CN106364928B - Toner transmission measurement system - Google Patents
Toner transmission measurement system Download PDFInfo
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- CN106364928B CN106364928B CN201610797791.4A CN201610797791A CN106364928B CN 106364928 B CN106364928 B CN 106364928B CN 201610797791 A CN201610797791 A CN 201610797791A CN 106364928 B CN106364928 B CN 106364928B
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- toner
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G65/00—Loading or unloading
- B65G65/30—Methods or devices for filling or emptying bunkers, hoppers, tanks, or like containers, of interest apart from their use in particular chemical or physical processes or their application in particular machines, e.g. not covered by a single other subclass
- B65G65/34—Emptying devices
- B65G65/40—Devices for emptying otherwise than from the top
- B65G65/44—Devices for emptying otherwise than from the top using reciprocating conveyors, e.g. jigging conveyors
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G53/00—Conveying materials in bulk through troughs, pipes or tubes by floating the materials or by flow of gas, liquid or foam
- B65G53/04—Conveying materials in bulk pneumatically through pipes or tubes; Air slides
- B65G53/06—Gas pressure systems operating without fluidisation of the materials
- B65G53/10—Gas pressure systems operating without fluidisation of the materials with pneumatic injection of the materials by the propelling gas
- B65G53/14—Gas pressure systems operating without fluidisation of the materials with pneumatic injection of the materials by the propelling gas the gas flow inducing feed of the materials by suction effect
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G65/00—Loading or unloading
- B65G65/005—Control arrangements
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G2201/00—Indexing codes relating to handling devices, e.g. conveyors, characterised by the type of product or load being conveyed or handled
- B65G2201/04—Bulk
Abstract
The invention discloses a kind of toner transmission measurement systems, its key points of the technical solution are that:It is connected the slice pipeline for conveying polylactic acid dry chip, the feed bin for storing toner and the conveying device for being delivered to the toner in feed bin in slice pipeline including the drying tower being set in rack for storing polylactic acid dry chip and drying tower;Achieve the effect that continuous control toner quantitatively conveys, and the toner in metering appearance hole is delivered in slice pipeline every time and is mixed with polylactic acid dry chip;It is accurate to reach toner metering conveying, and the effect of continuous conveying, and then improves the tinctorial quality of colored fibre.
Description
Technical field
The present invention relates to production of chemical fibre fields, more specifically, it relates to a kind of toner transmission measurement system.
Background technology
Since stock-dye can cause serious water pollution, production colored fibre have become optimal selection, it is not
But production cost can be reduced.Environmental pollution can most importantly be greatly reduced;The technique of production colored fibre at present
In, dry powder color needs to be granulated after becoming Masterbatch could enter spinning screw extruder together with polylactic acid dry chip, and existing
Polylactic acid Masterbatch spining technology used for reference chemical fibre Masterbatch spining technology, using Masterbatch slice pass through Masterbatch machine
It is quantitatively sent into slicer drying tower, to reach the production corresponding manufacturing procedure of colored fibre.
The Chinese patent of Publication No. CN104357929A discloses a kind of single screw rod squash type toner spinning system, including
Toner feed bin, toner metering jetting device, polylactic acid dry chip drying tower, spinning screw extruder, melt pipe, metering pump,
Filament spinning component and spinneret;Toner metering jetting device includes the cylinder of open top, and cylinder top is removable by bolt
It unloads and is connected with gland, equipped with shaft, shaft lower end is coaxial to be equipped with metering turntable, turns for rotation between gland and the center of cylinder
Axis upper end is sequentially connected with the actuating unit above gland, and being respectively equipped with one piece with rear side on front side of shaft is fixedly connected on circle
The baffle of inner barrel, baffle are equipped with the sealing strip contacted respectively with shaft and metering disc surfaces, shaft and two block baffles
Cylinder internal body portion is divided into feed cavity and discharging chamber, gland is equipped with the toner import positioned at feed cavity side, is set on gland
There are the first dry compressed air inlet positioned at discharging chamber side, the metering turntable upper edge centre of gyration to be uniformly provided with a circle storage hole,
The toner that cylinder bottom side is equipped with positioned at discharging chamber side exports, and toner outlet is corresponding up and down with storage hole, toner outlet
It is connected with tremie pipe, the outlet of tremie pipe is connected with stuff-spraying pipe, and one end of stuff-spraying pipe is equipped with nozzle, and the other end of stuff-spraying pipe is the
Two dry compressed air inlets, the angle in the blanking direction of tremie pipe and stuff-spraying pipe between the spraying to of compressed air is acute angle.
The rotating speed of actuating unit is adjusted by frequency converter to control rotary speed, the discharge quantity of toner is adjusted, and toner is logical
It crosses toner import to enter in feed cavity, and is filled into the storage hole of metering turntable, actuating unit drives shaft rotation, will be into
Toner entrained by material intracavitary is transferred in discharging chamber, and the storage hole with space-time goes to and carries out storing in feed cavity, works as Chu Manse
The outlet of the storage hole of powder and toner up and down to it is corresponding when be passed through compression sky in its own gravity and from the first dry compressed air inlet
Under the action of gas, toner is blown into tremie pipe;But turntable is constantly in the state of rotation, toner is in turntable centrifugal force
Effect is lower to cause some toners to be attached on turntable, and the amount for the toner that blanking conveys every time all determined it is measured, in this way
It may result in the numerical value that toner is set in advance and error occur, to influence the workmanship of toner fiber.
Invention content
In view of the deficiencies of the prior art, the present invention intends to provide a kind of raising toner metering conveying precision
Toner transmission measurement system.
To achieve the above object, the present invention provides following technical solutions:
A kind of toner transmission measurement system, including be set in rack for store polylactic acid dry chip drying tower, with
Drying tower is connected the slice pipeline for conveying polylactic acid dry chip, the feed bin for storing toner and is used for feed bin
Interior toner is delivered to the conveying device in slice pipeline, and the conveying device includes the gas that one end is connected with slice pipeline
Circulation road is set to the gas channel other end for conveying the solenoid valve of compressed air into gas channel, leading to air-flow
Road connect and one end by be set to bottom plate that the toner channel with this and gas channel are connected, be set on bottom plate and
The plate that is slidably connected with bottom plate is set on bottom plate for driving plate to be in the drive component to reciprocatingly slide on bottom plate and use
It is in position on bottom plate in detection plate and control drive component driving plate is in the inductive component slided on bottom plate;The bottom
Toner vessel is provided on plate, toner vessel one end is connect with feed bin, and hole is held in the other end and the metering being set on plate
Connection, metering appearance hole is connected by toner channel with gas channel after plate sliding.
So set, when toner carries out Quantitative dosing, the toner in feed bin is delivered in the toner vessel on bottom plate, then
It is delivered to the metering on plate to hold in hole, has the function that carry out toner quantitative;After the toner in metering appearance hole is quantitatively good,
Drive component driving plate, which is in toward toner channel direction on bottom plate, to be slided, and holding hole when the metering on plate is just positioned at toner
When the center in channel, inductive component induction transmits a signal to corresponding cyclelog and drive component is promoted to stop fortune
Row;The toner that metering is held in hole at this time is just fallen in toner channel, and at the same time solenoid valve is connected in inductive component accordingly
Cyclelog instruction after, electromagnetic valve open, by dry compressed air inject airflow line in, under airflow function will
Negative pressure is formd in toner vessel, toner is held from the metering on plate in hole and is sucked out, and is flow to the toner channel on bottom plate
It in airflow line, finally enters and is transmitted in dry chip expects pipe, mixed with the dry chip in slice pipeline;When metering is held at hole
After the toner channel dwell several seconds, i.e., after quantitatively the toner in through-hole has all conveyed, drive component controls plate and deviates from toner
The direction in channel is on bottom plate and slides, when hole is held in metering is in the underface at toner chamber outlet end, inductive component induction,
And then drive component stop motion is controlled, while solenoid valve is closed, the metering Rong Kongye on plate is exactly in toner appearance at this time
Chamber following position directly, feed bin feed into toner vessel again, and driving Component driver is inserted after metering, which is held, fills it up with material in hole
Plate moves, and achievees the effect that continuous control toner quantitatively conveys, and the toner in hole is held in metering every time and is delivered to slice pipe
It is mixed with polylactic acid dry chip in road;It is accurate to reach toner metering conveying, and the effect of continuous conveying, and then improves dyeing
The dyeing quality of fiber.
Further setting:The driving component include the rack being connect with plate, the gear being connect with rack-driving and
The servo motor being connect with gear, the servo motor are connect with bottom plate.
So set, servo motor has the function of positive and negative rotation, when plate needs are conveyed towards toner channel direction,
Servo motor rotates forward, and gear band carry-over bar is made to be driven, and then the movement for making plate pass through rack is on bottom plate and slides;Work as plate
On metering hold hole when be in toner channel middle position, servo motor shuts down, and metering at this time is held the toner in hole and led to
Toner channel is crossed to be delivered in gas channel, after the several seconds after toner conveying, inductive component transmits signals to servo motor,
Servo motor is set to invert, the gear on servo motor drives the rack counter motion on plate, control plate to be in bottom plate
On back slide, return to original position;By the positive and negative rotation of inductive component and servo motor to toner reach it is continuous, quantitative,
Position the effect of conveying.
Further setting:The inductive component includes the photoelectric probe being set on bottom plate, connect and is used for photoelectric probe
Control drive component driving plate, which is in the cyclelog to reciprocatingly slide on bottom plate and is set on plate, to be used for and photoelectricity
It pops one's head in corresponding first sensing hole and the second sensing hole.
So set, photoelectric probe has the effect of transmitting, signal is fast, accurate positioning, when photoelectric probe is in the first induction
When right over hole, metering is held the underface that hole is in toner chamber outlet end and is driven when the toner in metering appearance hole reaches predetermined value
Dynamic Component driver plate is on bottom plate toward toner channel direction sliding, and the outlet end of toner vessel is simultaneously closed in the end face of plate
It closes, when photoelectric probe is in right over the second sensing hole, photoelectric probe receives signal and instruction is transmitted to corresponding program control
Device controls drive component stop motion, and the conveying that hole is exactly in the surface progress toner in toner channel is held in metering at this time;When
After drive component stops the several seconds, cyclelog control drive component drives plate back to move, when photoelectric probe is in first
When the surface of through-hole, cyclelog controls drive component stop motion, and metering at this time holds hole and is exactly in toner vessel
Underface has the function that accurate, continuous, accurate positioning.
Further setting:One end of the feed bin is provided with the targeted duct being connected with feed bin, the targeted duct
It is slidably connected with bottom plate in toner vessel, is provided between targeted duct and bottom plate and is in bottom for limiting targeted duct
The limit assembly slided on plate.
So set, being slided by the way that targeted duct to be on the toner vessel of bottom plate, you can adjust going out for targeted duct
Mouth, with this to determine height of the toner in toner vessel, reaches with apart from the distance between plate and adjusts the conveying of toner single
Amount to toner vessel;After regulating the position on the bottom plate of targeted duct, then by limit assembly by positioning pipe
Road be clamped on bottom plate have the function that it is stable.
Further setting:The limit assembly includes the axis pin for being set to bottom plate, is articulated on axis pin for clamping and positioning
Pipeline is in first clamping plate and second clamping plate on bottom plate, and is set between first clamping plate and second clamping plate and is used for positioning pipe
Road is locked and the clamping screw between first clamping plate and second clamping plate.
So set, one end of first clamping plate and second clamping plate is rotatablely connected by axis pin, make first clamping plate and second
Clamping plate is on bottom plate and is rotatablely connected, and the other end is reached by clamping screw lock onto first clamping plate and the second folder by quantitative pipeline
Between plate, reach metastable effect between the targeted duct and bottom plate after adjusting.
Further setting:Hold in the metering and is provided with sealing cover on port of the hole towards gas channel, the sealing cover back of the body
One end from toner channel is hinged by the shaft and plate being set on plate, and is slided by the reciprocating motion of plate and bottom plate
Dynamic connection.
So set, when metering is held hole and is in toner vessel, metering is held hole and sealed by sealing cover, and toner is made to be in meter
Amount is held in hole, and when the toner in hole is held in metering reaches predetermined value, plate is slided towards dosing channel direction, and the positive benefit in hole is held in metering
When the middle in toner channel, since sealing plate loses the support force given with bottom plate, sealing cover with one end hinged place with
The effect of dry compressed air in gravity and gas channel itself is on bottom plate and rotates, i.e. hole and gas channel are held in metering
It communicates, so that the toner in metering appearance hole is fallen in gas channel and conveyed, when plate return, sealing cover is returned with plate
Position is inconsistent with the port in toner channel, the slow closure for collapsing final realization metering and holding hole one end of waiting a moment;Effectively subtract at toner
In the waste of some powder when plate is in and is slided on bottom plate, improve toner addition into accuracy.
Further setting:The driving component includes the lead screw being sequentially connected with plate and drives the rotation of lead screw rotation
Motor, the rotary electric machine are connect with bottom plate.
So set, the positive and negative rotation of rotary electric machine, connect to make lead screw be on plate with plate screw rod transmission, promote
Make plate be on bottom plate to slide, while being matched with inductive component, reaches adjusting plate and be on bottom plate towards toner channel side
To reciprocal movement effects, continuous, quantitative, positioning, which conveys, to be haved the function that toner.
Further setting:It is provided with pedestal between the bottom plate and gas channel, inclined hole is provided on the pedestal, it is described
Toner passage end is connected by inclined hole and gas channel.
So set, during toner declines out of dosing channel, pass through setting between pedestal and gas channel
The bottom plate with inclined hole is set, the inclined hole passed through when toner being made to fall on bottom plate slowly falls, and has the function that a buffering, reduces
The diffusion of big atmosphere when powder is directly fallen down, while inclined hole also has the function of certain guiding.
Further setting:The other end in the toner channel is connected with air inlet pipe, the air inlet pipe by be set into
Filter on gas port port is connected with slice pipeline.
So set, being connected to toner channel by the way that air inlet pipe is arranged, prevent after solenoid valve is opened, shape in toner channel
At vacuum, the toner that the metering on plate is held in hole can not be sucked out, this air inlet pipe plays the role of dredging air-flow, makes gas channel
That more stablizes conveys the toner in gas channel;The filter substance that also effectively filtering is sliced in pipeline is defeated simultaneously
It send to the effect in toner pipeline.
Further setting:It is connected with screw extruder sleeve, the screw extruder in the outlet end of the slice pipeline
The screw conveyor shaft for being melted after mixing polylactic acid dry chip and toner, the screw conveyor shaft are provided in sleeve
Pass through the driving motor connection being set on screw extruder sleeve for driving screw conveyor shaft to rotate.
So set, after toner is quantitatively transferred in slice pipeline, polylactic acid dry chip and toner are mixed together to spiral shell
In bar extruder sleeve, by the screw conveyor shaft in extruder sleeve in the case of the coil heats of extruder sleeve, to
Be pushed forward into slice be melted, the polylactic acid melt after melting is sent to next work by the outlet end of extruder sleeve
Sequence by polylactic acid melt and powder stirring, squeezes, powder is made to be evenly distributed in polylactic acid melt, forms polylactic acid melt
With the effect of the mixture of powder;Last powder metering equipment is matched with dynamic agitation screw rod again, reaches ideal spinning
Effect.
By using above-mentioned technical proposal, the present invention compares compared with the prior art:By being arranged at the feed opening of feed bin
Corresponding adjusting part, in blanking can according to it is specific require to adjust bin outlet end between toner vessel at a distance from, carry
The applicability of high bin blanking;Hold hole by the metering on plate after toner is quantitative to have the function that measure into standard, pass through simultaneously
Matching for sensor and drive component, make plate be on bottom plate and move back and forth, and reaches continuous, stable, quantitatively conveys
Effect;Toner is delivered in slice pipeline by gas channel again, the toner for reducing original piston contact formula transmission is attached to
On component, quantitative error problem is matched to influence toner, improves the precision of toner proportioning;Make color by toner conveying device
Powder transmission measurement system has the effect of continuous-stable conveying, quantitative accurate, and then improves the dyeing quality of coloured fibre.
Description of the drawings
Fig. 1 is the structural schematic diagram of toner transmission measurement system embodiment 1;
Fig. 2 is the enlarged drawing at A in Fig. 1;
Fig. 3 is the enlarged drawing at B in Fig. 1;
Fig. 4 is the sectional view in toner transmission measurement system embodiment 1;(Embody the shape on bin blanking to metering appearance hole
State figure)
Fig. 5 is the sectional view in toner transmission measurement system embodiment 1;(Metering holds toner in hole and is delivered to gas channel
Interior state diagram)
Fig. 6 is the enlarged drawing at C in Fig. 5;
Fig. 7 is the layout structure schematic diagram of embodiment 2;
Fig. 8 is the layout structure schematic diagram of embodiment 3;
Fig. 9 is the circuit diagram that inductive component controls drive component movement.
In figure:1, rack;2, drying tower;3, it is sliced pipeline;4, feed bin;41, targeted duct;42, limit assembly;43, it sells
Axis;44, first clamping plate;45, second clamping plate;46, clamping screw;5, conveying device;51, gas channel;52, solenoid valve;53, bottom
Plate;531, toner vessel;532, sliding slot;54, plate;541, hole is held in metering;542, the first sensing hole;543, the second sensing hole;
544, sealing cover;545, shaft;55, drive component;551, rack;552, gear;553, servo motor;554, lead screw;555,
Rotary electric machine;556, hydraulic cylinder;56, inductive component;561,;Photoelectric probe;562, cyclelog;57, toner channel;58,
Air inlet pipe;6, pedestal;61, inclined hole;7, mixed melting device;71, screw extruder sleeve;72, screw conveyor shaft;73, it drives
Motor.
Specific implementation mode
Toner transmission measurement system is described further referring to figs. 1 to Fig. 9.
Embodiment 1:A kind of toner transmission measurement system, as shown in Figure 1, including being set in rack 1 for storing poly- breast
The drying tower 2 of sour dry chip is connected slice pipeline 3 for conveying polylactic acid dry chip with drying tower 2, for storing color
The feed bin 4 of powder, for by the toner in feed bin 4 be delivered to slice pipeline in conveying device 5 and with slice pipeline 3 connect
For convey polylactic acid dry chip and toner be mutually mixed after mixed melting device 7;Also measurable such as the toner of the feed bin 4 is received
The granular materials such as meter level metal powder, nanoscale bamboo perfume (or spice) carbon dust, titanium dioxide.
As shown in Figure 4, wherein conveying device 5 includes gas channel 51, the setting that one end is connected with slice pipeline 3
It is used to control in 51 other end of gas channel and carries out the solenoid valve 52 of conveying compressed air in gas channel 51, is set to gas
Pedestal 6 on circulation road 51, the bottom plate 53 being fixedly connected with pedestal 6 are set on bottom plate 53 and one end is inserted in bottom plate 53
The plate 54 that is slidably connected with bottom plate 53 is set on bottom plate 53 for driving 54 other end of plate that plate 54 is made to be in bottom plate 53
On the drive component 55 that reciprocatingly slides and be on bottom plate 53 position and then control drive component 55 for detecting plate 54 and drive
Dynamic plate 54 is in the inductive component 56 slided on bottom plate 53.
As shown in figure 5, pedestal 6, bottom plate 53 and about 51 gas channel are set gradually;In the gas channel 51 far from electricity
Feed opening is provided on one end of magnet valve 52, the side of pedestal 6 is provided through the inclined hole 61 of pedestal 6, the outlet court of inclined hole 61
51 export direction of gas channel is obliquely installed, and is open and setting is gradually reduced along 51 direction of gas channel, while on bottom plate 53
It is provided with the toner channel 57 for conveying toner;Toner channel 57, inclined hole 61 pass through the blanking that is set on gas channel 51
Mouth is connected with gas channel 51.
As shown in figure 5, bottom plate 53 is run through in toner channel 57, and Single port is connect with inclined hole 61, and another port has been connected with
The air inlet pipe 58 of the effect of air-flow is dredged, i.e. air inlet pipe 58, toner channel 57, inclined hole 61 and gas channel 51 is connected;Together
When be connected in the another port of air inlet pipe 58 and slice pipeline 3, and junction is provided with filter.
As shown in figure 5, the toner vessel 531 being arranged in funnel-form is provided in bottom plate 53, in the blanking port of feed bin 4
On be provided with the targeted duct 41 being connected with feed bin 4, targeted duct 41 is inserted in toner vessel 531 and is slided with bottom plate 53
Connection;And it is provided at the place of being slidably connected of targeted duct 41 and bottom plate 53 and is on bottom plate 53 for locking positioning pipeline 41
Limit assembly 42.
As shown in figure 3, limit assembly 42 includes the axis pin 43 for being set to bottom plate 53, is articulated on axis pin 43 and determines for clamping
Position pipeline 41 in first clamping plate 44 and second clamping plate 45 on bottom plate 53, and be set to first clamping plate 44 and second clamping plate 45 it
Between for targeted duct 41 to be locked to clamping screw 46 between first clamping plate 44 and second clamping plate 45.
As shown in figure 5, the sliding slot 532 slided for plate 54 is provided in bottom plate 53, as shown in figure 3, sliding slot 532 and color
The outlet end of powder vessel 531 communicates, and through the waist location in toner channel 57;Plate 54 is in sliding slot 532 and bottom plate 53
It is slidably connected, while controlling the effect of the keying between air inlet pipe 58 and gas channel 51.
As shown in figure 4, when plate 54 is horizontally placed on toner channel 57 and closes air inlet pipe 58 and gas channel 51, toner holds
It is provided with the metering for measuring toner and being conveyed on plate 54 immediately below the discharge port of chamber 531 and holds hole 541;Such as Fig. 6
It is shown, hold hole 541 towards being provided with sealing cover 544 on the port of gas channel 51 in metering, and sealing cover 544 deviates from toner channel
57 one end is hinged by the shaft 545 and plate 54 being set on plate 54;Sealing cover 544 is in bottom plate 53 by plate 54
It is upper to move back and forth the closure for realizing that hole 541 and inclined hole 61 are held in metering, and measure the reciprocal fortune held after hole 541 is closed by plate 54
It is dynamic to be slidably connected with bottom plate 53.
As shown in Fig. 2, drive component 55 includes the rack 551 being wholely set with plate 54, is sequentially connected with rack 551
Gear 552 and the servo motor 553 being connect with gear 552, servo motor 553 are connect with bottom plate 53;Inductive component 56 includes
The photoelectric probe 561 that is set on bottom plate 53 connect with photoelectric probe 561 and is driven at plate 54 for control servomotor 553
In the cyclelog 562 to reciprocatingly slide on bottom plate 53 and it is set on plate 54 for corresponding with photoelectric probe 561 the
One sensing hole 542 and the second sensing hole 543.
As shown in Figure 4 and Figure 5, the underface that hole 541 is in 531 outlet end of toner vessel, i.e. photoelectric probe are held into metering
561 be in the first 542 surface of sensing hole when, at this time program start, open feed bin 4 outlet end simultaneously start blanking, servo electricity
Machine 553 is delayed by several seconds, when the toner in hole 541 is held in metering reaches predetermined value, as shown in Fig. 2, 553 original state of servo motor
It is slided to rotate forward and driving plate 54 to be on bottom plate 53 toward 57 direction of toner channel by 552 rack 551 of gear, while making to insert
The outlet end of toner vessel 531 is closed by the end face of plate 54;When photoelectric probe 561 is in the second 543 surface of sensing hole, light
Electric probe 561 receives signal and instruction is transmitted to 562 control servomotor of corresponding cyclelog, 553 stop motion, counts at this time
Amount holds hole 541 and is exactly in the middle in toner channel 57 and carries out the conveying of toner;After white clothing motor stops the several seconds, program
562 control servomotor 553 of controller inverts and plate 54 is driven back to move, when photoelectric probe 561 is in first through hole
When surface, photoelectric probe 561 feeds back to cyclelog 562 and then 553 stop motion of control servomotor, and metering at this time is held
Hole 541 is exactly in the underface of toner vessel 531, and feed bin 4 holds the conveying that hole 541 carries out toner to metering again, reaches company
The continuous effect quantitatively conveyed.
As shown in figure 4, mixed melting device 7 includes the screw extruder sleeve 71 for the outlet end for being set to slice pipeline 3
And be set to the spiral transferring for polylactic acid dry chip and the mixed substance of toner being melted in screw extruder sleeve 71
Axis 72, screw conveyor shaft 72 is sent to be connected by the rotational drive motor 73 being set on screw extruder sleeve 71;Pass through extrusion
In the case of the coil heats of extruder sleeve 71, the slice pushed ahead is melt screw conveyor shaft 72 in machine sleeve 71
Melt, the polylactic acid melt after melting is sent to next process by the outlet end of extruder sleeve 71, by polylactic acid melt
With powder stirring, squeeze, powder made to be evenly distributed in polylactic acid melt, form the mixture of polylactic acid melt and powder
Effect.
Operation principle:As shown in Fig. 4, Fig. 5 and Fig. 9, the journey that inductive component controls drive component can reach by reference to Fig. 9
Sequence starts, and the toner in feed bin 4 is delivered in the toner vessel 531 on bottom plate 53, then hole is held in the metering being delivered on plate 54
In 541, have the function that carry out toner quantitative;After the toner in metering appearance hole 541 is quantitatively good, sensing device 56 passes through control
Drive component 55 processed drives plate 54 to be slided towards 57 direction of toner channel and on bottom plate 53, when hole is held in the metering on plate 54
541 when being just positioned at the center in toner channel 57, and inductive component 56 sends inductive signal to corresponding program and controls
Device 562 promotes drive component 55 out of service;The toner that metering is held in hole 541 at this time can just be fallen in toner channel 57,
At the same time after solenoid valve 52 is connected in inductive component 56 the corresponding instruction of cyclelog 562,52 unlatchings of solenoid valve will be done
Compressed air is injected in airflow line, and negative pressure will be formd in toner channel 57 under airflow function, by toner from plate
Metering on 54, which is held in hole 541, to be sucked out, and is flow in airflow line with the toner channel 57 on bottom plate 53, and dry chip is finally entered
It is transmitted in expects pipe, is mixed with the dry chip in slice pipeline 3;Hold hole 541 when metering and is in the stop several seconds of toner channel 57
Afterwards, i.e., after quantitatively the toner in through-hole all convey, inductive component 56 makes plate 54 away from color by controlling drive component 55
The direction in powder channel 57 is on bottom plate 53 and slides, when hole 541 is held in metering is in the underface of 531 outlet end of toner vessel,
Inductive component 56 receives corresponding signal, and then controls 55 stop motion of drive component, while solenoid valve 52 is closed, at this time plate
Metering on 54 holds hole 541 and is also exactly in 531 following position directly of toner vessel, and feed bin 4 is carried out into toner vessel 531 again
Charging, after the several seconds, i.e., after filling it up with material in metering appearance hole 541, drive component 55 drives plate 54 to move again, reaches continuous control
The effect that toner quantitatively conveys, and the toner in hole 541 is held into metering every time and is delivered in slice pipeline and polylactic acid is dry cuts
Piece is mixed.
When spinning position because failure need stop spin when powder metering equipment synchronize reduce powder additive amount, such as;One eight
The equipment of spinning station in normal productive process because the motors of metering pumps that failure cuts off i.e. one spinning position of a spinning position is stopped,
So powder metering equipment reduces eighth additive amount by synchronous.
Embodiment 2:A kind of toner transmission measurement system, difference from Example 1 are, as shown in fig. 7, the driving
Component 55 includes the lead screw 554 being sequentially connected with plate 54 and lead screw 554 is driven to rotate the rotary electric machine 555 of positive and negative rotation, is turned
Dynamic motor 555 is connect with bottom plate 53;By controlling the positive and negative rotation of rotary electric machine 555, to make lead screw 554 be on plate 54
It is sequentially connected with 54 lead screw 554 of plate, promotes plate 54 to be on bottom plate 53 and slide, rotary electric machine 555 while and inductive component
56 match, and reach adjusting plate 54 and are on bottom plate 53 towards 57 direction of toner channel reciprocating motion effect.
Embodiment 3:A kind of toner transmission measurement system, difference from Example 1 are, as shown in figure 8, the driving
Component 55 is hydraulic cylinder 556, and the piston of hydraulic cylinder 556 is fixedly connected with plate 54, and inductive component 56 controls piston space every past
Multiple movement, and then control plate 54 is on pedestal 6 and moves back and forth, and achievees the purpose that continuous and quantitative conveys toner.
The above is only a preferred embodiment of the present invention, protection scope of the present invention is not limited merely to above-mentioned implementation
Example, all technical solutions belonged under thinking of the present invention all belong to the scope of protection of the present invention.It should be pointed out that for the art
Those of ordinary skill for, several improvements and modifications without departing from the principles of the present invention, these improvements and modifications
It should be regarded as protection scope of the present invention.
Claims (8)
1. a kind of toner transmission measurement system, including it is set to rack(1)On drying tower for storing polylactic acid dry chip
(2)With drying tower(2)It is connected the slice pipeline for conveying polylactic acid dry chip(3), feed bin for storing toner
(4)And it is used for feed bin(4)Interior toner is delivered to the conveying device in slice pipeline(5), it is characterised in that:The conveying
Device(5)Including one end and slice pipeline(3)The gas channel being connected(51), be set to gas channel(51)The other end is used
In control gas channel(51)The solenoid valve of interior conveying compressed air(52)With gas channel(51)It connects and one end passes through
It is set to the toner channel with this(57)With gas channel(51)The bottom plate being connected(53), be set to bottom plate(53)It is upper and
With bottom plate(53)The plate being slidably connected(54), be set to bottom plate(53)On for driving plate(54)In bottom plate(53)It is upper past
The drive component slided again(55)With for detecting plate(54)In bottom plate(53)Upper position and control drive component(55)It drives
Dynamic plate(54)In bottom plate(53)The inductive component of upper sliding(56);The bottom plate(53)On be provided with toner vessel(531),
The toner vessel(531)One end and feed bin(4)Connection, the other end and is set to plate(54)On metering hold hole(541)Even
It connects, plate(54)Hole is held in the metering after sliding(541)Pass through toner channel(57)With gas channel(51)It is connected;It is described
Inductive component(56)Including being set to bottom plate(53)On photoelectric probe(561)With photoelectric probe(561)Connection is driven for controlling
Dynamic component(55)Drive plate(54)In bottom plate(53)On the cyclelog that reciprocatingly slides(562)And it is set to plate
(54)On be used for and photoelectric probe(561)Corresponding first sensing hole(542)With the second sensing hole(543);Hold in the metering
Hole(541)Towards gas channel(51)Port on be provided with sealing cover(544), the sealing cover(544)Away from toner channel
(57)One end by being set to plate(54)On shaft(545)With plate(54)It is hinged, and pass through plate(54)It is reciprocal
Movement and bottom plate(53)It is slidably connected.
2. toner transmission measurement system according to claim 1, it is characterised in that:The driving component(55)Including with insert
Plate(54)The rack of connection(551)With rack(551)The gear of drive connection(552)And and gear(552)The servo of connection
Motor(553), the servo motor(553)With bottom plate(53)Connection.
3. toner transmission measurement system according to claim 1, it is characterised in that:The feed bin(4)One end be provided with
With feed bin(4)The targeted duct being connected(41), the targeted duct(41)In toner vessel(531)Interior and bottom plate(53)
It is slidably connected, in targeted duct(41)With bottom plate(53)Between be provided with for limiting targeted duct(41)In bottom plate(53)On
The limit assembly of sliding(42).
4. toner transmission measurement system according to claim 3, it is characterised in that:The limit assembly(42)Including setting
In bottom plate(53)Axis pin(43), be articulated with axis pin(43)It is upper to be used for clamping and positioning pipeline(41)In bottom plate(53)On first folder
Plate(44)And second clamping plate(45), and it is set to first clamping plate(44)And second clamping plate(45)Between for by targeted duct
(41)It lock onto first clamping plate(44)And second clamping plate(45)Between clamping screw(46).
5. toner transmission measurement system according to claim 1, it is characterised in that:The driving component(55)Including with insert
Plate(54)The lead screw of drive connection(554)And drive lead screw(554)The rotary electric machine of rotation(555), the rotary electric machine
(555)With bottom plate(53)Connection.
6. toner transmission measurement system according to claim 1, it is characterised in that:The bottom plate(53)With gas channel
(51)Between be provided with pedestal(6), the pedestal(6)On be provided with inclined hole(61), the toner channel(57)One end passes through oblique
Hole(61)With gas channel(51)It is connected.
7. toner transmission measurement system according to claim 6, it is characterised in that:In the toner channel(57)It is another
End is connected with air inlet pipe(58), the air inlet pipe(58)Pass through the filter and slice pipeline being set on air intake ports(3)
It is connected.
8. toner transmission measurement system according to claim 1, it is characterised in that:In the slice pipeline(3)Outlet
End is connected with screw extruder sleeve(71), the screw extruder sleeve(71)Inside be provided with for by polylactic acid dry chip and
The screw conveyor shaft melted after toner mixing(72), the screw conveyor shaft(72)By being set to screw extruder sleeve
(71)On for driving screw conveyor shaft(72)The driving motor of rotation(73)Connection.
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CN109533777A (en) * | 2017-09-22 | 2019-03-29 | 天津益三友色母料有限公司 | A kind of Masterbatch automatic cooling device |
CN109081095A (en) * | 2018-09-18 | 2018-12-25 | 博众精工科技股份有限公司 | Battery particulate material measures filling device |
CN110712777B (en) * | 2019-10-08 | 2024-04-12 | 安徽和泰智能装备有限公司 | Double-material mixing metering filling device |
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