CN204935723U - A kind of filiform automatic cutting mechanism - Google Patents

Abstract

The utility model relates to a kind of filiform automatic cutting mechanism, comprise working panel, cutter structure mobile device, product cutter sweep, waste silk collection device and film silk bucket, it is characterized in that described working panel is vertically placed on ground, described cutter structure mobile device is installed on the vertical working face of working panel, described product cutter sweep is installed on cutter structure mobile device by bolt, and product cutter sweep vertically can move up and down on cutter structure mobile device; The vertical working face of described film silk bucket and working panel fixes, and is positioned at directly over product cutter sweep, and film silk bucket inner sleeve has film silk; Described waste silk collection device is placed on ground, and waste silk collection device is connected with product cutter sweep by flexible pipe; Described product cutter sweep comprises product cutting tool, cutter two dimension feeding platform and installing plate; Described installing plate is perpendicular to the vertical working face of working panel.

Description

A kind of filiform automatic cutting mechanism

Technical field

The utility model belongs to filiform automation manufacture field, specifically a kind of filiform automatic cutting mechanism, is mainly used in the cut-out processing of the filiform of vertical display.

Background technology

At present, the automation cutting technique of the domestic filiform for vertical display mainly contains the modes such as scissor cutting, laser type cutting, circle shear cutting, ultrafiltration membrane filaments automatic cutting mechanism (the application number: 201510221221.6) adopt circle shear cutting mode designed by Hebei University of Technology, the automation cutting processing of ultrafiltration membrane filaments can be completed, but scissor cutting mode and circle shear cutting mode all need the product of reserved certain length, and with special fixture, product is fixed, product waste is serious.Its cost of laser type cutting mode is higher, and device volume is comparatively large, and laser cutting has damage for film silk surface in addition, affects product quality.

Utility model content

For the deficiencies in the prior art, the technical problems to be solved in the utility model is, provides a kind of filiform automatic cutting mechanism.This cutting mechanism is the improvement carried out on the basis of traditional scissor cutting mode, structure is simpler and no longer need in cutting process to clamp filiform, the cutting operation of the filiform of vertical display can be completed more easily, effectively reduce product waste simultaneously, reduce Product processing cost, realize automation cutting, significantly improve efficiency and the product quality of Product processing, reduce further the labour cost of product.

The technical scheme that the utility model solve the technical problem employing is, a kind of filiform automatic cutting mechanism is provided, comprise working panel, cutter structure mobile device, product cutter sweep, waste silk collection device and film silk bucket, it is characterized in that described working panel is vertically placed on ground, described cutter structure mobile device is installed on the vertical working face of working panel, described product cutter sweep is installed on cutter structure mobile device by bolt, and product cutter sweep vertically can move up and down on cutter structure mobile device; The vertical working face of described film silk bucket and working panel fixes, and is positioned at directly over product cutter sweep, and film silk bucket inner sleeve has film silk; Described waste silk collection device is placed on ground, and waste silk collection device is connected with product cutter sweep by flexible pipe;

Described product cutter sweep comprises product cutting tool, cutter two dimension feeding platform and installing plate; Described installing plate is perpendicular to the vertical working face of working panel, the both sides of installing plate are fixedly mounted on cutter structure mobile device by reinforcement, described cutter two dimension feeding platform is fixed on the upper surface of installing plate, and product cutting tool is arranged on the upper surface of described cutter two dimension feeding platform;

Described product cutting tool comprises guard, snap ring, cutter housing, cutter rotary module and Cutting tool installation manner plate; Described guard lower openings, upper surface is astral ray shape, and cross section is in " convex " font, and the bottom of guard is fixedly linked by the upper end of snap ring and cutter housing; Described snap ring can clamping level by bolt adjustment self; Cutter rotary module is positioned at the inner space that guard and cutter housing are formed, and the upper end of cutter rotary module and the inner surface of guard concordant; The bottom of cutter housing is fixed on the upper surface of Cutting tool installation manner plate;

Described cutter rotary module comprises knife rest, three blades, three spring silks and cutter drive motors; Described knife rest is disc-shaped structure, knife rest center is provided with motor shaft installing hole, be connected with cutter drive motor top by motor shaft installing hole, the disk of knife rest is evenly distributed with three " h " type blades and perforate, three plectrums and three spring silk installing holes are installed, described plectrum is positioned at " h " type blade accordingly and installs on the minor face of perforate, described spring silk mounting hole site in the inner side of plectrum, and is positioned on the RC disk of " h " type blade installation perforate; " h " type blade that each blade is fixedly mounted on knife rest is respectively installed in perforate, and each spring silk one end is fixed in spring silk installing hole, and the other end is connected with blade; Described blade comprises blade and blade, and blade bottom is connected with blade top; Blade upper surface is concordant with the inner surface of guard, and under the effect of spring silk, blade and guard fit tightly, and blade bottom is fixedly mounted on " h " type blade and installs in perforate;

Described cutter housing entirety is hollow cylinder, the inside of cutter housing forms circle shape groove by injection moulding, the concave surface width of described groove and the width of described plectrum lower surface match, the bottom of groove is provided with cutter drive motor installed surface, in the centre bore of the partial insertion groove that knife rest is connected with cutter drive motor, cutter drive motor is arranged on cutter drive motor installed surface; The lower side of cutter housing is provided with a flexible pipe installing hole communicated with this groove, and described waste silk collection device is connected with the flexible pipe installing hole of cutter housing by flexible pipe.

Compared with prior art, the beneficial effects of the utility model are: the utility model takes automatic shearing mode to realize the cutting processing of filiform, guard profile is astral ray shape, thus can ensure product-collecting can be entered in product cutting tool under the drive of cutter two dimension feeding platform, avoid Lou silk phenomenon, in addition because cutter guard is made up of stalloy, thus the waste of film silk product can be decreased, reduce production cost.Cutter rotary module is driven by motor, and blade contacts with guard all the time under the effect of spring silk, thus ensure that the cut quality of product.The utility model utilizes collection in vacuum to cut the waste silk fallen by waste silk collection device in addition, improves the capacity gauge of waste silk, optimizes film silk processing environment.To be applied to the cutting processing process of ultrafiltration membrane filaments, the utility model due in the process of cutting film silk blade contact all the time with guard, thus the cutting processing completing film silk with cut mode can be realized, the upper surface of guard is smooth and fit with film silk section all the time thus ensure that film silk cutting surfaces shape is smooth, guard is made up of the stalloy that 1-1.5mm is thick, both the cutting effect of film silk can have been optimized, can also ensure that film silk section is concordant with film silk bucket end, and the scissor cutting mechanism of traditional automation and circle shear automation cutting mechanism need the film silk of reserved 10mm-20mm, to facilitate, film silk is clamped, thus cause the waste of film silk product, the encapsulating cost of ultrafiltration membrane filaments and the waste degree of film silk significantly can be reduced by adopting the filiform automatic cutting mechanism in the utility model, be applicable to the automation processing of ultrafiltration membrane filaments,

The utility model is on the basis of automation cutting processing realizing film silk, ensured simultaneously cut film silk section can not produce distortion, have that operating efficiency is high, labour cost and production cost is low, high quality, compared with existing shearing cutting processing, the length significantly reducing reserved film silk of the application, effectively reduce the cost of encapsulating, reduce the waste of film silk product, greatly save financial cost.

Accompanying drawing explanation

Fig. 1 is the overall structure installation diagram of a kind of embodiment of the utility model filiform automatic cutting mechanism.

Fig. 2 is the structural representation that the cutter structure mobile device 2 of a kind of embodiment of the utility model filiform automatic cutting mechanism is fixed on working panel 1.

Fig. 3 is the perspective view of the product cutter sweep 3 of a kind of embodiment of the utility model filiform automatic cutting mechanism.

Fig. 4 is the perspective view of the waste silk collection device 4 of a kind of embodiment of the utility model filiform automatic cutting mechanism.

Fig. 5 is the perspective view of the cutter two dimension feeding platform 33 of a kind of embodiment of the utility model filiform automatic cutting mechanism.

Fig. 6 is the perspective view of the product cutting tool 32 of a kind of embodiment of the utility model filiform automatic cutting mechanism.

Fig. 7 is the perspective view of the cutter rotary module 323 of a kind of embodiment of the utility model filiform automatic cutting mechanism.

Fig. 8 is the perspective view of the cutter housing 324 of a kind of embodiment of the utility model filiform automatic cutting mechanism.

Fig. 9 is the structural representation of the A-A sectional plane of Fig. 8.

Figure 10 is the perspective view of the blade 3232 of a kind of embodiment of the utility model filiform automatic cutting mechanism.

Figure 11 is the perspective view of the knife rest 3231 of a kind of embodiment of the utility model filiform automatic cutting mechanism.

Figure 12 be the blade cuts film silk of a kind of embodiment of the utility model filiform automatic cutting mechanism overlook track schematic diagram.

In figure, 1 working panel, 2 cutter structure mobile devices, 3 product cutter sweeps, 4 waste silk collection devices, 5 film silk buckets, 6 film silks, line slideway assembly on the right side of in the of 21, 22 move drive motors, line slideway assembly on the left of in the of 23, 24 move ball-screw assembly, 31 installing plates, 32 product cutting tools, 33 cutter two dimension feeding platforms, 321 guards, 322 snap rings, 323 cutter rotary modules, 324 cutter housings, 325 Cutting tool installation manner plates, 3231 knife rests, 3232 blades, 3233 spring silks, 3234 cutter drive motors, 3241 grooves, 3242 flexible pipe installing holes, 3243 cutter drive motor installed surfaces, 3321Y is line slideway assembly to the left, 3322Y is to ball-screw assembly, 3323Y is to feeding module installing plate, 3324Y is to feeding motor, 3325Y is line slideway assembly to the right, 3311X is to feeding motor, 3313X is to ball-screw assembly, 3312X is line slideway assembly to the left, 3314X is to feeding module installing plate, 3315X is line slideway assembly to the right, 32311 motor shaft installing holes, perforate installed by 32314 blades, 32312 plectrums, 32313 spring silk installing holes, 32321 blades, 32322 blades.

Detailed description of the invention

The utility model is elaborated further below in conjunction with embodiment and accompanying drawing thereof, but not in this, as the restriction to the application's claims.

The utility model filiform automatic cutting mechanism (is called for short cutting mechanism, see Fig. 1-12) comprise working panel 1, cutter structure mobile device 2, product cutter sweep 3, waste silk collection device 4 and film silk bucket 5, described working panel 1 is vertically placed on ground, described cutter structure mobile device 2 is installed on the vertical working face of working panel 1, described product cutter sweep 3 is installed on cutter structure mobile device 2 by bolt, product cutter sweep 3 vertically can move up and down on cutter structure mobile device 2, thus can handled easily personnel more allowing blade replacement, described film silk bucket 5 fixes with the vertical working face of working panel 1, and is positioned at directly over product cutter sweep 3, and film silk bucket 5 inner sleeve has film silk 6, described waste silk collection device 4 is placed on ground, and waste silk collection device 4 is connected with product cutter sweep 3 by flexible pipe, and the vacuum power produced by the electric machine rotation of waste silk collection device 4 inside completes the collection of waste silk,

Described product cutter sweep 3 (see Fig. 3) comprises product cutting tool 32, cutter two dimension feeding platform 33 and installing plate 31; Described installing plate 31 is perpendicular to the vertical working face of working panel 1, the both sides of installing plate 31 are fixedly mounted on cutter structure mobile device 2 by reinforcement, described cutter two dimension feeding platform 33 is fixed on the upper surface of installing plate 31, product cutting tool 32 is arranged on the upper surface of described cutter two dimension feeding platform 33, for completing the cutting processing of film silk 6;

Described product cutting tool 32 (see Fig. 6) comprises guard 321, snap ring 322, cutter housing 324, cutter rotary module 323 and Cutting tool installation manner plate 325; Described guard 321 is made up of stalloy, guard 321 lower openings, and upper surface is astral ray shape, and cross section is in " convex " font, and the bottom of guard 321 is fixedly linked by the upper end of snap ring 322 with cutter housing 324; Described snap ring 322 can clamping level by bolt adjustment self; Cutter rotary module 323 is positioned at the inner space of guard 321 and cutter housing 324 formation, and the upper end of cutter rotary module 323 is concordant with the inner surface of guard 321; The bottom of cutter housing 324 is fixed on the upper surface of Cutting tool installation manner plate 325;

Described cutter rotary module 323 (see Fig. 7) comprises knife rest 3231, three blades 3232, three spring silks 3233 and cutter drive motor 3234, described knife rest 3231 (see Figure 11) is disc-shaped structure, injection molded by engineering-plastics integral, knife rest 3231 center is provided with motor shaft installing hole 32311, be connected with cutter drive motor 3234 top by motor shaft installing hole 32311, the disk of knife rest 3231 is evenly distributed with three " h " type blades and perforate 32314 is installed, three plectrums 32312 and three spring silk installing holes 32313, described plectrum 32312 is positioned at " h " type blade accordingly and installs on the minor face of perforate 32314, described spring silk installing hole 32313 is positioned at the inner side of plectrum 32312, and be positioned on the RC disk of " h " type blade installation perforate 32314, " h " type blade that each blade 3232 is fixedly mounted on knife rest is respectively installed in perforate 32314, and each spring silk 3233 one end is fixed in spring silk installing hole 32313, and the other end is connected with blade 3232, described blade 3232 (see Figure 10) comprises blade 32321 and blade 32322, and blade bottom is connected with blade top, blade 32321 upper surface is concordant with the inner surface of guard 321, and under spring silk 3233 acts on, blade and guard 321 fit tightly, and blade 32322 bottom is fixedly mounted on " h " type blade and installs in perforate 32314,

Described cutter housing 324 is injection molded by engineering plastics, cutter housing 324 (see Fig. 8) entirety is hollow cylinder, the inside of cutter housing 324 forms circle shape groove 3241 by injection moulding, the concave surface width of described groove and the width of described plectrum 32312 lower surface match, the bottom of groove 3241 is provided with cutter drive motor installed surface 3243 (see Fig. 9), in the centre bore of the partial insertion groove that knife rest 3231 is connected with cutter drive motor 3234, cutter drive motor 3234 is arranged on cutter drive motor installed surface 3243 by bolt; The lower side of cutter housing 324 is provided with a flexible pipe installing hole 3242 communicated with this groove, described waste silk collection device 4 is connected with the flexible pipe installing hole 3242 of cutter housing 324 by flexible pipe 41, described groove 3241 cuts by cutter rotary module 323 waste silk fallen for temporarily depositing, movable knife rack 3231 can be with to rotate by cutter drive motor 3234, the waste silk in groove 3241 is dialled in flexible pipe installing hole 3242 by described plectrum 32312 under the drive of knife rest 3231.

Of the present utility modelly be further characterized in that the thickness of described guard 321 is 1-1.5mm, if guard is too thin, supporting role will do not had, easily cause subsiding of guard center, if guard is too thick, the cutting effect of film silk is bad, easily occurs cutting less than silk or film silk is elongated and damages the phenomenon of film silk.

Of the present utility modelly be further characterized in that described blade 32322 (see Figure 10) is for " T " font, two slotted eyes are had in the middle of blade 32322, the location and installation of blade on knife rest can be realized, simultaneously also for the locating and machining of blade provides guarantee; Have a bar hole on the downside of blade 32322, blade 3232 is fixed by spring silk 3233 by this bar hole, and the setting of spring silk 3233 effectively can ensure that the upper surface of blade 3232 contacts all the time with the inner surface of guard 321.

The mobile device of cutter structure described in the utility model 2, cutter two dimension feeding platform 33 all can adopt the corresponding function of existing techniques in realizing, adopt the form of mobile ball-screw assembly 24 and line slideway to realize product cutter sweep 3 with cutter structure mobile device 2 (see Fig. 2) in the application vertically to move under the effect of cutter structure mobile device 2, simultaneously the application also can adopt other similar mechanical structure form, vertically moves up and down be as the criterion can control product cutter sweep 3.

Cutter two dimension feeding platform 33 in the application has controlled the horizontal and vertical feed motion of product cutting tool 32 respectively to feeding module 331 and Y-direction feeding module 332 by X, and this X all can be commercially available to feeding module 331 and Y-direction feeding module 332.

The industrial dust collector that waste silk collection device 4 in the utility model adopts existing market common, there is power large, the advantages such as capacity is large, adopt principle of negative pressure to collect and cut by product cutting tool 32 waste silk fallen, the waste silk collection tank 42 of waste silk collection device 4 can be opened, and more convenient operating personnel can clear up waste silk.The utility model is applicable to the cutting processing process of the filiform that great majority are vertically arranged, is particularly useful for the cutting processing of ultrafiltration membrane filaments.

Operation principle of the present utility model and the course of work are: first by filiform to be cut, i.e. film silk 6, be vertically placed on film silk bucket 5, and ensure that film silk 6 is directly over product cutter sweep 3, operating personnel start the utility model filiform automatic cutting mechanism, product cutter sweep 3 completes the cutting processing of filiform under the drive of cutter two dimension feeding platform 33 with serpentine path, cutting the waste silk dropped enters in groove 3241, movable knife rack 3231 is with to rotate by cutter drive motor 3234, waste silk in groove 3241 to be dialled in flexible pipe installing hole 3242 and is collected by waste silk collection device 4 by plectrum 32312, waste silk collection device 4 adopts principle of negative pressure automatically to complete the collection of waste silk, and then ensure that film silk 6 is collected enter in product cutting tool 32, and the cutting of film silk is completed together with cutter rotary module 323, the upper surface of guard is smooth and fit with film silk section all the time thus ensure that film silk cutting surfaces shape is smooth, finally ensure that the cut quality of cut film silk, the waste silk collection tank 42 of waste silk collection device 4 can be opened, with handled easily, personnel clear up waste silk.

Need more allowing blade replacement 3232 time, cutter structure mobile device 2 action drives product cutter sweep 3 to move down, and opens snap ring 322 and take off guard 321 by operating personnel, takes out cutter rotary module 323 i.e. changeable blade 3232.

Embodiment 1

The filiform automatic cutting mechanism of the present embodiment comprises working panel 1, cutter structure mobile device 2, product cutter sweep 3, waste silk collection device 4 and film silk bucket 5, described working panel 1 is vertically placed on ground, described cutter structure mobile device 2 is installed on the vertical working face of working panel 1, described product cutter sweep 3 is installed on cutter structure mobile device 2 by bolt, product cutter sweep 3 vertically can move up and down on cutter structure mobile device 2, thus can handled easily personnel more allowing blade replacement; Described film silk bucket 5 fixes with the vertical working face of working panel 1, and is positioned at directly over product cutter sweep 3, and film silk bucket 5 inner sleeve has film silk 6; Described waste silk collection device 4 is placed on ground, and waste silk collection device 4 is connected with product cutter sweep 3 by flexible pipe, and the vacuum power produced by the electric machine rotation of waste silk collection device 4 inside completes the collection of waste silk;

Described product cutter sweep 3 comprises product cutting tool 32, cutter two dimension feeding platform 33 and installing plate 31; Described installing plate 31 is perpendicular to the vertical working face of working panel 1, the both sides of installing plate 31 are fixedly mounted on cutter structure mobile device 2 by reinforcement, described cutter two dimension feeding platform 33 is fixed on the upper surface of installing plate 31, product cutting tool 32 is arranged on the upper surface of described cutter two dimension feeding platform 33, for completing the cutting processing of film silk 6;

Described product cutting tool 32 comprises guard 321, snap ring 322, cutter housing 324, cutter rotary module 323 and Cutting tool installation manner plate 325; Described guard 321 is made up of the stalloy that 1.2mm is thick, both can optimize the cutting effect of film silk, can also ensure that the section of film silk 6 is concordant with the end of film silk bucket 5; Guard 321 lower openings, upper surface is astral ray shape, and cross section is in " convex " font, and the bottom of guard 321 is fixedly linked by the upper end of snap ring 322 with cutter housing 324; Described snap ring 322 can clamping level by bolt adjustment self; Cutter rotary module 323 is positioned at the inner space of guard 321 and cutter housing 324 formation, and the upper end of cutter rotary module 323 is concordant with the inner surface of guard 321; The bottom of cutter housing 324 is fixed on the upper surface of Cutting tool installation manner plate 325;

Described cutter rotary module 323 comprises knife rest 3231, three blades 3232, three spring silks 3233 and cutter drive motor 3234, described knife rest 3231 is disc-shaped structure, injection molded by engineering-plastics integral, knife rest 3231 center is provided with motor shaft installing hole 32311, be connected with cutter drive motor 3234 top by motor shaft installing hole 32311, the disk of knife rest 3231 is evenly distributed with three " h " type blades and perforate 32314 is installed, three plectrums 32312 and three spring silk installing holes 32313, described plectrum 32312 is positioned at " h " type blade accordingly and installs on the minor face of perforate 32314, described spring silk installing hole 32313 is positioned at the inner side of plectrum 32312, and be positioned on the RC disk of " h " type blade installation perforate 32314, " h " type blade that each blade 3232 is fixedly mounted on knife rest is respectively installed in perforate 32314, and each spring silk 3233 one end is fixed in spring silk installing hole 32313, and the other end is connected with blade 3232, described blade 3232 comprises blade 32321 and blade 32322, and blade bottom is connected with blade top, blade 32321 upper surface is concordant with the inner surface of guard 321, and under spring silk 3233 acts on, blade and guard 321 fit tightly, and blade 32322 bottom is fixedly mounted on " h " type blade and installs in perforate 32314,

Described cutter housing 324 is injection molded by engineering plastics, cutter housing 324 entirety is hollow cylinder, the inside of cutter housing 324 forms circle shape groove 3241 by injection moulding, the concave surface width of described groove and the width of described plectrum 32312 lower surface match, the bottom of groove 3241 is provided with cutter drive motor installed surface 3243, in the centre bore of the partial insertion groove that knife rest 3231 is connected with cutter drive motor 3234, cutter drive motor 3234 is arranged on cutter drive motor installed surface 3243 by bolt; The lower side of cutter housing 324 is provided with a flexible pipe installing hole 3242 communicated with this groove, described waste silk collection device 4 is connected with the flexible pipe installing hole 3242 of cutter housing 324 by flexible pipe 41, described groove 3241 cuts by cutter rotary module 323 waste silk fallen for temporarily depositing, movable knife rack 3231 can be with to rotate by cutter drive motor 3234, the waste silk in groove 3241 is dialled in flexible pipe installing hole 3242 by described plectrum 32312 under the drive of knife rest 3231.

Embodiment 2

The position of the present embodiment cutting mechanism each several part and annexation are with embodiment 1, its difference is that the thickness of described guard 321 is 1.5mm, described blade 32322 is " T " font, two slotted eyes are had in the middle of blade 32322, the location and installation of blade on knife rest can be realized, simultaneously also for the locating and machining of blade provides guarantee; Have a bar hole on the downside of blade 32322, blade 3232 is fixed by spring silk 3233 by this bar hole, and the setting of spring silk 3233 effectively can ensure that the upper surface of blade 3232 contacts all the time with the inner surface of guard 321.

Cutter structure mobile device 2 (see Fig. 2) comprises mobile ball-screw assembly 24, mobile drive motors 22, left side line slideway assembly 23 and right side line slideway assembly 21; Described left side line slideway assembly 23, mobile ball-screw assembly 24 and right side line slideway assembly 21 are vertically parallel successively to be from left to right fixedly mounted on the vertical working face of working panel 1, described mobile drive motors 22 is connected by shaft coupling one end with mobile ball-screw assembly 24, drives the action of mobile ball-screw assembly 24 by mobile drive motors 22.

Cutter two dimension feeding platform 33 (see Fig. 5) comprises X to feeding module 331 and Y-direction feeding module 332, Y-direction feeding module 332 is secured by bolts in the upper surface of installing plate 31, and X is fixed on the guide rail of Y-direction feeding module 332 on by slide block perpendicular to Y-direction feeding module 332 to feeding module 331; X has controlled the horizontal and vertical feed motion of product cutting tool 32 respectively to feeding module 331 and Y-direction feeding module 332.

Described Y-direction feeding module 332 (see Fig. 5) to comprise on the left of Y-direction feeding motor 3324, Y-direction ball-screw assembly 3322, Y-direction line slideway assembly 3325 and Y-direction feeding module installing plate 3323 on the right side of line slideway assembly 3321, Y-direction; Described Y-direction feeding motor 3324 is connected with Y-direction ball-screw assembly 3322 by shaft coupling, and Y-direction feeding motor 3324 drives the action of Y-direction ball-screw assembly 3322; On the left of described Y-direction ball-screw assembly 3322, Y-direction, on the right side of line slideway assembly 3321 and Y-direction, line slideway assembly 3325 is all secured by bolts on Y-direction feeding module installing plate 3323, and described Y-direction feeding module installing plate 3323 is secured by bolts on described installing plate 31;

Described X to feeding module 331 comprise X to feeding motor 3311, X to ball-screw assembly 3313, X to the left line slideway assembly 3312, X to the right line slideway assembly 3315 and X to feeding module installing plate 3314, described X is connected to ball-screw assembly 3313 with X to feeding motor 3311 by shaft coupling, drives X to ball-screw assembly 3313 action by X to feeding motor 3311; Described X to ball-screw assembly 3313, X to the left line slideway assembly 3312 and X to the left line slideway assembly 3315 be all secured by bolts in X on feeding module installing plate 3314, described X is vertically connected on the upper surface of Y-direction feeding module 332 by bolt to feeding module installing plate 3314.

Embodiment 3

The position of the present embodiment cutting mechanism each several part and annexation are with embodiment 2, and its difference is that the thickness of described guard 321 is 1mm.

For the cutting mechanism of the present embodiment, cutting processing is carried out to ultrafiltration membrane filaments, Figure 12 be adopt the cutting mechanism of the present embodiment to cut film silk 6 to the blade 3232 that ultrafiltration membrane filaments carries out cutting processing overlook the cutting track figure obtained, in figure, upper left side round dot is the motion starting point of product cutting tool 32, described product cutting tool 32 carries out action around the film silk vertically placed along the serpentine path in Figure 12 indicated by arrow under the driving of cutter two dimension feeding platform 33, because the film silk cutting action of guard 321 contact membranes silk 6 is similar to action of combing one's hair, thus can ensure that product cutting tool 32 can complete the cutting action of film silk efficiently, and cutting process cuts phenomenon without the leakage of film silk.

Above enforcement of the present utility model has been described in detail, but described content being better implementation process of the present utility model, the protection domain for limiting the application can not being considered to.All equalization changes done with the utility model application right with improve, within the protection domain that all should belong to the application's claim.

Claims (3)

1. a filiform automatic cutting mechanism, comprise working panel, cutter structure mobile device, product cutter sweep, waste silk collection device and film silk bucket, it is characterized in that described working panel is vertically placed on ground, described cutter structure mobile device is installed on the vertical working face of working panel, described product cutter sweep is installed on cutter structure mobile device by bolt, and product cutter sweep vertically can move up and down on cutter structure mobile device; The vertical working face of described film silk bucket and working panel fixes, and is positioned at directly over product cutter sweep, and film silk bucket inner sleeve has film silk; Described waste silk collection device is placed on ground, and waste silk collection device is connected with product cutter sweep by flexible pipe;

Described product cutter sweep comprises product cutting tool, cutter two dimension feeding platform and installing plate; Described installing plate is perpendicular to the vertical working face of working panel, the both sides of installing plate are fixedly mounted on cutter structure mobile device by reinforcement, described cutter two dimension feeding platform is fixed on the upper surface of installing plate, and product cutting tool is arranged on the upper surface of described cutter two dimension feeding platform;

Described product cutting tool comprises guard, snap ring, cutter housing, cutter rotary module and Cutting tool installation manner plate; Described guard lower openings, upper surface is astral ray shape, and cross section is in " convex " font, and the bottom of guard is fixedly linked by the upper end of snap ring and cutter housing; Described snap ring can clamping level by bolt adjustment self; Cutter rotary module is positioned at the inner space that guard and cutter housing are formed, and the upper end of cutter rotary module and the inner surface of guard concordant; The bottom of cutter housing is fixed on the upper surface of Cutting tool installation manner plate;

Described cutter rotary module comprises knife rest, three blades, three spring silks and cutter drive motors; Described knife rest is disc-shaped structure, knife rest center is provided with motor shaft installing hole, be connected with cutter drive motor top by motor shaft installing hole, the disk of knife rest is evenly distributed with three " h " type blades and perforate, three plectrums and three spring silk installing holes are installed, described plectrum is positioned at " h " type blade accordingly and installs on the minor face of perforate, described spring silk mounting hole site in the inner side of plectrum, and is positioned on the RC disk of " h " type blade installation perforate; " h " type blade that each blade is fixedly mounted on knife rest is respectively installed in perforate, and each spring silk one end is fixed in spring silk installing hole, and the other end is connected with blade; Described blade comprises blade and blade, and blade bottom is connected with blade top; Blade upper surface is concordant with the inner surface of guard, and under the effect of spring silk, blade and guard fit tightly, and blade bottom is fixedly mounted on " h " type blade and installs in perforate;

Described cutter housing entirety is hollow cylinder, the inside of cutter housing forms circle shape groove by injection moulding, the concave surface width of described groove and the width of described plectrum lower surface match, the bottom of groove is provided with cutter drive motor installed surface, in the centre bore of the partial insertion groove that knife rest is connected with cutter drive motor, cutter drive motor is arranged on cutter drive motor installed surface; The lower side of cutter housing is provided with a flexible pipe installing hole communicated with this groove, and described waste silk collection device is connected with the flexible pipe installing hole of cutter housing by flexible pipe.

2. filiform automatic cutting mechanism according to claim 1, is characterized in that the thickness of described guard is 1-1.5mm.

3. filiform automatic cutting mechanism according to claim 1, it is characterized in that described blade is for " T " font, have two slotted eyes in the middle of blade, have a bar hole on the downside of blade, blade is fixed by spring silk by this bar hole.