CN112582947A - Electrical wire reinforcing equipment for electrical engineering - Google Patents

Abstract

The invention discloses an electric wire reinforcing device for electrical engineering, which comprises a connecting box, wherein a connecting cavity which is communicated from left to right is arranged in the connecting box, the lower wall of the connecting cavity is communicated with a main screw cavity, the left wall and the right wall of the main screw cavity are rotationally connected with a main screw, the outer circular surface of the main screw is in threaded connection with a left-right symmetrical main moving block which is in left-right sliding connection with the upper wall of the connecting cavity, a clamping cavity which is communicated from left to right is arranged in the main moving block, the upper wall and the lower wall of the clamping cavity are communicated with symmetrical auxiliary screw cavities, the auxiliary screw rod cavity is internally and vertically connected with symmetrical clamping blocks which can extend into the clamping cavity in a sliding way, the end surface of one side, close to each other, of the left and right main moving blocks is fixedly connected with symmetrical annular blocks, the invention fixes the two wires after the left and right sides of the two wires extend into the annular blocks, then cut the parcel layer through cutting out the cutting edge to can be automatic with the copper core of two electric wires fast around tightly.

Description

Electrical wire reinforcing equipment for electrical engineering

Technical Field

The invention relates to the relevant field of electrical engineering, in particular to wire reinforcing equipment for electrical engineering.

Background

In electrical engineering, the electric wire is everywhere as an electric connection tool, some electrical equipment usually needs to be connected or replaced, the connection and disconnection of the electric wire cannot be avoided, when the electrical equipment is damaged and maintained, the electric wire usually needs to be replaced so as to connect a new part, at the moment, the operation of connecting two electric wires is complex, and the electric wire is easy to separate if the operation is improper, so that the use of the electrical equipment is influenced, the progress of some electrical engineering projects is greatly influenced, some existing electric wire connection equipment is difficult to reinforce when the electric wire is connected, and the electric wire is difficult to be quickly connected.

Disclosure of Invention

In order to solve the problems, the present example designs an electric wire reinforcement device for electrical engineering, which comprises a connection box, wherein a left-right through connection cavity is arranged in the connection box, a main screw cavity is communicated with the lower wall of the connection cavity, a main screw is rotatably connected with the left wall and the right wall of the main screw cavity, a main moving block which is bilaterally symmetrical and is in sliding connection with the upper wall of the connection cavity is connected with the outer circular surface of the main screw through a screw thread, a left-right through clamping cavity is arranged in the main moving block, symmetrical auxiliary screw cavities are communicated with the upper wall and the lower wall of the clamping cavity, clamping blocks which can extend into the clamping cavities and are symmetrical are in sliding connection in the auxiliary screw cavities, symmetrical annular blocks are fixedly connected with one side end surface of the left-right main moving block, which is close to each other, and a left-right through annular block cavity is arranged in the annular, a spring fixing block is fixedly connected to the upper end face of the annular block, a gear shaft positioned on the upper side of the annular block is rotatably connected to one side end face, close to each other, of the left and right main moving blocks, a fixing plate positioned on the lower side of the annular block is fixedly connected to one side end face, close to each other, of the left and right main moving blocks, an annular connecting block is fixedly connected to one end, close to each other, of the upper end face of the left and right fixing plates, the left and right annular connecting block is positioned on one side, close to each other, of the left and right annular blocks, an annular cutting block is arranged between the annular blocks and the annular connecting block, sliding blocks rotatably connected to one side end face, close to each other, of the annular blocks and one side end face, far away from each other, of the left and right annular cutting, the utility model discloses a push rod piece, including annular connecting block, power module, power module.

Preferably, a bidirectional motor device is fixedly arranged on one side end face of the left and right main moving blocks, which are close to each other, a side end face of the left and right bidirectional motor devices, which is close to each other, is in power connection with one end of the left and right gear shafts, which are far away from each other, a clamping shaft extending to the upper side in the auxiliary screw cavity is in power connection with one side of the left and right bidirectional motor devices, which is far away from each other, a clamping bidirectional screw penetrating through the clamping cavity is rotatably connected to one side wall of the upper and lower auxiliary screw cavities, the top end of the outer circular surface of the clamping bidirectional screw and the outer circular surface of one side of the clamping shaft, which is located in the auxiliary screw cavity, are fixedly connected with bevel gear pairs capable of being in meshing transmission, and the upper and lower clamping blocks.

But preferably, gear shaft outer disc key connection has and is located the sleeve that the spring fixed block is close to one side each other controls the power gear of the equal fixedly connected with bilateral symmetry of sleeve outer disc, power gear can with the ring gear with the outer disc meshing transmission of piece is tailor to the annular, controls a side end face that the sleeve was kept away from each other with control it is vice to fix the switching electro-magnet that is equipped with can the separation and reunion between the side end face that the spring fixed block is close to each other about a side end face fixedly connected with that the spring fixed block is close to each other is around locating gear shaft outer disc and with control the switching spring of a side end face butt that the sleeve was kept away from each other.

The adjustable copper core clamping mechanism is characterized by comprising a supporting block, a concave connecting block, a steering engine block, a swinging block and a clamping electromagnet pair, wherein the supporting block is fixedly connected to one side end face of the annular rotating block, the side end face of the annular rotating block is close to the supporting block, the concave connecting block is fixedly connected to one side end face of the supporting block, the concave connecting block is close to the other side end face of the supporting block, the steering engine block is fixedly arranged on the lower end face of the steering engine block, the swinging block is in power connection with the swinging block capable of swinging in a left-right overturning mode, a copper core clamping cavity which is communicated in the left-right mode and is opened forwards is arranged in the swinging block, a pressing block is connected to the copper core clamping cavity in a vertical sliding mode, the upper end face of.

Preferably, the left and right sides are provided with cutting edge cavities with openings close to one side of each other in the cutting block, the cutting edge cavities are connected with damping blocks in a vertical sliding mode, cutting edges are fixedly arranged in the damping blocks, a side end face, far away from each other, of each cutting edge is connected with a side wall, far away from each other, of each cutting edge cavity, a cutting edge spring is fixedly connected between the side walls of the cutting edge cavities, a pull rod is fixedly arranged on the left wall of the main screw cavity, the right end face of the pull rod is connected with the left end of the main screw in a power mode, and the outer circular face of the main screw is connected with left and right main moving blocks in a threaded.

Preferably, control be equipped with the ascending chucking chamber of opening in cutting out the claw, push rod piece lower wall intercommunication be equipped with upwards extend to with the slider chamber that the chamber intercommunication was led to the push rod piece, sliding connection has the slider about the slider chamber, the slider up end with fixedly connected with slider spring between the slider chamber upper wall, both sides terminal surface fixedly connected with extends to both sides around the slider the connecting rod of both sides around the push rod piece, around one side terminal surface fixedly connected with that the connecting rod was kept away from each other has downward extension to the chucking piece in the chucking chamber, cut out the claw with the articulated department of push rod piece is equipped with the torsional spring.

Preferably, a winding motor is fixedly arranged on the upper end face of the push rod block, a winding shaft is dynamically connected to the front end face of the winding motor, a winding wheel is fixedly connected to the outer circular face of the winding shaft, and a pull rope fixedly connected with the upper end face of the front and rear cutting claws is wound and contained on the outer circular face of the winding wheel.

Preferably, the front wall of the tightly wrapping cavity is fixedly provided with a movable motor, the rear end face of the movable motor is in power connection with a movable screw rod which is rotationally connected with the rear wall of the tightly wrapping cavity, the movable screw rod is positioned at the right side of the adhesive tape cavity, the outer circular surface of the movable screw rod is in threaded connection with an adhesive tape movable block which is in front-back sliding connection with the right wall of the tightening cavity, the movable belt clamping device is characterized in that a belt clamping cavity which is through from front to back and has a leftward opening is arranged in the belt moving block, symmetrical belt clamping blocks are connected to the right wall of the belt clamping cavity in a vertical sliding mode, one side end face, far away from the belt clamping blocks, of the upper wall and the lower wall of the belt clamping cavity are respectively and fixedly provided with symmetrical movable electromagnet pairs capable of being separated and separated, one side end face, far away from the belt clamping blocks, of the upper wall and the lower wall of the belt clamping cavity are respectively and fixedly connected with symmetrical belt clamping springs, and a belt roll is rotatably connected to the front wall and the rear wall of the.

The invention has the beneficial effects that: according to the invention, the left side and the right side of the two electric wires are stretched into the rubber strip and then fixed, then the wrapping layer is cut by the cutting blade, the copper cores of the two electric wires can be automatically and quickly wound, the efficiency is improved, and meanwhile, the rubber strip can be automatically cut and tightly wrapped, so that the electric wires are prevented from being disconnected due to the fact that the electric wires and the rubber strip are not wound tightly enough.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

Fig. 3 is an enlarged structural diagram of B in fig. 2.

Fig. 4 is an enlarged schematic view of C in fig. 3.

Fig. 5 is an enlarged schematic view of D in fig. 1.

Fig. 6 is an enlarged schematic view of E in fig. 5.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to wire reinforcement equipment for electrical engineering, which comprises a connecting box 11, wherein a left-right through connecting cavity 12 is arranged in the connecting box 11, the lower wall of the connecting cavity 12 is communicated with a main screw cavity 22, the left wall and the right wall of the main screw cavity 22 are rotatably connected with a main screw 23, the outer circular surface of the main screw 23 is in threaded connection with a left-right symmetrical main moving block 13 which is in left-right sliding connection with the upper wall of the connecting cavity 12, a left-right through clamping cavity 14 is arranged in the main moving block 13, the upper wall and the lower wall of the clamping cavity 14 are communicated with a symmetrical auxiliary screw cavity 15, the inner part of the auxiliary screw cavity 15 is vertically and slidably connected with symmetrical clamping blocks 17 which can extend into the clamping cavity 14, symmetrical annular blocks 56 are fixedly connected with the end surfaces of the left main moving block 13 and the right main moving block which are close to each other, a left-right through annular block cavity 57 is arranged in the annular block 56, and the upper, a gear shaft 62 positioned on the upper side of the annular block 56 is rotatably connected to one side end surface of the left and right main moving blocks 13 which are close to each other, a fixing plate 59 positioned on the lower side of the annular block 56 is fixedly connected to one side end surface of the left and right main moving blocks 13 which are close to each other, an annular connecting block 58 is fixedly connected to one end surface of the left and right fixing plates 59 which are close to each other, the left and right annular connecting block 58 is positioned on one side of the left and right annular blocks 56 which are close to each other, an annular cutting block 76 is arranged between the annular block 56 and the annular connecting block 58, the upper and lower ends of the left and right end surfaces of the left and right annular cutting block 76 are fixedly connected with a sliding block 77 which is rotatably connected to one side end surface of the annular block 56 which is close to each other and one side end surface of the annular connecting block 58, one side terminal surface that annular connecting block 58 is close to each other rotates and is connected with annular turning block 60, controls one end fixedly connected with ring gear 61 that the disc is close to each other outside annular turning block 60, it is equipped with and leads smooth chamber 29 to connect chamber 12 upper wall intercommunication, it is equipped with the ascending pull rod chamber 27 of opening to lead smooth chamber 29 upper wall intercommunication, it is described and has pull rod piece 28 for slope form and sliding connection to lead smooth chamber 29 upper wall, terminal surface fixedly connected with fixed block 30 before pull rod piece 28, be equipped with the tight chamber 40 of package that the opening is decurrent in the fixed block 30, the fixed electric putter 41 that is equipped with of the tight chamber 40 upper wall of package, terminal surface fixedly connected with push rod piece 47 under the electric putter 41, push rod piece logical chamber 49 that link up about being equipped with in the push rod piece 47, push rod piece 47 left and right sides terminal surface articulates there is tailorring claw 46, the tight chamber 40 left wall intercommunication.

Beneficially, a bidirectional motor device 21 is fixedly arranged on the end surface of one side close to each other of the left and right main moving blocks 13, the end surface of one side close to each other of the left and right bidirectional motor devices 21 is in power connection with one end far away from each other of the left and right gear shafts 62, the end surface of one side far away from each other of the left and right bidirectional motor devices 21 is in power connection with a clamping shaft 20 extending to the side far away from each other into the upper auxiliary screw cavity 15, one side wall far away from each other of the upper and lower auxiliary screw cavities 15 is in rotation connection with a clamping bidirectional screw 18 penetrating through the clamping cavity 14, the top end of the outer circular surface of the clamping bidirectional screw 18 and the outer circular surface of one side of the clamping shaft 20, which is positioned in the auxiliary screw cavity 15, are fixedly connected with bevel gear pairs 16 capable of being in meshed transmission, and the upper clamping block 17 and the lower clamping block 17 are in threaded connection with the outer circular surface of the clamping bidirectional screw 18 and are opposite in threaded connection direction.

Beneficially, the outer circular surface of the gear shaft 62 is bonded with a sleeve 66 located on one side where the spring fixing block 63 is close to each other, left and right outer circular surfaces of the sleeve 66 are fixedly connected with bilateral symmetry power gears 67, the power gears 67 can be in meshing transmission with the gear ring 61 and the outer circular surface of the annular cutting block 76, a pair of switching electromagnets 65 capable of being clutched is fixedly arranged between one side end surface of the left and right sleeve 66 away from each other and one side end surface of the left and right spring fixing block 63 close to each other, and a switching spring 64 which is wound on the outer circular surface of the gear shaft 62 and is abutted against one side end surface of the left and right sleeve 66 away from each other is fixedly connected with one side end surface of the.

Beneficially, a supporting block 68 is fixedly connected to one side end face of the left and right annular rotating blocks 60 close to each other, a concave connecting block 69 is fixedly connected to one side end face of the left and right annular rotating blocks 68 close to each other, a steering engine block 70 is fixedly connected to one side end face of the left and right concave connecting block 69 close to each other, a steering engine 71 is fixedly arranged on the lower end face of the steering engine block 70, a swinging block 72 capable of swinging left and right is dynamically connected to the lower end face of the steering engine 71, a copper core clamping cavity 85 which penetrates through left and right and is opened forwards is arranged in the swinging block 72, a pressing block 75 is connected to the copper core clamping cavity 85 in a vertical sliding mode, a clamping electromagnet pair 74 capable of being disengaged and disengaged is fixedly arranged between the upper end face of the pressing block 75 and the upper wall of the copper core clamping cavity 85, and a clamping spring.

Beneficially, a cutting blade cavity 79 with an opening towards one side close to each other is arranged in the left and right cutting blocks 78, the cutting blade cavity 79 is connected with a damping block 82 in a vertical sliding manner, a cutting blade 81 is fixedly arranged in the damping block 82, a cutting blade spring 80 is fixedly connected between a side end face of the upper and lower cutting blades 81 far away from each other and a side wall of the upper and lower cutting blade cavity 79 far away from each other, a pull rod 24 is fixedly arranged on the left wall of the main screw cavity 22, the right end face of the pull rod 24 is in power connection with the left end of the main screw 23, and the outer circular face of the main screw 23 is in threaded connection with the left and right main moving blocks 13 and is in opposite threaded connection direction.

Beneficially, clamping cavities 55 with upward openings are formed in the left cutting claw 46 and the right cutting claw 46, a sliding block cavity 51 which extends upwards and is communicated with the pushing block through cavity 49 is formed in the lower wall of the pushing rod block 47, a sliding block 48 is connected to the sliding block cavity 51 in a vertical sliding mode, a sliding block spring 52 is fixedly connected between the upper end face of the sliding block 48 and the upper wall of the sliding block cavity 51, connecting rods 50 which extend to the front side and the rear side of the pushing rod block 47 in a front-rear side end face fixedly connected with the front side and the rear side of the sliding block 48, clamping blocks 54 which extend downwards and are arranged in the clamping cavities 55 are fixedly connected with one side end face of the connecting rods 50 in a front-rear mode, and torsion springs 53 are arranged at.

Advantageously, a winding motor 42 is fixedly arranged on the upper end surface of the push rod block 47, a winding shaft 44 is dynamically connected to the front end surface of the winding motor 42, a winding wheel 43 is fixedly connected to the outer circumferential surface of the winding shaft 44, and a pull rope 45 fixedly connected with the upper end surfaces of the front and rear cutting claws 46 is wound and accommodated on the outer circumferential surface of the winding wheel 43.

Beneficially, a moving motor 34 is fixedly arranged on the front wall of the packing cavity 40, a moving screw 33 rotatably connected with the rear wall of the packing cavity 40 is dynamically connected to the rear end face of the moving motor 34, the moving screw 33 is located on the right side of the adhesive tape cavity 31, an adhesive tape moving block 35 slidably connected with the right wall of the packing cavity 40 in the front-back direction is in threaded connection with the outer circular face of the moving screw 33, an adhesive tape clamping cavity 36 which is through in the front-back direction and has a leftward opening is arranged in the adhesive tape moving block 35, symmetrical adhesive tape clamping blocks 38 are slidably connected with the right wall of the adhesive tape clamping cavity 36 in the up-down direction, symmetrical movable electromagnet pairs 39 which can be engaged and disengaged are fixedly arranged on the upper and lower walls of the adhesive tape clamping cavity 36 respectively at the end faces far away from each other of the upper and lower adhesive tape clamping blocks 38, symmetrical adhesive tape clamping springs 37 are fixedly connected with the upper and lower walls of the adhesive tape clamping cavity 36 respectively at, the front wall and the rear wall of the adhesive tape cavity 31 are rotatably connected with an adhesive tape roll 32.

The use steps herein are described in detail below with reference to fig. 1-6:

in the initial state: the switching electromagnet pair 65 is in a mutually-away state, so that the left and right side sleeves 66 are driven to be in one side position of mutual starting, at the moment, the power gear 67 is in meshing transmission with the gear ring 61, the cutting edge spring 80 is in a loosening state, the clamping electromagnet pair 74 is in a mutually-away state, the clamping spring 73 is in a loosening state, the upper and lower side moving electromagnet pairs 39 are in a mutually-close state, the adhesive tape clamping spring 37 is in a tightening state, the cutting claw 46 is pulled to be in a horizontal state by the pull rope 45, and the slider spring 52 is in a loosening state.

During operation, the right bidirectional motor device 21 is started and drives the right gear shaft 62 to rotate, the power gear 67 and the gear ring 61 are in meshed transmission to drive the annular rotating block 60 to rotate for one hundred eighty degrees, and the swinging blocks 72 on the left side and the right side are in a symmetrical state.

The electric wire to be connected is extended inwards from the left and right connecting cavities 12, and is extended into the left and right copper core clamping cavities 85 by penetrating through the clamping cavity 14, the annular block cavity 57 and the cutting cavity 83, at the moment, the clamping electromagnet pair 74 is closed, so that the pressing block 75 is pushed by the thrust of the clamping spring 73 to clamp the electric wire, at the same time, the left and right bidirectional motor devices 21 are started to drive the left and right clamping shafts 20 to rotate, so that the clamping bidirectional screw 18 is driven to rotate by the meshing transmission of the bevel gear pair 16, so that the upper and lower clamping blocks 17 are driven to approach each other by the threaded connection to clamp the electric wire, at the moment, the switching electromagnet pair 65 is started to tighten the switching spring 64 and drive the left and right sleeves 66 to be in a mutually-away state, at the moment, the power gear 67 is in meshing transmission with the outer circular surface of the annular cutting block 76, at the moment, the, the cutting blade 81 is pushed to approach each other by the thrust of the cutting blade spring 80 so as to cut a wrapping layer of an electric wire, the cutting blade 81 is driven to move slowly by the damping force of the damping block 82, the steering engine 71 is started after the cutting is finished so as to drive the swinging block 72 to swing in an overturning way so as to pull out the wrapping layer, the swinging block 72 is reset to a vertical state by the steering engine 71 after the pulling, the copper core of the electric wire is clamped by the starting and closing of the clamping electromagnet pair 74, the pull rod 24 is started so as to drive the main screw 23 to rotate, the main moving blocks 13 on the left side and the right side are driven to approach each other by the rotation of the main screw 23, and the main moving blocks 13 are stopped when the groove of the left concave connecting block 69 is moved to be aligned with the vertical direction of the right swinging block 72 and the groove of the right concave connecting block 69 is aligned with the vertical direction of the left swinging block 72, at this time, the switching electromagnet pair 65 is closed to drive the power gear 67 to be meshed with the gear ring 61, at this time, the bidirectional motor device 21 is started to drive the gear shaft 62 to rotate, so that the left and right annular rotating blocks 60 are driven to rotate, at this time, the copper cores of the left and right electric wires are wound tightly through rotation of the left and right rudder blocks 70 around the circle center of the annular rotating blocks 60, after the copper cores are wound tightly, the upper and lower clamping blocks 17 are driven to slightly separate from each other through rotation of the clamping shaft 20, so that the left and right electric wires are slightly loosened, meanwhile, the clamping electromagnet pair 74 is started to adsorb each other, so that the copper cores are slightly loosened, the left and right main moving blocks 13 are driven to separate from each other through rotation of the main screw 23.

The pull rod 24 is pulled forwards so as to drive the pull rod block 28 to move downwards through the sliding of the inclined wall of the guiding and sliding cavity 29 and the upper end surface of the pull rod block 28, so as to drive the fixed block 30 to move downwards to the upper side of the wound copper core, at the moment, the upper and lower movable electromagnet pairs 39 are loosened so as to clamp the adhesive tape extending from the adhesive tape roll 32 through the upper and lower adhesive tape clamping blocks 38, at the same time, the movable motor 34 is started so as to drive the adhesive tape moving block 35 to move forwards through threaded connection, at the moment, the electric push rod 41 is started so as to drive the push rod block 47 to move downwards, at the moment, the adhesive tape is cut through the left and right cutting claws 46, when the push rod block 47 moves to be close to the upper side of the copper core, the slide block 48 overcomes the thrust of the slide block spring 52 to move upwards, so as to drive the clamping block 54 to move to the upper side of the clamping cavity 55, at the cutting claw 46 loses the clamping of the clamping, at this time, the winding motor 42 is started to drive the winding shaft 44 to rotate, and the winding wheel 43 is driven to rotate so as to wind and store the left and right side pulling ropes 45, and the left and right side cutting claws 46 are pulled to a horizontal state.

The invention has the beneficial effects that: according to the invention, the left side and the right side of the two electric wires are stretched into the rubber strip and then fixed, then the wrapping layer is cut by the cutting blade, the copper cores of the two electric wires can be automatically and quickly wound, the efficiency is improved, and meanwhile, the rubber strip can be automatically cut and tightly wrapped, so that the electric wires are prevented from being disconnected due to the fact that the electric wires and the rubber strip are not wound tightly enough.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (8)

1. The utility model provides an electric wire reinforcing equipment for electrical engineering, includes the connecting box, its characterized in that: a left-right through connecting cavity is arranged in the connecting box, a main screw cavity is communicated with the lower wall of the connecting cavity, a main screw is rotatably connected with the left wall and the right wall of the main screw cavity, a main moving block which is bilaterally symmetrical and is connected with the upper wall of the connecting cavity in a left-right sliding manner is connected with the outer circular surface of the main screw in a threaded manner, a left-right through clamping cavity is arranged in the main moving block, symmetrical auxiliary screw cavities are communicated with the upper wall and the lower wall of the clamping cavity, clamping blocks which can extend into the clamping cavities and are symmetrical are connected in the auxiliary screw cavities in a vertical sliding manner, symmetrical annular blocks are fixedly connected with one side end surfaces of the left main moving block and the right main moving block, which are close to each other, a left annular block cavity and a right through annular block is arranged in the annular block, a spring fixing block is fixedly connected with, a fixed plate positioned on the lower side of the annular block is fixedly connected with one end surface of the left and right main moving blocks, which is close to each other, a ring-shaped connecting block is fixedly connected with one end of the left and right fixed plates, which is close to each other, the left and right ring-shaped connecting block is positioned on one side of the left and right ring-shaped blocks, a ring-shaped cutting block is arranged between the ring-shaped block and the ring-shaped connecting block, the upper and lower ends of the left and right ring-shaped cutting block are fixedly connected with a sliding block which is rotatably connected with one end surface of the ring-shaped block, which is close to each other, and one end surface of the ring-shaped rotating block, which is close to each other, is fixedly connected with a gear ring, connect the chamber upper wall intercommunication and be equipped with and lead smooth chamber, it is equipped with the ascending pull rod chamber of opening to lead smooth chamber upper wall intercommunication, it is slope form and sliding connection with pull rod piece to lead smooth chamber upper wall, terminal surface fixedly connected with fixed block before the pull rod piece, be equipped with the tight chamber of package that the opening is decurrent in the fixed block, the fixed electric putter that is equipped with of the tight chamber upper wall of package, terminal surface fixedly connected with push rod piece under the electric putter, the push rod piece that link up about being equipped with leads to the chamber in the push rod piece, the push rod piece left and right sides terminal surface articulates there is the claw of tailorring, the tight chamber left wall intercommunication of package is equipped with the sticky.

2. The electric wire reinforcing apparatus for electric engineering as set forth in claim 1, wherein: the bidirectional motor device is fixedly arranged on one side end face, close to each other, of the left main moving block and the right main moving block, one side end face, close to each other, of the left bidirectional motor device is in power connection with one end, far away from each other, of the left gear shaft and the right gear shaft, one side end face, far away from each other, of the left bidirectional motor device is in power connection with a clamping shaft extending to the upper side in the auxiliary screw cavity, one side wall, far away from each other, of the upper auxiliary screw cavity and the lower auxiliary screw cavity is in rotating connection with a clamping bidirectional screw penetrating through the clamping cavity, the top end of the outer circular face of the clamping bidirectional screw and one outer circular face, located in the auxiliary screw cavity, of the clamping shaft are fixedly connected with bevel gear pairs capable of being in meshed.

3. The electric wire reinforcing apparatus for electric engineering as set forth in claim 1, wherein: the outer disc key connection of gear shaft has and is located the sleeve that the spring fixed block is close to one side each other controls the power gear of the equal fixedly connected with bilateral symmetry of the outer disc of sleeve, power gear can with the ring gear with the outer disc meshing transmission of ring-shaped cutting block controls a side end face that the sleeve was kept away from each other with control fixed being equipped with the switching electro-magnet pair that can the separation and reunion between the side end face that the spring fixed block is close to each other about a side end face fixedly connected with that the spring fixed block is close to each other is around locating the outer disc of gear shaft and with control the switching spring of a side end face butt that the sleeve was kept away from.

4. The electric wire reinforcing apparatus for electric engineering as set forth in claim 1, wherein: the steering engine comprises a left annular rotating block, a right annular rotating block, a steering engine block, a swinging block, a clamping electromagnet pair and a clamping spring, wherein one side end face of the supporting block is fixedly connected with a supporting block, the other side end face of the supporting block is mutually close to the supporting block, one side end face of the swinging block is fixedly connected with a concave connecting block, the left concave connecting block is mutually close to one side end face of the steering engine block, the lower end face of the steering engine block is fixedly provided with a steering engine, the lower end face of the steering engine block is dynamically connected with the swinging block which can turn over and swing left and right, a copper core clamping cavity which is through from left to right and has a forward opening is arranged in the swinging block, the copper core clamping cavity is vertically and slidably connected with a pressing.

5. The electric wire reinforcing apparatus for electric engineering as set forth in claim 1, wherein: the cutting blade device comprises a cutting block, a damping block, a cutting blade spring, a pull rod, a main screw rod cavity, a main screw rod, a main moving block, a cutting blade cavity and a cutting blade spring, wherein an opening is formed in the cutting block and is close to one side of the cutting blade cavity, the cutting blade cavity is connected with the damping block in a vertical sliding mode, the cutting blade is fixedly arranged in the damping block, the cutting blade is arranged on one side end face, away from the cutting blade, of the cutting blade, the cutting blade is fixedly connected with the cutting blade spring between the side wall, away from the cutting blade cavity, of the cutting blade.

6. The electric wire reinforcing apparatus for electric engineering as set forth in claim 1, wherein: control cut out be equipped with the ascending chucking chamber of opening in the claw, push rod piece lower wall intercommunication be equipped with upwards extend to with the slider chamber of push rod piece logical chamber intercommunication, sliding connection has the slider about the slider chamber, the slider up end with fixedly connected with slider spring between the slider chamber upper wall, both sides terminal surface fixedly connected with extends to both sides around the slider around the connecting rod of both sides around the push rod piece, around a side end fixed connection that the connecting rod was kept away from each other has downward extension to the chucking piece in the chucking intracavity, cut out the claw with the articulated department of push rod piece is equipped with the torsional spring.

7. The electric wire reinforcing apparatus for electric engineering as set forth in claim 1, wherein: the cutting device is characterized in that a winding motor is fixedly arranged on the upper end face of the push rod block, a winding shaft is dynamically connected to the front end face of the winding motor, a winding wheel is fixedly connected to the outer circular face of the winding shaft, and a pull rope fixedly connected with the upper end face of the cutting claw is wound and stored on the outer circular face of the winding wheel.

8. The electric wire reinforcing apparatus for electric engineering as set forth in claim 1, wherein: the front wall of the tightly wrapping cavity is fixedly provided with a movable motor, the rear end surface of the movable motor is in power connection with a movable screw rod which is rotationally connected with the rear wall of the tightly wrapping cavity, the movable screw rod is positioned at the right side of the adhesive tape cavity, the outer circular surface of the movable screw rod is in threaded connection with an adhesive tape movable block which is in front-back sliding connection with the right wall of the tightening cavity, the movable belt clamping device is characterized in that a belt clamping cavity which is through from front to back and has a leftward opening is arranged in the belt moving block, symmetrical belt clamping blocks are connected to the right wall of the belt clamping cavity in a vertical sliding mode, one side end face, far away from the belt clamping blocks, of the upper wall and the lower wall of the belt clamping cavity are respectively and fixedly provided with symmetrical movable electromagnet pairs capable of being separated and separated, one side end face, far away from the belt clamping blocks, of the upper wall and the lower wall of the belt clamping cavity are respectively and fixedly connected with symmetrical belt clamping springs, and a belt roll is rotatably connected to the front wall and the rear wall of the.

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