CN105479514A - Full-automatic hair sleeve cut-off machine - Google Patents

Abstract

The invention discloses a full-automatic hair sleeve cut-off machine which comprises a machine body base, a material return mechanism, a mandrel mechanism, cut-off mechanisms, an ejector pin adjusting mechanism, an ejector pin mechanism and a feeding mechanism. The mandrel mechanism is fixedly installed in the middle of the top end of the machine body base. The feeding mechanism is connected to the tail end of the mandrel mechanism. The material return mechanism is connected to the front end of the mandrel mechanism. Two guide rails located on the two sides of the mandrel mechanism are arranged at the top end of the machine body base. The cut-off mechanisms arranged on the guide rails are connected to the mandrel mechanism in a staggered manner. The ejector pin adjusting mechanism is located at the tail end of the mandrel mechanism. The ejector pin mechanism is further connected to the ejector pin adjusting mechanism. By the adoption of the full-automatic hair sleeve cut-off machine, a hair sleeve is fully automatically cut off, machining efficiency is high, accuracy is high, operation is easy, the machine is safe, reliable and suitable for batch production, and the quality of the machined hair sleeve is good.

Description

A kind of full-automatic hair cover cutting machine

Technical field

The present invention relates to automation equipment field, specifically a kind of full-automatic hair cover cutting machine utilizing automatic technology to cut off cylinder bristle cover.

Background technology

In daily building decoration engineering, during large area paint rolling applying, often to use rotary broom, and need special rotary broom of arranging in pairs or groups, wide owing to rolling face scope, so be the most laborsaving, timesaving brushing tool, after especially connecting extension rod, metope can be whitewashed easily and exceed or ceiling.The cylinder hair cover of rotary broom front end is the key point of rotary broom.Traditional hair is enclosed within and adds man-hour requirement through multiple working procedure, and carry out distribution processing through multiple devices, such processing and cut-out mode adopt to be cut off manually, not only cut-off velocity is slow, efficiency is low, waste time and energy, and when repetition mechanical fatigue, easy operate miss is injured, and the Quality Down causing hair to overlap.

Summary of the invention

The object of the present invention is to provide the full-automatic hair cover cutting machine of the energy self-feeding that a kind of working (machining) efficiency is high, simple to operate, security is good, to solve the problem proposed in above-mentioned background technology.

For achieving the above object, the invention provides following technical scheme:

A kind of full-automatic hair cover cutting machine, comprise machine body base, unloading mechanism, mandrel mechanism, shut-off mechanism, thimble governor motion, ejector pin mechanism and feed mechanism, described mandrel mechanism is fixedly mounted in the middle of the top of machine body base, and mandrel mechanism is arranged along the longitudinal direction of machine body base; Described feed mechanism is connected to the end of mandrel mechanism, and feed mechanism is fixed on the end of machine body base; Described unloading mechanism is connected to the front end of mandrel mechanism, and unloading mechanism is fixedly mounted on machine body base top; The top of described machine body base is installed with two parallel guide rails, and guide rail is symmetricly set on the both sides of mandrel mechanism, described guide rail evenly installs multiple shut-off mechanism, and shut-off mechanism is cross-linked on mandrel mechanism; Described thimble governor motion is fixedly mounted on the top of machine body base, and thimble governor motion is positioned at the end of mandrel mechanism, and described ejector pin mechanism is also connected on thimble governor motion;

Described feed mechanism comprises aluminum alloy framework, material loading stepper motor and loading guide, described loading guide level is arranged on the front end of aluminum alloy framework, the two ends of described loading guide are separately installed with material loading synchronous pulley, and the material loading synchronous pulley of loading guide one end is driven by material loading stepper motor, described material loading stepper motor is fixed on loading guide by installing plate, described loading guide is also movably installed with material loading slide block, described loading guide is also installed with the material loading push rod near stepper motor, the left end of described aluminum alloy framework is installed with left side hopper and left side guide panel beating, described aluminum alloy framework is also provided with the multiple hoppers between loading guide and left side hopper, the buncher regulating material loading Timing Belt speed is provided with between described hopper, the rear end of described aluminum alloy framework is also provided with driving shaft corresponding up and down, driven by sprocket wheel chain between the driving shaft of upper and lower correspondence, described sprocket wheel chain is evenly provided with multiple material loading shifting block, described aluminum alloy framework is also installed with blowing cylinder and backgauge cylinder, and backgauge cylinder is arranged on the top of blowing cylinder, described blowing cylinder is provided with blowing guide pillar, described backgauge cylinder is provided with material blocking block,

Described shut-off mechanism comprises cut-out motor, cut off cylinder and left and right adjusting plate, described left and right adjusting plate is installed with two parallel guide rails, described guide rail is provided with feed base plate by feed slide block, described cut-out cylinder is fixed on one end of left and right adjusting plate, and the output cutting off cylinder is connected to the lower end of feed base plate, described cut-out motor is fixedly mounted on feed base plate, described entering on base plate is also installed with cut-out bearing block, the rotating shaft of described cut-out bearing block is provided with successively and cuts off driven pulley and cutter blades, the output of described cut-out motor is provided with and cuts off active synchronization belt wheel, and be connected with conveyer belt between cut-out active synchronization belt wheel and cut-out driven pulley,

Described mandrel mechanism comprises mandrel, bearing block and drive motors, described mandrel is provided with bearing, bearing (ball) cover and belt pulley successively through bearing block, described mandrel is provided with copper sheathing, the end of described drive motors is also provided with belt pulley, connected by V-belt between belt pulley, described drive motors is fixed by three phase electric machine installing plate;

Described unloading mechanism comprises stepper motor and material returned guide rail, one end of described material returned guide rail is slidably fitted with material returned slide block, described material returned slide block is provided with stripper, described stripper is provided with material returned groove by material returned frame axle, the mandrel of described mandrel mechanism is through stripper, described stripper is clamped with passive and synchronous band, the two ends of described passive and synchronous band are by passive and synchronous band wheel drive, described passive and synchronous belt wheel connects driving wheel by material returned rotating shaft, and described driving wheel is arranged on stepper motor.

As the further scheme of the present invention: described ejector pin mechanism comprises thimble and ejector pin mechanism bearing block, described thimble is connected with ejector pin mechanism bearing, lining, ejector pin mechanism bearing, minor axis, hubcap and right side bearing cap in turn through ejector pin mechanism bearing block, is provided with ejector pin mechanism bearing cap between described thimble and ejector pin mechanism bearing block.

As the further scheme of the present invention: described thimble governor motion comprises blow tank, axial adjustment cylinder, radiai adjustment cylinder and radiai adjustment plate, described axial adjustment cylinder is fixed on radiai adjustment plate by axial adjustment cylinder mounting plate, described radiai adjustment plate is slidably mounted on two parallel radial guidances, described radiai adjustment cylinder is arranged between radial guidance, described radiai adjustment cylinder connects radiai adjustment plate by radial cylinder mounting plate, described radiai adjustment plate is installed with two parallel axial guidances, described axial guidance is provided with axial adjustment plate by axial slider, described axial adjustment plate is connected on axial adjustment cylinder, described blow tank is arranged on the end of radiai adjustment plate, and axial adjustment plate is positioned at the top of blow tank, chute mounting blocks is provided with between described axial guidance and blow tank.

As the present invention's further scheme: the top of described machine body base is also provided with the electric cabinet near feed mechanism.

Compared with prior art, the invention has the beneficial effects as follows: the present invention can realize the full-automatic cut-out of hair cover, and working (machining) efficiency is high, and precision is high, simple to operate, safe and reliable, be applicable to batch production, and the hair cover quality processed is good.

Accompanying drawing explanation

fig. 1for the stereochemical structure of the embodiment of the present invention is illustrated figure;

fig. 2for the stereochemical structure exploded pictorial of the embodiment of the present invention figure;

fig. 3for the stereochemical structure of feed mechanism is illustrated figure;

fig. 4for fig. 3assembling exploded pictorial figure;

fig. 5for the stereochemical structure of ejector pin mechanism is illustrated figure;

fig. 6for fig. 5assembling exploded pictorial figure;

fig. 7for the stereochemical structure of thimble adjustment structure is illustrated figure;

fig. 8for fig. 7assembling exploded pictorial figure;

fig. 9for the stereochemical structure of mandrel mechanism is illustrated figure;

figure 10for fig. 9assembling exploded pictorial figure;

figure 11for the stereochemical structure of shut-off mechanism is illustrated figure;

figure 12for figure 11assembling exploded pictorial figure;

figure 13for the stereochemical structure of unloading mechanism is illustrated figure;

figure 14for figure 13assembling exploded pictorial figure;

figure 15for the contrast signal before rotary broom cutting and after cutting figure;

in figure: 1-machine body base; 2-electric cabinet;

A-unloading mechanism; A1-stepper motor; A2-driving wheel; A3-material returned rotating shaft; The passive and synchronous band of A4-; The passive and synchronous belt wheel of A5-; A6-material returned slide block; A7-stripper; A8-material returned guide rail; A9-material returned frame axle; A10-material returned groove;

B-mandrel mechanism; B1-mandrel; B2-copper sheathing; B3-bearing (ball) cover; B4-bearing block; B5-drive motors; B6-bearing; B7-belt pulley; B8-three phase electric machine installing plate; B9-V-belt;

C-shut-off mechanism; C1-cuts off motor; C2-feed base plate; C3-left and right adjusting plate; C4-feed guide rail; C5-feed slide block; C6-cuts off cylinder; C7-cuts off bearing block; C8-cuts off active synchronization belt wheel; C9-cuts off driven pulley; C10-cutter blades;

D-thimble governor motion; D1-blow tank; D2-axial guidance; D3-axial slider; D4-axial adjustment plate; D5-axial adjustment cylinder; D6-radiai adjustment plate; D7-radiai adjustment cylinder; D8-axial adjustment cylinder mounting plate; D9-chute mounting blocks; The radial cylinder mounting plate of D10-; D11-radial guidance;

E-ejector pin mechanism; E1-thimble; E2-ejector pin mechanism bearing cap; E3-ejector pin mechanism bearing block; E4-ejector pin mechanism bearing; Bearing cap on the right side of E5-; E6-hubcap; E7-lining;

F-feed mechanism; F1-material loading stepper motor; F2-installing plate; F3-material loading synchronous pulley; F4-material loading Timing Belt; F5-material loading slide block; F6-loading guide; Guide panel beating on the left of F7-; Hopper on the left of F8-; F9-sprocket wheel chain; Hopper on the right side of F10-; Guide panel beating on the right side of F11-; F12-buncher; F13-blowing cylinder; F14-blowing guide pillar; F15-backgauge cylinder; F16-hopper; F17-aluminum alloy framework; F18 material loading is set ahead; F19-hair cover; F20-material blocking block; F21-material loading push rod.

Detailed description of the invention

Below in conjunction with in the embodiment of the present invention accompanying drawing, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Refer to fig. 1 ~ 15in the embodiment of the present invention, a kind of full-automatic hair cover cutting machine, comprise machine body base 1, unloading mechanism A, mandrel mechanism B, shut-off mechanism C, thimble governor motion D, ejector pin mechanism E and feed mechanism F, mandrel mechanism B is fixedly mounted in the middle of the top of machine body base 1, and mandrel mechanism B is arranged along the longitudinal direction of machine body base 1; Feed mechanism F is connected to the end of mandrel mechanism B, and feed mechanism F is fixed on the end of machine body base 1; Unloading mechanism A is connected to the front end of mandrel mechanism B, and unloading mechanism A is fixedly mounted on machine body base 1 top; The top of machine body base 1 is installed with two parallel guide rails, and guide rail is symmetricly set on the both sides of mandrel mechanism B, guide rail evenly installs multiple shut-off mechanism C, and shut-off mechanism C is cross-linked on mandrel mechanism B; Thimble governor motion D is fixedly mounted on the top of machine body base 1, and thimble governor motion D is positioned at the end of mandrel mechanism B, and ejector pin mechanism E is also connected on thimble governor motion D, and the top of machine body base 1 is also provided with the electric cabinet 2 near feed mechanism A.

Feed mechanism F comprises aluminum alloy framework F17, material loading stepper motor F1 and loading guide F6, loading guide F6 level is arranged on the front end of aluminum alloy framework F17, the two ends of loading guide F6 are separately installed with material loading synchronous pulley F3, and the material loading synchronous pulley F3 of loading guide F6 one end is driven by material loading stepper motor F1, material loading stepper motor F1 is fixed on loading guide F6 by installing plate F2, loading guide F6 is also movably installed with material loading slide block F5, loading guide F6 is also installed with the material loading push rod F21 near material loading stepper motor F1, the left end of aluminum alloy framework F17 is installed with left side hopper F8 and left side guide panel beating F7, aluminum alloy framework F17 is also provided with the multiple hopper F16 between loading guide F6 and left side hopper F8, the buncher F12 regulating material loading Timing Belt F4 speed is provided with between hopper F16, the rear end of aluminum alloy framework F17 is also provided with driving shaft corresponding up and down, driven by sprocket wheel chain F9 between the driving shaft of upper and lower correspondence, sprocket wheel chain F9 is evenly provided with multiple material loading shifting block F18, aluminum alloy framework F17 is also installed with blowing cylinder F13 and backgauge cylinder F15, and backgauge cylinder F15 is arranged on the top of blowing cylinder F13, blowing cylinder F13 is provided with blowing guide pillar F14, backgauge cylinder F15 is provided with material blocking block F20.

Shut-off mechanism C comprises cut-out motor C1, cut off cylinder C6 and left and right adjusting plate C3, left and right adjusting plate C3 is installed with two parallel guide rails, guide rail is provided with feed base plate C2 by feed slide block, cut off one end that cylinder C6 is fixed on left and right adjusting plate C3, and the output cutting off cylinder C6 is connected to the lower end of feed base plate C2, cutting off motor C1 is fixedly mounted on feed base plate C2, enter on base plate C2 and be also installed with cut-out bearing block C7, the rotating shaft of cut-out bearing block C7 is provided with successively and cuts off driven pulley C9 and cutter blades C10, the output cutting off motor C1 is provided with and cuts off active synchronization belt wheel C8, and be connected with conveyer belt between cut-out active synchronization belt wheel C8 and cut-out driven pulley C9.

Mandrel mechanism B comprises mandrel B1, bearing block B4 and drive motors B5, mandrel B1 is provided with bearing B6, bearing (ball) cover B3 and belt pulley B7 successively through bearing block B4, mandrel B1 is provided with copper sheathing B2, the end of drive motors B5 is also provided with belt pulley B7, connected by V-belt B9 between belt pulley B7, drive motors B5 is fixed by three phase electric machine installing plate B8.

Unloading mechanism A comprises stepper motor A1 and material returned guide rail A8, one end of material returned guide rail A8 is slidably fitted with material returned slide block A6, material returned slide block A6 is provided with stripper A7, stripper A7 is provided with material returned groove A10 by material returned frame axle A9, the mandrel B1 of mandrel mechanism B is through stripper A7, stripper A7 is clamped with passive and synchronous band A4, the two ends of passive and synchronous band A4 are driven by passive and synchronous belt wheel A5, passive and synchronous belt wheel A5 connects driving wheel A2 by material returned rotating shaft A3, and driving wheel A2 is arranged on stepper motor A1.

Ejector pin mechanism E comprises thimble E1 and ejector pin mechanism bearing block E3, thimble E1 is connected with ejector pin mechanism bearing E4, lining E7, ejector pin mechanism bearing E4, minor axis, hubcap E6 in turn through ejector pin mechanism bearing block E3 and is provided with ejector pin mechanism bearing cap E2 between right side bearing cap E5, thimble E1 and ejector pin mechanism bearing block E3.

Thimble governor motion D comprises blow tank D1, axial adjustment cylinder D5, radiai adjustment cylinder D7 and radiai adjustment plate D6, axial adjustment cylinder D5 is fixed on radiai adjustment plate D6 by axial adjustment cylinder mounting plate D8, radiai adjustment plate D6 is slidably mounted on two parallel radial guidance D11, radiai adjustment cylinder D7 is arranged between radial guidance D11, radiai adjustment cylinder D7 connects radiai adjustment plate D6 by radial cylinder mounting plate D10, radiai adjustment plate D6 is installed with two parallel axial guidance D2, axial guidance D2 is provided with axial adjustment plate D4 by axial slider D3, axial adjustment plate D4 is connected on axial adjustment cylinder D5, blow tank D1 is arranged on the end of radiai adjustment plate D6, and axial adjustment plate D4 is positioned at the top of blow tank D1, chute mounting blocks D9 is provided with between axial guidance D2 and blow tank D1.

In the course of the work, hair cover F19 before not cutting is put into left side hopper F8 and right side hopper F10, starting device, buncher F12 drive sprocket rotates, drive material loading set ahead F18 hair is overlapped F19 bring into left side guide panel beating F7 and right side guide panel beating F11 panel beating in, time initial, blowing cylinder F13 drives blowing guide pillar F14 to stretch out, backgauge cylinder F15 resets, after startup, backgauge cylinder F15 stretches out, block second hair cover F19 in the guide panel beating F7 and right side guide panel beating F1 of left side, blowing cylinder F13 drives blowing guide pillar F14 to reset, make first hair cover F19 along falling into hopper F16, material loading stepper motor F1 drives material loading Timing Belt F4, drive material loading push rod F21 driven forward hair cover F19, making hair overlap F19 is enclosed within mandrel B1, material loading stepper motor F1 drives material loading Timing Belt F4, drive material loading push rod F21 rollback, after radiai adjustment cylinder D7 promotion ejector pin mechanism E moves radially and puts in place, axial adjustment cylinder D5 promotes ejector pin mechanism E, thimble E1 is made to be enclosed within mandrel B1, rotate with mandrel B1 and rotate, then eight are cut off cylinder C6 and promote eight cutter blades C10 and move forward, cut the cover that becomes mildewed and be cut into seven hair covers and two ends stub bar, after cut-out, the cylinder C6 that dies resets, move after driving eight cutter blades C10, axial adjustment cylinder D5 resets, drive ejector pin mechanism E, thimble E1 is made to leave mandrel B1, radiai adjustment cylinder D7 resets, after driving the retrogressing of ejector pin mechanism E radial direction to put in place, stepper motor A1 drives driving wheel A2 to drive material returned frame axle A3 to rotate, thus drive passive and synchronous belt wheel A5 to rotate, passive and synchronous band A4 is driven to rotate, the stripper A7 be fixed on passive and synchronous band A4 is moved forward, by being fixed on the last copper sheathing B2 of stripper A7 by after the hair cover release after cutting, stepper motor A1 reverses, unloading mechanism A is resetted, then next root hair cover F19 is processed.

To those skilled in the art, obviously the invention is not restricted to the details of above-mentioned one exemplary embodiment, and when not deviating from spirit of the present invention or essential characteristic, the present invention can be realized in other specific forms.Therefore, no matter from which point, all should embodiment be regarded as exemplary, and be nonrestrictive, scope of the present invention is limited by claims instead of above-mentioned explanation, and all changes be therefore intended in the implication of the equivalency by dropping on claim and scope are included in the present invention.Should not any by claim accompanying drawingmark is considered as the claim involved by restriction.

Claims (4)

1. a full-automatic hair cover cutting machine, comprise machine body base, unloading mechanism, mandrel mechanism, shut-off mechanism, thimble governor motion, ejector pin mechanism and feed mechanism, it is characterized in that, described mandrel mechanism is fixedly mounted in the middle of the top of machine body base, and mandrel mechanism is arranged along the longitudinal direction of machine body base; Described feed mechanism is connected to the end of mandrel mechanism, and feed mechanism is fixed on the end of machine body base; Described unloading mechanism is connected to the front end of mandrel mechanism, and unloading mechanism is fixedly mounted on machine body base top; The top of described machine body base is installed with two parallel guide rails, and guide rail is symmetricly set on the both sides of mandrel mechanism, described guide rail evenly installs multiple shut-off mechanism, and shut-off mechanism is cross-linked on mandrel mechanism; Described thimble governor motion is fixedly mounted on the top of machine body base, and thimble governor motion is positioned at the end of mandrel mechanism, and described ejector pin mechanism is also connected on thimble governor motion;

Described feed mechanism comprises aluminum alloy framework, material loading stepper motor and loading guide, described loading guide level is arranged on the front end of aluminum alloy framework, the two ends of described loading guide are separately installed with material loading synchronous pulley, and the material loading synchronous pulley of loading guide one end is driven by material loading stepper motor, described material loading stepper motor is fixed on loading guide by installing plate, described loading guide is also movably installed with material loading slide block, described loading guide is also installed with the material loading push rod near stepper motor, the left end of described aluminum alloy framework is installed with left side hopper and left side guide panel beating, described aluminum alloy framework is also provided with the multiple hoppers between loading guide and left side hopper, the buncher regulating material loading Timing Belt speed is provided with between described hopper, the rear end of described aluminum alloy framework is also provided with driving shaft corresponding up and down, driven by sprocket wheel chain between the driving shaft of upper and lower correspondence, described sprocket wheel chain is evenly provided with multiple material loading shifting block, described aluminum alloy framework is also installed with blowing cylinder and backgauge cylinder, and backgauge cylinder is arranged on the top of blowing cylinder, described blowing cylinder is provided with blowing guide pillar, described backgauge cylinder is provided with material blocking block,

Described shut-off mechanism comprises cut-out motor, cut off cylinder and left and right adjusting plate, described left and right adjusting plate is installed with two parallel guide rails, described guide rail is provided with feed base plate by feed slide block, described cut-out cylinder is fixed on one end of left and right adjusting plate, and the output cutting off cylinder is connected to the lower end of feed base plate, described cut-out motor is fixedly mounted on feed base plate, described entering on base plate is also installed with cut-out bearing block, the rotating shaft of described cut-out bearing block is provided with successively and cuts off driven pulley and cutter blades, the output of described cut-out motor is provided with and cuts off active synchronization belt wheel, and be connected with conveyer belt between cut-out active synchronization belt wheel and cut-out driven pulley,

Described mandrel mechanism comprises mandrel, bearing block and drive motors, described mandrel is provided with bearing, bearing (ball) cover and belt pulley successively through bearing block, described mandrel is provided with copper sheathing, the end of described drive motors is also provided with belt pulley, connected by V-belt between belt pulley, described drive motors is fixed by three phase electric machine installing plate;

Described unloading mechanism comprises stepper motor and material returned guide rail, one end of described material returned guide rail is slidably fitted with material returned slide block, described material returned slide block is provided with stripper, described stripper is provided with material returned groove by material returned frame axle, the mandrel of described mandrel mechanism is through stripper, described stripper is clamped with passive and synchronous band, the two ends of described passive and synchronous band are by passive and synchronous band wheel drive, described passive and synchronous belt wheel connects driving wheel by material returned rotating shaft, and described driving wheel is arranged on stepper motor.

2. full-automatic hair cover cutting machine according to claim 1, it is characterized in that, described ejector pin mechanism comprises thimble and ejector pin mechanism bearing block, described thimble is connected with ejector pin mechanism bearing, lining, ejector pin mechanism bearing, minor axis, hubcap and right side bearing cap in turn through ejector pin mechanism bearing block, is provided with ejector pin mechanism bearing cap between described thimble and ejector pin mechanism bearing block.

3. full-automatic hair cover cutting machine according to claim 2, it is characterized in that, described thimble governor motion comprises blow tank, axial adjustment cylinder, radiai adjustment cylinder and radiai adjustment plate, described axial adjustment cylinder is fixed on radiai adjustment plate by axial adjustment cylinder mounting plate, described radiai adjustment plate is slidably mounted on two parallel radial guidances, described radiai adjustment cylinder is arranged between radial guidance, described radiai adjustment cylinder connects radiai adjustment plate by radial cylinder mounting plate, described radiai adjustment plate is installed with two parallel axial guidances, described axial guidance is provided with axial adjustment plate by axial slider, described axial adjustment plate is connected on axial adjustment cylinder, described blow tank is arranged on the end of radiai adjustment plate, and axial adjustment plate is positioned at the top of blow tank, chute mounting blocks is provided with between described axial guidance and blow tank.

4. full-automatic hair cover cutting machine according to claim 1, it is characterized in that, the top of described machine body base is also provided with the electric cabinet near feed mechanism.