CN112756510B - Adjustable cutting equipment is used in cable wire production - Google Patents

Abstract

The invention relates to the field of cables and wires, in particular to adjustable cutting equipment for cable and wire production. The cable wires can be cut and the length of the cut can be adjusted. The cutting device comprises a roller assembly, a cutting assembly, a collecting assembly, a belt II, a belt I, a supporting rod I and a supporting rod II which slide relatively, and therefore the cutting device is convenient to adapt to wire rollers of cables with different lengths and needing to be cut; meanwhile, the driving plate II and the driving plate III are relatively rotated, so that the inner rings of the wire rollers of the cables needing to be cut of the supporting rod I and the supporting rod II are tightly attached, and the phenomenon of wire outgoing and slipping in the wire outgoing process of the wire rollers of the cables needing to be cut is prevented.

Description

Adjustable cutting equipment is used in cable wire production

Technical Field

The invention relates to the field of cables and wires, in particular to adjustable cutting equipment for cable and wire production.

Background

The adjustable cutting equipment for producing the cable and the wire is a common equipment in the field of the cable and the wire, but the function of the common adjustable cutting equipment for producing the cable and the wire is single.

Disclosure of Invention

The invention aims to provide adjustable cutting equipment for producing cable wires, which can cut the cable wires and can adjust the cutting length.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a cable wire production is with adjustable cutting equipment, includes roller assembly, cutting subassembly, collection subassembly, belt two, belt one, roller assembly is connected with cutting subassembly, collects the subassembly and is connected with cutting subassembly, and belt two is connected between cutting subassembly, collection subassembly, and belt one is connected between roller assembly, cutting subassembly.

As a further optimization of the technical scheme, the invention relates to adjustable cutting equipment for producing cables and wires, which comprises a roller outer frame, a first drive plate, a first unidirectional drive rod push spring, a second drive plate, a first unidirectional clamping groove, a third drive plate, a first support rod, a second support rod, a fourth drive plate, a cross rod, a cross sleeve, a second unidirectional drive rod, a first unidirectional drive rod roller, a second unidirectional drive rod push spring, a lower end rectangular sliding groove, a first inner end spherical clamping rod push spring, a fifth drive plate, a sixth drive plate, a third unidirectional drive rod push spring, a fourth unidirectional drive rod, a second unidirectional drive rod roller, a fourth unidirectional drive rod push spring, a second unidirectional clamping groove, a second lower end support, a first lower end support and an outer wall support, wherein the first drive plate is rotatably connected with the roller outer wall support, the second drive plate is rotatably connected with the first drive plate, the roller frame comprises a roller frame, a one-way driving rod I, a one-way driving rod push spring I, a one-way clamping groove I, a one-way driving rod I, a driving plate III, a supporting rod I, a supporting rod II, an inner spherical clamping groove I, a driving plate II, a driving plate V and a driving plate V, wherein the roller frame is arranged between the roller frame and the roller frame, the one-way clamping groove I is arranged on the driving plate II, the one-way driving rod I is connected with the one-way clamping groove I in a matched mode, the driving plate III is connected with the roller frame in a sleeved mode, the supporting rod I is connected with the driving plate III in a sliding mode, the supporting rod I is connected with the driving plate I in a sliding mode, the supporting rod II is connected with the supporting rod II in a sliding mode, the inner spherical clamping groove I is arranged between the two inner spherical clamping rods I, the supporting rod II is connected with the driving plate V in a sliding mode, the driving plate V is connected with the driving plate V, A driving plate six is rotatably connected with a driving plate four, a cross rod is fixedly connected with a driving plate four, the cross rod is slidably connected with a cross sleeve, the cross sleeve is rotatably connected with an outer wall bracket, the outer wall bracket is fixedly connected with a roller outer frame, a one-way clamping groove two is arranged on the driving plate six, a one-way driving rod three is slidably connected with the driving plate four, a one-way driving rod push spring three is arranged between the one-way driving rod three and the driving plate four, the one-way driving rod push spring three is connected with the one-way driving rod three in a sleeved mode, the one-way driving rod three is connected with the one-way clamping groove two in a matched mode, the one-way driving rod four is slidably connected with a lower end bracket two, the one-way driving rod roller two is rotatably connected with the one-way driving rod four, the one-way driving rod roller two is contacted with an inclined plane of the driving plate four, the one-way driving rod push spring four is connected with the one-way driving rod four in a sleeved mode, the one-way driving rod push spring four is arranged between the one-way driving rod four and the lower end bracket two, the lower end support II is connected with the lower end rectangular sliding groove in a sliding mode, the lower end rectangular sliding groove is formed in the roller outer frame, the lower end support I is fixedly connected with the roller outer frame, the one-way driving rod II is connected with the lower end support I in a sliding mode, the one-way driving rod idler wheel I is connected with the one-way driving rod II in a rotating mode, the one-way driving rod idler wheel I is in contact with an inclined plane on the driving plate I, the one-way driving rod push spring II is arranged between the one-way driving rod II and the lower end support I, and the outer wall support is fixedly connected with the roller outer frame through bolts.

As a further optimization of the technical scheme, the invention relates to adjustable cutting equipment for producing cables and wires, which comprises a cutting outer frame, an upper side sliding frame, an upper side push spring, a lower side sliding frame, a lower side push spring, a first matching sliding rod, a second cutting edge, a first cutting edge, a rotor, a second matching sliding rod, a first inner end clamping rod push spring, a second inner end clamping rod push spring, a waist groove rod, a slider clamping rod and a slider clamping rod push spring, wherein the upper side sliding frame is in sliding connection with the second matching sliding rod, the upper side push spring is arranged between the upper side sliding frame and the second matching sliding rod, the second matching sliding rod is in sliding connection with the cutting outer frame, the second cutting edge is fixedly connected with the upper side sliding frame, the first matching sliding rod is in sliding connection with the first matching sliding frame, the lower side push spring is arranged between the lower side sliding frame and the first matching sliding rod, and the first cutting edge is fixedly connected with the lower side sliding frame, the rotor is rotatably connected with the cutting outer frame, the waist groove rod is fixedly connected with the first matching slide rod and the second matching slide rod, the first inner end clamping rod is slidably connected with the first matching slide rod, the first inner end clamping rod push spring is arranged between the first two inner end clamping rods, the first inner end clamping rod is connected with the cutting outer frame in a clamping mode, the second inner end clamping rod is slidably connected with the second matching slide rod, the second inner end clamping rod push spring is arranged between the second two inner end clamping rods, the second inner end clamping rod is connected with the cutting outer frame in a clamping mode, the slider is slidably connected with the waist groove rod, the second slider clamping rod is slidably connected with the slider, the second slider clamping rod is connected with the rotor in a clamping mode, the slider clamping rod push spring is arranged between the two slider clamping rods, the belt is connected between the rotor and the cross sleeve, and the roller outer frame is fixedly connected with the cutting outer frame.

As a further optimization of the technical solution, the adjustable cutting device for cable and wire production of the present invention, wherein the slider is disposed at an eccentric position of the rotor.

As a further optimization of the technical scheme, the adjustable cutting equipment for cable and wire production comprises a collecting outer frame, a bearing rod, a driving support, a first bevel gear, a second bevel gear, a first bevel gear shaft, a third bevel gear, a second bevel gear shaft and a first spring, wherein the bearing rod is slidably connected with the collecting outer frame, the first spring is arranged between the bearing rod and the collecting outer frame, the driving support is fixedly connected with the bearing rod, the first bevel gear is rotatably connected with the driving support, the first bevel gear shaft is fixedly connected with the collecting outer frame, the second bevel gear is fixedly connected with the first bevel gear shaft, the second bevel gear shaft is fixedly connected with the third bevel gear, the collecting outer frame is rotatably connected with the cutting outer frame, the second bevel gear shaft is rotatably connected with the cutting outer frame, and the second belt is connected between the second bevel gear shaft and the rotor.

As a further optimization of the technical scheme, the adjustable cutting equipment for producing the cable and the wire is characterized in that the bevel gear shaft is externally connected with a matched motor a.

The adjustable cutting equipment for producing the cable and the wire has the beneficial effects that:

according to the adjustable cutting equipment for producing the cables and the wires, the first supporting rod and the second supporting rod slide relatively, so that the adjustable cutting equipment is convenient to adapt to wire rollers of cables with different lengths and needing to be cut; meanwhile, the driving plate II and the driving plate III are relatively rotated, so that the inner rings of the wire rollers of the cables needing to be cut of the supporting rod I and the supporting rod II are tightly attached, and the phenomenon of wire outgoing and slipping in the wire outgoing process of the wire rollers of the cables needing to be cut is prevented.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a first schematic view of the roller assembly 1 of the present invention;

FIG. 4 is a second schematic structural view of the roller assembly 1 of the present invention;

FIG. 5 is a third schematic structural view of the roller assembly 1 of the present invention;

FIG. 6 is a fourth schematic structural view of the roller assembly 1 of the present invention;

FIG. 7 is a fifth schematic structural view of the roller assembly 1 of the present invention;

FIG. 8 is a sixth schematic view of the roller assembly 1 of the present invention;

FIG. 9 is a first schematic view of the cutting assembly 2 of the present invention;

FIG. 10 is a second schematic structural view of the cutting assembly 2 of the present invention;

FIG. 11 is a third schematic structural view of the cutting assembly 2 of the present invention;

FIG. 12 is a fourth schematic structural view of the cutting assembly 2 of the present invention;

FIG. 13 is a first view of the structure of the collecting unit 3 of the present invention;

fig. 14 is a schematic structural view of the collecting assembly 3 of the present invention.

In the figure: a roller assembly 1; a roller outer frame 1-1; driving a first drive plate 1-2; 1-3 of a one-way driving rod; a one-way driving rod pushes a spring 1-4; driving plates II 1-5; 1-6 parts of a one-way clamping groove; driving plates three 1-7; 1-8 of a first support rod; 1-9 parts of a second supporting rod; driving plates four 1-10; 1-11 parts of a cross rod; 1-12 parts of a cross sleeve; a second one-way driving rod 1-13; a roller 1-14 of a one-way driving rod; a one-way driving rod pushes a second spring 1-15; lower rectangular chutes 1-16; 1-17 of a spherical clamping groove at the inner end; 1-18 parts of an inner end spherical clamping rod; the inner end of the spherical clamping rod pushes a spring 1-19; drive plate five 1-20; drive plates six 1-21; a unidirectional driving rod III 1-22; a unidirectional driving rod pushes a spring III 1-23; a unidirectional driving rod IV 1-24; a second roller 1-25 of a one-way driving rod; a unidirectional driving rod pushes a spring four 1-26; a second unidirectional card slot 1-27; a second lower end bracket 1-28; 1-29 parts of a lower end bracket I; 1-30 parts of an outer wall bracket; a cutting assembly 2; cutting the outer frame 2-1; an upper carriage 2-2; an upper side push spring 2-3; a lower carriage 2-4; a lower side push spring 2-5; matching with the first sliding rod 2-6; 2-7 of a second cutting edge; a first cutting edge is 2-8; 2-9 of a rotor; 2-10 of a second matching slide bar; the inner end clamping rod I is 2-11; the inner end clamping rod pushes a spring I2-12; the inner end is clamped by a second 2-13 rod; the inner end clamping rod pushes a second spring 2-14; 2-15 parts of a waist groove rod; 2-16 parts of a slider; 2-17 parts of a slider clamping rod; 2-18 parts of a slider clamping rod push spring; a collection assembly 3; collecting an outer frame 3-1; a carrier bar 3-2; a drive bracket 3-3; 3-4 parts of a first bevel gear; 3-5 parts of a second bevel gear; 3-6 parts of a bevel gear shaft I; 3-7 parts of bevel gear III; 3-8 parts of a second bevel gear shaft; 3-9 parts of a first spring; a second belt 4; a first belt 5.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 14, and an adjustable cutting device for cable and wire production includes a roller assembly 1, a cutting assembly 2, a collecting assembly 3, a second belt 4, and a first belt 5, where the roller assembly 1 is connected to the cutting assembly 2, the collecting assembly 3 is connected to the cutting assembly 2, the second belt 4 is connected between the cutting assembly 2 and the collecting assembly 3, and the first belt 5 is connected between the roller assembly 1 and the cutting assembly 2.

The second embodiment is as follows:

the first embodiment is further described with reference to fig. 1-14, and the roller assembly 1 includes a roller outer frame 1-1, a first driving plate 1-2, a first unidirectional driving rod 1-3, a first unidirectional driving rod push spring 1-4, a second driving plate 1-5, a first unidirectional slot 1-6, a third driving plate 1-7, a first supporting rod 1-8, a second supporting rod 1-9, a fourth driving plate 1-10, a cross rod 1-11, a cross sleeve 1-12, a second unidirectional driving rod 1-13, a first unidirectional driving rod roller 1-14, a second unidirectional driving rod push spring 1-15, a lower rectangular sliding slot 1-16, a first inner end spherical slot 1-17, a first inner end spherical clamping rod 1-18, a first inner end spherical clamping rod push spring 1-19, a second inner end spherical clamping rod push spring 1-19, a first end drive rod push spring, a second drive rod push spring, a third drive rod push spring, a fourth drive rod, a fourth, 1-20 parts of a drive plate five, 1-21 parts of a drive plate six, 1-22 parts of a unidirectional drive rod three, 1-23 parts of a unidirectional drive rod pushing spring three, 1-24 parts of a unidirectional drive rod four, 1-25 parts of a unidirectional drive rod roller wheel, 1-26 parts of a unidirectional drive rod pushing spring four, 1-27 parts of a unidirectional clamping groove two, 1-28 parts of a lower end support, 1-29 parts of a lower end support and 1-30 parts of an outer wall support, wherein a drive plate 1-2 is rotationally connected with a roller outer frame 1-1, a drive plate two 1-5 is rotationally connected with a drive plate one 1-2, a unidirectional drive rod one 1-3 is slidably connected with the roller outer frame 1-1, a unidirectional drive rod pushing spring one 1-4 is connected with a unidirectional drive rod one 1-3 in a sleeved mode, and a unidirectional drive rod pushing spring one 1-4 is arranged between the unidirectional drive rod one 1-3 and the roller outer frame 1-1, one-way clamping grooves I1-6 are arranged on a driving plate II 1-5, one-way driving rods I1-3 are matched and connected with one-way clamping grooves I1-6, a driving plate III 1-7 is rotatably connected with a roller outer frame 1-1, supporting rods I1-8 are slidably connected with the driving plate III 1-7, supporting rods I1-8 are slidably connected with the driving plate I1-2, supporting rods II 1-9 are slidably connected with the supporting rods I1-8, inner end spherical clamping grooves I1-17 are arranged at the inner ends of the supporting rods II 1-9, inner end spherical clamping rods I1-18 are matched and connected with inner end spherical clamping grooves I1-17, inner end spherical clamping rods I1-18 are slidably connected with the supporting rods I1-8, inner end spherical clamping rod push springs I1-19 are arranged between the two inner end spherical clamping rods I1-18, the support rod II 1-9 is in sliding connection with the drive plate V1-20, the support rod II 1-9 is in sliding connection with the drive plate VI 1-21, the drive plate V1-20 and the drive plate VI 1-21 are in rotating connection with the drive plate IV 1-10, the cross rod 1-11 is fixedly connected with the drive plate IV 1-10, the cross rod 1-11 is in sliding connection with the cross sleeve 1-12, the cross sleeve 1-12 is in rotating connection with the outer wall bracket 1-30, the outer wall bracket 1-30 is fixedly connected with the roller outer frame 1-1, the one-way clamping groove II 1-27 is arranged on the drive plate VI 1-21, the one-way drive rod III 1-22 is in sliding connection with the drive plate IV 1-10, the one-way drive rod push spring III 1-23 is arranged between the one-way drive rod III 1-22 and the drive plate IV 1-10, a one-way driving rod push spring three 1-23 is connected with a one-way driving rod three 1-22 in a sleeved mode, the one-way driving rod three 1-22 is connected with a one-way clamping groove two 1-27 in a matched mode, a one-way driving rod four 1-24 is connected with a lower end support two 1-28 in a sliding mode, a one-way driving rod roller two 1-25 is connected with the one-way driving rod four 1-24 in a rotating mode, the one-way driving rod roller two 1-25 is in contact with the inclined plane of a driving plate four 1-10, a one-way driving rod push spring four 1-26 is connected with the one-way driving rod four 1-24 in a sleeved mode, the one-way driving rod push spring four 1-26 is arranged between the one-way driving rod four 1-24 and the lower end support two 1-28, the lower end support two 1-28 is connected with a lower end rectangular sliding groove 1-16 in a sliding mode, and the lower end rectangular sliding groove 1-16 is arranged on a roller outer frame 1-1, the lower end support I1-29 is fixedly connected with the roller outer frame 1-1, the one-way driving rod II 1-13 is in sliding connection with the lower end support I1-29, the one-way driving rod roller I1-14 is in rotating connection with the one-way driving rod II 1-13, the one-way driving rod roller I1-14 is in contact with an inclined plane on the driving plate I1-2, the one-way driving rod push spring II 1-15 is arranged between the one-way driving rod II 1-13 and the lower end support I1-29, and the outer wall support 1-30 is fixedly connected with the roller outer frame 1-1 through bolts;

when the rotors 2 to 9 rotate, the cross sleeves 1 to 12 are driven to rotate by the belt I5, the cross rods 1-11 are driven to rotate by the cross sleeves 1-12, the driving plates 1-10 are driven to rotate by the cross rods 1-11, the driving plate I1-2 is driven to rotate by the driving plate IV 1-10, and the unidirectional driving rod I1-3 is driven to move by the driving plate I1-2, the drive plate II 1-5 is driven to move by the unidirectional drive rod I1-3, the support rod I1-8 and the support rod II 1-9 are driven to rotate simultaneously by the drive plate II 1-5, the wire roller of the cable to be cut is driven to rotate through the support rods I1-8 and the support rods II 1-9, and the wire outlet of the wire roller of the cable to be cut is realized; the supporting rods I1-8 and the supporting rods II 1-9 are relatively slid, so that the cutting device is convenient to adapt to wire rollers of cables with different lengths and needing to be cut; meanwhile, the driving plates II 1-5 and the driving plates III 1-7 are relatively rotated, so that the inner rings of the wire rollers of the cables to be cut of the supporting rods I1-8 and the supporting rods II 1-9 are tightly attached, and the phenomenon of wire outlet slip in the wire outlet process of the wire rollers of the cables to be cut is prevented.

The third concrete implementation mode:

the first embodiment is further described with reference to fig. 1-14, the cutting assembly 2 includes a cutting outer frame 2-1, an upper carriage 2-2, an upper push spring 2-3, a lower carriage 2-4, a lower push spring 2-5, a first mating slide bar 2-6, a second cutting edge 2-7, a first cutting edge 2-8, a rotor 2-9, a second mating slide bar 2-10, a first inner end clamp bar 2-11, a first inner end clamp bar push spring 2-12, a second inner end clamp bar 2-13, a second inner end clamp bar push spring 2-14, a waist groove bar 2-15, a slider 2-16, a slider clamp bar 2-17, and a slider clamp bar push spring 2-18, the upper carriage 2-2 is slidably connected with the second mating slide bar 2-10, and the upper push spring 2-3 is disposed between the upper carriage 2-2 and the second mating slide bar 2-10 A matching slide bar II 2-10 is connected with a cutting outer frame 2-1 in a sliding way, a cutting edge II 2-7 is fixedly connected with an upper side sliding frame 2-2, a matching slide bar I2-6 is connected with the cutting outer frame 2-1 in a sliding way, a lower side sliding frame 2-4 is connected with a matching slide bar I2-6 in a sliding way, a lower side push spring 2-5 is arranged between the lower side sliding frame 2-4 and the matching slide bar I2-6, a cutting edge I2-8 is fixedly connected with the lower side sliding frame 2-4, a rotor 2-9 is rotatably connected with the cutting outer frame 2-1, a waist groove bar 2-15 is fixedly connected with the matching slide bar I2-6 and the matching slide bar II 2-10, an inner end clamping bar I2-11 is connected with the matching slide bar I2-6 in a sliding way, an inner end clamping bar push spring I2-12 is arranged between two inner end clamping bars I2-11, the inner end clamping rod I2-11 is clamped with the cutting outer frame 2-1, the inner end clamping rod II 2-13 is in sliding connection with the matching sliding rod II 2-10, the inner end clamping rod push spring II 2-14 is arranged between the two inner end clamping rods II 2-13, the inner end clamping rod II 2-13 is clamped with the cutting outer frame 2-1, the slider 2-16 is in sliding connection with the waist groove rod 2-15, the slider clamping rod 2-17 is in sliding connection with the slider 2-16, the slider clamping rod 2-17 is clamped with the rotor 2-9, the slider clamping rod push spring 2-18 is arranged between the two slider clamping rods 2-17, the belt I5 is connected between the rotor 2-9 and the cross sleeve 1-12, and the roller outer frame 1-1 is fixedly connected with the cutting outer frame 2-1.

The fourth concrete implementation mode:

the present embodiment will be described with reference to fig. 1 to 14, and the present embodiment will further describe the first embodiment in which the sliders 2 to 16 are provided at eccentric positions of the rotors 2 to 9.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1-14, and the embodiment further describes the first embodiment, wherein the collecting assembly 3 includes a collecting outer frame 3-1, a bearing rod 3-2, a driving support 3-3, a first bevel gear 3-4, a second bevel gear 3-5, a first bevel gear shaft 3-6, a third bevel gear 3-7, a second bevel gear shaft 3-8, and a first spring 3-9, the bearing rod 3-2 is slidably connected with the collecting outer frame 3-1, the first spring 3-9 is disposed between the bearing rod 3-2 and the collecting outer frame 3-1, the driving support 3-3 is fixedly connected with the bearing rod 3-2, the first bevel gear 3-4 is rotatably connected with the driving support 3-3, the first bevel gear shaft 3-6 is fixedly connected with the collecting outer frame 3-1, the second bevel gear 3-5 is fixedly connected with the first bevel gear shaft 3-6, the second bevel gear shaft 3-8 is fixedly connected with the third bevel gear 3-7, the collecting outer frame 3-1 is rotatably connected with the cutting outer frame 2-1, the second bevel gear shaft 3-8 is rotatably connected with the cutting outer frame 2-1, and the second belt 4 is connected between the second bevel gear shaft 3-8 and the rotor 2-9.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1 to 14, and the embodiment further describes the first embodiment, and the second bevel gear shaft 3 to 8 is externally connected with a matching motor a.

The invention relates to adjustable cutting equipment for cable and wire production, which has the working principle that:

when the sliding device is used, the matching motor A connected with the two bevel gear shafts 3-8 is started, the two bevel gear shafts 3-8 are driven to rotate by the matching motor A, the two belt 4 is driven to move by the two bevel gear shafts 3-8, the two rotors 2-9 are driven to rotate by the two belt 4, the sliders 2-16 are driven to move by the rotors 2-9, the waist groove rods 2-15 are driven to move by the sliders 2-16, the matching slide rods one 2-6 and the matching slide rods two 2-10 are driven to simultaneously move by the waist groove rods 2-15, the matching slide rods one 2-6 and the matching slide rods two 2-10 respectively drive the upper sliding frame 2-2 and the lower sliding frame 2-4 to move, when the upper sliding frame 2-2 and the lower sliding frame 2-4 move from right to left, the upper side sliding frame 2-2 and the lower side sliding frame 2-4 are close to each other, the cutting edge II 2-7 and the cutting edge I2-8 are close to each other, and the cutting of the cable is achieved through the contact of the cutting edge II 2-7 and the cutting edge I2-8 with the cable; meanwhile, the cutting edge II 2-7, the upper side sliding frame 2-2, the cutting edge I2-8 and the lower side sliding frame 2-4 can slide relatively, so that the contact positions of the cutting edge II 2-7 and the cutting edge I2-8 and the cable are changed, the cutting positions of the cutting edge II 2-7 and the cutting edge I2-8 and the cable are changed, and the length of the cable which can be cut can be adjusted; meanwhile, the cut cable falls into the bearing rod 3-2, the bearing rod 3-2 drives the driving support 3-3 to move, the bevel gear I3-4 is in meshing transmission between the bevel gear III 3-7 and the bevel gear II 3-5, the bevel gear II 3-5 is further rotated, the bevel gear II 3-5 drives the bevel gear shaft I3-6 to rotate, the collecting frame 3-1 is further driven to rotate through the bevel gear shaft I3-6, the cut cable is further collected and carried, and meanwhile, under the pushing of the elastic force of the spring I3-9, when the bearing rod 3-2 bearing the cut cable is carried to a vertically downward position, automatic discharging of the cut cable is achieved; when the rotors 2 to 9 rotate, the cross sleeves 1 to 12 are driven to rotate by the belt I5, the cross rods 1-11 are driven to rotate by the cross sleeves 1-12, the driving plates 1-10 are driven to rotate by the cross rods 1-11, the driving plate I1-2 is driven to rotate by the driving plate IV 1-10, and the unidirectional driving rod I1-3 is driven to move by the driving plate I1-2, the drive plate II 1-5 is driven to move by the unidirectional drive rod I1-3, the support rod I1-8 and the support rod II 1-9 are driven to rotate simultaneously by the drive plate II 1-5, the wire roller of the cable to be cut is driven to rotate through the support rods I1-8 and the support rods II 1-9, and the wire outlet of the wire roller of the cable to be cut is realized; the supporting rods I1-8 and the supporting rods II 1-9 are relatively slid, so that the cutting device is convenient to adapt to wire rollers of cables with different lengths and needing to be cut; meanwhile, the driving plates II 1-5 and the driving plates III 1-7 are relatively rotated, so that the inner rings of the wire rollers of the cables to be cut of the supporting rods I1-8 and the supporting rods II 1-9 are tightly attached, and the phenomenon of wire outlet slip in the wire outlet process of the wire rollers of the cables to be cut is prevented.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (2)

1. The utility model provides a cable and wire production is with adjustable cutting equipment, includes roller assembly (1), cutting assembly (2), collection subassembly (3), belt two (4), belt one (5), its characterized in that: the roller assembly (1) is connected with the cutting assembly (2), the collecting assembly (3) is connected with the cutting assembly (2), the belt II (4) is connected between the cutting assembly (2) and the collecting assembly (3), and the belt I (5) is connected between the roller assembly (1) and the cutting assembly (2);

the roller component (1) comprises a roller outer frame (1-1), a drive plate I (1-2), a one-way drive rod I (1-3), a one-way drive rod push spring I (1-4), a drive plate II (1-5), a one-way clamping groove I (1-6), a drive plate III (1-7), a support rod I (1-8), a support rod II (1-9), a drive plate IV (1-10), a cross rod I (1-11), a cross sleeve (1-12), a one-way drive rod II (1-13), a one-way drive rod roller I (1-14), a one-way drive rod push spring II (1-15), a lower end rectangular sliding groove (1-16), an inner end spherical clamping groove I (1-17), an inner end spherical clamping rod I (1-18), an inner end spherical clamping rod push spring I (1-19), A drive plate five (1-20), a drive plate six (1-21), a unidirectional drive rod three (1-22), a unidirectional drive rod push spring three (1-23), a unidirectional drive rod four (1-24), a unidirectional drive rod idler wheel two (1-25), a unidirectional drive rod push spring four (1-26), a unidirectional slot two (1-27), a lower end support two (1-28), a lower end support one (1-29) and an outer wall support (1-30), wherein the drive plate one (1-2) is rotationally connected with a roller outer frame (1-1), the drive plate two (1-5) is rotationally connected with the drive plate one (1-2), the unidirectional drive rod one (1-3) is slidably connected with the roller outer frame (1-1), the unidirectional drive rod push spring one (1-4) is connected with the unidirectional drive rod one (1-3) in a sleeved mode, and a one-way driving rod push spring I (1-4) is arranged between the one-way driving rod I (1-3) and the roller outer frame (1-1), a one-way clamping groove I (1-6) is arranged on a driving plate II (1-5), the one-way driving rod I (1-3) is matched and connected with the one-way clamping groove I (1-6), a driving plate III (1-7) is rotatably connected with the roller outer frame (1-1), a supporting rod I (1-8) is slidably connected with the driving plate III (1-7), a supporting rod I (1-8) is slidably connected with the driving plate I (1-2), a supporting rod II (1-9) is slidably connected with the supporting rod I (1-8), an inner end spherical clamping groove I (1-17) is arranged at the inner end of the supporting rod II (1-9), an inner end spherical clamping rod I (1-18) is matched and connected with the inner end spherical clamping groove I (1-17), the inner end spherical clamping rod I (1-18) is connected with the supporting rod I (1-8) in a sliding manner, the inner end spherical clamping rod push spring I (1-19) is arranged between the two inner end spherical clamping rods I (1-18), the supporting rod II (1-9) is connected with the driving plate I (1-20) in a sliding manner, the supporting rod II (1-9) is connected with the driving plate II (1-21) in a sliding manner, the driving plate I (1-20) and the driving plate II (1-21) are both connected with the driving plate II (1-10) in a rotating manner, the cross rod I (1-11) is fixedly connected with the driving plate II (1-10), the cross rod I (1-11) is connected with the cross sleeve (1-12) in a sliding manner, the cross sleeve (1-12) is rotatably connected with the outer wall bracket (1-30), the outer wall bracket (1-30) is fixedly connected with the outer frame (1-1), the one-way clamping groove II (1-27) is arranged on the drive plate six (1-21), the one-way drive rod III (1-22) is connected with the drive plate four (1-10) in a sliding manner, the one-way drive rod push spring III (1-23) is arranged between the one-way drive rod III (1-22) and the drive plate four (1-10), the one-way drive rod push spring III (1-23) is connected with the one-way drive rod III (1-22) in a sleeved manner, the one-way drive rod III (1-22) is connected with the one-way clamping groove II (1-27) in a matched manner, the one-way drive rod IV (1-24) is connected with the lower end bracket II (1-28) in a sliding manner, the one-way drive rod roller II (1-25) is rotationally connected with the one-way drive rod IV (1-24), the one-way drive rod roller II (1-25) is contacted with the inclined plane of the drive plate IV (1-10), a unidirectional driving rod push spring IV (1-26) is connected with the unidirectional driving rod IV (1-24) in a sleeved mode, the unidirectional driving rod push spring IV (1-26) is arranged between the unidirectional driving rod IV (1-24) and a lower end support II (1-28), the lower end support II (1-28) is connected with a lower end rectangular sliding chute (1-16) in a sliding mode, the lower end rectangular sliding chute (1-16) is arranged on a roller outer frame (1-1), a lower end support I (1-29) is fixedly connected with the roller outer frame (1-1), a unidirectional driving rod II (1-13) is connected with a lower end support I (1-29) in a sliding mode, a unidirectional driving rod roller I (1-14) is connected with the unidirectional driving rod II (1-13) in a rotating mode, and a unidirectional driving rod roller I (1-14) is in contact with an inclined plane on the driving plate I (1-2), a one-way driving rod push spring II (1-15) is arranged between the one-way driving rod II (1-13) and the lower end support I (1-29), and the outer wall support (1-30) is fixedly connected with the outer roller frame (1-1) through bolts;

the cutting assembly (2) comprises a cutting outer frame (2-1), an upper side sliding frame (2-2), an upper side push spring (2-3), a lower side sliding frame (2-4), a lower side push spring (2-5), a first matching sliding rod (2-6), a second cutting edge (2-7), a first cutting edge (2-8), a rotor (2-9), a second matching sliding rod (2-10), a first inner end clamping rod (2-11), a first inner end clamping rod push spring (2-12), a second inner end clamping rod (2-13), a second inner end clamping rod push spring (2-14), a waist groove rod (2-15), a slider (2-16), a slider clamping rod (2-17) and a slider clamping rod push spring (2-18), wherein the upper side sliding frame (2-2) is in sliding connection with the second matching sliding rod (2-10), an upper side push spring (2-3) is arranged between an upper side sliding frame (2-2) and a matching sliding rod II (2-10), the matching sliding rod II (2-10) is connected with a cutting outer frame (2-1) in a sliding way, a cutting edge II (2-7) is fixedly connected with the upper side sliding frame (2-2), a matching sliding rod I (2-6) is connected with the cutting outer frame (2-1) in a sliding way, a lower side sliding frame (2-4) is connected with a matching sliding rod I (2-6) in a sliding way, a lower side push spring (2-5) is arranged between the lower side sliding frame (2-4) and the matching sliding rod I (2-6), a cutting edge I (2-8) is fixedly connected with the lower side sliding frame (2-4), a rotor (2-9) is connected with the cutting outer frame (2-1) in a rotating way, a kidney slot rod (2-15) is connected with the matching sliding rod I (2-, A matching slide bar II (2-10) is fixedly connected, an inner end clamping bar I (2-11) is connected with a matching slide bar I (2-6) in a sliding way, an inner end clamping bar push spring I (2-12) is arranged between the two inner end clamping bar I (2-11), the inner end clamping bar I (2-11) is clamped with the cutting outer frame (2-1), an inner end clamping bar II (2-13) is connected with the matching slide bar II (2-10) in a sliding way, an inner end clamping bar push spring II (2-14) is arranged between the two inner end clamping bar II (2-13), the inner end clamping bar II (2-13) is clamped with the cutting outer frame (2-1), a slider (2-16) is connected with a waist groove bar (2-15) in a sliding way, a slider clamping bar (2-17) is connected with a slider (2-16) in a sliding way, and a slider clamping bar (2-17) is clamped with a rotor (2-9), the slider clamping rod push springs (2-18) are arranged between the two slider clamping rods (2-17), the belt I (5) is connected between the rotor (2-9) and the cross sleeve (1-12), and the roller outer frame (1-1) is fixedly connected with the cutting outer frame (2-1);

the slider (2-16) is arranged at the eccentric position of the rotor (2-9);

the collecting component (3) comprises a collecting outer frame (3-1), a bearing rod (3-2), a driving support (3-3), a bevel gear I (3-4), a bevel gear II (3-5), a bevel gear shaft I (3-6), a bevel gear III (3-7), a bevel gear shaft II (3-8) and a spring I (3-9), the bearing rod (3-2) is in sliding connection with the collecting outer frame (3-1), the spring I (3-9) is arranged between the bearing rod (3-2) and the collecting outer frame (3-1), the driving support (3-3) is fixedly connected with the bearing rod (3-2), the bevel gear I (3-4) is rotatably connected with the driving support (3-3), and the bevel gear shaft I (3-6) is fixedly connected with the collecting outer frame (3-1), the second bevel gear (3-5) is fixedly connected with the first bevel gear shaft (3-6), the second bevel gear shaft (3-8) is fixedly connected with the third bevel gear (3-7), the collecting outer frame (3-1) is rotatably connected with the cutting outer frame (2-1), the second bevel gear shaft (3-8) is rotatably connected with the cutting outer frame (2-1), and the second belt (4) is connected between the second bevel gear shaft (3-8) and the rotor (2-9).

2. The adjustable cutting apparatus for cable wire production of claim 1, wherein: the second bevel gear shaft (3-8) is externally connected with a matched motor A.

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