CN112496201A - Steel-cored aluminum strand cutting scissors - Google Patents

Abstract

A steel-cored aluminum strand cutting shear relates to the field of maintenance of electric equipment, wherein a lever mechanism is connected onto a shearing mechanism in a sliding mode, a steering mechanism is mounted on the lever mechanism, a force application mechanism is fixed onto the lever mechanism, and a fixing mechanism is fixed onto the lever mechanism; according to the steel-cored aluminum strand cutting shear, steel-cored aluminum strands with various thicknesses can be cut through the shearing groove group, the universality is high, the steel-cored aluminum strands are stressed on two sides in a consistent manner when being sheared through the relative rotation of the first cutting wheel and the second cutting wheel, the steel core cannot press the aluminum wires on the two sides, the cutting surfaces are tidy, strands cannot be burst, the shearing quality is high, the steel-cored aluminum strands are sheared through the lever mechanism by using the weight of a human body through the lever principle, the shearing force is large, energy is not consumed, the energy is saved, the environment is protected, the shearing efficiency is high, the steel-cored aluminum strand cutting shear is suitable for long-distance conveying on rugged and narrow pavements, and the labor intensity.

Description

Steel-cored aluminum strand cutting scissors

Technical Field

The invention relates to the field of maintenance of power equipment, in particular to a steel-cored aluminum strand cutting shear.

Background

The steel-cored aluminum strand is formed by twisting an aluminum wire and a steel wire, is suitable for overhead transmission lines, is internally provided with a steel core, is externally wound around the steel core by the aluminum wire in a twisting mode, the steel core mainly plays a role in increasing strength, the aluminum strand mainly plays a role in transmitting electric energy, the steel-cored aluminum strand is one of the most important devices in the field of high-voltage electricity, the steel-cored aluminum strand needs to be cut off in the process of erecting or maintaining a power line, and a common mode is to cut off by a special aluminum strand scissors, so that the steel core has higher strength due to uneven stress on two sides, can be extruded to the aluminum wire side during cutting to cause deformation and easy strand burst, and the currently generally-applied mechanical scissors and hydraulic scissors are very heavy to increase the cutting force, often have rugged and narrow working scenes in which the aluminum strand needs to be cut, are difficult for vehicles to pass through, and the electric wires are very long, often need carry out a lot of shearing, it is very hard to carry the mechanical scissors of big quality and hydraulic pressure scissors for a long time, and the restriction that the service environment was received to the hydraulic pressure scissors is very big, and mechanical scissors utilizes lever principle, when cuting steel-cored aluminum strand wires, need press the digging arm many times, and it is slow to cut, and efficiency is lower, and the steel-cored aluminum strand wires of a thickness often can only be cut to present scissors of cuting steel-cored aluminum strand wires, and the universality is lower, and occupation space is big for present steel-cored aluminum strand wires scissors, the transportation of being not convenient for.

Disclosure of Invention

In order to overcome the defects in the background art, the invention discloses a steel-cored aluminum strand cutting shear which can cut steel-cored aluminum strands with various thicknesses through a shearing groove group, has strong universality, ensures that the two sides of the steel-cored aluminum strand are stressed uniformly when the steel-cored aluminum strand is sheared through the relative rotation of a first cutting wheel and a second cutting wheel, the steel core can not press the aluminum wires at the two sides, the cutting surfaces are tidy and do not burst, the shearing quality is high, the steel-cored aluminum strand is sheared by utilizing the weight of a human body through a lever mechanism by utilizing the lever principle, the shearing force is large, the energy consumption is avoided, the energy is saved, the environment is protected, the shearing efficiency is high, the steering of a steering wheel is realized through the steering mechanism, a riding worker can ride an electric bicycle like an electric bicycle, the steel-cored aluminum strand cutting shear is suitable for long-distance conveying on a rugged and narrow road surface, the labor intensity is reduced, when not in use, the folding box can be folded and put into a special box, and the occupied space is small.

In order to realize the purpose, the invention adopts the following technical scheme:

the steel-cored aluminum strand cutting scissors comprise a shearing mechanism, wherein a lever mechanism is connected to the shearing mechanism in a sliding mode, a steering mechanism is installed on the lever mechanism, a force application mechanism is fixed on the lever mechanism, and a fixing mechanism is fixed on the lever mechanism.

The shearing mechanism comprises a first cutting wheel, a second cutting wheel is rotatably connected inside the first cutting wheel through a rivet, a first sliding hole is formed in the first cutting wheel and penetrates through the first cutting wheel, a second sliding hole is formed in the second cutting wheel and penetrates through the second cutting wheel, and at least four shearing groove groups are formed in the first cutting wheel and the second cutting wheel respectively.

The lever mechanism comprises a first sliding rod and a second sliding rod, the first sliding rod is connected to the first cutting wheel in a sliding mode, the second sliding rod is connected to the second cutting wheel in a sliding mode, a power box is fixed to the lower end of the second sliding rod, and the power box is connected with power wheels through bearings.

Steering mechanism includes the installed part, the installed part passes through the round pin hub fixation at the lower extreme of first slide bar, the upper end of installed part is fixed with the steering column, the lower extreme of installed part is connected with the directive wheel through the bearing, the upper end of steering column is fixed with first snap ring and second snap ring, the upper end of steering column is fixed with the horizontal pole, the both ends of horizontal pole are fixed with the hand (hold) respectively.

The force application mechanism is including being used for providing the power of electric power for the headstock, the cushion is fixed in the upper end of first slide bar, the lower extreme that lies in the cushion on the first slide bar is fixed with the power.

The fixing mechanism comprises a fixing rod, one end of the fixing rod is rotatably connected to the first sliding rod through a first pin shaft, a clamping groove is formed in the other end of the fixing rod, the clamping groove is rotatably connected to the second sliding rod through a second pin shaft, and a clamping ring is fixed at one end, close to the second pin shaft, of the fixing rod.

A certain distance is reserved between the first clamping ring and the second clamping ring, and the distance between the first clamping ring and the second clamping ring is equal to the height of the clamping ring.

The sizes of the four shear groove groups of the first cutting wheel are not equal, one ends, close to the inner sides, of the eight shear groove groups are larger, one sides, close to the second cutting wheel, of the four shear groove groups on the first cutting wheel are smaller, and one sides, close to the first cutting wheel, of the four shear groove groups on the second cutting wheel are smaller.

The shape of snap ring is for the radian to be greater than one hundred eighty degrees ring, the opening size of snap ring equals the diameter of steering column.

The power supply is a rechargeable power supply, and the handle is provided with a control switch electrically connected with the power supply through a conducting wire.

Due to the adoption of the technical scheme, the invention has the following beneficial effects:

the steel-cored aluminum strand cutting scissors can cut steel-cored aluminum strands with various thicknesses through the shearing groove group, have strong universality, ensure that the two sides of the steel-cored aluminum strand are stressed uniformly when the steel-cored aluminum strand is sheared through the relative rotation of the first cutting wheel and the second cutting wheel, the steel core can not press the aluminum wires at the two sides, the cutting surfaces are tidy and have no strand explosion, the steel-cored aluminum strand is sheared by using the weight of a human body through a lever mechanism by using the lever principle, has large shearing force, does not consume energy, is energy-saving and environment-friendly, has high shearing efficiency, realizes the steering of the steering wheel through the steering mechanism, can ensure that a worker rides the steel-cored aluminum strand like an electric vehicle, is suitable for long-distance transportation on rugged and narrow pavements, reduces the labor intensity, fixes the first sliding rod and the second sliding rod through the fixing mechanism, is firm in fixation and easy to disassemble, and can be folded and put into a special, the occupied space is small.

Drawings

FIG. 1 is a right side perspective view of the present invention;

FIG. 2 is a schematic left-side perspective view of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A of the present invention;

FIG. 4 is a schematic perspective view of a shearing mechanism according to the present invention;

FIG. 5 is a front view of the shearing mechanism of the present invention;

fig. 6 is a top cross-sectional view of the present invention.

1. A shearing mechanism; 101. a first cutting wheel; 102. a second cutting wheel; 103. a first slide hole; 104. a second slide hole; 105. a shear groove group; 106. riveting; 2. a lever mechanism; 201. a first slide bar; 202. a second slide bar; 203. a power box; 204. a power wheel; 3. a steering mechanism; 301. a steering lever; 302. a mounting member; 303. a steering wheel; 304. a first snap ring; 305. a second snap ring; 306. a cross bar; 307. a handle; 4. a force application mechanism; 401. a power source; 402. a cushion; 5. a fixing mechanism; 501. fixing the rod; 502. a first pin shaft; 503. a second pin shaft; 504. a snap ring; 505. a clamping groove.

Detailed Description

The present invention will be explained in detail by the following examples, which are disclosed for the purpose of protecting all technical improvements within the scope of the present invention.

The steel-cored aluminum strand cutting scissors combined with the attached drawings 1-6 comprise a shearing mechanism 1, wherein a lever mechanism 2 is connected onto the shearing mechanism 1 in a sliding mode, a steering mechanism 3 is installed on the lever mechanism 2, a force application mechanism 4 is fixed onto the lever mechanism 2, and a fixing mechanism 5 is fixed onto the lever mechanism 2.

The shearing mechanism 1 comprises a first cutting wheel 101, a second cutting wheel 102 is rotatably connected inside the first cutting wheel 101 through a rivet 106, a first sliding hole 103 is formed in the first cutting wheel 101, the first sliding hole 103 penetrates through the first cutting wheel 101, a second sliding hole 104 is formed in the second cutting wheel 102, the second sliding hole 104 penetrates through the second cutting wheel 102, at least four shearing groove groups 105 are respectively formed in the first cutting wheel 101 and the second cutting wheel 102, the shearing groove groups 105 can shear copper core aluminum stranded wires inside the shearing groove groups through relative rotation, and due to the fact that the corresponding shearing groove groups 105 on the first cutting wheel 101 and the second cutting wheel 102 are identical in shape, shearing forces applied to two sides of the copper core aluminum stranded wires are equal, the steel core is sheared at last, and the shearing surface is smooth and does not burst strands.

The lever mechanism 2 comprises a first sliding rod 201 and a second sliding rod 202, the first sliding rod 201 is connected to the first cutting wheel 101 in a sliding mode, the second sliding rod 202 is connected to the second cutting wheel 102 in a sliding mode, a power box 203 is fixed to the lower end of the second sliding rod 202, a power wheel 204 is connected to the power box 203 through a bearing, and the power wheel 204 can rotate under the driving of the power box 203.

Steering mechanism 3 includes installed part 302, installed part 302 is fixed at the lower extreme of first slide bar 201 through the round pin axle, the upper end of installed part 302 is fixed with steering column 301, the lower extreme of installed part 302 is connected with directive wheel 303 through the bearing, the upper end of steering column 301 is fixed with first snap ring 304 and second snap ring 305, the upper end of steering column 301 is fixed with horizontal pole 306, horizontal pole 306 can enlarge the power of turning to through lever principle, make the turning to of directive wheel 303 more laborsaving, the both ends of horizontal pole 306 are fixed with hand (hold) 307 respectively.

The force application mechanism 4 comprises a power source 401, the power source 401 enables a user to ride more comfortably, a seat cushion 402 is fixed at the upper end of the first sliding rod 201, and the power source 401 is fixed at the lower end of the seat cushion 402 on the first sliding rod 201.

The fixing mechanism 5 comprises a fixing rod 501, one end of the fixing rod 501 is rotatably connected to the first sliding rod 201 through a first pin 502, the other end of the fixing rod 501 is provided with a clamping groove 505, the clamping groove 505 is rotatably connected to the second sliding rod 202 through a second pin 503, and a clamping ring 504 is fixed at one end of the fixing rod 501 close to the second pin 503.

The first snap ring 304 and the second snap ring 305 have a distance therebetween, the first snap ring 304 and the second snap ring 305 prevent the snap ring 504 from sliding on the steering column 301, and the distance between the first snap ring 304 and the second snap ring 305 is equal to the height of the snap ring 504, so that the snap ring 504 can be snapped into the steering column 301 between the first snap ring 304 and the second snap ring 305.

The sizes of the four shear groove groups 105 of the first cutting wheel 101 are unequal, one ends, close to the inner side, of the eight shear groove groups 105 are larger, one sides, close to the second cutting wheel 102, of the four shear groove groups 105 on the first cutting wheel 101 are smaller, one sides, close to the first cutting wheel 101, of the four shear groove groups 105 on the second cutting wheel 102 are smaller, the contact area between the snap ring 504 and the inner steel-cored aluminum strand is smaller, and shearing is easier.

The snap ring 504 is shaped as a ring with a radian greater than one hundred and eighty degrees, and the size of the opening of the snap ring 504 is equal to the diameter of the steering rod 301

The power source 401 is a rechargeable power source, and the handle 307 is provided with a control switch electrically connected with the power source 401 through a lead.

The power box 203 comprises a speed reducing motor, an output shaft of the speed reducing motor is connected with a rotating shaft in the power box 203 through a coupler, the rotating shaft is fixed at the lower end of the power box 203 through a bearing, the middle part of the rotating shaft is fixed in a central hole of the power wheel 204, and the power source 401 drives the rotating shaft to rotate on the power box 203 through driving the speed reducing motor to drive the power wheel 204 to rotate.

When the steel-cored aluminum strand cutting scissors are used and not used, the fixing rod 501 is taken down, the first sliding rod 201 and the second sliding rod 202 are rotated, the first cutting wheel 101 and the second cutting wheel 102 rotate relatively under the action of a belt, the first sliding rod 201 and the second sliding rod 202 are overlapped on a straight line, the steering rod 301 is rotated on the second sliding rod 202, the steering rod 301 is also overlapped on a straight line with the first sliding rod 201 and the second sliding rod 202, the occupied space of the device is minimum at the moment, the device can be carried easily by being placed in a special box, when the device is required to be moved on a rugged narrow road section, the first sliding rod 201 drives the first cutting wheel 101 to rotate to a certain angle, the first sliding rod 201 and the second sliding rod 202 are adjusted to proper positions by sliding in the first sliding hole 103 and the second sliding hole 104, the fixing rod 501 is tightly clamped at one end, close to a cushion 402, of the first sliding rod 201 through the first pin shaft 502, the fixing rod 501 is clamped at one end of the second slide bar 202 far away from the power box 203 through the second pin 503, the mounting part 302 is rotated on the first slide bar 201 to a vertical position, the steering rod 301 between the first snap ring 304 and the second snap ring 305 is clamped in the snap ring 504, at the moment, the power box 203 can be powered by screwing the switching power supply 401 on the handle 307, the power wheel 204 is driven to rotate, a worker can ride the electric bicycle like an electric bicycle, when reaching a position needing to cut wires, the steering rod 301 is firstly taken off from the snap ring 504, then the fixing rod 501 is taken off from the second slide bar 202 through the clamping groove 505, the second cutting wheel 102 is slid on the second slide bar 202 to one end of the second slide bar 202 far away from the power box 203, and the first cutting wheel 101 is slid on the first slide bar 201 to one end of the first slide bar 201 close to the mounting part 302, at the moment, the corresponding cutting groove groups 105 are just aligned, the steel-cored aluminum strand is placed into one of the shear groove groups 105 according to the thickness of the steel-cored aluminum strand, a worker sits on the cushion 402 and presses the first sliding rod 201 down on the mounting piece 302 by using the weight of the worker and the power source 401, the first sliding rod 201 drives the first cutting wheel 101 to rotate on the second cutting wheel 102, the shear groove group 105 on the first cutting wheel 101 and the shear groove group 105 on the second cutting wheel 102 rotate relatively, the steel-cored aluminum strand in the shear groove group 105 is cut off, the steering rod 301 is clamped on the clamping ring 504 again, the fixing rod 501 is clamped on the second sliding rod 202 through the second pin shaft 503, the riding is continued to the next place needing to be cut along the wire, and after all cutting is completed, the folding device is placed into a special box.

While the present invention has been particularly shown and described with reference to the preferred embodiments, 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 invention as defined by the appended claims.

Claims (10)

1. The utility model provides a steel-cored aluminum strand wires cut off and cut, includes shears mechanism (1), sliding connection has lever mechanism (2) on shearing mechanism (1), install steering mechanism (3) on lever mechanism (2), be fixed with application of force mechanism (4) on lever mechanism (2), be fixed with fixed establishment (5) on lever mechanism (2).

2. The aluminum cable steel-cored cutting shear of claim 1, wherein: the shearing mechanism (1) comprises a first cutting wheel (101), a second cutting wheel (102) is rotatably connected inside the first cutting wheel (101) through a rivet (106), a first sliding hole (103) is formed in the first cutting wheel (101), the first sliding hole (103) penetrates through the first cutting wheel (101), a second sliding hole (104) is formed in the second cutting wheel (102), the second sliding hole (104) penetrates through the second cutting wheel (102), and at least four shearing groove groups (105) are formed in the first cutting wheel (101) and the second cutting wheel (102) respectively.

3. The aluminum cable steel-cored cutting shear of claim 1, wherein: the lever mechanism (2) comprises a first sliding rod (201) and a second sliding rod (202), the first sliding rod (201) is connected to the first cutting wheel (101) in a sliding mode, the second sliding rod (202) is connected to the second cutting wheel (102) in a sliding mode, a power box (203) is fixed to the lower end of the second sliding rod (202), and the power box (203) is connected with a power wheel (204) through a bearing.

4. The aluminum cable steel-cored cutting shear of claim 1, wherein: steering mechanism (3) are including installed part (302), installed part (302) are fixed at the lower extreme of first slide bar (201) through the round pin axle, the upper end of installed part (302) is fixed with steering column (301), the lower extreme of installed part (302) is connected with directive wheel (303) through the bearing, the upper end of steering column (301) is fixed with first snap ring (304) and second snap ring (305), the upper end of steering column (301) is fixed with horizontal pole (306), the both ends of horizontal pole (306) are fixed with hand (307) respectively.

5. The aluminum cable steel-cored cutting shear of claim 1, wherein: the force application mechanism (4) comprises a power supply (401) for supplying power to the power box (203), the seat cushion (402) is fixed to the upper end of the first sliding rod (201), and the power supply (401) is fixed to the lower end, located on the seat cushion (402), of the first sliding rod (201).

6. The aluminum cable steel-cored cutting shear of claim 1, wherein: the fixing mechanism (5) comprises a fixing rod (501), one end of the fixing rod (501) is rotatably connected to a first sliding rod (201) through a first pin shaft (502), a clamping groove (505) is formed in the other end of the fixing rod (501), the clamping groove (505) is rotatably connected to a second sliding rod (202) through a second pin shaft (503), and a clamping ring (504) is fixed at one end, close to the second pin shaft (503), of the fixing rod (501).

7. The aluminum cable steel-cored cutting shear of claim 1, wherein: the first clamping ring (304) and the second clamping ring (305) are arranged at a certain distance, and the distance between the first clamping ring (304) and the second clamping ring (305) is equal to the height of the clamping ring (504).

8. The aluminum cable steel-cored cutting shear of claim 1, wherein: the four shear groove groups (105) of the first cutting wheel (101) are unequal in size, one end, close to the inner side, of each eight shear groove group (105) is larger, one side, close to the second cutting wheel (102), of each four shear groove group (105) of the first cutting wheel (101) is smaller, and one side, close to the first cutting wheel (101), of each four shear groove group (105) of the second cutting wheel (102) is smaller.

9. The aluminum cable steel-cored cutting shear of claim 1, wherein: the shape of snap ring (504) is for the radian to be greater than one hundred eighty degrees ring, the opening size of snap ring (504) equals the diameter of steering column (301).

10. The aluminum cable steel-cored cutting shear of claim 1, wherein: the power supply (401) is a rechargeable power supply, and a control switch electrically connected with the power supply (401) through a conducting wire is arranged on the handle (307).

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