CN110112683B

CN110112683B - Power line frame

Info

Publication number: CN110112683B
Application number: CN201910433838.2A
Authority: CN
Inventors: 鞠玲
Original assignee: Shaoxing Shuntai Machinery Technology Co ltd
Current assignee: Hebi Power Supply Co of State Grid Henan Electric Power Co Ltd
Priority date: 2019-05-23
Filing date: 2019-05-23
Publication date: 2020-10-23
Anticipated expiration: 2039-05-23
Also published as: CN110112683A

Abstract

The invention discloses an electric power line frame, which relates to the technical field of electric power devices and comprises a base, a supporting rod, a rib plate, a height adjusting sliding frame, an inclined rod, a height adjusting seat, a supporting sliding frame, an upper wire fixing component, an angle adjusting sliding seat, a lower wire fixing component and an auxiliary wire fixing component. Bracing piece fixed connection is on the base, altitude mixture control balladeur train fixed connection is on the bracing piece, altitude mixture control seat sliding fit connects on the altitude mixture control balladeur train, the upper end fixed connection of altitude mixture control seat supports smooth frame, go up solidus subassembly fixed connection on supporting smooth frame, solidus subassembly under the lower extreme fixed connection of altitude mixture control seat, both ends of solidus subassembly are sliding fit connection angle modulation slide respectively down, two angle modulation slide symmetry sliding fit connect on the altitude mixture control balladeur train, two angle modulation slides are fixed connection all on the altitude mixture control seat.

Description

Power line frame

Technical Field

The invention relates to the technical field of power devices, in particular to a power line frame.

Background

The utility model provides a current patent number is CN 201621317166.7's a adjust convenient power line support, this utility model provides an adjust convenient power line support relates to the electric power field. This adjust convenient power line support, including the operation panel, the first riser of top fixedly connected with and the second riser of operation panel, the first riser is located the rear of second riser, the top fixed mounting of operation panel has the motor, and the motor is located between first riser and the second riser, the first screwed pipe of left side fixedly connected with of first riser, the right side fixedly connected with second screwed pipe of second riser, be provided with the pivot on the motor, the surface of pivot is connected with first screwed pipe transmission through first belt, the surface of pivot is passed through the second belt and is connected with the second screwed pipe transmission. This adjust convenient power line support, two electric power cables that avoid placing on first electric power fastener and the second electric power fastener hank together, reduced the operation degree of difficulty of erectting personnel, labour saving and time saving, the suitability is strong, and the reliability is high. However, the device cannot be installed on a sloped or uneven ground or a hill, and the number of installed power cables is limited.

Disclosure of Invention

The invention aims to provide an electric power line frame, which has the beneficial effects that the problems that the electric power line frame cannot be erected on a slope or uneven ground or a hillside and the quantity of erected electric power cables is limited are solved.

The purpose of the invention is realized by the following technical scheme:

a power line frame comprises a base, a support rod, a rib plate, a height adjusting sliding frame, an inclined rod, a height adjusting seat, a support sliding frame, an upper wire fixing component, an angle adjusting sliding seat, a lower wire fixing component and an auxiliary wire fixing component, wherein the support rod is fixedly connected to the base, the height adjusting sliding frame is fixedly connected to the support rod, the height adjusting seat is connected to the height adjusting sliding frame in a sliding fit manner, the upper end of the height adjusting seat is fixedly connected to the support sliding frame, the lower end of the height adjusting seat is fixedly connected to the lower wire fixing component, two ends of the lower wire fixing component are respectively connected with the angle adjusting sliding seat in a sliding fit manner, the two angle adjusting sliding seats are symmetrically connected to the height adjusting sliding frame in a sliding fit manner, the two angle adjusting sliding seats are fixedly connected to the height adjusting seat, and the auxiliary wire fixing component is connected to the support sliding frame and the upper wire fixing component in a, two ends of the auxiliary wire fixing component are respectively and fixedly connected with two ends of the upper wire fixing component.

As a further optimization of the technical scheme, the power line frame further comprises a rib plate and an inclined rod; the junction of the support rod and the base evenly surrounds four rib plates fixedly connected, the lower ends of the two inclined rods are symmetrically and fixedly connected to the support rod, and the upper ends of the two inclined rods are fixedly connected to the height adjusting sliding frame.

As a further optimization of the technical scheme, the height adjusting sliding frame comprises a bottom plate, side plates, side block sliding grooves, rectangular through grooves, side sliding grooves, a motor I, a lead screw and a side frame plate; the bottom plate is fixedly connected to the supporting rod, two ends of the bottom plate are respectively fixedly connected with a side plate, the inner side surfaces of the two side plates are respectively provided with a side block sliding groove, and the two side plates are respectively provided with a rectangular through groove; the rectangular through groove is communicated with the side block sliding groove; the front end and the rear end of the side plate are respectively provided with a side sliding groove; the both ends of lead screw are rotated through taking a pedestal bearing respectively and are connected a side frame board, and two side frame boards are all fixed connection on left curb plate, and motor I passes through motor frame fixed connection on left curb plate, and the output shaft of motor I passes through the coupling joint lead screw.

As a further optimization of the technical scheme, the height adjusting seat comprises a rectangular rod, a short shaft, a side block, a T-shaped block, an L-shaped linkage rod and a lower connecting rod; the rectangular rod is fixedly connected to the middle of the short shaft, two ends of the short shaft are respectively and rotatably connected with an edge block through a bearing with a seat, the outer ends of the two edge blocks are respectively and fixedly connected with a T-shaped block, and the L-shaped linkage rod is fixedly connected to one T-shaped block; the two side blocks are respectively connected in the two side block sliding grooves in a sliding fit manner, the two T-shaped blocks are respectively connected in the two rectangular through grooves in a sliding fit manner, and the L-shaped linkage rod is connected on the lead screw in a threaded fit manner; the lower end of the rectangular rod is fixedly connected with a lower connecting rod; the upper end of the rectangular rod is fixedly connected with the supporting sliding frame.

As a further optimization of the technical scheme, the upper wire fixing assembly comprises a wire fixing sleeve rod, a wire fixing hole I, a bidirectional screw rod, a rod frame plate, a U-shaped linkage plate, an L-shaped rod, a telescopic wire fixing plate, a wire fixing hole II and a lead frame I; the middle part of the wire fixing sleeve rod is fixedly connected to the supporting sliding frame, a plurality of wire fixing holes I are formed in two ends of the wire fixing sleeve rod, two ends of the bidirectional screw rod are rotatably connected with a rod frame plate through bearings with seats respectively, the two rod frame plates are fixedly connected to two ends of the wire fixing sleeve rod respectively, the middle part of the bidirectional screw rod is fixedly connected with a screwing ring, the front ends of the two U-shaped linkage plates are connected to two ends of the bidirectional screw rod respectively in a threaded fit mode, the middle parts of the two U-shaped linkage plates are fixedly connected with an L-shaped rod respectively, the outer ends of the two L-shaped rods are fixedly connected with a telescopic wire fixing plate respectively, and the two telescopic wire fixing plates are connected to two ends of the wire; the telescopic wire fixing plate is provided with a plurality of wire fixing holes II; the diameter of the wire fixing hole I is equal to that of the wire fixing hole II; the lower end of the wire fixing loop bar is fixedly connected with a plurality of lead frames I.

As a further optimization of the technical scheme, the angle adjusting slide seat comprises a U-shaped slide seat, a convex block, an arc-shaped rod, a U-shaped frame, a semi-annular rack, an arc-shaped sliding groove and an L-shaped vertical connecting rod; the inner side of the U-shaped sliding seat is symmetrically and fixedly connected with two convex blocks, two ends of the U-shaped sliding seat are respectively and fixedly connected with an arc-shaped rod, two U-shaped frames are respectively and fixedly connected onto the two arc-shaped rods, the two U-shaped frames are symmetrically and fixedly connected onto the outer end face of the semi-annular rack, and the semi-annular rack is provided with an arc-shaped sliding chute; the U-shaped sliding seat is connected to the side plate in a sliding fit manner; the lug is connected in the side sliding groove in a sliding fit manner; the upper end of the U-shaped sliding seat is fixedly connected with an L-shaped vertical connecting rod, and the L-shaped vertical connecting rod is fixedly connected to the inner side of the side block.

As a further optimization of the technical scheme, the lower wire fixing assembly comprises a lower wire fixing seat, a lead frame II, a circular sliding rod, a motor II, a transmission shaft, a vertical frame plate and a gear; the lower wire fixing seat is fixedly connected to the lower connecting rod, and the lower end of the lower wire fixing seat is fixedly connected with a plurality of lead frames II; the lead frame II is opposite to the lead frame I; two ends of the lower wire fixing seat are respectively fixedly connected with a circular sliding rod; the circular sliding rod is connected in the arc-shaped sliding chute in a sliding fit manner; the two motors II are fixedly connected to two ends of the lower wire fixing seat through motor frames respectively, output shafts of the two motors II are connected with a transmission shaft through a coupler respectively, the two transmission shafts are rotatably connected to a vertical frame plate through bearings with seats respectively, the two vertical frame plates are fixedly connected to the lower wire fixing seat, and the outer ends of the two transmission shafts are fixedly connected with a gear respectively; the gear is in meshed transmission connection with the semi-annular rack.

As a further optimization of the technical scheme, the auxiliary wire fixing assembly comprises an auxiliary wire fixing plate, a wire fixing hole iii, a lower hinge seat, a hinge rod and an upper hinge seat; the auxiliary wire fixing plate is uniformly provided with a plurality of wire fixing holes III, the lower end of the auxiliary wire fixing plate is symmetrically and fixedly connected with two lower hinge seats, the two lower hinge seats are respectively and rotatably connected with a hinge rod through a hinge shaft, and the two hinge rods are respectively and rotatably connected with an upper hinge seat through hinge shafts; the auxiliary wire fixing plate is connected to the middle end of the wire fixing sleeve rod and the supporting sliding frame in a sliding fit mode, the two lower hinged seats slide and are connected to the two sides of the supporting sliding frame respectively, and the two upper hinged seats are fixedly connected to the rear ends of the two U-shaped linkage plates respectively.

The power line frame has the beneficial effects that:

the invention relates to an electric power circuit frame which can be erected on a flat ground and also on a slope or uneven ground or a hillside, when the device is erected on the slope ground, the angles of a height adjusting seat, an upper wire fixing component and a lower wire fixing component can be adjusted to be parallel to a horizontal plane, and the upper wire fixing component and the lower wire fixing component can simultaneously erect an electric power cable, so that the erection of the electric power cable is not influenced, and meanwhile, the electric power cable can be better and more stably supported; when the cable fixing device is erected on a horizontal ground, the height of the upper wire fixing component can be adjusted, meanwhile, the upper wire fixing component can be extended, the upper wire fixing component can drive the auxiliary wire fixing component to move, the longer the length of the upper wire fixing component extending outwards is, the longer the length of the auxiliary wire fixing component extending out is, the more power cables are erected, and the adjacent power cables are independent and kept parallel, so that the power cables are prevented from being disorderly entangled; the length of the upper wire fixing component after being unfolded is long enough, and the distance between the plurality of power cables can be adjusted at will according to the requirement by the aid of the extended auxiliary wire fixing component.

Drawings

FIG. 1 is a first schematic structural diagram of an electrical power line rack according to the present invention;

FIG. 2 is a second schematic structural diagram of a power line rack according to the present invention;

FIG. 3 is a third schematic structural diagram of a power line rack according to the present invention;

FIG. 4 is a schematic structural view of an electrical power line rack installed on an inclined plane according to the present invention;

FIG. 5 is a schematic view of the height adjustment carriage;

FIG. 6 is a schematic structural view of the height adjusting seat;

FIG. 7 is a schematic structural view of a supporting slide frame;

FIG. 8 is a first schematic structural view of the upper wire fixing assembly;

FIG. 9 is a second schematic structural view of the upper wire fixing assembly;

FIG. 10 is a third schematic structural view of the upper wire fixing assembly;

FIG. 11 is a schematic structural view of the angle adjustment slider;

FIG. 12 is a schematic top view of the angle adjustment slider;

FIG. 13 is a schematic structural view of a lower wire fixing assembly;

fig. 14 is a schematic structural view of the auxiliary wire fixing assembly.

In the figure: a base 1; a support rod 2; a rib plate 3; a height adjustment carriage 4; a bottom plate 4-1; 4-2 of side plates; 4-3 of a side block chute; 4-4 of a rectangular through groove; 4-5 of a side chute; 4-6 parts of a motor I; 4-7 parts of a lead screw; 4-8 parts of side frame plates; an inclined rod 5; a height adjusting seat 6; a rectangular bar 6-1; a short shaft 6-2; 6-3 of edge blocks; 6-4 of a T-shaped block; 6-5 of an L-shaped linkage rod; 6-6 parts of a lower connecting rod; a support slide frame 7; an upper wire fixing component 8; a wire fixing loop bar 8-1; the wire fixing hole I8-2; 8-3 of a bidirectional screw; 8-4 of a lever frame plate; 8-5 parts of a U-shaped linkage plate; 8-6 parts of an L-shaped rod; 8-7 of a telescopic wire fixing plate; the wire fixing hole II 8-8; a lead frame I8-9; an angle adjustment slider 9; a U-shaped sliding seat 9-1; a bump 9-2; an arc rod 9-3; 9-4 of a U-shaped frame; a semi-annular rack 9-5; an arc-shaped chute 9-6; 9-7 of an L-shaped vertical connecting rod; a lower wire fixing assembly 10; a lower wire fixing seat 10-1; a lead frame II 10-2; 10-3 of a circular slide bar; 10-4 of a motor II; 10-5 of a transmission shaft; 10-6 of a vertical frame plate; 10-7 parts of gear; an auxiliary wire fixing component 11; an auxiliary wire fixing plate 11-1; the wire fixing hole III 11-2; a lower hinge base 11-3; a hinge rod 11-4; upper hinge mount 11-5.

Detailed Description

The invention is described in further detail below with reference to figures 1-14 and the detailed description.

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 14, and an electric power line rack includes a base 1, a support bar 2, a rib plate 3, a height adjustment carriage 4, an inclined bar 5, a height adjustment seat 6, a support sliding frame 7, an upper wire fixing assembly 8, an angle adjustment sliding seat 9, a lower wire fixing assembly 10, and an auxiliary wire fixing assembly 11, wherein the support bar 2 is fixedly connected to the base 1, the height adjustment carriage 4 is fixedly connected to the support bar 2, the height adjustment seat 6 is connected to the height adjustment carriage 4 in a sliding fit manner, the upper end of the height adjustment seat 6 is fixedly connected to the support sliding frame 7, the upper wire fixing assembly 8 is fixedly connected to the support sliding frame 7, the lower end of the height adjustment seat 6 is fixedly connected to the lower wire fixing assembly 10, two ends of the lower wire fixing assembly 10 are respectively connected to an angle adjustment sliding seat 9 in a sliding fit manner, and the two angle adjustment sliding seats 9 are symmetrically connected, two angle modulation slides 9 are all fixed connection on altitude mixture control seat 6, and supplementary solidus subassembly 11 sliding fit connects on supporting sliding frame 7 and last solidus subassembly 8, and the both ends of supplementary solidus subassembly 11 are fixed connection at the both ends of last solidus subassembly 8 respectively. When the invention is used, a plurality of fixing through holes are arranged on the base 1, and the base 1 is fixed at the corresponding position by utilizing fixing parts such as bolts, screws and the like to penetrate through the fixing through holes; when the device is fixed on a horizontal plane, the height of the height adjusting seat 6, the height of the supporting sliding frame 7 and the height of the upper wire fixing component 8 can be adjusted by controlling the height adjusting sliding frame 4, so that the upper wire fixing component 8 is adjusted to a proper height to erect the power cable, two ends of the upper wire fixing component 8 can extend outwards by adjusting the upper wire fixing component 8, after the whole length of the upper wire fixing component 8 is lengthened, more power cables can be conveniently erected, the upper wire fixing component 8 can drive the auxiliary wire fixing component 11 to extend towards the upper end while extending outwards, the longer the length of the upper wire fixing component 8 extending towards the outer end is, the longer the length of the auxiliary wire fixing component 11 extends out is, the auxiliary wire fixing component 11 plays a role of an auxiliary wire erection for erecting more power cables, and adjacent power cables are independent and parallel to avoid disorder and entanglement of the power cables; when the upper wire fixing assembly 8 extends to the longest state, the extension length of the auxiliary wire fixing assembly 11 is also longest, and the distance between a plurality of power cables can be adjusted according to requirements; when the device is erected on a sloping ground, the whole device is in an inclined state, the height adjusting seat 6, the upper wire fixing assembly 8 and the lower wire fixing assembly 10 can be adjusted to be parallel to the horizontal plane by controlling the lower wire fixing assembly 10, the upper wire fixing assembly 8 and the lower wire fixing assembly 10 can erect the power cable at the same time, and the better and more stable supporting effect can be achieved on the power cable while the erection of the power cable is not influenced.

The second embodiment is as follows:

the present embodiment will be described with reference to fig. 1 to 14, wherein the power line rack further comprises a rib plate 3 and an inclined rod 5; four gusset 3 of fixed connection are evenly encircleed to bracing piece 2 and base 1 junction, and the lower extreme symmetry fixed connection of two down tube 5 is on bracing piece 2, and the upper end of two down tube 5 is all fixed connection on height control balladeur train 4. The four rib plates 3 and the two inclined rods 5 are used for increasing the stability of the device, so that the device is better suitable for application environments.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 9, and the height adjusting carriage 4 includes a bottom plate 4-1, a side plate 4-2, a side block sliding groove 4-3, a rectangular through groove 4-4, a side sliding groove 4-5, a motor i 4-6, a lead screw 4-7 and a side frame plate 4-8; the bottom plate 4-1 is fixedly connected to the supporting rod 2, two ends of the bottom plate 4-1 are respectively fixedly connected with a side plate 4-2, the inner side surfaces of the two side plates 4-2 are respectively provided with a side block sliding groove 4-3, and the two side plates 4-2 are respectively provided with a rectangular through groove 4-4; the rectangular through groove 4-4 is communicated with the side block sliding groove 4-3; the front end and the rear end of the side plate 4-2 are respectively provided with a side sliding groove 4-5; two ends of the screw rod 4-7 are respectively rotatably connected with a side frame plate 4-8 through a bearing with a seat, the two side frame plates 4-8 are fixedly connected to the left side plate 4-2, the motor I4-6 is fixedly connected to the left side plate 4-2 through a motor frame, and an output shaft of the motor I4-6 is connected with the screw rod 4-7 through a coupling. The motors I4-6 are connected with a power supply and a control switch through leads and are started, and the motors I4-6 can drive the screw rods 4-7 to rotate around the axes of the motors.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 1 to 14, and the height adjusting base 6 includes a rectangular bar 6-1, a short shaft 6-2, an edge block 6-3, a T-shaped block 6-4, an L-shaped linkage bar 6-5, and a lower connecting bar 6-6; the rectangular rod 6-1 is fixedly connected to the middle of the short shaft 6-2, two ends of the short shaft 6-2 are respectively connected with an edge block 6-3 in a rotating mode through a bearing with a seat, the outer ends of the two edge blocks 6-3 are respectively fixedly connected with a T-shaped block 6-4, and the L-shaped linkage rod 6-5 is fixedly connected to the T-shaped block 6-4; the two side blocks 6-3 are respectively connected in the two side block sliding grooves 4-3 in a sliding fit manner, the two T-shaped blocks 6-4 are respectively connected in the two rectangular through grooves 4-4 in a sliding fit manner, and the L-shaped linkage rod 6-5 is connected on the screw rod 4-7 in a threaded fit manner; the lower end of the rectangular rod 6-1 is fixedly connected with a lower connecting rod 6-6; the upper end of the rectangular rod 6-1 is fixedly connected with a supporting sliding frame 7. When the height adjusting seat 6 is used, when the lead screw 4-7 rotates, the lead screw 4-7 and the L-shaped linkage rod 6-5 are connected through threads to generate relative displacement to drive the L-shaped linkage rod 6-5 to move up and down, the L-shaped linkage rod 6-5 drives the height adjusting seat 6 to integrally move up and down, and the height adjusting seat 6 drives the supporting sliding frame 7, the upper wire fixing component 8, the angle adjusting sliding seat 9, the lower wire fixing component 10 and the auxiliary wire fixing component 11 to move up and down, so that the height of the upper wire fixing component 8 is changed; the lead screws 4-7 have the self-locking characteristic, so that the upper wire fixing assembly 8 can be fixed after the height is changed.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 14, wherein the upper thread fixing assembly 8 comprises a thread fixing sleeve rod 8-1, a thread fixing hole i 8-2, a bidirectional screw 8-3, a rod frame plate 8-4, a U-shaped linkage plate 8-5, an L-shaped rod 8-6, a telescopic thread fixing plate 8-7, a thread fixing hole ii 8-8 and a lead frame i 8-9; the middle part of a wire fixing sleeve rod 8-1 is fixedly connected to a supporting sliding frame 7, a plurality of wire fixing holes I8-2 are formed in two ends of the wire fixing sleeve rod 8-1, two ends of a bidirectional screw 8-3 are rotatably connected with a rod frame plate 8-4 through bearings with seats respectively, the two rod frame plates 8-4 are fixedly connected to two ends of the wire fixing sleeve rod 8-1 respectively, the middle part of the bidirectional screw 8-3 is fixedly connected with a screwing ring, the front ends of two U-shaped linkage plates 8-5 are connected to two ends of the bidirectional screw 8-3 through thread matching respectively, the middle parts of the two U-shaped linkage plates 8-5 are fixedly connected with an L-shaped rod 8-6 respectively, the outer ends of the two L-shaped rods 8-6 are fixedly connected with telescopic wire fixing plates 8-7 respectively, and the two telescopic wire fixing plates 8-7 are connected to two ends of the wire fixing sleeve rod 8-1 through sliding matching respectively; the telescopic wire fixing plate 8-7 is provided with a plurality of wire fixing holes II 8-8; the diameter of the wire fixing hole I8-2 is equal to that of the wire fixing hole II 8-8; the lower end of the wire fixing loop bar 8-1 is fixedly connected with a plurality of lead frames I8-9. When the upper wire fixing component 8 is used, and the wire fixing holes I8-2 and the wire fixing holes II 8-8 are correspondingly communicated and overlapped, the power cable simultaneously passes through the overlapped wire fixing holes I8-2 and the wire fixing holes II 8-8 to realize the erection of the power cable, the screwing ring on the rotating bidirectional screw 8-3 drives the bidirectional screw 8-3 to rotate, the bidirectional screw 8-3 drives the two U-shaped linkage plates 8-5 to slide away from each other simultaneously, the two U-shaped linkage plates 8-5 drive the two telescopic wire fixing plates 8-7 to extend away from each other simultaneously through the two L-shaped rods 8-6, the wire fixing holes II 8-8 on the two telescopic wire fixing plates 8-7 are leaked out, and at the moment, the wire fixing holes I8-2 and the wire fixing holes II 8-8 can respectively erect the power cable to realize the erection and the fixation of more power cables,

the sixth specific implementation mode:

the present embodiment is described below with reference to fig. 1 to 14, and the angle adjusting slide 9 includes a U-shaped slide 9-1, a protrusion 9-2, an arc rod 9-3, a U-shaped frame 9-4, a semi-annular rack 9-5, an arc chute 9-6, and an L-shaped vertical link 9-7; two convex blocks 9-2 are symmetrically and fixedly connected to the inner side of the U-shaped sliding seat 9-1, two ends of the U-shaped sliding seat 9-1 are respectively and fixedly connected with an arc-shaped rod 9-3, two U-shaped frames 9-4 are respectively and fixedly connected to the two arc-shaped rods 9-3, the two U-shaped frames 9-4 are symmetrically and fixedly connected to the outer end face of the semi-annular rack 9-5, and an arc-shaped sliding groove 9-6 is formed in the semi-annular rack 9-5; the U-shaped sliding seat 9-1 is connected on the side plate 4-2 in a sliding fit manner; the lug 9-2 is connected in the side sliding groove 4-5 in a sliding fit manner; the upper end of the U-shaped sliding seat 9-1 is fixedly connected with an L-shaped vertical connecting rod 9-7, and the L-shaped vertical connecting rod 9-7 is fixedly connected to the inner side of the side block 6-3. When the angle adjusting slide seat 9 is used, the side blocks 6-3 can drive the whole angle adjusting slide seat 9 to move up and down through the L-shaped vertical connecting rods 9-7 when moving up and down, and the two convex blocks 9-2 play a role in limiting and guiding the U-shaped slide seat 9-1.

The seventh embodiment:

the embodiment is described below with reference to fig. 1 to 14, and the lower wire fixing assembly 10 includes a lower wire fixing base 10-1, a lead frame ii 10-2, a circular sliding rod 10-3, a motor ii 10-4, a transmission shaft 10-5, a vertical frame plate 10-6 and a gear 10-7; the lower wire fixing seat 10-1 is fixedly connected to the lower connecting rod 6-6, and the lower end of the lower wire fixing seat 10-1 is fixedly connected with a plurality of lead frames II 10-2; the lead frame II 10-2 is opposite to the lead frame I8-9; two ends of the lower wire fixing seat 10-1 are respectively fixedly connected with a circular sliding rod 10-3; the circular sliding rod 10-3 is connected in the arc-shaped sliding groove 9-6 in a sliding fit manner; two motors II 10-4 are respectively fixedly connected with two ends of the lower wire fixing seat 10-1 through motor frames, output shafts of the two motors II 10-4 are respectively connected with a transmission shaft 10-5 through a coupler, the two transmission shafts 10-5 are respectively rotatably connected on a vertical frame plate 10-6 through bearings with seats, the two vertical frame plates 10-6 are both fixedly connected on the lower wire fixing seat 10-1, and the outer ends of the two transmission shafts 10-5 are respectively fixedly connected with a gear 10-7; the gear 10-7 is in meshed transmission connection with the semi-annular rack 9-5. When the lower wire fixing component 10 is used, when the device is erected on a sloping ground, the whole device is in an inclined state, at the moment, the two motors II 10-4 are started, the two motors II 10-4 drive the two transmission shafts 10-5 to rotate, the two transmission shafts 10-5 drive the two motors II 10-4 to rotate, the two motors II 10-4 are in meshed transmission connection with the two semi-annular racks 9-5 to drive the lower wire fixing seat 10-1 to rotate around the axis of the short shaft 6-2, meanwhile, the two circular slide bars 10-3 slide in the two arc-shaped slide grooves 9-6, when the lower wire fixing seat 10-1 drives the height adjusting seat 6, the upper wire fixing component 8 and the lower wire fixing component 10 to be adjusted to be parallel to the horizontal plane, a power cable can be led in from the lead frame I8-9 in the horizontal plane, then, the lead frame II 10-2 is led out, so that the horizontal electric wire can be erected and fixed when the device is erected on the inclined plane, and the lead frame II 10-2 and the lead frame I8-9 are used for erecting the power cable at the same time, so that the power cable can be better and more stably supported.

The specific implementation mode is eight:

the embodiment is described below with reference to fig. 1 to 14, wherein the auxiliary thread fixing assembly 11 comprises an auxiliary thread fixing plate 11-1, a thread fixing hole iii 11-2, a lower hinge seat 11-3, a hinge rod 11-4 and an upper hinge seat 11-5; the auxiliary thread fixing plate 11-1 is uniformly provided with a plurality of thread fixing holes III 11-2, the lower end of the auxiliary thread fixing plate 11-1 is symmetrically and fixedly connected with two lower hinge seats 11-3, the two lower hinge seats 11-3 are respectively and rotatably connected with a hinge rod 11-4 through a hinge shaft, and the two hinge rods 11-4 are respectively and rotatably connected with an upper hinge seat 11-5 through a hinge shaft; the auxiliary thread fixing plate 11-1 is connected to the middle end of the thread fixing sleeve rod 8-1 and the inside of the supporting sliding frame 7 in a sliding fit mode, the two lower hinge seats 11-3 are connected to the two sides of the supporting sliding frame 7 in a sliding fit mode respectively, and the two upper hinge seats 11-5 are fixedly connected to the rear ends of the two U-shaped linkage plates 8-5 respectively. When the auxiliary wire fixing assembly 11 is used, when the two U-shaped linkage plates 8-5 slide in an opposite direction or in a deviating direction, the two upper hinge seats 11-5 can be driven to slide in an opposite direction or in a deviating direction, the two upper hinge seats 11-5 drive the two lower hinge seats 11-3 to move up and down through the two hinge rods 11-4, and therefore the auxiliary wire fixing plate 11-1 is driven to move up and down; when the two U-shaped linkage plates 8-5 deviate from sliding, the auxiliary wire fixing plate 11-1 is driven to extend upwards, and the wire fixing holes III 11-2 are leaked to be used for erecting more power cables.

The working principle of the power line frame is as follows: when the invention is used, a plurality of fixing through holes are arranged on the base 1, and the base 1 is fixed at the corresponding position by utilizing fixing parts such as bolts, screws and the like to penetrate through the fixing through holes; when the device is fixed on a horizontal plane, the height of the height adjusting seat 6, the height of the supporting sliding frame 7 and the height of the upper wire fixing component 8 can be adjusted by controlling the height adjusting sliding frame 4, so that the upper wire fixing component 8 is adjusted to a proper height to erect the power cable, two ends of the upper wire fixing component 8 can extend outwards by adjusting the upper wire fixing component 8, after the whole length of the upper wire fixing component 8 is lengthened, more power cables can be conveniently erected, the upper wire fixing component 8 can drive the auxiliary wire fixing component 11 to extend towards the upper end while extending outwards, the longer the length of the upper wire fixing component 8 extending towards the outer end is, the longer the length of the auxiliary wire fixing component 11 extends out is, the auxiliary wire fixing component 11 plays a role of an auxiliary wire erection for erecting more power cables, and adjacent power cables are independent and parallel to avoid disorder and entanglement of the power cables; when the upper wire fixing assembly 8 extends to the longest state, the extension length of the auxiliary wire fixing assembly 11 is also longest, and the distance between a plurality of power cables can be adjusted according to requirements; when the device is erected on a sloping ground, the whole device is in an inclined state, the height adjusting seat 6, the upper wire fixing assembly 8 and the lower wire fixing assembly 10 can be adjusted to be parallel to the horizontal plane by controlling the lower wire fixing assembly 10, the upper wire fixing assembly 8 and the lower wire fixing assembly 10 can erect the power cable at the same time, and the better and more stable supporting effect can be achieved on the power cable while the erection of the power cable is not influenced.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a power line frame, includes base (1), bracing piece (2), altitude mixture control balladeur train (4), altitude mixture control seat (6), supports smooth frame (7), goes up solidus subassembly (8), angle modulation slide (9), solidus subassembly (10) and supplementary solidus subassembly (11) down, its characterized in that: the supporting rod (2) is fixedly connected on the base (1), the height adjusting sliding frame (4) is fixedly connected on the supporting rod (2), the height adjusting seat (6) is connected on the height adjusting sliding frame (4) in a sliding fit manner, the upper end of the height adjusting seat (6) is fixedly connected with the supporting sliding frame (7), the upper wire fixing component (8) is fixedly connected on the supporting sliding frame (7), the lower end of the height adjusting seat (6) is fixedly connected with the lower wire fixing component (10), two ends of the lower wire fixing component (10) are respectively connected with the angle adjusting sliding seat (9) in a sliding fit manner, the two angle adjusting sliding seats (9) are symmetrically connected on the height adjusting sliding frame (4) in a sliding fit manner, the two angle adjusting sliding seats (9) are fixedly connected on the height adjusting seat (6), the auxiliary wire fixing component (11) is connected on the supporting sliding frame (7) and the upper wire fixing component (8) in a sliding fit manner, two ends of the auxiliary wire fixing component (11) are respectively and fixedly connected with two ends of the upper wire fixing component (8);

the upper wire fixing component (8) comprises a wire fixing sleeve rod (8-1), a wire fixing hole I (8-2), a bidirectional screw rod (8-3), a rod frame plate (8-4), a U-shaped linkage plate (8-5), an L-shaped rod (8-6), a telescopic wire fixing plate (8-7), a wire fixing hole II (8-8) and a lead frame I (8-9); the middle part of a wire fixing sleeve rod (8-1) is fixedly connected to a supporting sliding frame (7), a plurality of wire fixing holes I (8-2) are formed in two ends of the wire fixing sleeve rod (8-1), two ends of a bidirectional screw rod (8-3) are rotatably connected with a rod frame plate (8-4) through bearings with seats respectively, two rod frame plates (8-4) are fixedly connected to two ends of the wire fixing sleeve rod (8-1) respectively, the middle part of the bidirectional screw rod (8-3) is fixedly connected with a screwing ring, the front ends of two U-shaped linkage plates (8-5) are connected to two ends of the bidirectional screw rod (8-3) respectively through thread matching, the middle parts of the two U-shaped linkage plates (8-5) are fixedly connected with L-shaped rods (8-6) respectively, the outer ends of the two L-shaped rods (8-6) are fixedly connected with a telescopic wire fixing plate (8-7) respectively, the two telescopic wire fixing plates (8-7) are respectively connected with the two ends of the wire fixing sleeve rod (8-1) in a sliding fit manner; a plurality of wire fixing holes II (8-8) are formed in the telescopic wire fixing plate (8-7); the diameter of the wire fixing hole I (8-2) is equal to that of the wire fixing hole II (8-8); the lower end of the wire fixing loop bar (8-1) is fixedly connected with a plurality of lead frames I (8-9);

the auxiliary wire fixing assembly (11) comprises an auxiliary wire fixing plate (11-1), a wire fixing hole III (11-2), a lower hinge seat (11-3), a hinge rod (11-4) and an upper hinge seat (11-5); the auxiliary wire fixing plate (11-1) is uniformly provided with a plurality of wire fixing holes III (11-2), the lower end of the auxiliary wire fixing plate (11-1) is symmetrically and fixedly connected with two lower hinge seats (11-3), the two lower hinge seats (11-3) are respectively and rotatably connected with a hinge rod (11-4) through a hinge shaft, and the two hinge rods (11-4) are respectively and rotatably connected with an upper hinge seat (11-5) through a hinge shaft; the auxiliary wire fixing plate (11-1) is connected to the middle end of the wire fixing sleeve rod (8-1) and the inside of the supporting sliding frame (7) in a sliding fit mode, the two lower hinged seats (11-3) are respectively connected to the two sides of the supporting sliding frame (7) in a sliding fit mode, and the two upper hinged seats (11-5) are respectively fixedly connected to the rear ends of the two U-shaped linkage plates (8-5).

2. An electrical line rack as claimed in claim 1, wherein: the power line frame further comprises a rib plate (3) and an inclined rod (5); four rib plates (3) of fixed connection are evenly encircled at the joint of the supporting rod (2) and the base (1), the lower ends of the two inclined rods (5) are symmetrically and fixedly connected onto the supporting rod (2), and the upper ends of the two inclined rods (5) are fixedly connected onto the height adjusting sliding frame (4).

3. An electrical line rack as claimed in claim 2, wherein: the height adjusting sliding frame (4) comprises a bottom plate (4-1), side plates (4-2), side block sliding grooves (4-3), rectangular through grooves (4-4), side sliding grooves (4-5), a motor I (4-6), a screw rod (4-7) and side frame plates (4-8); the bottom plate (4-1) is fixedly connected to the supporting rod (2), two ends of the bottom plate (4-1) are respectively and fixedly connected with a side plate (4-2), the inner side surfaces of the two side plates (4-2) are respectively provided with a side block sliding groove (4-3), and the two side plates (4-2) are respectively provided with a rectangular through groove (4-4); the rectangular through groove (4-4) is communicated with the side block sliding groove (4-3); the front end and the rear end of the side plate (4-2) are respectively provided with a side sliding groove (4-5); two ends of the screw rod (4-7) are respectively rotatably connected with a side frame plate (4-8) through a bearing with a seat, the two side frame plates (4-8) are fixedly connected to the left side plate (4-2), the motor I (4-6) is fixedly connected to the left side plate (4-2) through a motor frame, and an output shaft of the motor I (4-6) is connected with the screw rod (4-7) through a coupler.

4. An electrical line rack as claimed in claim 3, wherein: the height adjusting seat (6) comprises a rectangular rod (6-1), a short shaft (6-2), a side block (6-3), a T-shaped block (6-4), an L-shaped linkage rod (6-5) and a lower connecting rod (6-6); the rectangular rod (6-1) is fixedly connected to the middle of the short shaft (6-2), two ends of the short shaft (6-2) are respectively connected with one edge block (6-3) in a rotating mode through a bearing with a seat, the outer ends of the two edge blocks (6-3) are respectively fixedly connected with one T-shaped block (6-4), and the L-shaped linkage rod (6-5) is fixedly connected to one T-shaped block (6-4); the two side blocks (6-3) are respectively connected in the two side block sliding grooves (4-3) in a sliding fit manner, the two T-shaped blocks (6-4) are respectively connected in the two rectangular through grooves (4-4) in a sliding fit manner, and the L-shaped linkage rod (6-5) is connected on the screw rod (4-7) in a threaded fit manner; the lower end of the rectangular rod (6-1) is fixedly connected with a lower connecting rod (6-6); the upper end of the rectangular rod (6-1) is fixedly connected with a supporting sliding frame (7).

5. An electrical line rack as claimed in claim 4, wherein: the angle adjusting slide seat (9) comprises a U-shaped slide seat (9-1), a convex block (9-2), an arc-shaped rod (9-3), a U-shaped frame (9-4), a semi-annular rack (9-5), an arc-shaped sliding groove (9-6) and an L-shaped vertical connecting rod (9-7); the inner side of the U-shaped sliding seat (9-1) is symmetrically and fixedly connected with two convex blocks (9-2), two ends of the U-shaped sliding seat (9-1) are respectively and fixedly connected with an arc-shaped rod (9-3), two U-shaped frames (9-4) are respectively and fixedly connected onto the two arc-shaped rods (9-3), the two U-shaped frames (9-4) are symmetrically and fixedly connected onto the outer end face of the semi-annular rack (9-5), and the semi-annular rack (9-5) is provided with an arc-shaped sliding groove (9-6); the U-shaped sliding seat (9-1) is connected on the side plate (4-2) in a sliding fit manner; the convex block (9-2) is connected in the side sliding groove (4-5) in a sliding fit manner; the upper end of the U-shaped sliding seat (9-1) is fixedly connected with an L-shaped vertical connecting rod (9-7), and the L-shaped vertical connecting rod (9-7) is fixedly connected to the inner side of the side block (6-3).

6. An electrical line rack as claimed in claim 5, wherein: the lower wire fixing assembly (10) comprises a lower wire fixing seat (10-1), a lead frame II (10-2), a circular sliding rod (10-3), a motor II (10-4), a transmission shaft (10-5), a vertical frame plate (10-6) and a gear (10-7); the lower wire fixing seat (10-1) is fixedly connected to the lower connecting rod (6-6), and the lower end of the lower wire fixing seat (10-1) is fixedly connected with a plurality of lead frames II (10-2); the lead frame II (10-2) and the lead frame I (8-9) are arranged oppositely; two ends of the lower wire fixing seat (10-1) are respectively fixedly connected with a circular sliding rod (10-3); the circular sliding rod (10-3) is connected in the arc-shaped sliding groove (9-6) in a sliding fit manner; two motors II (10-4) are respectively fixedly connected with two ends of the lower wire fixing seat (10-1) through motor frames, output shafts of the two motors II (10-4) are respectively connected with a transmission shaft (10-5) through a coupler, the two transmission shafts (10-5) are respectively rotatably connected onto a vertical frame plate (10-6) through bearings with seats, the two vertical frame plates (10-6) are both fixedly connected onto the lower wire fixing seat (10-1), and the outer ends of the two transmission shafts (10-5) are respectively fixedly connected with a gear (10-7); the gear (10-7) is in meshed transmission connection with the semi-annular rack (9-5).