CN111064154A

CN111064154A - Adjustable telegraph pole

Info

Publication number: CN111064154A
Application number: CN201911420837.0A
Authority: CN
Inventors: 张孟
Original assignee: Qingdao Hairp Electric Power Technology Co ltd
Current assignee: Qingdao Hairp Electric Power Technology Co ltd
Priority date: 2019-12-31
Filing date: 2019-12-31
Publication date: 2020-04-24
Anticipated expiration: 2039-12-31
Also published as: CN111064154B

Abstract

The invention relates to an adjustable telegraph pole, which comprises a pole body arranged vertically, wherein the top of the pole body is provided with a wiring component for fixing an electric wire, the wiring component consists of two wiring pieces, one end of each wiring piece is movably arranged on the pole body, the other end of each wiring piece is connected with the electric wire, each wiring piece is connected with an A adjusting component, and the A adjusting components are used for adjusting the distance between the two wiring pieces and the connecting end of the electric wire. Meanwhile, the photovoltaic power generation device can realize that the photovoltaic power generation is used for self energy supply, can also adjust the sun-facing angle of the photovoltaic panels, can adjust the closing of the two photovoltaic panels, realizes the protection of the light receiving surfaces of the photovoltaic panels, and meets the current use requirements.

Description

Adjustable telegraph pole

Technical Field

The invention relates to a power grid component, in particular to an adjustable telegraph pole.

Background

The utility pole is a pole for erecting electric wires as the name implies. It appears in every countryside-field-road-street, and is one of the important infrastructures in the early China. Early utility poles were all started from wooden poles, even including high voltage poles that were not too high in voltage rating. Later, due to the development of steel and reinforced concrete and the technical requirements, the two materials replace most of wooden poles, applicable wood is gradually scarce, and the wooden poles are basically difficult to see in cities. However, the telephone line is erected in some less developed places and a wood pole is also used because the wood pole is light in weight and convenient to erect, the bearing and the tension of the telephone line are small, the wood pole can be competent, and the pole can be conveniently moved if the telephone line is changed. Therefore, there are also parts of wooden telephone poles.

The electric wire length of reserving between present general adjacent wire pole is certain, but in some areas that the great environment of difference in temperature is comparatively abominable, because the reason of expend with heat and contract with cold, different seasons, electric wire length between the adjacent wire pole can become to shorten or extend, in the area of the northwest of our country, it is comparatively cold wind-force in winter great, electric wire between the adjacent wire pole or shorten, lead to adjacent wire pole atress great, blow down the wire pole very easily when wind-force is too big, so need one kind now when can be according to different seasons different temperatures, adjust electric wire length between the adjacent wire pole to reasonable.

Disclosure of Invention

The invention aims to provide an adjustable telegraph pole, and aims to adjust the length of wires between adjacent telegraph poles according to the temperature conditions in different seasons, so that each telegraph pole and each wire are stably stressed and have strong wind resistance.

The technical scheme adopted by the invention is as follows.

The utility model provides a wire pole with adjustable, is provided with the wiring subassembly that is used for fixed electric wire including the body of rod that the form was arranged immediately, body of rod top, and the wiring subassembly comprises two wiring pieces, and wiring piece one end movable mounting is on the body of rod, and the electric wire is connected to the other end, and A adjusting part is connected to the wiring piece, and A adjusting part is used for adjusting the interval between two wiring pieces and the electric wire link.

Preferably: the wiring components are arranged at intervals along the direction a, and the direction a is perpendicular to the length direction of the rod body.

Preferably: two wiring pieces are the splayed and arrange, and two wiring piece upper ends are articulated at the body of rod top through A1 articulated shaft, and the axial a direction of A1 articulated shaft is unanimous, and two wiring piece lower extremes and electric wire connection, A adjusting part are used for adjusting two wiring pieces and rotate around A1 articulated shaft.

Preferably: a regulating assembly includes two support pieces and lifting unit, and two support pieces are the splayed and arrange, and correspond with two wiring pieces and arrange, and the support piece upper end is passed through B1 articulated shaft and is connected with the rotation in the middle part of the wiring piece, and the support piece lower extreme passes through the C1 articulated shaft and articulates on lifting unit, and the axial of B1 articulated shaft and C1 articulated shaft all is unanimous with the axial of A1 articulated shaft, and lifting unit is used for ordering about the support piece lower extreme and goes up and down.

Preferably: the lifting assembly comprises a screw, the length direction of the screw is consistent with the length direction of the rod body, the lower end of the screw is connected with the driving assembly, the screw is provided with a nut sleeve, and the lower ends of the two supporting pieces are hinged on the nut sleeve through a C1 hinged shaft.

Preferably: the one end of wiring spare and connection of electric lines is provided with buffering connector, and buffering connector includes the spring, and spring one end is passed through the ball hinge and is fixed at wiring spare tip, and the other end passes through ball hinge connection vase.

Preferably: the photovoltaic power generation mechanism is still equipped with in the middle part of the body of rod, photovoltaic power generation mechanism includes photovoltaic board group and B adjusting part, photovoltaic board group includes two photovoltaic boards, photovoltaic board group rotates through A2 pivot and installs on the support, the support is fixed on the body of rod, A2 pivot horizontal arrangement, two photovoltaic board side opposite arrangement, two adjacent limit portion of photovoltaic board are articulated through the articulated axle of B2, B adjusting part is used for adjusting the contained angle between two photovoltaic board planes and the contained angle between photovoltaic board plane and the horizontal plane.

Preferably: b adjusting part includes two support arms and regulating element, two support arm one end are rotated and are installed in A2 pivot, the back of one end is kept away from each other to two support arm other ends through C2 articulated shafts articulated two photovoltaic boards respectively, A2 pivot, the axial of B2 articulated shaft and C2 articulated shaft is all unanimous, regulating element adjusts B2 articulated shaft and is close to or keeps away from A2 pivot, realize adjusting two photovoltaic boards and rotate around B2 articulated shaft, realize adjusting the contained angle between two photovoltaic board faces, regulating element adjusts photovoltaic board group and rotates around A2 pivot, realize adjusting the contained angle of two photovoltaic board faces and horizontal plane.

Preferably: the adjusting unit comprises a B1 telescopic piece and a B2 telescopic piece, the fixed end of the B1 telescopic piece is installed on the A2 rotating shaft, the movable end of the B2 telescopic piece is installed on the B2 hinged shaft, the telescopic direction of the B1 telescopic piece is perpendicular to the axial direction of the B2 hinged shaft, the movable end of the B2 telescopic piece is hinged to the fixed end of the B1 telescopic piece through the D2 hinged shaft, the D2 hinged shaft is located between the A2 rotating shaft and the B2 hinged shaft, the fixed end of the B2 telescopic piece is hinged to the support through the E2 hinged shaft, the axial directions of the D2 hinged shaft and the E2 hinged shaft are axially consistent with the A2 rotating shaft, and the telescopic directions of the B1 telescopic piece and the B2.

Preferably: the control box is installed to body of rod bottom, and control box and photovoltaic power generation mechanism and drive assembly electric connection.

The invention has the technical effects that: through the setting of wiring subassembly, the installation function of electric wire has been realized, through the setting of A regulating assembly, realize adjusting the interval between two wiring pieces and the electric wire link, when using, reserve the electric wire with certain length between two wiring pieces and the electric wire link, when the temperature is lower, the one end that A regulating assembly adjusted two wiring pieces and electric wire link is kept away from each other, make electric wire length between the adjacent wire pole lengthen, compensate because the electric wire length part of shrinkage, when the temperature is higher, the one end that A regulating assembly adjusted two wiring pieces and electric wire link is close to each other, make electric wire length between the adjacent wire pole shorten, compensate because the electric wire length part of thermal expansion, make no matter under what kind of temperature condition can all realize that the electric wire between the adjacent wire pole is in suitable length.

Through the setting of a plurality of wiring subassemblies, realize setting up the function of many electric wires.

Through the setting that A1 articulated shaft hinged at the body of rod top on the wiring piece for adjust the interval between two wiring pieces and the electric wire link, only need adjust two wiring pieces around A1 articulated shaft rotate both can, realize the convenience, it is convenient to control.

Through support piece's setting, realized the support function to the wiring piece, through lifting unit's setting, order about the lift of support piece lower extreme simultaneously, both accessible support piece orders about the wiring piece around A1 articulated shaft pivoted function, and it is convenient to realize, rationally distributed, the transmission is stable.

Through the setting of screw rod and nut cover, the screw rod rotates and both can realize the function that drive nut cover goes up and down along the screw rod, is convenient for realize, and the transmission is stable, and drive assembly comprises motor and gearbox, and the gearbox is the worm gear gearbox, possesses self-locking function, and the effectual support piece of having guaranteed can the stable support wiring spare, avoids taking place the displacement.

Through the setting of buffering connector, when strong wind weather, strong wind blows the electric wire swing, and the buffering connector can play the cushioning effect, the effectual electric wire swing of having cushioned the impact to the wire pole for the wire pole can be stable, has satisfied the operation requirement, and the vase is used for connecting wire.

Through photovoltaic power generation mechanism's setting, can realize photovoltaic power generation, also can realize the power supply to drive assembly, through two photovoltaic boards, a2 pivot, B2 articulated shaft and B adjusting part's setting, the function of the contained angle between the contained angle of adjusting between two photovoltaic board planes and the contained angle between photovoltaic board face and the horizontal plane has been realized, the height according to the sun in different seasons has been realized, adjust the angle that faces the sun of two photovoltaic boards, simultaneously through adjusting the contained angle between two photovoltaic board planes, realize adjusting two photovoltaic boards and open or closed, make can carry out the function of protection to the photovoltaic board under the bad weather such as sand city stormy hail.

Through the setting of support arm, C2 articulated shaft and regulating unit, realized adjusting two photovoltaic boards and rotated around B2 articulated shaft, realized adjusting the contained angle between two photovoltaic board faces, regulating unit adjusts photovoltaic board group and rotates around the A2 pivot, realizes adjusting the contained angle of two photovoltaic board faces and horizontal plane, and it is convenient to adjust, is convenient to realize, adjusts stably.

Through the B1 extensible member, the setting of B2 extensible member, when the B1 extensible member is flexible, it is close to or keeps away from the A2 pivot to adjust the B2 articulated shaft, realized adjusting two photovoltaic boards and opened or closed function, the B2 extensible member is flexible, drive two photovoltaic boards through the B1 extensible member and rotate around the A2 pivot, the contained angle between regulation photovoltaic board face and the horizontal plane has been realized, the function of adjustment photovoltaic board angle to the sun has been realized, B1 extensible member and B2 extensible member are electric cylinder and constitute.

Through the setting of control box, realized control and power supply to drive assembly, also realized control and power supply to B1 extensible member and B2 extensible member, the battery is equipped with in the control box for the electric energy that the storage photovoltaic board produced.

The invention has stable structure, reasonable layout and convenient adjustment, can realize the adjustment of the length of the electric wire between the adjacent telegraph poles according to different temperature conditions, ensures that the electric wire can be always in proper length, can effectively reduce the impact of the electric wire swing on the telegraph poles in strong wind weather, can realize the photovoltaic power generation for self energy supply, can also adjust the sun exposure angle of the photovoltaic panels, can adjust the closing of the two photovoltaic panels, realizes the protection of the light receiving surfaces of the photovoltaic panels and meets the current use requirements.

Drawings

Fig. 1 is a schematic structural view of an adjustable utility pole according to the present invention.

Figure 2 is a schematic structural view of an adjustable pole center wiring assembly according to the present invention.

FIG. 3 is a schematic view of an adjustable utility pole A adjustment assembly according to the present invention

Fig. 4 is a schematic structural diagram of a photovoltaic power generation mechanism in an adjustable utility pole according to the present invention.

The corresponding relation of all the reference numbers is as follows: 100-rod body, 200-wiring component, 210-wiring piece, 220-B1 hinge shaft, 230-A1 hinge shaft, 240-buffer wire connector, 241-spring, 242-ball hinge, 243-porcelain bottle, 300-A adjusting component, 310-supporting piece, 320-C1 hinge shaft, 330-screw rod, 340-nut sleeve, 350-driving component, 400-photovoltaic power generation mechanism, 410-photovoltaic board, 420-A1 rotating shaft, 430-B2 hinge shaft, 440-C2 hinge shaft, 450-B1 telescopic piece, 460-B2 telescopic piece, 470-D2 hinge shaft, 480-E2 hinge shaft and 490-supporting arm.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the invention will now be described in detail with reference to the following examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed.

Example 1

Referring to fig. 1-4, in the embodiment of the invention, an adjustable utility pole is provided, which comprises a vertically arranged pole body 100, a wiring assembly 200 for fixing an electric wire is arranged on the top of the pole body 100, the wiring assembly 200 is composed of two wiring pieces 210, one end of each wiring piece 210 is movably mounted on the pole body 100, the other end of each wiring piece 210 is connected with the electric wire, the wiring pieces 210 are connected with an a adjusting assembly 300, and the a adjusting assembly 300 is used for adjusting the distance between the two wiring pieces 210 and the electric wire connecting end.

The installation function of the electric wire is realized through the arrangement of the wiring assembly 200, the arrangement of the A adjusting assembly 300 is used for adjusting the distance between the two wiring pieces 210 and the electric wire connecting end, when in use, a certain length of electric wire is reserved between the two wiring pieces 210 and the electric wire connecting end, when the temperature is lower, the A adjusting assembly 300 adjusts the ends, connected with the electric wire, of the two wiring pieces 210 to be away from each other, the length of the electric wire between the adjacent telegraph poles is made to be longer, the length part of the electric wire due to cold contraction is compensated, when the temperature is higher, the A adjusting assembly 300 adjusts the ends, connected with the electric wire, of the two wiring pieces 210 to be close to each other, the length of the electric wire between the adjacent telegraph poles is made to be shorter, the length part of the electric wire due to hot expansion is compensated, and the electric.

The wiring members 200 are arranged at intervals along a direction a perpendicular to the length direction of the rod body 100.

The function of erecting a plurality of wires is realized through the arrangement of a plurality of wiring assemblies 200.

The two wire connecting members 210 are arranged in a splayed shape, the upper ends of the two wire connecting members 210 are hinged on the top of the rod body 100 through a hinge shaft 230 of A1, the axial direction a of the hinge shaft 230 of A1 is consistent, the lower ends of the two wire connecting members 210 are connected with electric wires, and the A adjusting assembly 300 is used for adjusting the rotation of the two wire connecting members 210 around the hinge shaft 230 of A1.

Through the setting that A1 articulated shaft 230 articulated at the body of rod 100 top of connecting piece 210 upper end for adjust the interval between two connecting pieces 210 and the electric wire link, only need adjust two connecting pieces 210 around A1 articulated shaft rotate both can, realize the convenience, it is convenient to control.

The a adjusting component 300 comprises two supporting members 310 and a lifting component, wherein the two supporting members 310 are arranged in a splayed shape and are arranged corresponding to the two wiring pieces 210, the upper ends of the supporting members 310 are rotatably connected with the middle parts of the wiring pieces 210 through B1 hinge shafts 220, the lower ends of the supporting members 310 are hinged on the lifting component through C1 hinge shafts 320, the axial directions of the B1 hinge shafts 220 and the C1 hinge shafts 320 are consistent with the axial direction of the a1 hinge shafts 230, and the lifting component is used for driving the lower ends of the supporting members 310 to lift.

Through the setting of support piece 310, realized the support function to binding element 210, through the setting of lifting unit, order about support piece 310 lower extreme lift simultaneously, both accessible support piece 310 orders about binding element 210 around A1 articulated shaft 230 pivoted function, and it is convenient to realize, rationally distributed, the transmission is stable.

The lifting assembly comprises a screw 330, the length direction of the screw 330 is the same as the length direction of the rod body 100, the lower end of the screw 330 is connected with a driving assembly 350, a nut sleeve 340 is assembled on the screw 330, and the lower ends of the two supporting pieces 310 are hinged on the nut sleeve 340 through a C1 hinge shaft 320.

Through the setting of screw rod 330 and nut cover 340, screw rod 330 rotates the function that both can realize driving nut cover 340 and go up and down along screw rod 330, is convenient for realize, and the transmission is stable, and drive assembly comprises motor and gearbox, and the gearbox is the worm gear gearbox, possesses self-locking function, and the effectual support piece 310 of having guaranteed can the stable support wiring piece 210, avoids taking place the displacement.

The wire connecting member 210 is provided with a buffer wire connector 240 at one end connected to the electric wire, the buffer wire connector 240 includes a spring 241, one end of the spring 241 is fixed to the end of the wire connecting member 210 by a ball hinge 242, and the other end is connected to a porcelain bottle 243 by a ball hinge 242.

Through the setting of buffering connector 240, when strong wind weather, strong wind blows the electric wire swing, and buffering connector 240 can play the cushioning effect, the effectual electric wire swing of having cushioned the impact to the wire pole for the wire pole can be stable, has satisfied operation requirement, and vase 243 is used for connecting the electric wire.

The photovoltaic power generation mechanism 400 is further installed in the middle of the rod body 100, the photovoltaic power generation mechanism 400 comprises a photovoltaic plate group and a B adjusting component, the photovoltaic plate group comprises two photovoltaic plates 410, the photovoltaic plate group is rotatably installed on a support through an A2 rotating shaft 420, the support is fixed on the rod body 100, an A2 rotating shaft 420 is horizontally arranged, the side faces of the two photovoltaic plates 410 are oppositely arranged, the adjacent edge portions of the two photovoltaic plates 410 are hinged through a B2 hinged shaft 430, and the B adjusting component is used for adjusting an included angle between the plate faces of the two photovoltaic plates 410 and an included angle between the plate faces of the photovoltaic plates 410 and.

Through photovoltaic power generation mechanism 400's setting, can realize photovoltaic power generation, also can realize the power supply to drive assembly, through two photovoltaic boards 410, A2 pivot 420, B2 articulated shaft 430 and B adjusting part's setting, the function of the contained angle between two photovoltaic boards 410 face and the contained angle between photovoltaic board 410 face and the horizontal plane has been realized adjusting, the height according to the sun in different seasons has been realized, adjust the angle of facing the sun of two photovoltaic boards, simultaneously through adjusting the contained angle between two photovoltaic boards 410 face, realize adjusting two photovoltaic boards and open or closed, make can carry out the function of protection to photovoltaic board 410 under the bad weather such as sand city hail.

The B adjusting component comprises two supporting arms 490 and an adjusting unit, one ends of the two supporting arms 490 are rotatably installed on an A2 rotating shaft 420, the other ends of the two supporting arms 490 are respectively hinged to the back faces of the ends, far away from one end, of the two photovoltaic panels 410 through a C2 hinged shaft 440, the axial directions of the A2 rotating shaft 420, the B2 hinged shaft 430 and the C2 hinged shaft 440 are all the same, the adjusting unit adjusts the B2 hinged shaft 430 to be close to or far away from the A2 rotating shaft 420, the two photovoltaic panels 410 are adjusted to rotate around the B2 hinged shaft 430, the adjustment of the included angle between the surfaces of the two photovoltaic panels 410 is achieved, the adjusting unit adjusts the photovoltaic panel group to rotate around the A2 rotating shaft 420, and the.

Through the setting of support arm 490, C2 articulated shaft 440 and regulating unit, realized adjusting two photovoltaic boards 410 and rotated around B2 articulated shaft 430, realized adjusting the contained angle between two photovoltaic board 410 faces, regulating unit adjusts photovoltaic board group and rotates around A2 pivot 420, realizes adjusting the contained angle of two photovoltaic board 410 faces and horizontal plane, and it is convenient to adjust, is convenient for realize, adjusts stably.

The adjusting unit comprises a B1 telescopic piece 450 and a B2 telescopic piece 460, wherein the fixed end of the B1 telescopic piece 450 is installed on the A2 rotating shaft 420, the movable end of the B2 telescopic piece 450 is installed on the B2 hinge shaft 430, the telescopic direction of the B1 telescopic piece 450 is perpendicular to the axial direction of the B2 hinge shaft 430, the movable end of the B2 telescopic piece 460 is hinged at the fixed end of the B1 telescopic piece 450 through a D2 hinge shaft 470, a D2 hinge shaft 470 is positioned between the A2 rotating shaft 420 and the B2 hinge shaft 430, the fixed end of the B2 telescopic piece 460 is hinged at the support through an E2 hinge shaft 480, the axial directions of the D2 hinge shaft 470 and the E2 hinge shaft 480 are axially consistent with the A2 rotating shaft 420, and the telescopic direction of the B1 telescopic piece 450 and the B2.

Through B1 extensible member 450, the setting of B2 extensible member 460, when B1 extensible member 450 is flexible, adjust that the B2 articulated shaft is close to or keeps away from A2 pivot, the function of adjusting two photovoltaic board 410 and opening or closing has been realized, B2 extensible member 460 is flexible, drive two photovoltaic board 410 through B1 extensible member 450 and rotate around A2 pivot, the contained angle between regulation photovoltaic board face and the horizontal plane has been realized, the function of adjusting the angle that photovoltaic board 410 faces the sun, B1 extensible member 450 and B2 extensible member 460 are electric cylinder constitution.

The bottom of the rod body 100 is provided with a control box, and the control box is electrically connected with the photovoltaic power generation mechanism 400 and the driving assembly 350.

Through the arrangement of the control box, the control and power supply of the driving assembly 350 are realized, and the control and power supply of the B1 telescopic piece 450 and the B2 telescopic piece 460 are also realized, and a storage battery is arranged in the control box and used for storing electric energy generated by the photovoltaic panel 410.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and these improvements and modifications should also be construed as the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims

1. An adjustable telegraph pole is characterized in that: including the body of rod (100) that the form was arranged immediately, body of rod (100) top is provided with wiring subassembly (200) that are used for fixed electric wire, and wiring subassembly (200) comprises two wiring pieces (210), and wiring piece (210) one end movable mounting is on body of rod (100), and the electric wire is connected to the other end, and A adjusting part (300) is connected in wiring piece (210), and A adjusting part (300) are used for adjusting the interval between two wiring pieces (210) and the electric wire link.

2. The adjustable utility pole of claim 1, wherein: the wiring components (200) are arranged at intervals along the direction a, and the direction a is perpendicular to the length direction of the rod body (100).

3. The adjustable utility pole of claim 2, wherein: the two wiring pieces (210) are arranged in a splayed shape, the upper ends of the two wiring pieces (210) are hinged to the top of the rod body (100) through an A1 hinged shaft (230), the axial direction a of the A1 hinged shaft (230) is consistent, the lower ends of the two wiring pieces (210) are connected with an electric wire, and an A adjusting component (300) is used for adjusting the two wiring pieces (210) to rotate around the A1 hinged shaft (230).

4. The adjustable utility pole of claim 3, wherein: a adjusting part (300) includes two support pieces (310) and lifting unit, two support pieces (310) are the splayed and arrange, and correspond with two wiring pieces (210) and arrange, support piece (310) upper end is passed through B1 articulated shaft (220) and is connected with wiring piece (210) middle part rotation, support piece (310) lower extreme passes through C1 articulated shaft (320) and articulates on lifting unit, the axial of B1 articulated shaft (220) and C1 articulated shaft (320) all is unanimous with the axial of A1 articulated shaft (230), lifting unit is used for driving support piece (310) lower extreme and goes up and down.

5. The adjustable utility pole of claim 4, wherein: the lifting assembly comprises a screw rod (330), the length direction of the screw rod (330) is consistent with the length direction of the rod body (100), the lower end of the screw rod (330) is connected with a driving assembly (350), a nut sleeve (340) is assembled on the screw rod (330), and the lower ends of the two supporting pieces (310) are hinged on the nut sleeve (340) through a C1 hinging shaft (320).

6. The adjustable utility pole of claim 5, wherein: one end of the wiring piece (210) connected with the electric wire is provided with a buffer wiring connector (240), the buffer wiring connector (240) comprises a spring (241), one end of the spring (241) is fixed at the end of the wiring piece (210) through a ball hinge (242), and the other end of the spring (241) is connected with a porcelain bottle (243) through the ball hinge (242).

7. The adjustable utility pole of claim 6, wherein: the utility model discloses a photovoltaic power generation mechanism, including body of rod (100), body of rod (100) middle part still is equipped with photovoltaic power generation mechanism (400), photovoltaic power generation mechanism (400) include photovoltaic board group and B adjusting part, photovoltaic board group includes two photovoltaic board (410), photovoltaic board group passes through A2 pivot (420) and rotates the installation on the support, the support is fixed on body of rod (100), A2 pivot (420) horizontal arrangement, two photovoltaic board (410) side mutual disposition, two adjacent limit portions of photovoltaic board (410) are articulated through B2 articulated shaft (430), B adjusting part is used for adjusting contained angle between two photovoltaic board (410) faces and the contained angle between photovoltaic board (410) face and the horizontal plane.

8. The adjustable utility pole of claim 7, wherein: b adjusting part includes two support arms (490) and regulating element, two support arms (490) one end are rotated and are installed on A2 pivot (420), the back of one end is kept away from each other to two photovoltaic board (410) is articulated respectively through C2 articulated shaft (440) to two support arms (490) other ends, A2 pivot (420), the axial of B2 articulated shaft (430) and C2 articulated shaft (440) is all unanimous, regulating element adjusts B2 articulated shaft (430) and is close to or keeps away from A2 pivot (420), realize adjusting two photovoltaic board (410) and rotate around B2 articulated shaft (430), realize adjusting the contained angle between two photovoltaic board (410) faces, regulating element adjusts photovoltaic board group and rotates around A2 pivot (420), realize adjusting the contained angle of two photovoltaic board (410) faces and horizontal plane.

9. The adjustable utility pole of claim 8, wherein: the adjusting unit comprises a B1 telescopic piece (450) and a B2 telescopic piece (460), wherein the fixed end of the B1 telescopic piece (450) is installed on an A2 rotating shaft (420), the movable end of the B2 telescopic piece (450) is installed on a B2 hinging shaft (430), the telescopic direction of the B1 telescopic piece (450) is perpendicular to the axial direction of the B2 hinging shaft (430), the movable end of the B2 telescopic piece (460) is hinged on the fixed end of the B1 telescopic piece (450) through a D2 hinging shaft (470), a D2 hinging shaft (470) is positioned between the A2 rotating shaft (420) and the B2 hinging shaft (430), the fixed end of the B2 telescopic piece (460) is hinged on a support through an E2 hinging shaft (480), the axial directions of the D2 (470) and the E2 hinging shaft (480) are both in axial agreement with the A2 rotating shaft (420), and the telescopic direction of the B1 telescopic piece (450) and the B2 telescopic piece (460) are in a fork-like.

10. The adjustable utility pole of claim 9, wherein: the control box is arranged at the bottom of the rod body (100) and is electrically connected with the photovoltaic power generation mechanism (400) and the driving assembly (350).