are trapezoidal; sliding holes (13) are formed in the rigid supporting edges (12);

the two ends of the flexible connecting belt (2) sequentially penetrate through the sliding holes (13) in the fixed point structure (1) respectively, and the two ends of the flexible connecting belt (2) are connected through a buckle (15) to form a closed loop;

the extrusion tightening mechanism (14) is arranged on the supporting structure and comprises an installation body (141) fixedly connected to the top point between the rigid supporting edges (12), a plurality of independent arc-shaped extrusion plates (142) are nested in the installation body (141) from top to bottom at equal intervals, a plurality of positioning grooves (146) are formed in the installation body (141) at equal intervals, and the independent arc-shaped extrusion plates (142) can be linearly slidably nested in the positioning grooves (146) in a locking mode.

2. The multifunctional hoop for electric power cement poles as claimed in claim 1, wherein the flexible attaching edge (11) comprises an elastic rigid plate (111) connected between the two rigid supporting edges (12), and a plurality of fan-shaped friction blocks (112) are fixedly installed on one side of the elastic rigid plate (111) close to the electric power cement pole at equal intervals;

the fan-shaped friction block (112) comprises a metal fan-shaped block, the surface of the metal fan-shaped block is provided with grains for increasing friction force, and a bending and shaping structure is arranged on the metal fan-shaped block;

the bending and shaping structure comprises a plurality of special-shaped clamping pieces (113) arranged on the side wall of the fan-shaped friction block (112) and a plurality of extruding and sleeving grooves (114) formed in the fan-shaped friction block (112), and the special-shaped clamping pieces (113) and the extruding and sleeving grooves (114) in the adjacent fan-shaped friction blocks (112) are in one-to-one correspondence and are mutually nested, so that the adjacent fan-shaped friction blocks (112) are mutually connected.

3. The multifunctional hoop for electric power cement poles as claimed in claim 2, wherein the cross section of the special-shaped clamp (113) is a right triangle, and the inclined edge of the special-shaped clamp (113) is arranged towards the bottom of the extrusion sheathing groove (114);

when the extrusion sleeving groove (114) is extruded on the surface of the electric cement rod, the deformed clamping sheet (113) is extruded outwards by the deformation acting force generated by the extrusion sleeving groove (114), so that the static friction between the deformed clamping sheet (113) and the electric cement rod is increased.

4. The multifunctional hoop for electric power cement poles as claimed in claim 2, wherein the included angle between the extension lines of the two rigid supporting sides (12) is less than or equal to a right angle.

5. The multifunctional hoop for electric power cement poles as claimed in claim 1, wherein wave grooves (143) are formed in both sides of the positioning groove (146), locking teeth (144) which can be driven to rotate in a direction away from the wave grooves (143) are mounted on the wave grooves (143), the locking teeth (144) are connected with the wave grooves (143) through reset spring pieces, and locking grooves (145) for engaging the locking teeth (144) are formed in both sides of the independent arc-shaped pressing plate (142).

6. The multifunctional hoop for electric power cement poles as claimed in claim 5, wherein the independent arc-shaped extrusion plate (142) comprises a contact part (1421) near one end of the electric power cement pole, and a sliding part (1422) connected to the contact part (1421) and nested in the positioning groove (146), the locking groove (145) is opened on the sliding part (1422), and the adjacent contact parts (1421) are contacted with each other.

7. The multifunctional hoop for electric power cement poles as claimed in claim 6, wherein the contact portion (1421) is formed by two plate-like structures which are clamped together, the opposite surfaces of the two plate-like structures are fixedly provided with a U-shaped protrusion (1423) and a meshing groove respectively, the two plate-like structures are clamped together through the U-shaped protrusion (1423) and the meshing groove, and the joint of the groove bottom of the meshing groove (1424) and the U-shaped protrusion (1423) is rotatably provided with a tapered adjusting screw (1425) through threaded meshing.

8. The multifunctional hoop for electric cement poles as claimed in claim 7, wherein the thickness of said U-shaped protrusions (1423) is gradually decreased in a direction away from the contact surface with said engaging groove.

Images