CN111463722A - Push type electric wire stripping method - Google Patents

Abstract

The invention relates to a push type electric wire peeling method, which comprises the steps of manufacturing a supporting table top and a sectioning knife assembly, wherein a centering straight groove is arranged on the supporting table top, the sectioning knife assembly comprises a circular cutting blade, a fixed plate, a movable plate, a blade mounting rod and a blade pressing spring, the circular blade is connected with the movable plate through the blade mounting rod, an electric wire is manually inserted into the centering groove along the extending direction of the centering straight groove and moves, an electric wire insulation sleeve is cut into an electric wire cutting gap extending along the axial direction of the electric wire when the electric wire passes through the circular cutting blade, then the electric wire rolls for 180 degrees along the circumferential direction and passes through the centering straight groove again to be cut into a cutting gap by the circular cutting blade again, and the two electric wire cutting gaps cut at two sides are uniformly distributed along the guiding circumferential direction. The invention has the advantage of good protection effect on the blade and solves the problem of labor waste caused by manually cutting the wire insulating sleeve by using the knife.

Description

Push type electric wire stripping method

Technical Field

The invention relates to the technical field of construction of electric power and electric appliances and waste recycling, in particular to a push type electric wire stripping method.

Background

The wire is composed of a wire conductive core with a metal structure and a wire insulating sleeve with an insulating structure, wherein the wire insulating sleeve is wrapped outside the wire conductive core. In the process of electric power and electrical construction or waste recycling, the wire insulation sleeve of the wire needs to be stripped (some wires are stripped, and some wires on the whole wire are stripped). Because the wire stripper can only be suitable for stripping short wires by a power supply, the existing wire stripper with long length or integral stripping of the wire insulation sleeve is manually used for cutting the wire insulation sleeve by a knife and then stripping the wire insulation sleeve, and the manual cutting of the wire insulation sleeve by the knife is easy to cause the rolling and displacement of the wire, thereby causing labor consumption during cutting.

Disclosure of Invention

The invention provides a push type electric wire stripping method with a good protection effect on a blade, and solves the problem of labor waste caused by manually cutting an electric wire insulating sleeve by a knife.

The technical problem is solved by the following technical scheme: a push type electric wire peeling method is characterized in that a supporting table top and a sectioning knife assembly are manufactured, a V-shaped centering straight groove is arranged on the supporting table top, the inclination angles of two side walls of the centering groove are equal, the sectioning knife assembly comprises a circular cutting blade, a fixed plate, a movable plate, a blade mounting rod and a blade pressing spring for driving the movable plate to be abutted against the fixed plate, one end of the blade mounting rod is connected with the movable plate, the circular cutting blade is connected with the other end of the blade mounting rod, the movable plate and the circular cutting blade are distributed on two sides of the fixed plate, the fixed plate is connected onto the supporting table top through a vertical frame, the circular cutting blade is located above the centering straight groove, the intersection line of two planes where two side walls of the centering straight groove are located is located on the plane where the circular cutting blade is located, the electric wire is manually inserted into the centering groove along the extending direction of the centering straight groove and moves, when the electric wire passes through the circular cutting blade, an electric wire cutting gap extending along the axial direction of the electric wire is cut out from the electric wire insulation sleeve, then the electric wire rolls for 180 degrees along the circumferential direction and passes through the centering straight groove again, a cutting gap is cut out by the circular cutting blade again, and the two electric wire cutting gaps cut out from the two sides are uniformly distributed along the guiding circumferential direction. Under the positioning action of the centering straight groove, the electric wire can move and be kept on the plane where the circular cutting blade is located as the axis. The two cutting gaps of the total two wires cut out from the two sides are uniformly distributed along the circumferential direction of the guide (namely, the wire insulating sleeve is divided into two symmetrical halves, so that the cut wire insulating sleeve is convenient and labor-saving when being taken down from the guide conductive core, and the wire insulating sleeve is not symmetrical, and the wire insulating sleeve is separated from the wire conductive core due to the fact that one half of the wire insulating sleeve wraps the wire conductive core by an angle larger than 180 degrees, so that the wire insulating sleeve is taken down difficultly). The setting of centering straight slot among this technical scheme can avoid the electric wire to produce promptly and roll and make laborsaving when cutting, can make electric wire automatic movement again and conveniently keep being located the plane at cutting blade place at the axis to improve the reliability when dissecting the electric wire insulating boot thoroughly, make follow-up laborsaving when peeling off the electric wire insulating boot.

This technical scheme can show the increase by the power that circular cutter piece received when cutting the electrically conductive core of electric wire, thereby this power overcomes the blade and presses the elasticity of spring and move towards the direction of keeping away from the electric wire and avoid cutting the electric wire heart yearn this moment. Can avoid producing reasons such as beating among the cutting process and leading to cutting the electric wire heart yearn and lead to the blade to damage to make the protective effect to the blade good.

Preferably, the slitting cutter assembly further comprises a spring mounting rod, one end of the spring mounting rod is connected with the movable plate, the other end of the spring mounting rod penetrates through the fixed plate, one end of the blade pressing spring is connected with the fixed plate, the other end of the blade pressing spring is connected with the other end of the spring mounting rod, and the fixed plate is located between the movable plate and the blade pressing spring. Simple structure, and convenient when the fixed blade presses the spring.

Preferably, the blade pressing spring is sleeved on the spring mounting rod. The connection reliability is good.

Preferably, the movable plate is provided with a threaded hole, and the spring mounting rod is screwed in the threaded hole and is connected with the movable plate. The pretightening force of the limiting spring can be adjusted, so that the force limiting requirement when different electric wires are cut is met.

Preferably, the threaded hole is a through hole. The requirement for adjusting the spring in a large range can be met when the movable plate is thin.

Preferably, an internal thread sleeve is fixed on the movable plate, and an internal space of the internal thread sleeve forms the threaded hole. When the threaded hole is damaged, the inner thread sleeve is replaced. The maintenance cost can be reduced and the convenience in maintenance can be improved.

Preferably, the blade mounting rod penetrates through the movable plate, the blade mounting rod is in threaded connection with the movable plate, the circular cutting blade is provided with a blade holder, the blade mounting rod is rotatably connected to the blade holder and is connected with the circular cutting blade, and the blade holder is provided with a vertical rotation stopping sliding rod penetrating through the movable plate. The height of the circular cutting blade can be adjusted to vary the depth of penetration to accommodate variations in the thickness of the wire jacket.

Preferably, the tool apron is provided with a tool apron part fork head, a tool shaft is arranged in the tool apron part fork head, the circular cutting blade is arranged on the tool shaft, and two protective wheels which are coaxial with the circular cutting blade and clamp the circular cutting blade are arranged on the tool shaft. The reliability of the protection of the circular cutting blade can be further improved.

Preferably, a pair of sleeve core separating mechanisms which are distributed along the axial direction of the feeding wheel and separate the part of the wire insulating sleeve split by the circular cutting blade from the wire conductive core are arranged, and each sleeve core separating mechanism comprises a transverse ejector rod, a transverse ejector rod driving cylinder for driving the transverse ejector rod to be pressed on the wire insulating sleeve, a separating rod extending along the vertical direction and used for blocking the separating rod between the wire conductive core and the wire insulating sleeve in a separated state and a separating rod lifting cylinder for driving the separating rod to lift; when the electric wire is inserted between the two sleeve core separating mechanisms for the second time, the transverse ejector rod is driven by the transverse ejector rod to drive the transverse ejector rod to press on the electric wire so as to prevent the electric wire insulating sleeve from moving forwards, and the electric wire conducting core moves forwards continuously, so that two halves of the electric wire insulating sleeve are bulged to form holes between the electric wire conducting core and the electric wire insulating sleeve, the separating rod is driven by the separating rod lifting cylinder to insert into the holes, the transverse ejector rod is loosened to press the electric wire, the separating rod is separated to play a role of a cutter between the electric wire insulating sleeve and the electric wire conducting core at the moment, and the electric wire insulating sleeve which is cut off is completely separated from the electric wire conducting core. According to the technical scheme, the cut-open electric wire insulating sleeve can be stripped while the electric wire is cut.

Preferably, one end of the wire insulating sleeve pushed by the transverse ejector rod is provided with a nail head, and the sleeve core separating mechanism further comprises a blocking rod which pushes the wire insulating sleeve to separate the transverse ejector rod from the wire insulating sleeve when the transverse ejector rod leaves the wire insulating sleeve. The reliability of the wire insulating sleeve pressed by the transverse ejector rod can be improved, and the reliability of the wire insulating sleeve is prevented from being good when the wire insulating sleeve moves forwards along with a wire core wire. The reliability of the transverse ejector rod in separation from the wire insulating sleeve can be improved.

Preferably, the cutting knife assembly further comprises a cutting motor for driving the circular cutting blade to rotate. Can save labor when sectioning the wire insulating sleeve.

The invention has the following advantages: the cutting of the wire insulating sleeve can be realized, so that labor is saved when the wire insulating sleeve is peeled; the protective effect to the blade is good.

Drawings

Fig. 1 is a front view schematically illustrating a peeling operation performed by a single blade cutting type wire peeling apparatus according to a first embodiment of the present invention;

fig. 2 is a schematic top view illustrating a peeling operation performed by the single-blade cutting type wire peeling apparatus according to the second embodiment of the present invention.

In the figure: circular cutting blade 20, support mesa 21, centering straight slot 22, centering slot's left side wall 23, centering slot's right side wall 24, cutting motor 25. The power output shaft of the cutting motor passes through a speed reducer 26, an intersecting line 27 of two planes where two side walls of the centering straight groove are located, a vertical frame 28, a fixed plate 33, a movable plate 34, a blade mounting rod 35, a blade pressing spring 36, a handle 37, a blade holder 38, a vertical rotation stopping slide rod 39, a blade holder part fork 40, a cutter shaft 41, a protection wheel 42, a spring mounting rod 43, a threaded hole 44, a sleeve core separating mechanism 45, a cross ejector rod 46, a cross ejector rod driving cylinder 47, a separating rod 48, a separating rod lifting cylinder 49, a blocking rod 50, a nail head 51, an electric wire 53, an electric wire insulating sleeve 54, a cutting gap 55, a left half part 56, a right half part 57, an electric wire conductive core 58, a hole 59 and an internal thread sleeve 60.

Detailed Description

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

First embodiment, referring to fig. 1, a push type wire stripping method is performed by a single-blade cutting type wire stripping apparatus. The single-blade cutting type electric wire stripping device comprises a supporting table surface 21 and a sectioning knife assembly. The support surface is provided with a V-shaped centering straight groove 22 extending in the front-rear direction. The left side wall 23 of the centering groove is inclined at the same angle as the right side wall 24 of the centering groove. The sectioning knife assembly includes a circular cutting blade 20, a fixed plate 33, a movable plate 34, a blade mounting rod 35, and a blade pressing spring 36 driving the movable plate and the fixed plate to abut together. The fixed plate is connected to the support table by a stand 28. The movable plate is provided with a through hole, and an internal thread sleeve 60 is fixed in the through hole. The inner space of the internal thread sleeve forms a threaded hole on the movable plate. One end of the blade mounting rod is screwed in the threaded sleeve and is screwed with the movable plate together, and a handle 37 is penetrated through. The circular cutting blade is provided with a seat 38. The blade mounting rod is rotatably connected to the blade holder and is connected to the circular cutting blade. When the blade mounting rod rotates, the blade mounting rod lifts to drive the cutter holder to lift. The tool apron is provided with two vertical rotation-stopping slide rods 39 which are arranged on the movable plate in a penetrating way. The blade holder is provided with a holder portion prong 40. A knife shaft 41 is rotatably connected to the knife holder fork. The circular cutter blade is arranged on the cutter shaft. Two protective wheels 42 which are coaxial with the circular cutting blade and clamp the circular cutting blade are arranged on the cutter shaft. The knife holder is also provided with a cutting motor 25. The power output shaft of the cutting motor is connected with the cutter holder through a speed reducer 26. The movable plate and the circular cutting blade are distributed on two sides of the fixed plate. The circular cutting blade is connected to the connecting seat through a fixing plate. The sectioning knife assembly also includes a spring mounting bar 43 having one end connected to the movable plate. The other end of the spring mounting rod passes through the fixing plate. The blade presses one end of the spring. The fixed plates are connected together, and the other ends of the fixed plates are connected together with the other ends of the spring mounting rods. The fixed plate is located between the movable plate and the blade pressing spring. The blade pressing spring is sleeved on the spring mounting rod. The movable plate is provided with a threaded hole 44. The spring mounting rod is connected in the threaded hole through threads and is connected with the movable plate. The circular cutting blade is positioned above the centering straight groove. The axis of the circular cutter blade extends in the left-right direction. The intersection line 27 of the two planes in which the two side walls of the centering straight groove lie lies on the plane in which the circular cutting blade lies.

When peeling off, the electric wire 53 is manually inserted into the centering straight groove along the extending direction of the centering straight groove and moves forwards, under the positioning action of the centering straight groove, the electric wire moves and keeps the axis on the plane where the circular cutter blade is located, and when the electric wire passes through the circular cutter blade, the electric wire insulation sleeve 54 is cut into an electric wire cutting gap extending along the axial direction of the electric wire. The cutting blade is driven by a cutting motor to rotate. Then, the wire rolls 180 degrees along the circumferential direction, passes through the centering straight groove from the front to the back again, and is cut into a cutting gap by the circular cutting blade again, the two cutting gaps of the wire cut at the two sides are uniformly distributed along the guiding circumferential direction, and then the wire insulation sleeve is broken along the cutting gap, so that the wire insulation sleeve is separated from the wire conductive core 58.

The second embodiment is different from the first embodiment in that:

referring to fig. 2, the single-blade cutting type wire stripping apparatus further includes a pair of core separating mechanisms 45 axially distributed along the feed roller for separating the portion of the wire insulation sheath split by the circular cutting blade from the wire conductive core. The core separating mechanism includes a traverse rod 46, a traverse rod driving cylinder 47 for driving the traverse rod to press the wire insulating sheath, a separating rod 48 extending in the up-down direction for blocking between the wire conductive core and the wire insulating sheath in a separated state, a separating rod lifting cylinder 49 for driving the separating rod to lift, and a barrier rod 50 for separating the traverse rod from the wire insulating sheath by abutting against the wire insulating sheath when the traverse rod leaves the wire insulating sheath. One end of the wire insulating sleeve on the top of the transverse ejector rod is provided with a nail head 51.

When peeling off, the electric wire 53 is inserted into the positioning ring groove of the positioning wheel part of the feeding side of the positioning wheel for the second time, so that a cutting gap 55 extending along the axial direction of the electric wire is respectively cut at the upper side and the lower side of the electric wire insulating sleeve 54, the electric wire outer sleeve is divided into a left half part 56 and a right half part 57 by 2 cutting gaps, when the electric wire reaches between two sleeve core separating mechanisms, the transverse ejector rod driving cylinder drives the transverse ejector rod to press the electric wire, so that the front half part and the rear half part of the electric wire insulating sleeve are prevented from moving forwards, the electric wire conductive core 58 continues to move forwards, so that the left half part and the right half part of the electric wire insulating sleeve are bulged, and two holes 59 are formed between the electric wire conductive core, and then 2 separating rods are driven by 2 separating rod lifting cylinders to be. The transverse ejector rod is loosened to press the electric wire, and the front half part and the rear half part are respectively blocked by the blocking rod in the loosening process, so that the nail head is reliably pulled out of the cable insulation sleeve. The separation rod is isolated between the wire insulating sleeve and the wire conductive core to play the role of a cutter, so that the cut wire insulating sleeve (namely the left half part and the right half part) is completely separated from the wire conductive core.

Claims (10)

1. A push type electric wire peeling method is characterized in that a supporting table top and a sectioning knife assembly are manufactured, a V-shaped centering straight groove is arranged on the supporting table top, the inclination angles of two side walls of the centering groove are equal, the sectioning knife assembly comprises a circular cutting blade, a fixed plate, a movable plate, a blade mounting rod and a blade pressing spring for driving the movable plate to be abutted against the fixed plate, one end of the blade mounting rod is connected with the movable plate, the circular cutting blade is connected with the other end of the blade mounting rod, the movable plate and the circular cutting blade are distributed on two sides of the fixed plate, the fixed plate is connected onto the supporting table top through a vertical frame, the circular cutting blade is located above the centering straight groove, the intersection line of two planes where two side walls of the centering straight groove are located is located on the plane where the circular cutting blade is located, the electric wire is manually inserted into the centering groove along the extending direction of the centering straight groove and moves, when the electric wire passes through the circular cutting blade, an electric wire cutting gap extending along the axial direction of the electric wire is cut out from the electric wire insulation sleeve, then the electric wire rolls for 180 degrees along the circumferential direction and passes through the centering straight groove again, a cutting gap is cut out by the circular cutting blade again, and the two electric wire cutting gaps cut out from the two sides are uniformly distributed along the guiding circumferential direction.

2. The push type electric wire stripping method as claimed in claim 1, wherein the cutting blade assembly further comprises a spring mounting rod having one end connected to the movable plate, the other end of the spring mounting rod passes through the fixed plate, one end of the blade pressing spring is connected to the fixed plate, the other end of the blade pressing spring is connected to the other end of the spring mounting rod, and the fixed plate is located between the movable plate and the blade pressing spring.

3. The push type electric wire stripping method as claimed in claim 2, wherein the blade pressing spring is sleeved on the spring mounting rod.

4. The push type electric wire stripping method as claimed in claim 2, wherein the movable plate is provided with a threaded hole, and the spring mounting rod is screwed into the threaded hole to be connected with the movable plate.

5. The push type electric wire stripping method as claimed in claim 4, wherein the threaded hole is a through hole.

6. The push type electric wire stripping method as claimed in claim 5, wherein an internal thread sleeve is fixed on the movable plate, and an internal space of the internal thread sleeve forms the threaded hole.

7. The push type electric wire stripping method as claimed in claim 1, wherein the blade mounting rod is inserted through the movable plate, the blade mounting rod is screwed to the movable plate, the circular cutting blade is provided with a blade seat, the blade mounting rod is rotatably connected to the blade seat and is connected to the circular cutting blade, and the blade seat is provided with a vertical rotation stop sliding rod inserted through the movable plate.

8. The push type electric wire stripping method as claimed in claim 7, wherein the tool holder is provided with a tool holder portion fork, a tool shaft is arranged in the tool holder portion fork, the circular cutting blade is mounted on the tool shaft, and the tool shaft is provided with two protection wheels which are coaxial with the circular cutting blade and clamp the circular cutting blade.

9. The push type electric wire stripping method as claimed in claim 1, wherein a pair of core separating mechanisms are provided, which are distributed along an axial direction of the feed roller, and separate a portion of the electric wire insulation sleeve, which is split by the circular cutting blade, from the electric wire conductive core, the core separating mechanisms include a traverse rod, a traverse rod driving cylinder for driving the traverse rod to press the electric wire insulation sleeve, a separating rod extending in an up-down direction for blocking the separating rod between the electric wire conductive core and the electric wire insulation sleeve in a separated state, and a separating rod lifting cylinder for driving the separating rod to lift; when the electric wire is inserted between the two sleeve core separating mechanisms for the second time, the transverse ejector rod is driven by the transverse ejector rod to drive the transverse ejector rod to press on the electric wire so as to prevent the electric wire insulating sleeve from moving forwards, and the electric wire conducting core moves forwards continuously, so that two halves of the electric wire insulating sleeve are bulged to form holes between the electric wire conducting core and the electric wire insulating sleeve, the separating rod is driven by the separating rod lifting cylinder to insert into the holes, the transverse ejector rod is loosened to press the electric wire, the separating rod is separated to play a role of a cutter between the electric wire insulating sleeve and the electric wire conducting core at the moment, and the electric wire insulating sleeve which is cut off is completely separated from the electric wire conducting core.

10. The push type electric wire stripping method as claimed in claim 9, wherein the cross bar pushes against one end of the electric wire insulating sheath to form a nail head, and the core separating mechanism further comprises a blocking rod which pushes against the electric wire insulating sheath to separate the cross bar from the electric wire insulating sheath when the cross bar leaves the electric wire insulating sheath.

Images