CN113086745A

CN113086745A - A electric wire pulls mount for electric power construction

Info

Publication number: CN113086745A
Application number: CN202110461538.2A
Authority: CN
Inventors: 鲍存会; 马帅旗
Original assignee: Shaanxi University of Technology
Current assignee: Shaanxi University of Technology
Priority date: 2021-04-27
Filing date: 2021-04-27
Publication date: 2021-07-09

Abstract

The invention is suitable for the field of electric power construction, and provides a wire traction fixing frame for electric power construction, which comprises: the device comprises a main frame, wherein a pushing wheel is arranged on one side of the main frame; the winding assembly is arranged inside the main rack and used for installing wound cables in a matching manner; the pushing assembly is arranged inside the main frame and used for providing driving force for the operation of the main frame; the laying component is arranged inside the main frame and used for realizing the laying work of the cable when the pushing component operates, the device pushes the component and the laying component through the additional pushing component, so that the wire traction fixing frame can automatically dig and lay wires in the moving process without manual digging and laying, the burden of workers is greatly reduced, and the pressure of labor cost is reduced.

Description

A electric wire pulls mount for electric power construction

Technical Field

The invention belongs to the field of electric power construction, and particularly relates to a wire traction fixing frame for electric power construction.

Background

The laying work of the electric wire and the cable is a key project in electric power construction, the laying of the electric wire and the cable is to lay the cable at a specified low point according to government plans, building construction sites and positions of road facilities to supply power to buildings, public facilities and the like, and the laying of the cable underground is mostly selected for the beauty of the environment.

Most of the existing wire traction fixing frames can only provide placement points for wires, and in the process of laying wires and cables, the wire traction fixing frames still need to be manually pushed to move, and ground excavation and wire laying are manually carried out, so that the degree of automation is low, a large amount of labor cost needs to be consumed, and the operation of workers is very unsafe.

Disclosure of Invention

The embodiment of the invention aims to provide an electric wire traction fixing frame for electric power construction, and aims to solve the problems that most of the conventional electric wire traction fixing frames only can provide a placement point of one electric wire, the electric wire traction fixing frame still needs to be manually pushed to move in the process of laying electric wires and cables, ground excavation and electric wire laying are manually carried out, the degree of automation is low, a large amount of labor cost is required, and the operation of workers is unsafe.

The embodiment of the invention is realized in such a way that the wire traction fixing frame for electric power construction comprises:

the device comprises a main frame, wherein a pushing wheel is arranged on one side of the main frame;

the winding assembly is arranged inside the main rack and used for installing wound cables in a matching manner;

the pushing assembly is arranged inside the main frame and used for providing driving force for the operation of the main frame;

the laying assembly is arranged inside the main frame and used for realizing the laying work of the cable when the pushing assembly operates;

wherein the lay assembly comprises:

a ground planing assembly for planing the ground to two sides during operation of the main frame;

a linkage assembly for transmitting the operational power of the paving assembly into the ground planing assembly;

and the cable guide assembly is arranged on one side of the main frame and used for providing a guide effect for the trend of the cable.

The embodiment of the invention provides a wire traction fixing frame for electric power construction, which has the following beneficial effects:

the device promotes the subassembly through the additional and lays the subassembly, makes this electric wire pull the work that the mount can dig ground, lay the electric wire automatically at the in-process that removes, need not the manual work and excavates and lay, has alleviateed workman's burden greatly, has reduced the pressure of cost of labor.

Drawings

Fig. 1 is a schematic structural diagram of a wire traction fixing frame for electric power construction according to an embodiment of the present invention;

fig. 2 is a diagram of an operating state of a pushing assembly in a wire traction fixing frame for electric power construction according to an embodiment of the present invention 1;

fig. 3 is a diagram of an operating state of a pushing assembly in a wire traction fixing frame for electric power construction according to an embodiment of the present invention, fig. 2;

fig. 4 is a diagram of an operating state of a ground planing assembly in a wire traction fixing frame for electric power construction according to an embodiment of the present invention 1;

fig. 5 is a diagram of an operating state of a ground planing assembly in a wire traction fixing frame for electric power construction according to an embodiment of the invention, fig. 2;

fig. 6 is a schematic structural diagram of a power assembly in a wire traction fixing frame for electric power construction according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a winding assembly in a wire traction fixing frame for electric power construction according to an embodiment of the present invention;

FIG. 8 is an enlarged view of a portion of FIG. 7 at A;

fig. 9 is a partial perspective view of a linkage assembly in a wire traction fixing frame for electric power construction according to an embodiment of the present invention.

In the drawings: 1. a main frame; 2. a push wheel; 3. a winding component; 31. a first support frame; 32. a first rotating member; 33. a winding shaft; 34. a catch tray; 35. a first slider; 36. a stopper; 37. a second slider; 38. a first elastic member; 39. a fastener; 4. a pushing assembly; 41. a third slider; 42. a fourth slider; 43. a control frame; 44. a first guide groove; 45. a lifting member; 46. a guide block; 47. a connecting plate; 48. a latch member; 49. an annular groove; 410. a first linkage member; 411. a second support member; 412. a first output member; 413. a second rotating member; 414. a second linkage member; 5. laying a component; 51. a third support member; 52. a fifth slider; 53. a sixth slider; 54. a first telescoping member; 55. planing a gear piece; 56. a third shaft member; 57. a second telescoping member; 58. a second guide groove; 59. a guide post; 510. a third tooth member; 511. a fourth rotating member; 512. a fourth tooth; 513. a fifth rotating member; 514. a second transport member; 515. a fourth support member; 516. a first shaft member; 517. a first tooth member; 518. a fifth support member; 519. a second shaft member; 520. a second tooth member; 521. a third rotating member; 522. a first transmission member.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1, in an embodiment of the present invention, the wire traction fixing frame for electric power construction includes:

the device comprises a main frame 1, wherein a pushing wheel 2 is arranged on one side of the main frame 1;

the winding assembly 3 is arranged inside the main rack 1 and is used for installing wound cables in a matching manner;

the pushing assembly 4 is arranged inside the main frame 1 and used for providing driving force for the operation of the main frame 1;

the laying assembly 5 is arranged inside the main frame 1 and is used for realizing the laying work of cables when the pushing assembly 4 operates;

wherein the laying assembly 5 comprises:

a ground planing assembly for planing the ground to both sides during operation of the main frame 1;

a linkage assembly for transmitting the operational power of the paving assembly into the planing assembly 5;

and the cable guide assembly comprises a guide wheel which is arranged on one side of the main frame and is used for providing a guiding function for the running direction of the cable through the guide wheel.

In this embodiment, the wire casing has been seted up on the leading wheel, and the internal diameter of wire casing is not less than the external diameter of cable, and the cable card is in the wire casing, and the leading wheel is in the space that digs the ground subassembly and plane, lays the cable inside this space through the roll of leading wheel.

During the use, with the cable conductor rolling in rolling subassembly 3, then start and promote subassembly 4, promote subassembly 4 can intermittent type nature drive main frame 1 forward motion through push pulley 2, and when promoting subassembly 4 operation, can drive through the linkage subassembly and dig ground subassembly operation, when making main frame 1 stew, dig ground subassembly and dig earth to both sides and open, provide the space for laying of cable, simultaneously along with the gos forward of main frame 1, cable guide subassembly can lay the cable conductor extrusion in digging the space that ground subassembly dug, in order to realize the work of laying of cable conductor.

As shown in fig. 1, 7 and 8, in the embodiment of the present invention, the winding assembly 3 includes:

a first support 31 installed inside the main frame 1, wherein a first rotating member 32 is rotatably connected to the first support 31;

the winding shaft 33 is arranged between the first rotating pieces 32, and two ends of the winding shaft 33 are provided with baffle discs 34;

and the fixing assembly is arranged on the first rotating member 32 and the baffle disc 34 and is used for fixing the winding shafts 33 with different specifications.

In the present embodiment, the first rotating member 32 has a plate-like structure, preferably a circular plate; the structure of the fixing assembly is not limited to the structure described later, and the fixing mode of fastening the winding shaft by the fastener may be also possible by hinging the fastener on the first rotating member 32 and adding the torsion spring at the hinged position, or of course, may be other fixing modes, which are not described herein again.

As shown in fig. 7 and 8, in an embodiment of the present invention, the fixing assembly includes:

a first sliding member 35 mounted on the first rotating member 32, wherein a stopper 36 is mounted inside the first sliding member 35;

the second sliding part 37 is arranged on two sides of the stop block 36, a first elastic part 38 is arranged between the second sliding part 37 and the inner wall of the first sliding part 35, and the first elastic part 38 is used for pushing the second sliding part 37 to reset;

and a clamping piece 39 is arranged on the second sliding piece 37 and used for clamping and fixing the winding shaft 33.

In this embodiment, the first elastic member 38 may be a metal spring, and all the structures having elasticity capable of pushing the second sliding member 37 to reset may be, for example, a gas spring, which is not described herein again; the structure of the first sliding member 35 is a sliding groove structure, the structure of the second sliding member 37 is a sliding block structure, and the cross sections of the first sliding member 35 and the second sliding member 37 are trapezoidal, or any other shape capable of ensuring that the second sliding member 37 does not fall off from the first sliding member 35 in the sliding process is adopted, which is not described herein; the clamping piece 39 is an arc clamping plate, and the inner diameter of the arc clamping plate is equal to the outer diameter of the winding shaft 33.

During the use, will fastener 39 promote to both sides, fastener 39 can extrude first elastic component 38 through second slider 37, can place wind-up shaft 33 between fastener 39 this moment, and then first elastic component 38 can promote fastener 39, utilizes fastener 39 to realize fixing to wind-up shaft 33, then utilizes cable guide assembly to lay the cable conductor on wind-up shaft 33 subaerial, and along with the advance of main frame 1, wind-up shaft 33 can progressively rotate, releases the cable conductor.

As shown in fig. 1, 2 and 3, in the embodiment of the present invention, the pushing assembly 4:

a third slider 41 installed inside the main frame 1, a fourth slider 42 being provided inside the third slider 41;

a control frame 43 mounted on the fourth slider 42, wherein a first guide groove 44 is formed on the control frame 43;

the lifting piece 45 is arranged in the control frame 43, one side of the lifting piece 45 is provided with a guide block 46 and is arranged in the first guide groove 44, and the guide block 46 and the first guide groove 44 are used for limiting the motion track of the lifting piece 45;

a connecting plate 47 installed at one side of the lifting member 45, wherein a latch member 48 is installed at one end of the connecting plate 47;

and the driving assembly is arranged on the lifting piece 45 and is used for providing power for the operation of the lifting piece 45.

In the present embodiment, the third sliding member 41 has a sliding groove structure, and the fourth sliding member 42 has a sliding block structure; the lifting piece 45 has a plate structure, preferably a rectangular plate structure; wherein the width of the lifting member 45 is not greater than the inner width of the control frame.

As shown in fig. 2 and 3, in the embodiment of the present invention, the driving assembly includes:

the annular groove 49 is formed in the lifting piece 45, and a first linkage piece 410 is installed in the annular groove 49;

a second supporting member 411 installed inside the main frame 1, wherein a first output member 412 is installed on the second supporting member 411, and a second rotating member 413 is connected to an output end of the first output member 412;

and a second linkage 414 installed at one side of the second rotating member 413 and used for driving the lifting member 45 to operate by cooperating with the first linkage 410.

In this embodiment, the structure of the first output element 412 is not limited to a rotating motor, and all components capable of driving rotation are all required, which is not described herein; the second rotating member 413 has a plate-like structure, preferably a circular plate; the first linking member 410 and the second linking member 414 are cylindrical structures, or may be toothed structures, and all of them can drive the second linking member 414 to move by the rotation of the first linking member 410, so as to realize the movement of the lifting member 45.

When the lifting device is used, the first output element 412 is started to drive the second linkage element 414 to rotate through the second rotating element 413, and the first linkage element 410 is pushed to move through the cooperation between the second linkage element 414 and the first linkage element 410, so as to drive the lifting element 45 to move, as shown in fig. 4 and 5, the lifting element 45 can also move left and right in the lifting process when driving the lifting element to perform reciprocating lifting, namely move left when ascending to the highest position, and move right when descending to the lowest position, and when the lifting element 45 descends to the lowest position, the main frame 1 can be pushed to advance through the contact between the tooth clamping element 48 and the ground.

As shown in fig. 1, 4 to 6, in the embodiment of the present invention, the floor planing assembly includes:

a third support 51 installed inside the main frame 1, wherein a fifth slider 52 is installed on the third support 51, and a sixth slider 53 is installed inside the fifth slider 52;

the first telescopic piece 54 is connected with the sixth sliding piece 53, and one end of the first telescopic piece 54 is provided with a tooth planing piece 55 for planing soil to two sides;

a third shaft member 56 rotatably connected to the third support member 51, wherein one end of the third shaft member 56 is provided with a second telescopic member 57, and one end of the second telescopic member 57 is rotatably connected to the middle of the first telescopic member 54;

a second guide groove 58 opened on the third support member 51, wherein a guide post 59 is arranged inside the second guide groove 58, the guide post 59 is connected with the second telescopic member 57, and the second guide groove 58 and the guide post 59 are used for limiting the motion track of the gear-shaping member 55;

and the power assembly is arranged on the third support part 51 and is used for driving the ground planing assembly to operate through the linkage assembly.

In this embodiment, the first telescopic member 54 and the second telescopic member 57 are rod-shaped structures with telescopic effect, and preferably, a straight rod structure with telescopic effect; the third supporting member 51 has a plate-like structure, i.e., a supporting plate type.

When the power assembly is used, the power assembly drives the third shaft members 56 on the two sides to rotate oppositely, the third shaft members 56 drive the second telescopic members 57 to rotate, as shown in fig. 6 to 7, the second telescopic members 57 on the left side and the right side respectively rotate clockwise and anticlockwise and then drive the first telescopic members 54 to move, the first telescopic members 54 firstly move downwards to enable the planing tooth members 55 to be inserted below the ground and then move towards the two sides, soil on the ground is raked off towards the two sides, and then the first telescopic members 54 continuously drive the planing tooth members 55 to move upwards to enable the planing tooth members 55 to be separated from the ground, and then the power assembly is reset to the state shown in fig. 4 to realize the operation of planing the ground;

in this embodiment, in combination with the movement of the pushing assembly 4, since the ground planing assembly is driven by the linkage assembly through the pushing assembly 4, when the latch 48 contacts with the ground to push the main frame 1 to advance, the planing tooth member 55 does not contact with the ground, and when the latch 48 is separated from the ground to make the main frame 1 in a static state, the planing tooth member 55 contacts with the ground to start the ground planing operation, such an operation mode can ensure that when the ground planing assembly 55 is used for planing out the ground space, the poor ground planing effect caused by the movement of the main frame 1 cannot occur, and the operation of the ground planing assembly is affected.

As shown in fig. 6, in the embodiment of the present invention, the power assembly includes:

a third gear 510 rotatably connected to the third supporting member 51, wherein a fourth rotating member 511 is mounted on the third gear 510;

a fourth gear 512 mounted on the third shaft 56 on one side of the third support 51 for rotating the third shaft 56 by the rotation of the third gear 510;

a fifth rotating member 513 installed on the third shaft 56 at the other side of the third supporting member 51, and a second transmission member 514 is disposed between the fourth rotating member 511 and the fifth rotating member 513, for driving the third shaft 56 to rotate by the rotation of the fourth rotating member 511.

In this embodiment, the third gear 510 and the fourth gear 512 are gear structures, but may be other structures capable of transmitting rotation; the second transmission member 514 is a crawler-type structure, and is preferably made of rubber; in this embodiment, the fourth rotating member 511, the fifth rotating member 513 and the second transmission member 514 are configured to transmit rotation, and the rotation can be transmitted by adding chains between the gears, so as to prevent the track from slipping due to excessive resistance during digging the ground, which may be determined according to actual use.

When the ground planing device is used, the linkage assembly drives the third tooth element 510 to rotate through the fourth rotating element 511, the third tooth element 510 directly drives the fourth tooth element 512 to rotate in the direction opposite to that of the third tooth element 510, meanwhile, the fourth rotating element 511 drives the fifth rotating element 513 to rotate in the direction same as that of the third tooth element 510 through the second transmission element 514, and at this time, the fourth tooth element 512 and the fifth rotating element 513 respectively drive the third shaft elements 56 on the two sides to rotate in the opposite directions, so as to drive the whole ground planing assembly to operate.

As shown in fig. 1 and 9, in the embodiment of the present invention, the linkage assembly includes:

a fourth supporting element 515, which is installed inside the main frame 1, wherein a first shaft 516 is rotatably connected to the fourth supporting element 515, and a first gear 517 is installed at one end of the first shaft 516;

a rotation transmission assembly, disposed on the second rotating member 413 and the first shaft 516, for transmitting the rotation force of the second rotating member 413 to the first shaft 516;

a fifth supporting member 518 installed inside the main frame 1, wherein a second shaft member 519 is rotatably connected to the fifth supporting member 518, a second tooth member 520 and a third rotating member 521 are respectively installed at two ends of the second shaft member 519, and the second tooth member 520 is used for cooperating with the first tooth member 517 to transmit the rotation force of the first output member 412 in a turning direction;

the first transmission member 522 is installed between the fourth rotating member 511 and the third rotating member 521, and is used for enabling the third rotating member 521 to drive the fourth rotating member 511 to rotate synchronously.

In this embodiment, the structure of the rotation transmission assembly may be that the second rotating member 413 and one end of the first shaft member 516 are provided with rotating discs, and then a linkage belt is sleeved between the rotating discs to perform rotation transmission work, and the structure of the rotation transmission assembly is not limited to this structure, and all structures capable of synchronously transmitting the rotation of the second rotating member 413 to the first shaft member 516 may be provided, which is not described herein again; the first gear 517 and the second gear 520 are preferably a trapezoidal gear, and may be other structures capable of steering and transmitting the rotational power, wherein the trapezoidal gear is preferably a structure; the structure of the fourth rotating element 511, the third rotating element 521 and the first transmission element 522 can realize rotation transmission work, the structure can also realize rotation transmission by adding a chain between gears, and the structure can prevent the situation that the resistance is too large to cause the slippage of the crawler belt when the ground is planed, and the structure can be determined according to the actual use situation.

When the floor planing device is used, the rotation transmission assembly transmits the rotation of the second rotating member 413 to the first shaft member 516, meanwhile, the first shaft member 516 transmits the rotation force to the second shaft member 519 through the cooperation between the first tooth member 517 and the second tooth member 520, and then the third rotating member 521 and the first transmission member 522 are utilized to drive the fourth rotating member 511 to synchronously rotate so as to drive the floor planing assembly to operate.

To sum up, when this electric wire pulls the mount and reuses, with the cable conductor rolling in rolling subassembly 3, then start and promote subassembly 4, promote subassembly 4 can intermittent type nature drive main frame 1 through push pulley 2 and move forward, and when promoting subassembly 4 operation, can drive through the linkage subassembly and dig ground subassembly operation, when making main frame 1 stand, dig ground subassembly and dig earth to both sides, provide the space for laying of cable, simultaneously along with the gos forward of main frame 1, cable conductor extrusion can be laid in the space that digs ground subassembly and dig, in order to realize the work of laying of cable conductor.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a mount is pull to electric wire for electric power construction which characterized in that, a mount is pull to electric wire for electric power construction includes:

wherein the lay assembly comprises:

the ground planing assembly is arranged inside the main frame and is used for planing the ground to two sides during the operation of the main frame;

the linkage assembly is connected with the land planing assembly and the paving assembly and is used for transmitting the operation power of the paving assembly into the land planing assembly;

2. The wire traction mount for electric power construction according to claim 1, wherein the winding assembly comprises:

the first supporting piece is arranged inside the main frame, and a first rotating piece is rotatably connected to the first supporting piece;

the winding shaft is connected with the first rotating piece, and two ends of the winding shaft are provided with baffle discs;

and the fixing assembly is arranged on the first rotating part and the baffle disc and used for fixing the winding shafts with different specifications.

3. The wire traction mount for electric power construction according to claim 2, wherein the fixing assembly comprises:

a first slider mounted on the first rotating member;

the second sliding piece is arranged on two sides of the stop block, and a first elastic piece is arranged between the second sliding piece and the inner wall of the first sliding piece;

and the clamping piece is arranged on the second sliding piece and used for fixing the winding shaft.

4. The wire traction mount for electrical power operations of claim 1, wherein the push assembly:

the third sliding part is installed inside the main frame, and a fourth sliding part is arranged inside the third sliding part;

the control frame is arranged on the fourth sliding piece, and a first guide groove is formed in the control frame;

the lifting piece is arranged in the control frame, a guide block is arranged on one side of the lifting piece and arranged in the first guide groove, and the guide block and the first guide groove are used for limiting the motion track of the lifting piece;

the connecting plate is arranged on one side of the lifting piece, and one end of the connecting plate is provided with a clamping tooth piece;

and the driving assembly is arranged on the lifting piece and used for providing power for the operation of the lifting piece.

5. The wire traction mount for electrical power operations of claim 4, wherein the drive assembly comprises:

the annular groove is formed in the lifting piece, and a first linkage piece is arranged in the annular groove;

the second supporting piece is arranged inside the main rack, a first output piece is arranged on the second supporting piece, and the output end of the first output piece is connected with a second rotating piece;

and the second linkage piece is arranged on one side of the second rotating piece and is used for driving the lifting piece to operate by being matched with the first linkage piece.

6. The wire traction mount for electrical power operations of claim 1, wherein the ground planing assembly comprises:

the third supporting piece is installed inside the main frame, a fifth sliding piece is installed on the third supporting piece, and a sixth sliding piece is arranged inside the fifth sliding piece;

the first telescopic piece is connected with the sixth sliding piece, and one end of the first telescopic piece is provided with a gear planing piece;

the third shaft piece is rotatably connected to the third support piece, one end of the third shaft piece is provided with a second telescopic piece, and one end of the second telescopic piece is rotatably connected with the middle part of the first telescopic piece;

the second guide groove is formed in the third supporting piece, a guide column is arranged in the second guide groove and connected with the second telescopic piece, and the second guide groove and the guide column are used for limiting the motion track of the gear planing piece;

and the power assembly is arranged on the third support piece and is used for driving the ground planing assembly to operate through the linkage assembly.

7. The wire traction mount for electrical power operations of claim 6, wherein the linkage assembly comprises:

the fourth supporting piece is arranged inside the main frame, a first shaft piece is rotatably connected onto the fourth supporting piece, and a first gear piece is arranged at one end of the first shaft piece;

the rotation transmission assembly is arranged on the second rotating part and the first shaft element and is used for transmitting the rotating force of the second rotating part to the first shaft element;

the second gear is matched with the first gear to transmit the rotating force of the first output part in a steering way;

and the first transmission piece is arranged between the fourth rotating piece and the third rotating piece and used for enabling the third rotating piece to drive the fourth rotating piece to synchronously rotate.