CN109888692A - A power line holder - Google Patents

Abstract

The present invention is a power line fixing frame, which relates to the technical field of power devices, and includes a fixed base, a ground screw, a fixed sleeve assembly, a movable sleeve assembly, a linkage control assembly and a fixed wire assembly. The beneficial technical effect is that the present invention can make adjacent The cables are independent and kept parallel, and the two fixing wire assemblies can be deployed to fix more cables; the invention is suitable for areas with poor soil conditions or harsh environments; it is easy to move and handle, and can be quickly deployed during use , easy to use. There are four ground-insertion screws, and the four ground-insertion screws evenly fix the outer end of the connection line fixed base, the fixed sleeve assembly is fixedly connected to the fixed base, and the lower end of the movable sleeve assembly is slidably connected in the fixed sleeve assembly. The upper and lower ends of the control assembly are respectively fixedly connected to the movable sleeve assembly and the fixed base, the upper end of the linkage control assembly is slidably connected to the movable sleeve assembly, and there are two fixed wire assemblies.

Description

A kind of power line fixed frame

Technical field

The present invention relates to electric device technical fields, are in particular a kind of power line fixed frames.

Background technique

When cable laying in Power system, cable support is usually used, electric wire is when fixed with other objects It when mostly using the mode that wiring is tied up, such as high-tension bus-bar being tied up on the insulator, should not tighten, pass through since high-tension bus-bar is really up to the mark Often there is the phenomenon that high-tension bus-bar falls off from binding place of insulator, be very easy to cause single-phase earthing or phase fault, Very big hidden danger is buried in the safe operation of route, significantly impacts the reliability of power supply, while between the multiple cables of the mode tied up It is unable to keeping parallelism, causes to tie up rear cable bend, is easy that cable is caused to damage, safety is poor.

Summary of the invention

The object of the present invention is to provide a kind of power line fixed frame, its advantages are that the present invention can make adjacent cables only The cable for fixing more roots can be unfolded in vertical and keeping parallelism, two solidus components；The present invention is suitable for edaphic condition not Good or environment is falled foul of each other bad area；Easy to remove and carrying, when in use can be easy to use with rapid deployment.

The purpose of the present invention is achieved through the following technical solutions:

A kind of power line fixed frame, including firm banking, slotting Floor screw, fixes sleeve component, quill component, linkage Control assembly and solidus component, there are four the slotting Floor screw settings, and four slotting Floor screws are uniformly fixedly connected with the fixed bottom of line The outer end of seat, fixes sleeve component are fixedly connected on the fixed base, and the lower end of quill component is slidably connected at fixing sleeve In cartridge module, the upper and lower ends of linkage control component are respectively fixedly connected on quill component and firm banking, linkage control The upper end of component processed is slidably connected on quill component, and there are two the settings of solidus component, and two solidus components are symmetrical The upper end of quill component is set, and the left and right ends of linkage control component are respectively fixedly connected on two solidus components.

The fixes sleeve component includes external hollow sleeve, limit through slot, motor, active worm screw, bridge plate, active snail Wheel, transmission shaft, drive bevel gear, driven wheel of differential, driven worm screw, rotary gear shaft and gear；The lower end of external hollow sleeve is fixed It is connected to the center of firm banking, a limit through slot is respectively set in the front and rear sides of external hollow sleeve, and motor passes through electricity Rack is fixedly connected on external hollow sleeve, and one end of active worm screw is rotatably connected on bridge plate by rolling bearing units, bridge Plate is fixedly connected on external hollow sleeve, and the other end of active worm screw is connected on the output shaft of motor by shaft coupling, actively Worm gear is connected by meshing transmission with active worm screw, and worm driver gear and drive bevel gear are respectively fixedly connected with two before and after transmission shaft End, the middle-end of transmission shaft are rotatably connected on external hollow sleeve by rolling bearing units, and drive bevel gear is engaged with driven wheel of differential Transmission connection, driven wheel of differential are fixedly connected on the middle-end of driven worm screw, and driven worm screw is rotatablely connected outside by rolling bearing units Left end on the inside of cannulated sleeve, the right end of driven worm screw are fixedly connected with rotary gear shaft, and rotary gear shaft is rotated by rolling bearing units to be connected The right end in outer cannulated sleeve medial surface is connect, gear, which is fixedly connected on, to be connect on rotary gear shaft, driven worm screw and quill component It is connected by meshing transmission, gear is connected by meshing transmission with quill component.

The quill component includes interior cannulated sleeve, rectangular straight slot, side chute, position limiting slide block, hinged seat I, top Disk, rack gear and link block；A rectangular straight slot, the front end setting of interior cannulated sleeve is respectively set in the left and right ends of interior cannulated sleeve One side chute, the front and rear sides of interior cannulated sleeve lower end are respectively fixedly connected with a position limiting slide block；The interior cannulated sleeve is sliding Dynamic to be cooperatively connected in outer cannulated sleeve, to be connected to two rectangles logical for clearance fit respectively for the outer end of driven worm screw and rotary gear shaft In slot, transmission shaft clearance fit is connected in side chute, and two position limiting slide blocks are slidably connected respectively in two limit through slots It is interior；Two hinged seats I are symmetrically fixedly connected in the upper end of interior cannulated sleeve, and the top surface of interior cannulated sleeve is fixedly connected with top plate, tooth The both ends of item are respectively fixedly connected with a link block, and rack gear is fixedly connected by two link blocks in interior cannulated sleeve medial surface Front end；Wheel and rack is connected by meshing transmission.

The linkage control component includes axle sleeve, expansion screw, side chute, side slide, linkage block, hinge bar, hinged Seat II and worm gear；Axle sleeve is located in external hollow sleeve, and expansion screw is located in interior cannulated sleeve, and the lower end of axle sleeve passes through axis of usheing to seat It holds and is rotatably connected on firm banking, the lower end of expansion screw is slidably connected in axle sleeve, and the upper end of expansion screw passes through Rolling bearing units are rotatably connected in top plate, and vertical perforative side chute is provided on axle sleeve, and side slide is slidably connected in side In sliding slot, side slide is fixedly connected on the lower end of expansion screw, and linkage block is threadedly attached on expansion screw, linkage block Both ends are slidably connected respectively in two rectangular straight slot, and the both ends of linkage block are rotatablely connected a hinge by articulated shaft respectively Extension bar, the outer end of two hinge bars are rotatablely connected a hinged seat II by articulated shaft respectively, and two hinged seats II are fixed respectively Connect a solidus component；Worm gear is fixedly connected on the upper end of axle sleeve, and worm gear and the inner end of driven worm screw are connected by meshing transmission.

The solidus component includes main solidus plate and solidus hole I；The inner end of main solidus plate is rotatablely connected by articulated shaft On hinged seat I, multiple solidus holes I are uniformly arranged on main solidus plate；Hinged seat II is fixedly connected on the bottom surface of main solidus plate.

The solidus component further includes rectangle accommodating groove, external screw thread adjusting rod, guide rod, auxiliary solidus plate, adjusting block, limit Disk and solidus hole II；Rectangle accommodating groove is provided on main solidus plate, rectangle accommodating groove is all connected to multiple solidus holes I, and guide rod is solid Surely it is connected to the inside of rectangle storage groove bottom, external screw thread adjusting rod is rotatably connected on rectangle by rolling bearing units and stores groove bottom Outside；The both ends of auxiliary solidus plate are respectively fixedly connected with an adjusting block, and the adjusting block in outside is threadedly attached in external screw thread On adjusting rod, the adjusting block of inside is slidably connected on guide rod, and auxiliary solidus sheet separation is cooperatively connected in rectangle accommodating groove, Multiple solidus holes II are evenly arranged on auxiliary solidus plate；The solidus hole II is connected to solidus hole I.

The inside in the solidus hole II and solidus hole I is all fixedly connected with rubber layer.

The solidus hole II is overlapped with the axis in solidus hole I.

A kind of power line fixed frame of the invention has the beneficial effect that

A kind of power line fixed frame of the present invention, the present invention can make adjacent cables independence and keeping parallelism, avoid after fixing Cable bend and cause to damage, two solidus components can be unfolded the cable for fixing more roots, and guarantee more cables Between still keep independent parallel state；Four slotting Floor screws, which can carry out reinforcing, keeps the present invention bad suitable for edaphic condition Or environment is falled foul of each other bad area, can guarantee the stability of device；The present invention can store, and save space, easy to remove And carrying, it when in use can be easy to use with rapid deployment.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of power line fixed frame of the present invention；

Fig. 2 is a kind of schematic cross-sectional view one of power line fixed frame of the present invention；

Fig. 3 is a kind of schematic cross-sectional view two of power line fixed frame of the present invention；

Fig. 4 is a kind of schematic cross-sectional view three of power line fixed frame of the present invention；

Fig. 5 is a kind of structural schematic diagram of power line holder segment of the present invention；

Fig. 6 is the structural schematic diagram after a kind of power line fixed frame storage of the present invention；

Fig. 7 is the schematic cross-sectional view after a kind of power line fixed frame storage of the present invention；

Fig. 8 is the structural schematic diagram one of fixes sleeve component；

Fig. 9 is the structural schematic diagram two of fixes sleeve component；

Figure 10 is the structural schematic diagram one of quill component；

Figure 11 is the structural schematic diagram two of quill component；

Figure 12 is the structural schematic diagram of linkage control component；

Figure 13 is the structural schematic diagram of solidus component；

Figure 14 is the structural schematic diagram after the expansion of solidus component；

Figure 15 is the structural schematic diagram of firm banking.

In figure: firm banking 1；Insert Floor screw 2；Fixes sleeve component 3；External hollow sleeve 3-1；Limit through slot 3-2；Motor 3-3；Active worm screw 3-4；Bridge plate 3-5；Worm driver gear 3-6；Transmission shaft 3-7；Drive bevel gear 3-8；Driven wheel of differential 3-9； Driven worm screw 3-10；Rotary gear shaft 3-11；Gear 3-12；Quill component 4；Interior cannulated sleeve 4-1；Rectangular straight slot 4-2；Side Sliding slot 4-3；Position limiting slide block 4-4；I 4-5 of hinged seat；Top plate 4-6；Rack gear 4-7；Link block 4-8；Linkage control component 5；Axle sleeve 5- 1；Expansion screw 5-2；Side chute 5-3；Side slide 5-4；Linkage block 5-5；Hinge bar 5-6；II 5-7 of hinged seat；Worm gear 5-8；Gu Line component 6；Main solidus plate 6-1；I 6-2 of solidus hole；Rectangle accommodating groove 6-3；External screw thread adjusting rod 6-4；Guide rod 6-5；Auxiliary solidus plate 6-6；Adjusting block 6-7；Position-arresting disk 6-8；II 6-9 of solidus hole.

Specific embodiment

The present invention will be further described in detail for 1-15 and specific embodiment with reference to the accompanying drawing.

Specific embodiment 1:

Illustrate present embodiment, a kind of power line fixed frame, including firm banking 1, slotting Floor screw below with reference to Fig. 1-15 2, fixes sleeve component 3, quill component 4, linkage control component 5 and solidus component 6, the slotting Floor screw 2 are provided with Four, four slotting Floor screws 2 are uniformly fixedly connected with the outer end of line firm banking 1, and fixes sleeve component 3 is fixedly connected on fixed bottom On seat 1, the lower end of quill component 4 is slidably connected in fixes sleeve component 3, the upper and lower ends point of linkage control component 5 It is not fixedly connected on quill component 4 and firm banking 1, the upper end of linkage control component 5 is slidably connected in activity On sleeve assembly 4, there are two the settings of solidus component 6, and two solidus components 6 are symmetricly set on the upper end of quill component 4, connection The left and right ends of dynamic control assembly 5 are respectively fixedly connected on two solidus components 6.In the use of the present invention, by firm banking 1 It is placed on specified location, by rotating four slotting Floor screws 2, makes to consolidate whole device in four slotting 2 precession ground of Floor screw Fixed, after fixes sleeve component 3 is connected to electric power starting, fixes sleeve component 3 drives quill component 4 to move up, simultaneously Fixes sleeve component 3 drives linkage control component 5 to work, and linkage control component 5 drives two rotations of solidus component 6 to horizontal position It sets, more cables is passed through into fixation of the realization of solidus component 6 to more cables；It can be used to after two solidus components 6 are unfolded The cable of fixed more roots；When needing mobile device, control fixes sleeve component 3 drives quill component 4 after starting Slide downward, while the work of linkage control component 5 drives two solidus components 6 to be swung down to vertical state realization receipts simultaneously It receives, saves space in mobile or handling process.

Specific embodiment 2:

Illustrate present embodiment below with reference to Fig. 1-15, the fixes sleeve component 3 includes external hollow sleeve 3-1, limit Position through slot 3-2, motor 3-3, active worm screw 3-4, bridge plate 3-5, worm driver gear 3-6, transmission shaft 3-7, drive bevel gear 3-8, Driven wheel of differential 3-9, driven worm screw 3-10, rotary gear shaft 3-11 and gear 3-12；The lower end of external hollow sleeve 3-1 is fixedly connected In the center of firm banking 1, limit a through slot 3-2, motor 3-3 is respectively set in the front and rear sides of external hollow sleeve 3-1 It is fixedly connected on external hollow sleeve 3-1 by motor rack, one end of active worm screw 3-4 is rotatably connected on bar by rolling bearing units On frame plate 3-5, bridge plate 3-5 is fixedly connected on external hollow sleeve 3-1, and the other end of active worm screw 3-4 is connected by shaft coupling It connects on the output shaft of motor 3-3, worm driver gear 3-6 is connected by meshing transmission with active worm screw 3-4, worm driver gear 3-6 and active Bevel gear 3-8 is respectively fixedly connected in the rear and front end of transmission shaft 3-7, and the middle-end of transmission shaft 3-7 is rotated by rolling bearing units to be connected It connects on outer cannulated sleeve 3-1, drive bevel gear 3-8 is connected by meshing transmission with driven wheel of differential 3-9, and driven wheel of differential 3-9 is solid Surely it is connected to the middle-end of driven worm screw 3-10, driven worm screw 3-10 is rotatably connected in external hollow sleeve 3-1 by rolling bearing units The left end of side, the right end of driven worm screw 3-10 are fixedly connected with rotary gear shaft 3-11, and rotary gear shaft 3-11 is rotated by rolling bearing units It is connected to the right end of external hollow sleeve 3-1 medial surface, gear 3-12, which is fixedly connected on, to be connect on rotary gear shaft 3-11, driven worm screw 3- 10 are connected by meshing transmission with quill component 4, and gear 3-12 is connected by meshing transmission with quill component 4.The fixation When in use, motor 3-3 by wire connecting power and control switch and is opened for sleeve assembly 3, and motor 3-3 drives active snail For bar 3-4 around own axis, active worm screw 3-4 drives worm driver gear 3-6 around own axis, and worm driver gear 3-6 drives Transmission shaft 3-7 drives drive bevel gear 3-8 around own axis, drive bevel gear 3- around own axis, transmission shaft 3-7 8 drive driven wheel of differential 3-9 around own axis, and driven wheel of differential 3-9 drives driven worm screw 3-10 around own axis, Driven worm screw 3-10 drives rotary gear shaft 3-11 around own axis, and rotary gear shaft 3-11 band moving gear 3-12 is around own axes Rotation, gear 3-12 drive quill component 4 to move up and down, and driven worm screw 3-10 drives linkage control component 5 to work.

Specific embodiment 3:

Illustrate present embodiment below with reference to Fig. 1-15, the quill component 4 includes interior cannulated sleeve 4-1, square Shape through slot 4-2, side chute 4-3, position limiting slide block 4-4, I 4-5 of hinged seat, top plate 4-6, rack gear 4-7 and link block 4-8；It is interior hollow A side chute 4- is arranged in the front end that rectangular straight slot a 4-2, interior cannulated sleeve 4-1 is respectively set in the left and right ends of sleeve 4-1 The front and rear sides of the lower end 3, interior cannulated sleeve 4-1 are respectively fixedly connected with a position limiting slide block 4-4；The interior cannulated sleeve 4-1 is sliding Dynamic to be cooperatively connected in outer cannulated sleeve 3-1, driven worm screw 3-10 is connected with the outer end of rotary gear shaft 3-11 difference clearance fit In two rectangular straight slot 4-2, transmission shaft 3-7 clearance fit is connected in side chute 4-3, and two position limiting slide block 4-4 are slided respectively It is dynamic to be cooperatively connected in two limit through slot 3-2；Two I 4-5 of hinged seat are symmetrically fixedly connected in the upper of interior cannulated sleeve 4-1 End, the top surface of interior cannulated sleeve 4-1 are fixedly connected with top plate 4-6, and the both ends of rack gear 4-7 are respectively fixedly connected with a link block 4-8, Rack gear 4-7 is fixedly connected by two link block 4-8 in the front end of interior cannulated sleeve 4-1 medial surface；Gear 3-12 and rack gear 4-7 It is connected by meshing transmission.When in use, band carry-over bar 4-7 is moved up and down the quill component 4 when gear 3-12 is rotated, tooth 4-7 by two link block 4-8 drive in cannulated sleeve 4-1 moved up and down in outer cannulated sleeve 3-1, two position limiting slide blocks 4-4 is slidably connected in two limit through slot 3-2, and internal cannulated sleeve 4-1 plays the role of limition orientation, makes interior sky Heart sleeve 4-1 can only be moved up and down along the axis of external hollow sleeve 3-1, while transmission shaft 3-7 is slided in side chute 4-3.

Specific embodiment 4:

Illustrate present embodiment below with reference to Fig. 1-15, the linkage control component 5 includes axle sleeve 5-1, expansion screw 5-2, side chute 5-3, side slide 5-4, linkage block 5-5, hinge bar 5-6, hinged seat II 5-7 and worm gear 5-8；Axle sleeve 5-1 is located at In external hollow sleeve 3-1, expansion screw 5-2 is located in interior cannulated sleeve 4-1, and the lower end of axle sleeve 5-1 is rotated by rolling bearing units It is connected on firm banking 1, the lower end of expansion screw 5-2 is slidably connected the upper end of expansion screw 5-2 in axle sleeve 5-1 It is rotatably connected on top plate 4-6 by rolling bearing units, vertical perforative side chute 5-3, side slide 5-4 is provided on axle sleeve 5-1 Sliding connection is in side chute 5-3, and side slide 5-4 is fixedly connected on the lower end of expansion screw 5-2, and linkage block 5-5 passes through It is threaded on expansion screw 5-2, the both ends of linkage block 5-5 are slidably connected respectively in two rectangular straight slot 4-2, connection The both ends of motion block 5-5 are rotatablely connected a hinge bar 5-6 by articulated shaft respectively, and the outer end of two hinge bar 5-6 passes through respectively Articulated shaft is rotatablely connected hinged seat II 5-7, two II 5-7 of hinged seat and is respectively fixedly connected with a solidus component 6；Worm gear 5- 8 are fixedly connected on the upper end of axle sleeve 5-1, and worm gear 5-8 and the inner end of driven worm screw 3-10 are connected by meshing transmission.The linkage control When in use, when interior cannulated sleeve 4-1 is slided up and down in outer cannulated sleeve 3-1, expansion screw 5-2 is in axle sleeve 5-1 for component 5 processed It inside slides up and down, driven worm screw 3-10 drives worm gear 5-8 around own axis, and side slide 5-4 sliding connection is being breakked away In slot 5-3, drive expansion screw 5-2 around own axis by side slide 5-4 when worm gear 5-8 is rotated, linkage block 5-5 with stretch Compression screw arbor 5-2 is connected through a screw thread generation relative displacement, and expansion screw 5-2 drives linkage block 5-5 to move up and down；When interior hollow sleeve When moving up, linkage block 5-5 is moved up cylinder 4-1, and the inner end of two hinge bar 5-6 moves up, two hinge bar 5-6's Outer end drives two II 5-7 of hinged seat to be unfolded outward, it is opposite in cannulated sleeve 4-1 slide downward when, linkage block 5-5 is to moving down Dynamic, two II 5-7 of hinged seat are stored inwardly.

Specific embodiment 5:

Illustrate present embodiment below with reference to Fig. 1-15, the solidus component 6 includes main solidus plate 6-1 and solidus hole I 6-2；The inner end of main solidus plate 6-1 is rotatably connected on I 4-5 of hinged seat by articulated shaft, and multiple I 6-2 of solidus hole are uniformly arranged On main solidus plate 6-1；II 5-7 of hinged seat is fixedly connected on the bottom surface of main solidus plate 6-1.The solidus component 6 is using When, when two II 5-7 of hinged seat are unfolded outward, two main solidus plate 6-1 is driven to be expanded to horizontality outward simultaneously, it will More cables are each passed through I 6-2 of solidus hole, realize fixing respectively to more cables, make adjacent cables independence and keeping parallelism.

Specific embodiment 6:

Illustrate present embodiment below with reference to Fig. 1-15, the solidus component 6 further includes rectangle accommodating groove 6-3, outer spiral shell Line adjusting rod 6-4, guide rod 6-5, auxiliary solidus plate 6-6, II 6-9 of adjusting block 6-7, position-arresting disk 6-8 and solidus hole；Main solidus plate 6-1 On be provided with rectangle accommodating groove 6-3, rectangle accommodating groove 6-3 is all connected to multiple I 6-2 of solidus hole, and guide rod 6-5 is fixedly connected on square The inside of the bottom surface shape accommodating groove 6-3, external screw thread adjusting rod 6-4 are rotatably connected on the bottom surface rectangle accommodating groove 6-3 by rolling bearing units Outside；The both ends of auxiliary solidus plate 6-6 are respectively fixedly connected with an adjusting block 6-7, and the adjusting block 6-7 in outside is connected through a screw thread On external screw thread adjusting rod 6-4, the adjusting block 6-7 of inside is slidably connected on guide rod 6-5, and the auxiliary gap solidus plate 6-6 is matched Conjunction is connected in rectangle accommodating groove 6-3, and multiple II 6-9 of solidus hole are evenly arranged on auxiliary solidus plate 6-6；II 6- of solidus hole 9 are connected to I 6-2 of solidus hole.The solidus component 6 when in use, when auxiliary solidus plate 6-6 is located in rectangle accommodating groove 6-3, By cable also cross II 6-9 of I 6-2 of solidus hole and solidus hole of coincidence, when cable to be fixed is more, external screw thread tune is rotated Pole 6-4, external screw thread adjusting rod 6-4 and the adjusting block 6-7 in outside generate relative displacement, drive the adjusting block 6-7 in outside upward Mobile, the adjusting block 6-7 in outside drives the adjusting block 6-7 of auxiliary solidus plate 6-6 and inside to move up, guide rod 6-5 and inside Adjusting block 6-7 plays the role of limition orientation to auxiliary solidus plate 6-6, allows auxiliary solidus plate 6-6 along external screw thread adjusting rod 6-4 Axis move up and down, after auxiliary solidus plate 6-6 is separated with rectangle accommodating groove 6-3, II 6-9 of solidus hole is separated with I 6-2 of solidus hole, More cables can be each passed through multiple I 6-2 of solidus hole and II 6-9 of solidus hole, realize the fixation to more root cables, and guarantee Independent parallel state is still kept between more cables.

Specific embodiment 7:

Illustrate present embodiment below with reference to Fig. 1-15, II 6-9 of solidus hole and the inside of I 6-2 of solidus hole are all solid Surely it is connected with rubber layer, avoids generating friction with power line outer surface during actual use, causes power line outer surface Abrasion.

Specific embodiment 8:

Illustrate present embodiment below with reference to Fig. 1-15, II 6-9 of solidus hole is overlapped with the axis of I 6-2 of solidus hole.

A kind of working principle of power line fixed frame of the present invention: in the use of the present invention, firm banking 1 is placed on specified At position, by rotating four slotting Floor screws 2, make to fix whole device in four slotting 2 precession ground of Floor screw, will fix After sleeve assembly 3 is connected to electric power starting, fixes sleeve component 3 drives quill component 4 to move up, while fixes sleeve group Part 3 drives linkage control component 5 to work, and linkage control component 5 drives two rotations of solidus component 6 to horizontal position, by more Cable passes through fixation of the realization of solidus component 6 to more cables；It can be used to fix more roots after two solidus components 6 are unfolded Cable；When needing mobile device, control fixes sleeve component 3 drives 4 slide downward of quill component after starting, together When linkage control component 5 work and drive two solidus components 6 to be swung down to vertical state simultaneously to realize storage, it is mobile or carry Space is saved in the process.The fixes sleeve component 3 is opened by wire connecting power and control when in use, by motor 3-3 It closes and opens, motor 3-3 drives active worm screw 3-4 around own axis, and active worm screw 3-4 drives worm driver gear 3-6 around certainly Body axis rotation, worm driver gear 3-6 drive transmission shaft 3-7 around own axis, and transmission shaft 3-7 drives drive bevel gear 3-8 Around own axis, drive bevel gear 3-8 drives driven wheel of differential 3-9 around own axis, and driven wheel of differential 3-9 drives For driven worm screw 3-10 around own axis, driven worm screw 3-10 drives rotary gear shaft 3-11 around own axis, and gear turns Axis 3-11 band moving gear 3-12 drives quill component 4 to move up and down around own axis, gear 3-12, driven worm screw 3- 10 drive linkage control component 5 to work.The quill component 4 when in use, gear 3-12 rotate when band carry-over bar 4-7 It moving up and down, rack gear 4-7 drives interior cannulated sleeve 4-1 to move up and down in outer cannulated sleeve 3-1 by two link block 4-8, In two limit through slot 3-2, internal cannulated sleeve 4-1 plays limition orientation for two position limiting slide block 4-4 sliding connections Effect, move up and down interior cannulated sleeve 4-1 can only along the axis of external hollow sleeve 3-1, while transmission shaft 3-7 is breakking away Sliding in slot 4-3.When in use, interior cannulated sleeve 4-1 is upper in outer cannulated sleeve 3-1 to glide the linkage control component 5 When dynamic, expansion screw 5-2 is slided up and down in axle sleeve 5-1, and driven worm screw 3-10 drives worm gear 5-8 around own axis, side Sliding block 5-4 be slidably connected in side chute 5-3, worm gear 5-8 rotate when by side slide 5-4 drive expansion screw 5-2 around Own axis, linkage block 5-5 and expansion screw 5-2 are connected through a screw thread generation relative displacement, and expansion screw 5-2 drives connection Motion block 5-5 is moved up and down；When interior cannulated sleeve 4-1 is moved up, linkage block 5-5 is moved up, and two hinge bar 5-6's is interior End moves up, and the outer end of two hinge bar 5-6 drives two II 5-7 of hinged seat to be unfolded outward, opposite interior cannulated sleeve 4-1 When slide downward, linkage block 5-5 is moved down, and two II 5-7 of hinged seat are stored inwardly.The solidus component 6 is using When, when two II 5-7 of hinged seat are unfolded outward, two main solidus plate 6-1 is driven to be expanded to horizontality outward simultaneously, it will More cables are each passed through I 6-2 of solidus hole, realize fixing respectively to more cables, make adjacent cables independence and keeping parallelism. The solidus component 6 when in use, when auxiliary solidus plate 6-6 is located in rectangle accommodating groove 6-3, by cable also cross coincidence II 6-9 of I 6-2 of solidus hole and solidus hole, when cable to be fixed is more, rotate external screw thread adjusting rod 6-4, external screw thread adjust The bar 6-4 and adjusting block 6-7 in outside generates relative displacement, drives the adjusting block 6-7 in outside to move up, the adjusting block 6- in outside 7 drive the adjusting block 6-7 of auxiliary solidus plate 6-6 and inside to move up, and the adjusting block 6-7 of guide rod 6-5 and inside is to auxiliary solidus plate 6-6 plays the role of limition orientation, moves up and down auxiliary solidus plate 6-6 along the axis of external screw thread adjusting rod 6-4, auxiliary solid After line plate 6-6 is separated with rectangle accommodating groove 6-3, II 6-9 of solidus hole is separated with I 6-2 of solidus hole, and more cables can be each passed through Multiple I 6-2 of solidus hole and II 6-9 of solidus hole realize the fixation to more root cables, and guarantee still to keep between more cables Independent parallel state.

Certainly, above description is not limitation of the present invention, and the present invention is also not limited to the example above, the art The variations, modifications, additions or substitutions that those of ordinary skill is made within the essential scope of the present invention also belong to guarantor of the invention Protect range.

Claims (8)

1. a kind of power line fixed frame, including firm banking (1), slotting Floor screw (2), fixes sleeve component (3), quill group Part (4), linkage control component (5) and solidus component (6), it is characterised in that: there are four slotting Floor screw (2) settings, and four A slotting Floor screw (2) is uniformly fixedly connected with the outer end of line firm banking (1), and fixes sleeve component (3) is fixedly connected on fixed bottom On seat (1), the lower end of quill component (4) is slidably connected in fixes sleeve component (3), linkage control component (5) it is upper Lower both ends are respectively fixedly connected on quill component (4) and firm banking (1), the upper end sliding of linkage control component (5) It is cooperatively connected on quill component (4), there are two solidus component (6) settings, and two solidus components (6) are symmetricly set on work The upper end of moving sleeve component (4), the left and right ends of linkage control component (5) are respectively fixedly connected on two solidus components (6).

2. a kind of power line fixed frame according to claim 1, it is characterised in that: fixes sleeve component (3) packet Include external hollow sleeve (3-1), limit through slot (3-2), motor (3-3), active worm screw (3-4), bridge plate (3-5), worm driver gear (3-6), transmission shaft (3-7), drive bevel gear (3-8), driven wheel of differential (3-9), driven worm screw (3-10), rotary gear shaft (3- And gear (3-12) 11)；The lower end of external hollow sleeve (3-1) is fixedly connected on the center of firm banking (1), external hollow set A limit through slot (3-2) is respectively set in the front and rear sides of cylinder (3-1), and motor (3-3) is fixedly connected on outer space by motor rack On heart sleeve (3-1), one end of active worm screw (3-4) is rotatably connected on bridge plate (3-5), and bridge plate (3-5) is fixedly connected On outer cannulated sleeve (3-1), the other end of active worm screw (3-4) is connected on the output shaft of motor (3-3) by shaft coupling, Worm driver gear (3-6) is connected by meshing transmission with active worm screw (3-4), and worm driver gear (3-6) and drive bevel gear (3-8) are solid respectively Surely it is connected to the rear and front end of transmission shaft (3-7), the middle-end of transmission shaft (3-7) is rotatably connected on external hollow sleeve (3-1), main Dynamic bevel gear (3-8) is connected by meshing transmission with driven wheel of differential (3-9), and driven wheel of differential (3-9) is fixedly connected on driven worm screw The middle-end of (3-10), driven worm screw (3-10) are rotatably connected on the left end on the inside of external hollow sleeve (3-1), driven worm screw (3-10) Right end be fixedly connected rotary gear shaft (3-11), rotary gear shaft (3-11) is rotatably connected on external hollow sleeve (3-1) medial surface Right end, gear (3-12), which is fixedly connected on, to be connect on rotary gear shaft (3-11), and driven worm screw (3-10) is nibbled with quill component (4) Transmission connection is closed, gear (3-12) is connected by meshing transmission with quill component (4).

3. a kind of power line fixed frame according to claim 2, it is characterised in that: quill component (4) packet Include interior cannulated sleeve (4-1), rectangular straight slot (4-2), side chute (4-3), position limiting slide block (4-4), hinged seat I (4-5), top plate (4-6), rack gear (4-7) and link block (4-8)；A rectangular straight slot (4- is respectively set in the left and right ends of interior cannulated sleeve (4-1) 2), a side chute (4-3), the front and rear sides difference of interior cannulated sleeve (4-1) lower end is arranged in the front end of interior cannulated sleeve (4-1) It is fixedly connected with a position limiting slide block (4-4)；Interior cannulated sleeve (4-1) sliding connection is interior in outer cannulated sleeve (3-1), Clearance fit is connected in two rectangular straight slot (4-2) respectively for the outer end of driven worm screw (3-10) and rotary gear shaft (3-11), is passed Moving axis (3-7) clearance fit is connected in side chute (4-3), and two position limiting slide blocks (4-4) are slidably connected respectively at two It limits in through slot (3-2)；Two hinged seats I (4-5) are symmetrically fixedly connected in the upper end of interior cannulated sleeve (4-1), interior hollow sleeve The top surface of cylinder (4-1) is fixedly connected top plate (4-6), and the both ends of rack gear (4-7) are respectively fixedly connected with a link block (4-8), tooth Item (4-7) is fixedly connected by two link blocks (4-8) in the front end of interior cannulated sleeve (4-1) medial surface；Gear (3-12) with Rack gear (4-7) is connected by meshing transmission.

4. a kind of power line fixed frame according to claim 3, it is characterised in that: linkage control component (5) packet Include axle sleeve (5-1), expansion screw (5-2), side chute (5-3), side slide (5-4), linkage block (5-5), hinge bar (5-6), hinge Joint chair II (5-7) and worm gear (5-8)；Axle sleeve (5-1) is located in external hollow sleeve (3-1), and expansion screw (5-2) is located at interior hollow In sleeve (4-1), the lower end of axle sleeve (5-1) is rotatably connected on firm banking (1), and the lower end sliding of expansion screw (5-2) is matched Conjunction is connected in axle sleeve (5-1), and the upper end of expansion screw (5-2) is rotatably connected on top plate (4-6), is arranged on axle sleeve (5-1) There is vertical perforative side chute (5-3), in side chute (5-3), side slide (5-4) is solid for side slide (5-4) sliding connection Surely it is connected to the lower end of expansion screw (5-2), linkage block (5-5) is threadedly attached on expansion screw (5-2), linkage block The both ends of (5-5) are slidably connected respectively in two rectangular straight slot (4-2), and the both ends of linkage block (5-5) pass through hinge respectively Spindle is rotatablely connected a hinge bar (5-6), and the outer end of two hinge bars (5-6) is rotatablely connected a hinge by articulated shaft respectively Joint chair II (5-7), two hinged seats II (5-7) are respectively fixedly connected with a solidus component (6)；Worm gear (5-8) is fixedly connected on The upper end of axle sleeve (5-1), worm gear (5-8) and the inner end of driven worm screw (3-10) are connected by meshing transmission.

5. a kind of power line fixed frame according to claim 4, it is characterised in that: the solidus component (6) includes master Solidus plate (6-1) and solidus hole I (6-2)；The inner end of main solidus plate (6-1) is rotatably connected on hinged seat I (4-5) by articulated shaft On, multiple solidus holes I (6-2) are uniformly arranged on main solidus plate (6-1)；Hinged seat II (5-7) is fixedly connected on main solidus plate The bottom surface of (6-1).

6. a kind of power line fixed frame according to claim 5, it is characterised in that: the solidus component (6) further includes Rectangle accommodating groove (6-3), external screw thread adjusting rod (6-4), guide rod (6-5), auxiliary solidus plate (6-6), adjusting block (6-7), position-arresting disk (6-8) and solidus hole II (6-9)；It is provided with rectangle accommodating groove (6-3) on main solidus plate (6-1), rectangle accommodating groove (6-3) and more A solidus hole I (6-2) is all connected to, and guide rod (6-5) is fixedly connected on the inside of the bottom surface rectangle accommodating groove (6-3), and external screw thread is adjusted Bar (6-4) is rotatably connected on the outside of the bottom surface rectangle accommodating groove (6-3)；The both ends of auxiliary solidus plate (6-6) are respectively fixedly connected with one The adjusting block (6-7) of a adjusting block (6-7), outside is threadedly attached on external screw thread adjusting rod (6-4), the adjusting block of inside (6-7) is slidably connected on guide rod (6-5), and auxiliary solidus plate (6-6) clearance fit is connected in rectangle accommodating groove (6-3), Multiple solidus holes II (6-9) are evenly arranged on auxiliary solidus plate (6-6)；The solidus hole II (6-9) and solidus hole I (6-2) are even It is logical.

7. a kind of power line fixed frame according to claim 6, it is characterised in that: the solidus hole II (6-9) and solid The inside of string holes I (6-2) is all fixedly connected with rubber layer.

8. a kind of power line fixed frame according to claim 7, it is characterised in that: the solidus hole II (6-9) and solid The axis of string holes I (6-2) is overlapped.