CN111740350B - Automatic wire burying device for hydraulic and hydroelectric engineering - Google Patents

Abstract

The invention relates to a wire burying device, in particular to an automatic wire burying device for water conservancy and hydropower engineering. The technical problems to be solved by the invention are as follows: the automatic wire burying device for the hydraulic and hydroelectric engineering is convenient for people to take down or replace the coil and high in working efficiency. An automatic cable burying device for hydraulic and hydroelectric engineering comprises: a mounting frame; the push handle is arranged on the mounting rack; at least two wheels are symmetrically arranged on the mounting rack; the clamping assembly is arranged on the mounting frame and is used for clamping in a pulling mode; the wire assembly is arranged on the mounting frame and conducts wires in a rotating mode; and the fixing component is arranged on the wire component and is fixed in a rotating mode. According to the invention, a coil required to be used can be clamped through the clamping assembly, and the wire guide assembly can tightly press one end of a wire and fix the equipment when people tightly press one end of the wire and then need to lead out the wire.

Description

Automatic wire burying device for hydraulic and hydroelectric engineering

Technical Field

The invention relates to a wire burying device, in particular to an automatic wire burying device for water conservancy and hydropower engineering.

Background

Water conservancy is the development of hydraulic resources and the prevention of flood or hydraulic engineering. When hydraulic engineering is implemented, electric wires and the like need to be laid.

Patent of patent grant publication No. CN209948538U discloses a water conservancy water and electricity engineering is with device of sunkening cord, and the device includes that frame plate, side position are even seat and rotation motor, one side fixedly connected with side position of frame plate is even seat, the inside fixedly connected with rotation motor of seat is even to the side position, the rotation motor is provided with the concave surface wheel through the pivot, the surface transmission of concave surface wheel is connected with the V belt. This hydraulic and hydroelectric engineering is with device of sunkening cord, through rotating the motor and the setting of the line section of thick bamboo of holding together, drive the line section of thick bamboo with circulation pivoted mode, cooperation constructor is to the at uniform velocity pulling of the device, make the electric wire automatic externally lay, thereby effectively save constructor's intensity of labour, avoid occupation too much to the staff, setting through a brush section of thick bamboo and a branch line section of thick bamboo, play clean effect of cleaning to the surface of electric wire, the branch line section of thick bamboo can play the condition of separating groove discharge to it, avoid the electric wire when the discharge is laid, cause the chaotic crisscross condition to recur, more effectual result of use of having guaranteed the device. When the device is laying the electric wire, inconvenient people take off the coil or change, reduced people's work efficiency.

Therefore, the technical problem to be solved by the invention is how to design the automatic wire burying device for the hydraulic and hydroelectric engineering, which is convenient for people to take down or replace the coil and has high working efficiency.

Disclosure of Invention

In order to overcome the inconvenient people of laying the electric wire and take off or change the coil, the shortcoming that work efficiency is low, the technical problem is: the automatic wire burying device for the hydraulic and hydroelectric engineering is convenient for people to take down or replace the coil and high in working efficiency.

The technical scheme of the invention is as follows: an automatic cable burying device for hydraulic and hydroelectric engineering comprises: a mounting frame; the push handle is arranged on the mounting rack; at least two wheels are symmetrically arranged on the mounting rack; the clamping assembly is arranged on the mounting frame and is used for clamping in a pulling mode; the wire assembly is arranged on the mounting frame and conducts wires in a rotating mode; and the fixing component is arranged on the wire component and is fixed in a rotating mode.

Further, the chucking subassembly includes: the two first rotating shafts are symmetrically and rotatably arranged on the mounting frame through bearings; the two disks are respectively arranged on the two first rotating shafts, and at least two arc-shaped sliding grooves are formed in the disks; at least two L-shaped sliding rods are arranged on the front disc and the rear disc; at least two first springs are arranged and are arranged between the L-shaped sliding rod and the disc; two circular ring clamping blocks are arranged and are mounted on the L-shaped sliding rod; at least two sliding blocks are arranged and are arranged on the arc-shaped sliding groove in a sliding manner; the circular block is arranged on the sliding block, and at least two through holes are uniformly arranged on the circular block at intervals.

Further, the wire assembly includes: the inclined plate is arranged on the mounting frame; the second rotating shaft is rotatably arranged between the two wheels on the left side; the first guide roller is rotatably arranged on the inclined plate through a bearing; the two arc guide sleeves are arranged on the first wire guide roller; the two arc-shaped sliding rods are respectively arranged in the two arc-shaped guide sleeves in a sliding manner; the second wire guide roller is arranged on the arc-shaped sliding rod; the two gears are respectively arranged on the first wire guide roller and the second wire guide roller; a first pulley mounted on the first wire guide roller; the second belt pulley is arranged on the second rotating shaft; and the flat belt is arranged between the second belt pulley and the first belt pulley.

Further, the fixed subassembly includes: the first guide sleeve is arranged on the inclined plate; the inserted rod is slidably arranged in the first guide sleeve; the second spring is arranged between the inserted bar and the first guide sleeve; the mounting rod is mounted on the inclined plate; the rotating rod is rotatably arranged on the mounting rod, a groove is formed in the rotating rod, and the groove is matched with the inserted rod; the handle is arranged on the rotating rod.

Further, the method also comprises the following steps: the third rotating shaft is rotatably arranged on the mounting frame through a bearing; two torsion springs are arranged and are arranged between the third rotating shaft and the bearing; two turntables are arranged and are mounted on the third rotating shaft; the two connecting rods are respectively arranged on the two turntables, and the end parts of the connecting rods are rotatably connected with the circular ring blocks; the two clamping rods are respectively arranged on the two turnplates; two L-shaped swing rods are rotatably arranged on the mounting rack; two second guide sleeves are symmetrically arranged on the mounting frame; the U-shaped sliding rod is slidably arranged in the second guide sleeve; two third springs are arranged and are arranged between the U-shaped sliding rod and the second guide sleeve; two push rods are symmetrically arranged on the U-shaped slide rod; the handle is arranged on the U-shaped sliding rod; two first wedge-shaped blocks are symmetrically arranged on the U-shaped sliding rod; the two third guide sleeves are symmetrically arranged on the mounting frame; two cylindrical sliding rods are arranged in the two third guide sleeves in a sliding manner respectively; the fourth spring is arranged between the cylindrical sliding rod and the third guide sleeve; the two second wedge-shaped blocks are respectively arranged at one end of the two cylindrical sliding rods; the two square clamping blocks are respectively arranged at the other ends of the two corresponding cylindrical sliding rods, and the disc is uniformly provided with at least two clamping grooves at intervals, and the clamping grooves are matched with the square clamping blocks.

The beneficial effects are that: according to the wire guiding device, a coil to be used can be clamped through the clamping assembly, one end of the wire can be tightly pressed through the wire guiding assembly, meanwhile, the wire can be automatically guided out, the wire can be buried by people more conveniently, the working efficiency of people is improved, the device can be fixed through the fixing assembly when the wire needs to be guided out after one end of the wire is tightly pressed by people, the wire is prevented from loosening, the circular ring block does not need to be manually rotated when the coil needs to be taken down or replaced through the matching of the square clamping block and the clamping groove, the labor is saved, the working efficiency of people is improved, and the wire guiding device is more convenient to use by people.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a portion of the clamping assembly of the present invention.

Fig. 3 is a schematic perspective view of a wire guide assembly according to the present invention.

Fig. 4 is a schematic perspective view of the present invention C.

Fig. 5 is a schematic perspective view of the present invention a.

Fig. 6 is a schematic perspective view of the present invention B.

In the reference symbols: 1 mounting frame, 2 pushing hands, 3 wheels, 4 first rotating shafts, 5 discs, 6L-shaped sliding rods, 7 first springs, 8 circular clamping blocks, 9 arc-shaped sliding chutes, 10 sliding blocks, 11 circular blocks, 111 through holes, 12 sloping plates, 13 second rotating shafts, 14 first wire guide rollers, 15 arc-shaped guide sleeves, 16 arc-shaped sliding rods, 17 second wire guide rollers, 18 gears, 19 first belt pulleys, 20 second belt pulleys, 21 flat belts, 211 first guide sleeves, 212 inserted rods, 213 second springs, 214 mounting rods, 215 rotating rods, 216 grooves, 217 handles, 22 third rotating shafts, 221 torsion springs, 23 rotating discs, 231 connecting rods, 24 clamping rods, 25L-shaped swinging rods, 26 second guide sleeves, 27U-shaped sliding rods, 28 third springs, 29 push rods, 30 pulling hands, 31 first wedge blocks, 32 third guide sleeves, 33 cylindrical sliding rods, 331 fourth springs, 332 second wedge blocks, 34 square clamping blocks and 35.

Detailed Description

The invention is described in detail below with reference to the figures and the embodiments.

Example 1

The utility model provides a hydraulic and hydroelectric engineering is with automatic device of sunkening cord, as shown in fig. 1-6, including mounting bracket 1, pushing hands 2, wheel 3, the chucking subassembly, wire assembly and fixed subassembly, the welding of mounting bracket 1 right side has pushing hands 2, 1 bottom bilateral symmetry of mounting bracket is equipped with four wheels 3, be equipped with the chucking subassembly that carries out the chucking through the mode of pulling on mounting bracket 1, 1 left side of mounting bracket is equipped with the wire assembly that carries out the wire through the pivoted mode, the wire assembly front side is equipped with carries out the fixed subassembly fixed through the pivoted mode.

When using this equipment to bury the line, the coil chucking that the staff will need to use through the chucking subassembly is derived through the line that the wire subassembly will bury behind the chucking, and simultaneously, the staff fixes the wire subassembly through fixed subassembly, prevents that the in-process wire subassembly centre gripping at the wire is not tight, leads to unable line of burying, accomplishes the back, and staff control chucking subassembly loosens, takes off the coil afterwards.

As shown in fig. 1 and 2, the clamping assembly comprises a first rotating shaft 4, a disc 5, an L-shaped sliding rod 6, first spring 7, ring fixture block 8, slider 10 and ring piece 11, the symmetry rotary type is equipped with first pivot 4 around the bearing through the mounting bracket 1 middle part, the welding of 4 inner ends of first pivot has disc 5, the inboard eccentric position of two disc 5 is all evenly spaced slidingtype and is equipped with four L type slide bars 6 around, it has first spring 7 to wind around between L type slide bar 6 and disc 5, all weld between four L type slide bars 6 the inner of homonymy has ring fixture block 8, two disc 5 outside eccentric position all opens four arc spout 9 around, it is equipped with slider 10 all to slide in the arc spout 9, all weld between four slider 10 outer ends of homonymy has ring piece 11, evenly spaced opening has four through-holes 111 on the ring piece 11, L type slide bar 6 and ring piece 11 and through-hole 111 cooperate.

When the device is used for burying a wire, a worker pushes a coil needed to be used downwards, when the coil moves downwards to a certain position, the worker rotates the circular ring block 11 to push the L-shaped slide rod 6 to slide inwards, the slide block 10 slides in the arc-shaped slide groove 9 along with the circular ring block 8, the coil is clamped along with the circular ring block 8, the first spring 7 is stretched, after clamping, the worker pulls one end of the wire into the wire guide assembly to bury the wire, when the wire is buried, the coil rotates to pay out the wire, the disc 5 drives the first rotating shaft 4 to rotate along with the first rotating shaft, after finishing, the worker rotates the circular ring block 11 to drive the through hole 111 to rotate to the L-shaped slide rod 6, the slide block 10 slides in the arc-shaped slide groove 9 along with the first spring 7, at the moment, the L-shaped slide rod 6 is not blocked by the circular ring block 11, under the reset action of the first spring 7, the L-shaped slide rod 6 drives the circular, the coil can be taken off or replaced, and the coil is more convenient for people to use.

As shown in fig. 1 and 3, the wire guiding assembly comprises an inclined plate 12, a second rotating shaft 13, a first wire guiding roller 14, an arc-shaped guide sleeve 15, an arc-shaped sliding rod 16, a second wire guiding roller 17, a gear 18, a first belt pulley 19, a second belt pulley 20 and a flat belt 21, the inclined plate 12 is welded on the left side of the mounting frame 1, the second rotating shaft 13 is arranged between transmission shafts of two wheels 3 on the left side, the first wire guiding roller 14 is rotatably arranged on the left side of the inclined plate 12 through a bearing, the front and the rear parts of the first wire guiding roller 14 are rotatably connected with the arc-shaped guide sleeve 15 through a bearing, the arc-shaped sliding rod 16 is slidably arranged in the arc-shaped guide sleeve 15, the second wire guiding roller 17 is rotatably arranged at the top end of the arc-shaped sliding rod 16 through a bearing, the second wire guiding roller 17 is in key connection with the gear 18 on the rear side of the first wire guiding roller 14, the upper and, a flat belt 21 is wound between the second pulley 20 and the first pulley 19.

After the coil is clamped, a worker pulls one end of the wire to the first wire guide roller 14, then the second wire guide roller 17 is rotated downwards to press one end of the wire, the arc-shaped sliding rod 16 slides downwards in the arc-shaped guide sleeve 15, the gear 18 on the upper portion moves downwards along with the arc-shaped sliding rod to be meshed with the gear 18 on the lower portion, after one end of the wire is pressed, the worker fixes the second wire guide roller 17 through the fixing component, after the fixing is completed, the worker pulls the equipment to move, the wheel 3 rotates along with the arc-shaped sliding rod to drive the second rotating shaft 13 to rotate, the second belt pulley 20 is driven to rotate, the first belt pulley 19 is driven to rotate through the flat belt 21, the first wire guide roller 14 rotates along with the arc-shaped sliding rod to drive the second wire guide roller 17 to rotate through the cooperation of the upper gear 18 and the lower gear 18 to guide the wire out.

As shown in fig. 1, 3 and 4, the fixing component includes a first guide sleeve 211, an insertion rod 212, a second spring 213, an installation rod 214, a rotation rod 215 and a handle 217, the first guide sleeve 211 is welded at the left part of the front side of the inclined plate 12, the insertion rod 212 is arranged in the first guide sleeve 211 in a sliding manner, the second spring 213 is wound between the insertion rod 212 and the first guide sleeve 211, the installation rod 214 is welded at the left part of the front side of the inclined plate 12, the rotation rod 215 is arranged at the top end of the installation rod 214 in a rotating manner, a groove 216 is formed in the front side of the rotation rod 215, the groove 216 is matched with the insertion rod 212, and the handle 217 is welded at the.

The staff pulls the inserted link 212 to slide outwards in the first guide sleeve 211, the second spring 213 is stretched, then the handle 217 is pushed upwards to drive the rotating rod 215 to rotate downwards at the left side, and further the second wire guide roller 17 is driven to rotate downwards to compress one end of the wire, after compression, the staff loosens the inserted link 212, and under the reset action of the second spring 213, the inserted link 212 slides backwards in the first guide sleeve 211 to be clamped into the groove 216, so that the second wire guide roller 17 is fixed.

Example 2

On the basis of the embodiment 1, as shown in fig. 1, 5 and 6, the device further includes a third rotating shaft 22, a rotating disc 23, a clamping rod 24, an L-shaped swing rod 25, a second guide sleeve 26, a U-shaped slide rod 27, a third spring 28, a push rod 29, a handle 30, a first wedge block 31, a third guide sleeve 32, a cylindrical slide rod 33, a fourth spring 331, a second wedge block 332 and a square clamp block 34, the third rotating shaft 22 is rotatably arranged on the right side of the mounting frame 1 through a bearing, torsion springs 221 are respectively wound between the third rotating shaft 22 and the bearing, the rotating disc 23 is welded at the front and rear ends of the third rotating shaft 22, a rotating connecting rod 231 is rotatably arranged at an eccentric position outside the rotating disc 23, the tail end of the connecting rod 231 is rotatably connected with the circular ring block 11, the clamping rod 24 is welded at an eccentric position outside the rotating disc 23, the L-shaped swing rod 25 is symmetrically rotatably arranged on the right side, the U-shaped slide rod 27 is arranged in the second guide sleeve 26 in a sliding mode, third springs 28 are wound on the U-shaped slide rod 27 and the second guide sleeve 26, push rods 29 are symmetrically welded on the U-shaped slide rod 27 front and back, a handle 30 is welded between the top ends of the U-shaped slide rod 27, first wedge blocks 31 are symmetrically welded on the bottom end of the U-shaped slide rod 27 front and back, third guide sleeves 32 are symmetrically welded on the right side of the mounting frame 1 front and back, cylindrical slide rods 33 are arranged in the third guide sleeves 32 in a sliding mode, fourth springs 331 are wound between the cylindrical slide rods 33 and the third guide sleeves 32, second wedge blocks 332 are welded on the right ends of the cylindrical slide rods 33, the first wedge blocks 31 are matched with the second wedge blocks 332, square clamping blocks 34 are welded on the left ends of the cylindrical slide rods 33, a circle of clamping grooves 35 are uniformly spaced on the.

When people need to take down or replace a coil, a worker pulls the handle 30 upwards to drive the U-shaped sliding rod 27 to slide upwards in the second guide sleeve 26, the third spring 28 is compressed, the first wedge-shaped block 31 moves upwards along with the first wedge-shaped block 31 to push the second wedge-shaped block 332 to move leftwards, so that the square clamping block 34 is driven to move leftwards and clamped in the clamping groove 35 by sliding the cylindrical sliding rod 33 leftwards in the third guide sleeve 32, the fourth spring 331 is compressed, the push rod 29 moves upwards along with the first wedge-shaped block to a certain position and then pushes the right side of the L-shaped swing rod 25 to swing upwards, the left side of the L-shaped swing rod 25 swings downwards and drives the rotary disc 23 to rotate through the clamping rod 24, the third rotating shaft 22 rotates along with the fourth spring, the torsion spring 221 is compressed, the rotary disc 23 rotates to drive the circular ring block 11 to rotate through the connecting rod 231, so that the coil is not clamped any more, then the coil is taken out or replaced, the U-shaped slide bar 27 slides downwards along with the U-shaped slide bar, the first wedge block 31 moves downwards along with the U-shaped slide bar and does not push the second wedge block 332 any more, the cylindrical slide bar 33 drives the square clamping block 34 to move rightwards to reset under the reset action of the fourth spring 331 and does not clamp the clamping groove 35 any more, the push rod 29 moves downwards along with the U-shaped slide bar 27 to reset and does not push the L-shaped swing rod 25 any more, the third rotating shaft 22 drives the rotating disc 23 to rotate to reset under the reset action of the torsion spring 221, and therefore the connecting rod 231 drives the circular ring block 11 to rotate to reset, and therefore when a coil needs to be taken down or replaced, the circular ring block 11 does not need to be rotated manually, manpower is saved, the working efficiency of people is improved, and the.

While the disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims and their equivalents. Accordingly, the scope of the present disclosure should not be limited to the above-described embodiments, but should be defined not only by the appended claims, but also by equivalents thereof.

Claims (3)

1. The utility model provides a hydraulic and hydroelectric engineering is with automatic device of sunkening cord which characterized in that, including:

a mounting frame (1);

the push handle (2) is arranged on the mounting rack (1);

at least two wheels (3) are symmetrically arranged on the mounting rack (1);

the clamping assembly is arranged on the mounting rack (1) and is used for clamping in a pulling mode;

the wire assembly is arranged on the mounting frame (1) and conducts wires in a rotating mode;

the fixing assembly is arranged on the wire assembly and is fixed in a rotating mode;

the clamping assembly comprises:

the two first rotating shafts (4) are symmetrically and rotatably arranged on the mounting frame (1) through bearings;

the two disks (5) are respectively arranged on the two first rotating shafts (4), and at least two arc-shaped sliding grooves (9) are formed in the disks (5);

at least two L-shaped sliding rods (6) are arranged on the front disc (5) and the rear disc (5);

at least two first springs (7) are arranged and are arranged between the L-shaped sliding rod (6) and the disc (5);

two circular ring fixture blocks (8) are arranged on the L-shaped sliding rod (6);

at least two sliding blocks (10) are arranged, and the sliding blocks (10) are arranged on the arc-shaped sliding groove (9) in a sliding manner;

the circular ring block (11) is arranged on the sliding block (10), and at least two through holes (111) are uniformly arranged on the circular ring block (11) at intervals;

the wire assembly includes:

the inclined plate (12) is arranged on the mounting frame (1);

the second rotating shaft (13) is rotatably arranged between the two wheels (3) on the left side;

a first guide roller (14) rotatably mounted on the swash plate (12) via a bearing;

two arc guide sleeves (15), wherein the two arc guide sleeves (15) are arranged on the first wire guide roller (14);

the two arc-shaped sliding rods (16) are arranged, and the two arc-shaped sliding rods (16) are respectively arranged in the two arc-shaped guide sleeves (15) in a sliding manner;

a second guide roller (17) mounted on the arc-shaped slide bar (16);

two gears (18), wherein the two gears (18) are respectively arranged on the first wire guide roller (14) and the second wire guide roller (17);

a first pulley (19) mounted on the first guide roller (14);

a second pulley (20) mounted on the second shaft (13);

and a flat belt (21) installed between the second pulley (20) and the first pulley (19).

2. The automatic thread burying device for the water conservancy and hydropower engineering according to claim 1, wherein the fixing assembly comprises:

the first guide sleeve (211) is arranged on the inclined plate (12);

the insert rod (212) is slidably arranged in the first guide sleeve (211);

a second spring (213) installed between the insertion rod (212) and the first guide sleeve (211);

a mounting rod (214) mounted on the swash plate (12);

the rotating rod (215) is rotatably arranged on the mounting rod (214), a groove (216) is formed in the rotating rod (215), and the groove (216) is matched with the inserted rod (212);

and a handle (217) mounted on the rotating rod (215).

3. The automatic cable burying device for the water conservancy and hydropower engineering according to claim 2 is characterized by further comprising:

the third rotating shaft (22) is rotatably arranged on the mounting frame (1) through a bearing;

two torsion springs (221), wherein the two torsion springs (221) are arranged between the third rotating shaft (22) and the bearing;

two turntables (23) are arranged and are mounted on the third rotating shaft (22);

the number of the connecting rods (231) is two, the two connecting rods (231) are respectively arranged on the two turntables (23), and the end parts of the connecting rods (231) are rotatably connected with the circular ring block (11);

the number of the clamping rods (24) is two, and the two clamping rods (24) are respectively arranged on the two rotary tables (23);

the two L-shaped swing rods (25) are rotatably arranged on the mounting rack (1);

two second guide sleeves (26), wherein the two second guide sleeves (26) are symmetrically arranged on the mounting rack (1);

a U-shaped sliding rod (27) is slidably arranged in the second guide sleeve (26);

two third springs (28) are arranged, and are respectively arranged between the U-shaped sliding rod (27) and the second guide sleeve (26);

two push rods (29), wherein the two push rods (29) are symmetrically arranged on the U-shaped slide rod (27);

a handle (30) mounted on the U-shaped slide bar (27);

the two first wedge-shaped blocks (31) are symmetrically arranged on the U-shaped sliding rod (27);

two third guide sleeves (32), wherein the two third guide sleeves (32) are symmetrically arranged on the mounting rack (1);

two cylindrical sliding rods (33), wherein the two cylindrical sliding rods (33) are arranged in the two third guide sleeves (32) in a sliding manner respectively;

a fourth spring (331) installed between the cylindrical sliding bar (33) and the third guide sleeve (32);

the number of the second wedge blocks (332) is two, and the two second wedge blocks (332) are respectively arranged at one end of each of the two cylindrical sliding rods (33);

the two square clamping blocks (34) are respectively arranged at the other ends of the two corresponding cylindrical sliding rods (33), at least two clamping grooves (35) are uniformly arranged on the disc (5) at intervals, and the clamping grooves (35) are matched with the square clamping blocks (34).

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