CN110459933B - A wiring machine for new forms of energy - Google Patents

Abstract

The invention discloses a wire connecting machine for new energy, which comprises a rotary drum, a fixed drum and a push block, wherein openings for taking and placing wires are arranged on the side surfaces of the rotary drum, the fixed drum and the push block, when in wire connection, the wires and a connecting sleeve are placed in the fixed drum, a second guide rod is driven to slide by rotating the rotary drum under the rotation action of the rotary drum, the fixed block is pushed by the second guide rod to clamp the wires, meanwhile, a first elastic sheet on the rotary drum pushes the second guide rod, a cutting blade on the second guide rod transversely cuts off an insulating layer at the end part of the wires, a first slide rod matched with the rotary drum in a threaded manner moves downwards, a cutting blade on the first slide rod longitudinally cuts open the insulating layer on the wires to complete cutting of the insulating layer, after the cutting of the insulating layer is completed, the push block is pushed to sleeve the connecting sleeve on the wires, the rotary drum is rotated reversely, the first slide, a series of work of connecting of wire is accomplished through rotatory rotary drum, has promoted the efficiency that the wire is connected.

Description

A wiring machine for new forms of energy

Technical Field

The invention belongs to the technical field of new energy equipment, and particularly relates to a wiring machine for new energy.

Background

In the circuit maintenance work, the line pressing machine is an indispensable tool, along with the popularization of new energy, various new energy power equipment belt bodies are traditional power equipment, compared with the traditional power equipment, the new energy equipment mainly converts the new energy into electric energy, the new energy is indirectly utilized by utilizing the electric energy, the utilization of the electric energy needs a wire as a medium, in the process of maintaining the new energy power equipment, the wire which is disconnected due to accidents or accidents is often required to be connected, the traditional method is that a cutter is utilized to cut an insulating layer on the surface of the wire, then the ends of two wires are screwed together by using pliers, the process of removing the insulating layer of the wire can be quickly completed only by skilled workers, the simple screwing of the ends to one piece easily causes insufficient contact of the wire, the resistance is increased, the power consumption of the new energy power equipment is increased, and the popularization of the new energy is accompanied, there is a need in the market for a service tool for wire connection that is compatible with it.

Disclosure of Invention

The invention aims to provide a wire connecting machine for new energy, which aims to solve the problems in the background technology and provides the following technical scheme for realizing the aim: a wire connecting machine for new energy comprises a rotary drum, a fixed drum and a push block, wherein the rotary drum is rotatably sleeved on the fixed drum, a second handle is fixedly connected to the side surface of the rotary drum close to the upper end, a first handle is fixed to the part of the fixed drum close to the upper end of the rotary drum, a row of three first chutes and a row of four second chutes are sequentially arranged on the fixed part in the rotary drum from top to bottom, the part of the fixed drum between the first chutes and the second chutes is in sliding connection with four first guide rods which are uniformly distributed, slide rods are in sliding connection with the first chutes, second guide rods are in sliding connection with the second chutes, the lower side of one end of each second guide rod, which is inserted into the fixed drum, is fixedly connected with the upper end of an elastic connecting piece, the lower end of the elastic connecting piece is fixedly connected with the upper end of the fixed block, and a protruding structure on, the fixed block inboard is concave arc structure, and the fixed block inboard is equipped with anti-skidding line, the fixed block outside contacts with the medial surface of fixed cylinder lower extreme shrink-on mouth, fixed cylinder lower extreme shrink-on mouth lower extreme fixedly connected with magnetic path, two guide arms of fixed cylinder upper end fixedly connected with, two guide ways on the ejector pad cooperate with the guide arm, make the ejector pad slide at the guide arm, the protruding structure of ejector pad is prescribed a limit to the guide arm upper end, the ejector pad inboard is equipped with curved dog, and ejector pad outside fixedly connected with push rod.

A cutting blade is arranged at one end of the first guide rod, which is positioned at the inner side of the fixed cylinder, a first spherical bulge is arranged at one end of the first guide rod, which is positioned at the outer side of the fixed cylinder, the first spherical bulge is in fit contact with first elastic sheets of arc structures uniformly distributed at the inner side of the rotary cylinder, a gap is reserved between every two adjacent first elastic sheets, and the first elastic sheets are in sliding connection with the rotary cylinder,

the end of the slide bar positioned at the outer side of the fixed cylinder is connected with the rotary cylinder in a threaded fit way, the upper half side of the end of the slide bar positioned at the inner side of the fixed cylinder is uniformly distributed with spherical grooves, the spherical grooves are internally matched and rotatably connected with balls, the lower half side of the end of the slide bar positioned at the inner side of the fixed cylinder is rotatably connected with a fixed seat, the lower side of the end of the fixed seat positioned at the inner side of the fixed cylinder is provided with a sectioning blade, one end of the fixed seat positioned at,

the T-shaped structure of one end of the second guide rod, which is positioned at the outer side of the fixed cylinder, is matched with the middle part of the inner side of the sleeve in a rotating manner, two edges of the inner side of the sleeve are in threaded fit connection with the outer side of the fixed cylinder, second spherical protrusions are uniformly distributed on the outer side of the sleeve and are in fit contact with second elastic pieces of arc-shaped structures uniformly distributed on the inner side of the rotary cylinder, gaps are reserved between the adjacent second elastic pieces, and the second elastic pieces are in sliding connection with the rotary cylinder.

Preferably, the method comprises the following steps: the side surfaces of the rotary drum, the fixed drum, the push block and the sleeve are provided with openings for taking and placing wires.

Preferably, the method comprises the following steps: when the rotary drum is completely overlapped with the side opening of the fixed drum, the horizontal clamping feet of the first handle and the second handle are 120 degrees.

Preferably, the method comprises the following steps: the elastic connecting sheet is made of a steel sheet material with good ductility.

Preferably, the method comprises the following steps: the fixed cylinder of fixed block upper end inboard is protruding structure, and there is the clearance fixed cylinder inboard protruding structure of fixed block upper end and elastic connection piece dorsal part, first spring side and elastic connection piece dorsal part contact.

Preferably, the method comprises the following steps: the diameter of an arc connecting line between the balls on the different slide bars is slightly smaller than the diameter of the outer side of the connecting sleeve 6, and the diameter of the arc connecting line between the sectioning blades on the different slide bars is equal to the diameter of the inner side of the insulating layer of the lead.

Compared with the prior art, the invention has the following beneficial effects: in the process of crimping the conducting wire, the rotary drum is rotated to drive the cutting blade to transversely cut the insulating layer of the conducting wire, the conducting wire is longitudinally cut by the cutting blade, the insulating layer which is transversely cut and longitudinally cut can be separated from the conducting wire by pulling, after the end of the conducting wire with the insulating layer removed is inserted into the connecting sleeve, the rotary drum is reversely rotated to drive the balls on the sliding rod to roll on the connecting sleeve, the connecting sleeve is connected with the conducting wire, and the conducting wire is connected by the balls and the connecting sleeve. The resistance of the connecting part of the lead is reduced, which is beneficial to reducing the consumption of the connecting part of the lead to energy; the invention can complete all the work of cutting the insulating layer, connecting and the like in the process of connecting the wires by one tool, reduces the using amount of the tool in the process of connecting the wires, and simultaneously, the wires connected by the invention are uniformly extruded and fixed firmly by the balls, the connection parts of the wires are fully contacted, the resistance of the connection parts of the wires is reduced to the maximum extent, and the whole connecting process has convenient operation and high efficiency.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention without limiting the invention in which:

FIG. 1 is an overall structural view of the present invention;

FIG. 2 is a schematic view of the insulation layer of the conductor, the part of the connecting sleeve inserted into the conductor according to the present invention;

FIG. 3 is a cross-sectional view of a central axis portion of a second guide bar according to the present invention;

FIG. 4 is a cross-sectional view of a portion of a first guide bar of the present invention;

FIG. 5 is a view of the structure of the cutting blade of the present invention cutting the insulation layer;

FIG. 6 is a view showing the structure of the ball extruding connection sleeve according to the present invention;

fig. 7 is a block diagram of the present invention.

Reference numbers in the figures: 1, rotating a drum; 2, fixing the cylinder; 3, a guide rod; 4, pushing a block; 401 pushing a rod; 402 a guide groove; 403, a stop block; 5, conducting wires; 501 an insulating layer; 6, connecting sleeves; 7 a first handle; 8 a second handle; 9 sliding rods; 901 a spherical recess; 902 balls; 10 a first runner; 11 a first guide bar; 1101 a first spherical bulge; 12 a first spring plate; 13 a second guide bar; 14 a sleeve; 1401 a second spherical protrusion; 15 a second elastic sheet; 16 a second runner; 17 a first spring; 18 an elastic connecting sheet; 19, fixing blocks; 20 magnetic blocks; 21 a cutting blade; 22 a second spring; 23 fixing the base; 24 dissect the blade.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a wire connecting machine for new energy comprises a rotary drum 1, a fixed drum 2 and a push block 4, wherein openings for taking and placing wires 5 are formed in the side faces of the rotary drum 1, the fixed drum 2 and the push block 4, the rotary drum 1 is rotatably sleeved on the fixed drum 2, a second handle 8 is fixedly connected to the side face, close to the upper end, of the rotary drum 1, a first handle 7 is fixed to the position, close to the upper end of the rotary drum 1, of the fixed drum 2, when the openings in the side faces of the rotary drum 1 and the fixed drum 2 are completely overlapped, the horizontal clamping feet of the first handle 7 and the second handle 8 are 120 degrees, a row of three first sliding chutes 10 and a row of four second sliding chutes 16 are sequentially arranged on the position, inside the rotary drum 1, of the fixed drum 2 from top to bottom, the position, between the first sliding chutes 10 and the second sliding chutes 16, of the fixed drum 2 is in sliding connection with four first guide rods 11 which are uniformly distributed, and a cutting, the first guide rod 11 is provided with a first spherical bulge 1101 at one end outside the fixed cylinder 2, the first spherical bulge 1101 is in fit contact with first elastic sheets 12 of arc structures uniformly distributed on the inner side of the rotary cylinder 1, a gap is reserved between adjacent first elastic sheets 12, the first elastic sheets 12 are in sliding connection with the rotary cylinder 1, slide rods 9 are connected in the first sliding grooves 10 in a sliding manner, limit lugs limiting vertical sliding of the slide rods 9 are arranged in the first sliding grooves 10, one end of each slide rod 9, which is positioned on the outer side of the fixed cylinder 2, is in threaded fit connection with the rotary cylinder 1, spherical grooves 901 are uniformly distributed on the upper half side of one end, which is positioned on the inner side of the fixed cylinder 2, of each slide rod 9 are in fit rotation connection with balls 902, the diameter of an arc connecting line between the balls 902 on different slide rods 9 is slightly smaller than the diameter of the outer side of the connecting sleeve 6, the lower half side of one end, which, the diameter of an arc connecting line between sectioning blades 24 on different sliding rods 9 is equal to the diameter of the inner side of an insulating layer 501 of a lead 5, one end of a fixed seat 23 positioned inside the sliding rod 9 is elastically connected with the sliding rod 9 through a second spring 22, a second guide rod 13 is slidably connected in a second sliding chute 16, one end of the second guide rod 13 positioned outside a fixed cylinder 2 is of a T-shaped structure, the second guide rod 13 is in matched and rotating connection with the middle part of the inner side of a sleeve 14 through the T-shaped structure, the side surface of the sleeve 14 is provided with an opening for taking and placing the lead 5, two edges of the inner side of the sleeve 14 are in threaded matched connection with the outer side of the fixed cylinder 2, second spherical bulges 1401 are uniformly distributed on the outer side of the sleeve 14, the second spherical bulges 1401 are in matched contact with second elastic sheets 15 of the arc structure uniformly distributed on the inner side of a rotary cylinder 1, gaps are reserved between adjacent second elastic sheets 15, the second elastic sheets, the elastic connecting sheet 18 is made of a steel sheet material with good ductility, the lower end of the elastic connecting sheet 18 is fixedly connected with the upper end of a fixed block 19, the inner side of a fixed cylinder 2 at the upper end of the fixed block 19 is of a convex structure, a gap exists between the convex structure at the inner side of the fixed cylinder 2 at the upper end of the fixed block 19 and the back side of the elastic connecting sheet 18, the convex structure at the inner side of the fixed cylinder 2 at the upper end of the fixed block 19 is elastically connected with a second guide rod 13 through a first spring 17, the side surface of the first spring 17 is contacted with the back side of the elastic connecting sheet 18, the inner side of the fixed block 19 is of a concave arc structure, anti-skid lines are arranged at the inner side of the fixed block 19, the outer side of the fixed block 19 is contacted with the inner side surface of a contraction port at the lower end of the fixed cylinder 2, the upper end of the guide rod 3 defines a convex structure of the push block 4, an arc-shaped stop 403 is arranged on the inner side of the push block 4, and a push rod 401 is fixedly connected to the outer side of the push block 4.

Specifically, the invention is used as follows: inserting the end of the disconnected conducting wire 5 into the fixed cylinder 2 from one end of the fixed block 19 until the position A is horizontal as shown in fig. 2, simultaneously placing the connecting sleeve 6 into the fixed cylinder 2, holding the push rod 401 to push the push block 4, pushing the connecting sleeve 6 by using the push block 4, enabling the lower end of the connecting sleeve 6 to be abutted against the conducting wire 5 at the position A horizontal position as shown in fig. 2, rotating the rotary cylinder 1 anticlockwise by using the second handle 8 in a top view to finish the fixing of the conducting wire 5, pushing the cutting blade 21 to transversely cut the insulating layer 501 at the position C horizontal position as shown in fig. 2 by using the first elastic sheet 12, moving the sliding rod 9 downwards along the first sliding groove 10 from the position A horizontal position as shown in fig. 2 to the position B horizontal position as shown in fig. 2, longitudinally cutting the insulating layer 501 by using the cutting blade 24, and then taking off the insulating layer cut by the end of the conducting wire 5 transversely, pushing the lower end of the connecting sleeve 6 into the horizontal position of the 8 position shown in fig. 2 from the horizontal position of the A position shown in fig. 2 by using the pushing block 4, inserting the end of the wire 5 with the insulating layer 501 removed into the connecting sleeve 6, finally rotating the rotary drum 1 clockwise, extruding the connecting sleeve 6 by using the ball 902, deforming the connecting sleeve 6, connecting and fixing the end of the wire 5 with the insulating layer 501 removed, and connecting the other end of the connecting sleeve 6 with the other wire 5 by the same method to complete the connection of the two wires.

In the process that the rotating drum 1 drives the sleeve 14 to rotate anticlockwise, the second elastic sheet 15 in the rotating drum 1 is in contact with the second spherical protrusion 1401 on the outer side of the sleeve 14 to push the sleeve 14 to rotate, the sleeve 14 moves downwards along the fixed drum 2 connected with the threads to drive the fixed block 19 to move, the conducting wire 5 is clamped tightly in the process that the fixed block 19 moves close to the lower end of the shrinkage-shaped fixed drum 2, after the lower edge of the sleeve 14 moves to be in contact with the rotating drum 1, the rotating drum 1 is continuously rotated, the second spherical protrusion 1401 on the outer side of the sleeve 14 extrudes the second elastic sheet 15, after the second elastic sheet 15 slides on the rotating drum 1 and is elastically deformed, the second spherical protrusion 1401 slides with the second elastic sheet 15, when the rotating drum 1 rotates, the sleeve 14 stops rotating, meanwhile, the fixed block 19 is always close to the fixed drum 2 by the suction force of the magnetic block 20, in the process that the rotating drum 1 drives the, the wire is loosened, after the upper edge of the sleeve 14 moves to be in contact with the rotary drum 1, the rotary drum 1 continues to rotate, the second spherical protrusion 1401 on the outer side of the sleeve 14 presses the second elastic sheet 15, after the second elastic sheet 15 slides on the rotary drum 1 and is elastically deformed, the second spherical protrusion 1401 slides with the second elastic sheet 15, and when the rotary drum 1 rotates, the sleeve 14 stops rotating.

In the process of anticlockwise rotation of the rotary drum 1, the sliding rod 9 in threaded fit with the rotary drum 1 moves downwards along the first sliding groove 10, the sectioning blade 24 on the fixed block 19 connected with the sliding rod 9 in a rotating mode longitudinally sections the insulating layer 501 of the conducting wire 5, the acting force of the insulating layer 501 on the fixed seat 23 enables the fixed seat 23 to be horizontal, the sectioning blade 24 on the fixed seat 23 longitudinally cuts the insulating layer 501, meanwhile, the second guide rod 11 is under the action of the conducting wire 5, the first spherical bulge 1101 of the second guide rod 11 is tightly attached to the first elastic sheet 12, in the process of rotation of the rotary drum 1, under the action of the first elastic sheet 12, the second guide rod 11 slides on the fixed drum 2 in a reciprocating mode, and the cutting blade 21 on the second guide rod 11 transversely cuts the insulating layer 501 on the conducting.

In the process of clockwise rotation of the rotary drum 1, the slide rod 9 in threaded fit with the rotary drum 1 moves upwards, the ball 902 on the slide rod 9 rolls upwards along the connecting sleeve 6, the ball 902 extrudes the connecting sleeve 6, so that the connecting sleeve 6 deforms and the end of the wire 5 with the insulating layer 501 removed is fixedly connected, meanwhile, the connecting sleeve 6 applies force to the fixing seat 23, so that the fixing seat 23 rotates, the connecting sleeve 6 slides along the fixing seat 23, after the wire 5 is connected with the connecting sleeve 6, under the action of the second spring 22, the fixing seat 23 returns to the original horizontal state, and the connection and fixation of the wire 5 and the connecting sleeve 6 is completed.

While there have been shown and described what are at present considered to be the fundamental principles of the invention and its essential features and advantages, it will be understood by those skilled in the art that the invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (4)

1. The utility model provides a wiring machine for new forms of energy, includes rotary drum, a fixed section of thick bamboo, ejector pad, its characterized in that: the rotary drum is rotatably sleeved on the fixed drum, a second handle is fixedly connected to the side surface of the rotary drum close to the upper end, a first handle is fixed to the part of the fixed drum close to the upper end of the rotary drum, a row of three first sliding grooves and a row of four second sliding grooves are sequentially arranged on the fixed part inside the rotary drum from top to bottom, the part of the fixed drum between the first sliding grooves and the second sliding grooves is in sliding connection with four first guide rods which are uniformly distributed, sliding rods are connected in the first sliding grooves in a sliding manner, second guide rods are connected in the second sliding grooves in a sliding manner, the second guide rods are inserted into the lower side of one end of the inner side of the fixed drum and are fixedly connected with the upper end of the elastic connecting piece, the lower end of the elastic connecting piece is fixedly connected with the upper end of the fixed block, a convex structure on the inner side of the fixed drum, the outer side of the fixed block is contacted with the inner side surface of a contraction port at the lower end of the fixed cylinder, the lower edge of the contraction port at the lower end of the fixed cylinder is fixedly connected with a magnetic block, the upper end of the fixed cylinder is fixedly connected with two guide rods, two guide grooves on the push block are matched with the guide rods to enable the push block to slide on the guide rods, the upper end of each guide rod is limited with a convex structure of the push block, the inner side of the push block is provided with an arc-shaped stop block, the outer side of the push block is fixedly connected with a push rod, one end of the first guide rod, which is positioned at the inner side of the fixed cylinder, is provided with a cutting blade, one end of the first guide rod, which is positioned at the outer side of the fixed cylinder, is provided with a first spherical bulge, the first spherical bulge is matched and contacted with a first elastic sheet of the arc-shaped structure uniformly distributed, spherical recess fit in rotates and is connected with the ball, and the slide bar is located the inboard one end of solid fixed cylinder and rotates half side down and be connected with the fixing base, and the downside that the fixing base is located the inboard one end of solid fixed cylinder is equipped with the dissection blade, and the fixing base is located the inside one end of slide bar and passes through second spring and slide bar elastic connection, the T shape structure that the second guide arm is located the one end in the solid fixed cylinder outside rotates with the inboard middle part cooperation of sleeve to be connected, and the inboard both edges of sleeve are connected with solid fixed cylinder outside screw-thread fit, and sleeve outside evenly distributed has the spherical arch of second, and the spherical arch of second contacts with the second shell fragment cooperation of the inboard evenly distributed's of rotary drum arc structure, leaves the.

2. The wire connecting machine for new energy according to claim 1, characterized in that: the side surfaces of the rotary drum, the fixed drum, the push block and the sleeve are provided with openings for taking and placing wires.

3. The wire connecting machine for new energy according to claim 1, characterized in that: the fixed cylinder of fixed block upper end inboard is protruding structure, and there is the clearance fixed cylinder inboard protruding structure of fixed block upper end and elastic connection piece dorsal part, first spring side and elastic connection piece dorsal part contact.

4. The wire connecting machine for new energy according to claim 1, characterized in that: the diameter of an arc connecting line between the balls on different sliding rods is slightly smaller than the diameter of the outer side of the connecting sleeve, and the diameter of the arc connecting line between the sectioning blades on different sliding rods is equal to the diameter of the inner side of the insulating layer of the lead.

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