CN109303415A - A kind of industrial brush core molding equipment - Google Patents

Abstract

The invention discloses a kind of industrial brush core molding equipments, including Power Component, it further include rotatable microscope carrier, first wire feeder, second wire feeder, punch mechanism, tighten mechanism, wire threading machine structure, wire-drawing mechanism and filament cutting mechanism, microscope carrier is for shelving chip and being equipped with positioning component, punch mechanism is arranged on the right side of microscope carrier, first wire feeder can store brush filament and connect with wire threading machine structure, wire threading machine structure is set to above microscope carrier, wire-drawing mechanism is arranged on the left of microscope carrier, second wire feeder can store wire and connect with mechanism is tightened, filament cutting mechanism can be by brush filament severing, microscope carrier, punch mechanism, tighten mechanism, wire threading machine structure, wire-drawing mechanism and filament cutting mechanism are connect with Power Component.High degree of automation of the present invention reduces artificial, saving material, reduces the labor intensity of worker, can produce brush core.

Description

A kind of industrial brush core molding equipment

Technical field

The present invention relates to brush roll manufacturing fields, more particularly, to a kind of industrial brush core molding equipment.

Background technique

Industrial brush roll as iron and steel metallurgy industry in production process to a kind of brushing tool of strip surface clean, oil removal treatment, Major part is mounted in drive in scrub slot by motor and use.

It is as shown in Figure 1 the brush cored structure of a industrial brush roll, which includes the chip 111 and brush filament of metal material 112,111 center of chip is equipped with axis hole, and brush filament 112 is bundled on chip 112 by wire 113, for this brush cored structure, technology Personnel devise a equipment for manufacturing the brush core.

Summary of the invention

Technical problem to be solved by the invention is to provide a kind of industrial brush core molding equipment, it is intended to go out by the device fabrication Brush core.

The technical scheme of the invention to solve the technical problem is: a kind of industrial brush core molding equipment, including it is dynamic Power component further includes rotatable microscope carrier, the first wire feeder, the second wire feeder, punch mechanism, tightens mechanism, wire threading machine Structure, wire-drawing mechanism and filament cutting mechanism, for the microscope carrier for shelving chip and being equipped with positioning component, the punch mechanism is close Setting and the chip being shelved on microscope carrier can be punched out on the right side of microscope carrier, first wire feeder can store brush filament and with The connection of wire threading machine structure, the wire threading machine structure are set to the drawing above microscope carrier and for penetrating brush filament in the through-hole of chip Silk mechanism is arranged on the left of microscope carrier, and wire-drawing mechanism can tense the brush filament penetrated in chip through-hole, second wire-feed motor Structure can store wire and connect with mechanism is tightened, and the filament cutting mechanism can cut off brush filament, and tightening mechanism can be by wire Severing, and the brush filament for penetrating chip hole is subjected to bundle by wire with chip and is connect, the microscope carrier, tightens machine at punch mechanism Structure, wire threading machine structure, wire-drawing mechanism and filament cutting mechanism are connect with Power Component.

As a further improvement of that present invention, the microscope carrier center is equipped with the shaft connecting with Power Component, and described turns Axis can drive microscope carrier to rotate, and the positioning component includes positioning pin, and the positioning pin is erected on microscope carrier.Microscope carrier is for putting Chip is set, the stepper motor in Power Component is connect with shaft, stepper motor drive shaft rotation, shaft drives microscope carrier to turn Dynamic, the adjustable angle that microscope carrier rotates every time, the angle that microscope carrier is rotated every time is determined according to the angle that the hole count on chip is distributed, The angle that microscope carrier is rotated every time positions X, and the hole count being distributed on chip is K, then it is each can to extrapolate microscope carrier according to following formula The angle of rotation, X=360 °/K, for example, 36 holes are distributed on chip, then the angle that microscope carrier rotates every time is 10 °, setting The axis hole of positioning pin and chip on microscope carrier is adapted, and positioning pin plays the role of positioning chip.

As a further improvement of that present invention, the shaft upper end passes through microscope carrier, and the shaft upper end is equipped with several limits Position steel ball, several limit steel balls at predetermined intervals and are movably arranged on the side of shaft upper end.Chip is shelved on microscope carrier On, shaft penetrates the axis hole of chip, by it is swollen outside limit steel ball, strut, and then chip and shaft are fixed, enable chip Being shelved on microscope carrier steadily, it is ensured that chip manufacture is smooth.

As a further improvement of that present invention, the punch mechanism includes punching membrane module, connecting rod and supporting block, described Punching membrane module connect by connecting rod with Power Component, the Power Component can drive link movement so that connecting rod drive is rushed Hole membrane module is moved in vertical direction, and the supporting block is set to below punching membrane module, and the punching membrane module is equipped with First formed punch and the second formed punch, first formed punch, the second formed punch are arranged in a first from left is right in piercing die component bottom and two Person is followed by punching membrane module and moves, and the supporting block is equipped with the first punching, the second punching, first punching, the Two punchings are adapted with the first formed punch, the second formed punch respectively, and first punching is located at the first formed punch underface, and described the Two punchings are located at immediately below the second formed punch.Power Component can drive punching membrane module to move downward, the first formed punch, the second formed punch Under the drive of punching membrane module, the chip being shelved on microscope carrier can go out respectively to brush filament hole and riveted holes, riveted holes compared with Brush filament punching will be close to chip edge.

As a further improvement of that present invention, first wire feeder, the second wire feeder respectively include the first reel, Second reel, first reel is for winding brush filament, and second reel is for winding wire.

As a further improvement of that present invention, the wire threading machine structure includes the first collar, the second collar and sliding block, described First collar is connect with the first reel, and second collar with upright prominent form and is fixedly connected with a slide block, described Second collar is arranged above microscope carrier, and the sliding block connect with Power Component and can be moved in vertical direction, described The first reel on the brush filament that winds can be penetrated into the second collar from the first collar.Power Component can be translated with movable slider, be made Second collar is located at the surface in chip brush filament hole, and then moves straight down again by Power Component driving sliding block, so that Second collar fits on the chip of microscope carrier, and the brush filament in the second collar penetrates the brush filament hole of chip.

As a further improvement of that present invention, the wire-drawing mechanism includes mobilizable collet, the collet and power Component connection, the collet are structure as a whole and including upper clamp plates and lower clamp plate, pre- between the upper clamp plate and lower clamp plate Gap is stayed, the collet is equipped with perforation, and the perforation is through upper clamp plate and lower clamp plate and is located at immediately below the second collar, institute The collet stated moves right predetermined stroke, and the chip being shelved on microscope carrier can be plugged into gap.Drive of the collet in Power Component To right translation under dynamic, the chip being shelved on microscope carrier is inserted between upper clamp plate and lower clamp plate, and the second collar, which moves downward, to be brushed Silk is finally moved downward again by Power Component driving collet, out of collet the brush filament hole for penetrating chip by upper Clamping plate and lower clamp plate tense brush filament.

As a further improvement of that present invention, the mechanism that tightens includes mobilizable sanction silk machine, torsion wire machine and third beam It covers, the wire wound on second reel can be penetrated into from third collar to be cut out in silk machine, and the torsion wire machine, which is set to, to be carried Below platform, the sanction silk machine, torsion wire machine are connect with Power Component, and the sanction silk machine can will press to after wire severing In brush filament, the torsion wire machine can tighten the wire in brush filament.

As a further improvement of that present invention, the filament cutting mechanism includes mobilizable slide plate, first on the slide plate Gear knife and second gear knife, the first gear knife and second gear knife are in one in front and one in back setting and the two is intermeshed, The first gear knife is connect with Power Component, and the first gear knife-band is moved second gear swivel and moved, the slide plate First gear knife, the translation of second gear knife are connect and can driven with Power Component.Slide plate drives the under the driving of Power Component One gear knife, second gear knife are close to brush filament, and brush filament is passed through from the gap that first gear knife is engaged with second gear knife, brush Silk is just by severing.

As a further improvement of that present invention, the Power Component includes cylinder and motor.

Compared with the prior art, the advantages of the present invention are as follows high degree of automation, reduces artificial, saving material, reduce The labor intensity of worker, can produce brush core.

Chip is first put into microscope carrier by brush core forming process in simple terms, and microscope carrier drives chip rotation, and chip is every with microscope carrier Secondary rotation predetermined angular, every turn of chip primary, is punched out by punch mechanism to it, wears a station when the hole gone out turns to When, microscope carrier is shifted to by the collet of wire-drawing mechanism, chip penetrates between upper clamp plate and lower clamp plate, then by second in wire threading machine structure Brush filament is penetrated the brush filament hole of chip by collar from the perforation of collet, then is pulled back by collet, and brush filament is tensed, is then passed through again First gear knife, the second gear knife of filament cutting mechanism cut off the brush filament after tension, finally pass through torsion wire mechanism again for wire (iron wire or steel wire) severing, and pressing is U-shaped, the both ends of wire penetrate from adjacent two hole of chip, finally lead to The brush filament for penetrating chip hole tie by wire by the torsion wire machine crossed in torsion wire mechanism with chip to be connect, tightens.

Detailed description of the invention

Fig. 1 is brush cored structure schematic diagram；

Fig. 2 is partial structure diagram one of the present invention；

Fig. 3 is the first wire feeder structural schematic diagram；

Fig. 4 is to tighten mechanism section structural schematic diagram；

Fig. 5 is partial structure diagram two of the present invention.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to the accompanying drawings and embodiments, right The present invention is further elaborated.It should be appreciated that described herein, specific examples are only used to explain the present invention, not For limiting the present invention.

It is as shown in Figures 1 to 5: a kind of industrial brush core molding equipment, including Power Component, further include rotatable microscope carrier 1, First wire feeder 2, punch mechanism 4, tightens mechanism 5, wire threading machine structure 6, wire-drawing mechanism 7 and filament cutting mechanism at second wire feeder 3 8, for shelving chip 111 and being equipped with positioning component, punch mechanism 4 is arranged on the right side of microscope carrier 1 and can will be shelved on load microscope carrier 1 Chip 111 on platform 1 is punched out, and the first wire feeder 2 can store brush filament 112 and connect with wire threading machine structure 6, wire threading machine structure 6 Above microscope carrier 1 and for brush filament 112 is penetrated into chip 111 through-hole in, wire-drawing mechanism 7 be arranged on the left of microscope carrier 1 and For the brush filament 112 penetrated in 111 through-hole of chip to be tensed, the second wire feeder 3 can store wire 113 and with tighten mechanism 112 severing of brush filament can be tightened mechanism 5 set on 1 top of microscope carrier, microscope carrier 1, tightens machine at punch mechanism 4 by 5 connections, filament cutting mechanism 8 Structure 5, wire threading machine structure 6, wire-drawing mechanism 7 and filament cutting mechanism 8 are connect with Power Component.

1 center of microscope carrier is equipped with the shaft 9 connecting with Power Component, and shaft 9 can drive microscope carrier 1 to rotate, and positioning component includes Positioning pin 11, positioning pin 11 are erected on microscope carrier 1.

9 upper end of shaft passes through microscope carrier 1, and 9 upper end of shaft is equipped with several limit steel balls 10, between several limit steel balls 10 are by making a reservation for Every and be movably arranged on the side of 9 upper end of shaft.

Punch mechanism 4 includes punching membrane module 41, connecting rod and supporting block 42, and punching membrane module 41 passes through connecting rod and power packages Part connection, Power Component can drive link movement so that connecting rod drive punching membrane module 41 vertical direction move, supporting block 42 Set on 41 lower section of punching membrane module, punching membrane module 41 is equipped with the first formed punch 43 and the second formed punch 44, the first formed punch 43, second Formed punch 44 is in the right setting of a first from left is in 41 bottom of punching membrane module and the two is followed by punching membrane module 41 and moves, in supporting block 42 Equipped with the first punching, the second punching, the first punching, the second punching are adapted with the first formed punch 43, the second formed punch 44 respectively, and first Punching is located at immediately below the first formed punch 43, and the second punching is located at immediately below the second formed punch 44.

First wire feeder 2, the second wire feeder 3 respectively include the first reel, the second reel, and the first reel is for winding Brush filament 112, the second reel is for winding wire 113.

Wire threading machine structure 6 includes the first collar 61, the second collar 62 and sliding block 63, and the first collar 61 is connect with the first reel, Second collar 62 is fixedly connected with upright prominent form and with sliding block 63, and the second collar 62 is arranged above microscope carrier 1, sliding block 63 connect with Power Component and can be moved in vertical direction, and the brush filament 112 wound on the first reel can be from the first collar 61 It penetrates into the second collar 62.

Wire-drawing mechanism 7 includes mobilizable collet, and collet is connect with Power Component, and collet is structure as a whole and including upper folder Plate 71 and lower clamp plate 72, preset clearance between upper clamp plate 71 and lower clamp plate 72, collet be equipped with perforation, perforation through upper clamp plate 71 with Lower clamp plate 72 and it is located at immediately below the second collar 62, collet moves right predetermined stroke, and the chip 111 being shelved on microscope carrier 1 can It is inserted into gap.

Tightening mechanism 5 includes mobilizable sanction silk machine 51, torsion wire machine and third collar 52, the metal wound on the second reel Silk 113 can be penetrated into from third collar 52 to be cut out in silk machine 51, and torsion wire machine is set to the lower section of microscope carrier 1, cut out silk machine 51, torsion wire machine with it is dynamic The connection of power component, cutting out silk machine 51 can will press in brush filament 112 after 113 severing of wire, and torsion wire machine can be by the gold in brush filament 112 Belong to silk 113 to tighten.

Filament cutting mechanism 8 includes mobilizable slide plate, first gear knife 82 and second gear knife 83 on slide plate, first gear knife 82 connect in one in front and one in back setting and the two intermeshing, first gear knife 82 with Power Component with second gear knife 83, and first Gear knife 82 drives second gear knife 83 to rotate, and slide plate 81 connect with Power Component and can drive first gear knife 82, the second tooth Flywheel knife 83 translates.

Power Component includes cylinder and motor.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention Made any modifications, equivalent replacements, and improvements etc., should all be included in the protection scope of the present invention within mind and principle.

Claims (10)

1. a kind of industrial brush core molding equipment, including Power Component, it is characterised in that further include rotatable microscope carrier, the first wire feed Mechanism, punch mechanism, tightens mechanism, wire threading machine structure, wire-drawing mechanism and filament cutting mechanism at the second wire feeder, and the microscope carrier is used In shelving chip and being equipped with positioning component, the punch mechanism is arranged on the right side of microscope carrier, and first wire feeder can It stores brush filament and is connect with wire threading machine structure, the wire threading machine structure is set to above microscope carrier, and the wire-drawing mechanism is close to a microscope carrier left side Side setting, second wire feeder can store wire and connect with mechanism is tightened, and the filament cutting mechanism can be by brush filament Severing, the microscope carrier, punch mechanism, tighten mechanism, wire threading machine structure, wire-drawing mechanism and filament cutting mechanism with Power Component connect It connects.

2. a kind of industrial brush core molding equipment according to claim 1, it is characterised in that the microscope carrier center be equipped with The shaft of Power Component connection, the shaft can drive microscope carrier to rotate, and the positioning component includes positioning pin, and described determines Position pin is erected on microscope carrier.

3. a kind of industrial brush core molding equipment according to claim 2, it is characterised in that the shaft upper end, which passes through, to be carried Platform, the shaft upper end be equipped with several limit steel balls, several limit steel balls at predetermined intervals and be movably arranged on turn The side of axis upper end.

4. a kind of industrial brush core molding equipment according to claim 1, it is characterised in that the punch mechanism includes punching Hole membrane module, connecting rod and supporting block, the punching membrane module are connect by connecting rod with Power Component, and the Power Component can Drive link movement, so that connecting rod drives punching membrane module to move in vertical direction, the supporting block is set to punching membrane module Lower section, the punching membrane module are equipped with the first formed punch and the second formed punch, and first formed punch, the second formed punch are in a first from left Right setting is in piercing die component bottom and the two is followed by punching membrane module and move, the supporting block equipped with the first punching, Second punching, first punching, the second punching are adapted with the first formed punch, the second formed punch respectively, first punching Immediately below the first formed punch, second punching is located at immediately below the second formed punch.

5. a kind of industrial brush core molding equipment according to claim 1, it is characterised in that first wire feeder, Two wire feeders respectively include the first reel, the second reel, and first reel is for winding brush filament, second reel For winding wire.

6. a kind of industrial brush core molding equipment according to claim 5, it is characterised in that the wire threading machine structure includes the One collar, the second collar and sliding block, first collar are connect with the first reel, and second collar is in the form of upright It is arranged and is fixedly connected with a slide block, second collar is arranged above microscope carrier, and the sliding block is connect with Power Component And can be moved in vertical direction, the brush filament wound on first reel can penetrate into the second collar from the first collar In.

7. a kind of industrial brush core molding equipment according to claim 6, it is characterised in that the wire-drawing mechanism includes can Movable collet, the collet are connect with Power Component, and the collet is structure as a whole and including upper clamp plate and lower clamp plate, Preset clearance between the upper clamp plate and lower clamp plate, the collet are equipped with perforation, and the perforation is through upper clamp plate under Clamping plate and it is located at immediately below the second collar, the collet moves right predetermined stroke, and the chip being shelved on microscope carrier can be inserted into Into gap.

8. a kind of industrial brush core molding equipment according to claim 6, it is characterised in that it is described tighten mechanism include can Movable sanction silk machine, torsion wire machine and third collar, the wire wound on second reel can be penetrated into from third collar It cuts out in silk machine, the torsion wire machine is set to below microscope carrier, and the sanction silk machine, torsion wire machine are connect with Power Component, described Cutting out silk machine can will press in brush filament after wire severing, and the torsion wire machine can tighten the wire in brush filament.

9. a kind of industrial brush core molding equipment according to claim 1, it is characterised in that the filament cutting mechanism includes can Movable slide plate, first gear knife and second gear knife on the slide plate, the first gear knife are in second gear knife One in front and one in back it is arranged and the two is intermeshed, the first gear knife is connect with Power Component, the first gear knife-band Dynamic second gear swivel is dynamic, and the slide plate connect with Power Component and can drive first gear knife, the translation of second gear knife.

10. a kind of industrial brush core molding equipment according to claim 1, it is characterised in that the Power Component includes gas Cylinder and motor.